FOCC500
User Manual: FOCC500
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FO-CC500A FO-K01A SERVICE MANUAL No. 00ZFCC500ASME MODEL FACSIMILE FO-CC500 FO-CC500 Facsimile System cosisting of FO-CC500 (Facsimile Unit) and FO-CC500K (Cordless Handset). Illustration: FO-CC500A Illustration: FO-K01A ACCESSORY CORDLESS HANDSET FO-K01 MODEL MODEL FO-CC500 FO-K01 SELECTION CODE DESTINATION A Australia/ New Zealand A Australia/ New Zealand CONTENTS CHAPTER 1. GENERAL DESCRIPTION [1] Specifications ................................................................ 1-1 [2] Operation panel ............................................................ 1-2 [3] Transmittable documents .............................................. 1-4 [4] Installation ..................................................................... 1-5 [5] Quick reference guide ................................................. 1-10 [6] Option imaging film specifications (FO-6CR) ............................................................. 1-11 CHAPTER 5. CIRCUIT DESCRIPTION [1] Circuit description ......................................................... 5-1 [2] Circuit description of control PWB ................................ 5-2 [3] Circuit description of LIU PWB .................................... 5-10 [4] Circuit description of cordless PWB ............................ 5-13 [5] Circuit description of cordless handset PWB ................ 5-22 [6] Circuit description of power supply PWB ..................... 5-24 [7] Circuit description of CIS unit ...................................... 5-25 CHAPTER 2. ADJUSTMENTS [1] Adjustments .................................................................. 2-1 [2] Diagnostics and service soft switch .............................. 2-2 [3] Troubleshooting .......................................................... 2-24 [4] Error code table .......................................................... 2-25 CHAPTER 6. CIRCUIT SCHEMATICS AND PARTS LAYOUT [1] Control PWB circuit ....................................................... 6-1 [2] LIU PWB circuit ............................................................. 6-9 [3] Cordless PWB circuit .................................................. 6-14 [4] Power supply PWB circuit .......................................... 6-19 [5] Operation panel PWB circuit ....................................... 6-21 [6] Cordless handset PWB circuit .................................... 6-23 CHAPTER 3. MECHANISM BLOCKS [1] General description ...................................................... 3-1 [2] Disassembly and assembly procedures ............................................................. 3-3 CHAPTER 4. DIAGRAMS [1] Block diagram ............................................................... 4-1 [2] Wiring diagram .............................................................. 4-3 [3] Point-to-point diagram ................................................... 4-4 CHAPTER 7. OPERATION FLOWCHART [1] Protocol ......................................................................... 7-1 [2] Power on sequence ...................................................... 7-2 CHAPTER 8. OTHERS [1] Service tools ................................................................. 8-1 [2] IC signal name .............................................................. 8-4 [3] Rewriting version up to the FLASH ROM ..................... 8-6 PARTS GUIDE Parts marked with " " are important for maintaining the safety of the set. Be sure to replace these parts with specified ones for maintaining the safety and performance of the set. SHARP CORPORATION This document has been published to be used for after sales service only. The contents are subject to change without notice. FO-CC500A FO-K01A CAUTION FOR BATTERY REPLACEMENT (Danish) ADVARSEL ! Lithiumbatteri-Eksplosionsfare ved fejlagtig håndtering. Udskiftning må kun ske med batteri af samme fabrikat og type. Levér det brugte batteri tilbage til leverandoren. (English) Caution ! Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the equipment manufacturer. Discard used batteries according to manufacturer’s instructions. (Finnish) VAROITUS Paristo voi räjähtää, jos se on virheellisesti asennettu. Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin. Hävitä käytetty paristo valmistajan ohjeiden mukaisesti. (French) ATTENTION Il y a danger d’explosion s’ il y a remplacement incorrect de la batterie. Remplacer uniquement avec une batterie du même type ou d’un type recommandé par le constructeur. Mettre au rébut les batteries usagées conformément aux instructions du fabricant. (Swedish) VARNING Explosionsfare vid felaktigt batteribyte. Använd samma batterityp eller en ekvivalent typ som rekommenderas av apparattillverkaren. Kassera använt batteri enligt fabrikantens instruktion. (German) Achtung Explosionsgefahr bei Verwendung inkorrekter Batterien. Als Ersatzbatterien dürfen nur Batterien vom gleichen Typ oder vom Hersteller empfohlene Batterien verwendet werden. Entsorgung der gebrauchten Batterien nur nach den vom Hersteller angegebenen Anweisungen. FO-CC500A FO-K01A CHAPTER 1. GENERAL DESCRIPTION [1] Specifications Fax machine and general specifications Effective scanning width: 210 mm max. Effective printing width: 210 mm max. Contrast control: Automatic/Dark selectable Reception modes: TEL/FAX, TEL, FAX, A.M. Initial starter roll: (included with machine): 10 m (approx. 30 A4 pages) Replacement roll (not included): FO-6CR 164 ft. (50 m) (one roll yields approx. 150 A4 pages) Copy function: Single/Multi (99 copies/page) Telephone function: Yes (cannot be used if power fails) Power requirements: 230 - 240 V AC, 50 Hz 448 KB (approx. 24 average pages with no voice messages recorded, or 20 minutes of voice messages (including OGMs) with no faxes in memory) Operating temperature: 5 - 35°C Humidity: 25 - 85 % RH Power consumption: Stand-by: 3.5 W Maximum: 110 W Modem speed: 14,400 bps with auto fallback to lower speed Dimensions (without attachments): Transmission time* : Approx. 6 seconds (only when ECM is on) Width: 353 mm Depth: 193 mm Height: 174 mm Weight (without attachments): Approx. 2.8 kg Automatic dialing: Imaging film: Memory size* : Common book: 40 numbers Private book: 5 numbers (each cordless handset has 1 private book) Resolution: Horizontal: 8 dots/mm Vertical: Standard: 3.85 lines/mm Fine/Halftone: 7.7 lines/mm Super fine: 15.4 lines/mm Automatic document feeder: 10 pages max. (A4, 80 g/m2 paper) Recording system: Thermal transfer recording Display: 16-digit LCD display Halftone (grayscale): 64 levels Compression scheme: MR, MH, MMR Applicable telephone line: Public switched telephone network Paper tray capacity: Letter: Approx. 50 A4 sheets (at room temperature; maximum stack height should not be higher than the line on the tray) Compatibility: ITU-T (CCITT) G3 mode Input document size: Automatic feeding: Width: 148 to 216 mm Length: 140 to 297 mm Manual feeding: Width: 148 to 216 mm Length: 140 to 600 mm Cordless handset specifications Frequency: 2.4 GHz (2.405 to 2.475 GHz) Dimensions: Width: 46 mm Depth: 42 mm Height: 180 mm (not including antenna) Weight: Approx. 115 g (without battery) Battery: 3.6 V Ni-MH battery; capacity: 850 mAh Power consumption: Initial charging Battery life Approx. 1.6 W (in stand-by mode) Approx. 10 hours for initial charge Approx. 4 hours (240 minutes) (at room temperature) Approx. 2 days with one full charge (at room temperature) Battery life (both normal and in standby mode) may vary depending on usage, range from base machine, and environmental conditions such as temperature. FO-K01 (up to 3 handsets can be Battery life in stand-by mode Accessory cordless handset: added) * Based on Sharp Standard No. 1 Chart at standard resolution in Sharp special mode, excluding time for protocol signals (i.e., ITU-T phase C time only). As a part of our policy of continuous improvement, SHARP reserves the right to make design and specification changes for product improvement without prior notice. The performance specifications figures indicated are nominal values of production units. There may be some deviations from these values in individual units. 1–1 FO-CC500A FO-K01A [2] Operation panel Fax Machine 2 3 1 6 5 4 ABC UP TEL FAX REC/ MEMO 1 PLAY GHI INTERCOM Z A RESOLUTION/ REDIAL RECEPTION MODE STOP DEF 2 JKL 4 TEL/FAX A.M. PQRS 7 7 3 MNO 5 TUV 6 WXYZ 8 9 COPY/HELP START/MEMORY FUNCTION DOWN 8 0 SPEAKER REPEAT SKIP DELETE 13 14 15 16 17 9 10 11 12 1. Display 13. UP and DOWN arrow keys This displays messages and prompts to help you operate the machine. Enlarge/Reduce setting: When marking a copy of a document, press these keys to select an enlarge/reduce setting. Volume setting: When a document is not in the feeder, press these keys to change the speaker volume when the SPEAKER key has been pressed, or the ringer volume at any other time. FUNCTION key settings: Press these keys after pressing the FUNCTION key to scroll through the FUNCTION MODE settings. 2. INTERCOM key Press this key to page or locate the cordless handset. 3. REC/MEMO key Press this key to record an outgoing message, phone conversation, or memo. 4. PLAY key Press this key to play recorded messages. 5. Left and right arrow keys Auto-dial numbers: When sending a fax or making a phone call, press these keys to scroll through your auto-dial numbers, the "REVIEW CALLS" list (only available if you have Caller ID), and the last number dialed (redial). FUNCTION key settings: Press the right arrow key after scrolling with the up and down arrow keys to select a FUNCTION key setting. 14. SPEAKER key Press this key to listen to the line and fax tones through the speaker when faxing a document. Note: This is not a speakerphone. You must pick up the handset to talk with the other party. 15. REPEAT key Press this key while listening to a message to play it again. 16. SKIP key 6. Number keys Press this key while listening to a message to skip to the next message. Use these keys to dial numbers, and enter numbers and letters when storing auto-dial numbers. 17. DELETE key 7. Panel release Press this key to erase recorded messages. Press this release to open the operation panel. 8. STOP key Press this key to cancel operations before they are completed. Monitoring phone conversations 9. COPY/HELP key When a document is in the feeder, press this key to make a copy of a document. At any other time, press this key to print out the Help List, a quick reference guide to the operation of your fax machine. SPEAKER When speaking through the handset, you can press to allow a third person to listen to the conversation through the speaker. SPEAKER (To turn off the speaker, press again.) 10. START/MEMORY key Press this key after dialing to begin fax transmission. Press this key before dialing to send a fax through memory. The key can also be pressed in the date and time display to show the percentage of memory currently used. 11. RESOLUTION / RECEPTION MODE key When a document is in the feeder, press this key to adjust the resolution for faxing or copying. At any other time, press this key to select the reception mode (an arrow in the display will point to the currently selected reception mode). 12. FUNCTION key Press this key to followed by the arrow keys to select special functions and settings. 1–2 To adjust the volume of the speaker when monitoring a conversation, press or (the volume reverts to the lowest setting each time the handset is replaced). Note that the speaker cannot be used for speaking; it is only for listening. To avoid feedback (a loud howling sound), be sure to turn off the speaker (press SPEAKER once again) before you replace the handset. FO-CC500A FO-K01A Cordless Handset 1 2 3 4 5 6 7 8 9 10 11 12 13 UP FUNCTION /PAUSE REVIEW START REMOTE /RECALL DOWN 4 GHI 2 ABC 3 DEF 5 JKL 6 MNO RECEPTION 7 PQRS PLAY 8 TUV PLAY NEW 9 WXYZ STOP 0 REPEAT INTER COM SKIP DELETE REDIAL 1. Antenna 2. Display 22 SEARCH OFF TALK 1 14 HOLD ERASE 15 16 17 18 19 20 21 23 13. REMOTE/RECALL key This displays messages and prompts to help you use the cordless handset. 3. UP and DOWN arrow keys Receiver volume: When talking on the cordless handset, press these keys to adjust the receiver volume. This also adjusts the volume when using a headset (purchased separately) connected to the cordless handset. Ringer volume: When not talking on the cordless handset, press these keys to adjust the cordless handset ringer volume. Scroll through numbers: Press these keys to scroll when searching for an auto-dial number or reviewing received calls (only available when you have Caller ID). 4. FUNCTION/PAUSE key 5. TALK key Press this key to end a call. 15. SEARCH (right) arrow key Use this key to search for an auto dial number (press the SEARCH key, press the UP or DOWN arrow key to select the book, and then press the UP or DOWN arrow key to scroll through your auto-dial numbers). This key can also be used to move the cursor right when entering or editing an auto-dial number or name. Press this key after pressing on the fax machine. REMOTE /RECALL to change the reception mode 17. STOP key Press this key to stop playback of messages. 18. DELETE Press this key to make or answer a call. 6. REVIEW (left) arrow key Press the REVIEW arrow key and then the UP or DOWN arrow key to scroll through your 30 most recent calls (only available if you have Caller ID). This key can also be used to move the cursor left when entering or editing an auto-dial number or name. 7. Number keys Use these keys to dial numbers, and enter numbers and letters when storing auto-dial numbers. REMOTE /RECALL Press this key after pressing to listen to new messages recorded in the personal box of the cordless handset. 9. PLAY key 14. OFF key 16. RECEPTION key Use this key to store a new auto dial number (press the SEARCH (right) arrow key, select the book with the UP or DOWN arrow key, and then press the FUNCTION/PAUSE key). When entering an auto-dial number, press this key to insert a pause between digits. 8. PLAY NEW key Press this key to perform remote operations on the fax machine. The key is also used to access special services from your phone company that require subscription (contact your phone company for details). REMOTE /RECALL Press this key after pressing to listen to all messages recorded in the personal box of the cordless handset. 10. REPEAT key Press this key while listening to a message to play it again. Press this key while listening to a message to delete it. To delete all your messages, press this key after playback ends (while the display shows REMOTE MODE), followed by START . 19. HOLD/ERASE key Hold: Press this key during a call to put the other party on hold. Erase: Press this key to delete a phone number when searching through your recently received calls (only when you have Call ID), or when searching through your auto-dial numbers. Press the key to delete a digit or character when storing or editing an auto-dial number. 20. SKIP key Press this key while listening to your messages to skip to the next message. 21. REDIAL key Press this key to redial the last number dialed using the cordless handset. 22. Headset socket 11. INTERCOM key This socket lets you connect a headset (purchased separately) to the cordless handset. Press this key to page the fax machine or another cordless handset. 23. Battery cover 12. START key Remote this cover to install or replace the handset battery. Press this key to start fax reception from the cordless handset, or to complete entries when storing, editing, or deleting auto-dial numbers. 1–3 FO-CC500A FO-K01A [3] Transmittable documents 5. Automatic Document Feeder Capacity 1. Document Sizes Number of pages that can be placed into the feeder at anytime is as follows: Normal size width length Normal size: max. ADF 10 pages 148 – 216 mm 140 – 297 mm Special size: single sheet only (manual feed) NOTES: (Max.) (Max.) A4 size (Min.) • 600mm 297mm 216mm [Normal size] When you need to send or copy more pages than the feeder limit, place additional pages in feeder when last page in feeder is being scanned. Place additional pages carefully and gently in feeder. If force is used, double-feeding or a document jam may result. 6. Readable Width & Length 140mm 148mm • The readable width and length of a document are slightly smaller than the actual document size. 216mm [Special size] Note that characters or graphics outside the effective document scanning range will not be read. Use document carrier sheet for smaller documents. • * With special sizes, only one sheet can be fed into the machine at a time. Insert next page into feeder as current page is being scanned. Readable width 210mm, max. 2. Paper Thickness & Weight 10 sheets 1sheet(Manual) 70 kg 70 kg ~ 135 kg 21.5 lbs. 14 lbs. ~ 42 lbs. (80 g/m2) (52 g/m2 ~ 157g/m2 ) Paper thickness (ref.) 0.1 mm 0.1 mm ~ 0.18mm Paper size LGL 8.5” x 14”(216 mm x 355.6 mm) A4 8.27” x 11.7”(210 mm x 297 mm) LTR 8.5” x 11”(216 mm x 279 mm) Feeder capacity A4/LTR: 10 sheets LGL : 1 sheet Paper weight Readable width 3. Document Types • • Normal paper • Documents handwritten in pencil (No. 2 lead or softer), fountain pen, ball-point pen, or felt-tipped pen can be transmitted. This is the length of the document sent minus 5mm from the top and bottom edges. Documents of normal contrast duplicated by a copying machine can also be transmitted. Diazo copy (blue print) Readable length 5mm Diazo copy documents of a normal contrast may be transmitted. • Carbon copy Readable length A carbon copy may be transmitted if its contrast is normal. 5mm 4. Cautions on Transmitting Documents • Documents written in yellow, greenish yellow, or light blue ink cannot be transmitted. • Ink, glue, and correcting fluid on documents must be dry before the documents can be transmitted. • All clips, staples and pins must be removed from documents before transmission. • Patched (taped) documents should be copied first on a copier and then the copies used for transmission. • All documents should be fanned before insertion into the feeder to prevent possible double feeds. 1–4 FO-CC500A FO-K01A 1 Remove the paper from the paper tray and open the operation panel [4] Installation (press 1 ). 1. Site selection Take the following points into consideration when selecting a site for this model. ENVIRONMENT • • The machine must be installed on a level surface. • Provide easy access to the front, back, and sides of the machine. In particular, keep the area in front of the machine clear, or the original document may jam as it comes out after scanning. • • The temperature should be between 5 - 35°C. 2 Keep the machine away from air conditioners, heaters, direct sunlight, and dust. 1 If you are loading the imaging film for the first time, go to Step 4. The humidity should be between 25% and 85% (without condensation). 2 Remove the used film and empty spool. ELECTRICITY AC 230 - 240V, 50Hz, grounded(3-prong) AC outlet is required. Caution! • Connection to a power source other than that specified will cause damage to the equipment and is not covered under the warranty. • If your area experiences a high incidence of lightning or power surges, we recommend that you install a surge protector for the power and telephone lines. Surge protectors can be purchased at most telephone specialty stores. If the machine is moved from a cold to a warm place... Condensation may form on the reading glass if machine is moved from a cold to a warm place, this will prevent proper scanning of documents for transmission. Turn on the power and wait approximately 2 hours before using machine. 3 Remove the two green gears from the spools. DO NOT DISCARD THE TWO GREEN GEARS! TELEPHONE JACK A standard line cord must be located near the machine. This is the telephone jack commonly used in most homes and offices. • Plugging the fax machine into a jack which is not line cord may result in damage to the machine or your telephone system. If you do not know what kind of jack you have, or need to have one installed, contact the telephone company. 4 Remove the new roll of imaging film from its packaging. 2. Loading the imaging film (FO-6CR) Your fax uses a roll of imaging film to create printed text and images. The print head in the fax applies heat to the imaging film to transfer ink to the paper. Follow the steps below to load or replace the film. • The initial starter roll of imaging film included with your fax can print about 30 A4-size pages. • When replacing the film, use a roll of Sharp FO-6CR imaging film. One roll can print about 150 A4-size pages. • Cut the band that holds rolls together. 5 Insert the green gears. Make sure the gears fit into the slots in the ends of the rolls. 1 slot 2 slots 1–5 FO-CC500A FO-K01A 6 Insert the film into the print compartment. 2 Plug the power cord into a 230 - 240 V, 50 Hz, grounded AC (3prong) outlet. Fit ends of rolls onto hubs • When disconnecting the fax, unplug the telephone line cord before unplugging the power cord. • Caution: The power outlet must be installed near the equipment and must be easily accessible. • Thick roll to rear The machine does not have a power on/off switch, so the power is turned on and off by simply plugging in or unplugging the power cord. 7 Rotate the front gear as shown until the film is taut. 3 Insert one end of the telephone line cord into the adaptor. Insert the other end of the line cord into the socket on the back of the machine marked TEL. LINE. Plug the adaptor into the telephone socket on the wall. 8 Close the operation panel (press down on both sides to make sure it For Australia cliks into place). TE L.L INE For New Zealand Setting the dial mode: The fax machine is set for tone dialing. If you are on a pulse dial line, you must set the fax machine for pulse dialing. Press the panel keys as follows: 3. Assembly and connections 1 Connect the handset as shown and place it on the handset rest. Display: 1. Press ♦ The ends of the handset cord are identical, so they will go into either jack. FUNCTION once and 2. Press once and 3. Press once. 4. Select the dial mode: TONE: 1 PULSE: 2 • Make sure the handset cord goes into the socket marked with a handset symbol on the side of the machine! 5. Press STOP once. twice. OPTION SETTING DIAL MODE 1=TONE, 2=PULSE The display briefly shows your selection, then: PSEUDO RING to exit. Note: For all units installed in New Zealand, select “1” for tone dialing. The pulse setting “2” will not operate correctly and must not be used. • Use the handset to make ordinary phone calls, or to transmit and receive faxes manually. Note: If your area experiences a high incidence of lightning or power surges, we recommend that you install surge protectors for the power and telephone lines. Surge protectors can be purchased at most telephone specialty stores. Moving your fax and reconnecting Should be necessary to move your fax to a new location, first disconnect the telephone line cord before disconnecting the power lead. When reconnecting, it is necessary to connect the power lead before connecting the telephone line cord. About condensation If the machine is moved from a cold to a warm place, it is possible that condensation may from on the scanning glass, preventing proper scanning of documents for transmission. To remove the condensation, turn on the power and wait approximately two hours before using the machine. 1–6 FO-CC500A FO-K01A 4 Attach the paper tray and paper tray extension. 2 Plug the AC adaptor into a standard 230 - 240 V AC outlet. Note: The paper tray extension has a top side and a bottom side. If the tabs do not go into the holes, turn the support over. Important: Never cover the charger and AC adaptor with a blanket, cloth, or other material. Excessive heating may result and cause fire. Attach the paper tray. Attach the paper tray extension. Insert horizontally and rotate up. Click! 5 Country select setting. Follow the steps below to set the fax machine for operation in Australia or in New Zealand. 5. Installing the battery and charging the cordless handset ♦ The initial setting is AUSTRALIA. 1 Connect the battery connector 1 , and then place the battery pack Display: 1. Press FUNCTION once and 2. Press once and 3. Press once. once. once. in the cordless handset. • Place the wires as shown. OPTION SETTING COUNTRY SELECT 1=AUSTRALIA Red Black Red Black 1=NEW ZEALAND 4. Press 1 if you are in Australia, or 2 if you are in New Zealand. 5. Press STOP The display briefly shows your selection, then: NUMBER OF RING to return to the date and time display. 2 Place the battery cover on the cordless handset, making sure it snaps firmly into place. 6 Raising the base antenna. • Make sure the wires are not caught or pinched by the cover. Raise the base antenna to ensure clear communication with the cordless handset. 4. Connecting the cordless handset charger 1 Connect the AC adaptor to the cordless handset charger. Fit the cord into the holders. 1–7 FO-CC500A FO-K01A 3 Place the cordless handset in the charger with the dial pad facing 6. Loading printing paper forward. • Important! The dial pad must face forward, or the battery will not charge. • The battery charges automatically while the cordless handset is in the charger. While charging, the display shows CHARGING. When charging is completed, the display shows IN CHARGER. • The cordless handset and charger may feel warm while charging. This is normal. The battery cannot be overcharged. When not using the cordless handset, keep it in the charger to ensure that it is always charged. You can load up to 50 sheets of A4-size, 60 - 80 g/m2 paper in the paper tray (at room temperature; maximum stack height should not be higher than the line on the tray). 1 Fan the paper, and then tap the edge against a flat surface to even the stack. Make sure the stack edges are even. Charge the battery at least 10 hours the first time! 2 Insert the stack of paper into the tray, PRINT SIDE DOWN. • If paper remains in the tray, take it out and combine it into a single stack with the new paper. • Be sure to load the paper so that printing takes place on the print side of the paper. Printing on the reverse side may result in poor print quality. • GENTLY LOAD PAPER INTO THE PAPER TRAY. • DO NOT FORCE IT DOWN INTO THE FEED SLOT. ♦ When the battery needs charging, LOW BATTERY will appear in the display and you will hear beeps during a phone conversation. If you need to continue the conversation, transfer the call to the fax machine or another cordless handset. Place the cordless handset in the charger and let it charge. ♦ To ensure that the battery charges properly, wipe the charger contacts once a month with a cotton swab. The stack should not be higher than this line. Note: If the battery is extremely low, nothing may appear in the display during the first several minutes that the cordless handset is in the charger. The battery will begin to charge normally after several minures. Talking range The talking range of the cordless handset is approximately 400 m (line of sight; talking range may decrease depending on transmission conditions). If you hear noise or interference while talking on the cordless handset, move closer to the fax machine. Metal Note: If at any time the display shows the alternating messages at right, check the printing paper. If the tray is empty, add paper. If these is paper in the tray, take it out and then reinsert it. Reinforced concrete When you are finished, press START/MEMORY ADD PAPER & ↑ PRESS START KEY ↑ Aluminum sash Incorrect Note: Do not use paper that has already been printed on, or paper that is curled. ♦ When outside the talking range, OUT OF RANGE appears in the display. If you move out of the talking range while talking on the cordless handset, the handset will beep and you may hear interference. Large metal objects, metal structures, and thick walls reduce the talking range. Correct . 4 Print contrast setting. You fax has been set at the factory to print at normal contrast. If desired, you can change the print contrast setting to LIGHT. 4 Connecting a headset. You can connect a headset (purchased separately) to the headset socket. Remove the cap and insert the connector as shown. Display: 1. Press FUNCTION once and 2. Press once and 3. Press once. 3 times. 4. Select the print contrast: NORMAL: 1 LIGHT: 2 5. Press Accessory cordless handsets (FO-K01) ♦ You can use up to 3 additional FO-K01 cordless handsets with the fax machine. ♦ Please purchase accessory FO-K01 handsets at your dealer or retailer. For information on setting up an accessory cordless handset for use with the fax machine, see the manual that aaompanies the accessory handset. 1–8 STOP once. OPTION SETTING PRINT CONTRAST 1: NORMAL The display briefly shows your selection, then: COPY CUT-OFF to return to the date and time display. FO-CC500A FO-K01A 7. Clearing a jammed document 8. Clearing jammed printing paper 1 Open the operation panel (press If the original document doesn’t feed properly during transmission or copying, or DOCUMENT JAMMED appears in the display, first try pressing the START/MEMORY key. If the document doesn’t feed out, remove it as explained below. 1 ). Important: Do not try to remove a jammed document without releasing it as explained below. This may damage the feeder mechanism. 1 Press 2 1 and slowly open the operation panel until it is half open. 1 2 2 Gently pull the jammed paper out of the machine, making sure no torn pieces of paper remain in the print compartment or rollers. 1 2 Flip up the green levers on each side of the white roller. 3 Rotate the front gear until the film is taut, and then close the 3 Gently and remove the document. operation panel (press down on both sides to make sure it clicks into place). • Be careful not to tear the document. 4 Flip down the green levers on each side of the white roller. Rotate the front gear until the film is taut, and then close the operation panel (press down on both sides to make sure it clicks into place). 1–9 FO-CC500A FO-K01A [5] Quick reference guide STORING AUTO DIAL NUMBERS SENDING FAXES 2. Enter the full fax/phone number. Place your document (up to 10 pages) face down in the document feeder. 3. Press FUNCTION 1. Press START/MEMORY once and twice. . 4. Enter the name by pressing number keys. (To enter two letters in succession that require the same key, press after entering the first letter.) G= N= A= H= O= V= B= I = P= W= SPACE = Normal Dialing 1. Lift the handset or press SPEAKER C= J= Q= X= D= K= R= Y= E= L= S= Z= F= M= T= START/MEMORY 5. Press . U= and then STOP . 2. Dial the fax number. 3. Wait for the reception tone (if a person answers, ask them to press their Start key). 4. Press START/MEMORY USING THE CORDLESS PHONE Making a phone call 1. Pick up the cordless handset and press . Automatic Dialing 1. Press or until the desired destination appears in the display. 2. Press START/MEMORY 2. When you hear the dial tone, dial the number. 3. When you are ready to end the call, press . START/MEMORY . OFF Making a phone call using automatic dialing 1. Press SEARCH once. Direct Keypad Dialing 1. Dial the fax number. 2. Press . TALK . 2. Press or 3. Press display. or 4. Press . TALK to select the book. until the number you wish to dial appears in the RECORDING AN OGM 1. Press REC/ MEMO , press until desired OGM is displayed, and then START/MEMORY 2. Lift the handset, press Receiving a phone call 1. When the cordless handset rings, pick it up and press any key to answer. once. , and speak into the handset. 3. When finished, press STOP 2. When you are ready to end the call, press . . OFF Receiving a fax using the cordless handset RECEIVING FAXES RESOLUTION/ RECEPTION MODE Press the reception mode. If you hear a fax tone after answering a call on the cordless handset, or if the other party speaks to you and then wants to send a fax, press . START until the arrow in the display points to the desired TEL FAX 01-JAN 10:30 Storing auto dial numbers SEARCH , 1. Press or to select the book, and then TEL/FAX A.M. TEL FAX . HOLD 2. Enter the full fax/phone number. To clear a mistake, press FUNCTION insert a pause, press /PAUSE . 01-JAN 10:30 RESOLUTION/ RECEPTION MODE FUNCTION /PAUSE TEL/FAX A.M. 3. Press TEL FAX ERASE . To . START 4. Enter a name by pressing number keys. (To enter two letters in succession that require the same key, press after entering the first letter.) 01-JAN 10:30 TEL/FAX A.M. TEL FAX SPACE = 1 01-JAN 10:30 A= 2 ABC B= 2 ABC 2 ABC FAX mode: The fax machine automatically answers and receives faxes. C= 2 ABC 2 ABC TEL mode: Answer all calls (even faxes) by picking up the handset. To begin fax reception, press START/MEMORY . D= 3 DEF E= 3 DEF 3 DEF A.M. mode: Select this mode when you go out to receive both voice messages and faxes. F= 3 DEF 3 DEF TEL/FAX A.M. 5. Press 2 ABC 3 DEF START G= 4 GHI H= 4 GHI 4 GHI I = 4 GHI 4 GHI J= 5 JKL K= 5 JKL 5 JKL L= 5 JKL 5 JKL M= 6 4 GHI N= 6 MNO 6 MNO O= 6 MNO 6 MNO JKL Q= 7 7 R= 7 7 7 S= 7 7 7 T= 8 MNO and then PQRS OFF TUV 8 TUV V= 8 TUV 8 TUV 8 TUV WXYZ PQRS PQRS U= 8 W= 9 P= 7 PQRS 5 6 MNO PQRS PQRS X= 9 9 Y= 9 9 9 Z= 9 9 9 WXYZ PQRS PQRS PQRS WXYZ 7 PQRS WXYZ WXYZ WXYZ WXYZ WXYZ WXYZ 9 WXYZ TUV . Listening to messages 1. Press 2. Press REMOTE /RECALL 7 PQRS . (For the general box, press 0 .) to listen to all your messages, or 8 PLAY TUV to listen to only your PLAY NEW new messages. , 0 3. While listening, you can press REPEAT 4. When finished, press 1 – 10 OFF . SKIP , , or 9 WXYZ DELETE STOP . ;; ;;;; FO-CC500A FO-K01A [6] Option imaging film specifications (FO-6CR) 1. Structure This article is composed of polyester film coated with heat-resistant layer, matt layer and hot melt ink layer, leader film and paper core. Ink film specification is "DNP standard ink film HC". ;;;; 1 2 3 4 1 2 3 4 Heat Resistant Layer Base Film Matt Layer Hot melt Ink Layer 2. Details of compositions 2-1. Base film Heading Requirements Measuring method Material Polyethyleneterephthalate – 2-2. Heat resistant layer Heading Requirements Measuring method Grade HR Mixer P-5 – 2-3. Matt layer Heading Requirements Measuring method Grade ML Sumi – 2-4. Hot melt ink layer Heading Requirements Measuring method Grade #507W – 1 – 11 FO-CC500A FO-K01A 3. Settings CHAPTER 2. ADJUSTMENTS (1) Dial mode selector [1] Adjustments DIAL mode (Soft Switch No. SW-B4 DATA No. 3) (step 1) Select "OPTION SETTING". General KEY : Since the following adjustments and settings are provided for this model, make adjustments and/or setup as necessary. DISPLAY: FUNCTION OPTION SETTING (step 2) Select "DIAL MODE". 1. Adjustments of output voltage (FACTORY ONLY) KEY: Push until DIAL MODE indicated because the number of 's changes by the model. 1. Install the power supply unit in the machine. 2. Set the recording paper and document. DISPLAY: 3. When the document is loaded, power is supplied to the output lines. Confirm that outputs are within the limits below. (step 3) Select, using "1" or "2". Output voltage settings LIU PWB (BOTTOM SIDE) 1 DISPLAY: TONE SELECTED KEY: 2 DISPLAY: PULSE SELECTED CNLIUA CONTROL PWB (TOP SIDE) STOP 4. Volume adjustment (Fax machine) CNPRG You can adjust the volume of the speaker and ringer using the UP and DOWN arrow keys. CNMT CNCSW CNSP CNCIS CNPN Connector No. Pin No. 1 2 3 4 5 6 (1) Fax machine ringer 1. Press the UP or DOWN to select the desired volume level. (Make sure SPEAKER key has not been pressed, and a document is not loaded in the feeder.) Display: CNPW RINGER: HIGH ↔ Voltage limits 4.25V ~ 5.75V 23.3V ~ 24.7V 1=TONE, 2=PULSE (step 4) End, using the "STOP" key. +24V +24V MG MG DG +5V RINGER: MIDDLE ↔ CNDSS is CNLIUA CNPW CNTH Output +5V +24V KEY: KEY: CNPW CORDLESS PWB (BOTTOM SIDE) DIAL MODE RINGER: LOW ↔ POWER SUPPLY PWB (BOTTOM SIDE) NUMBER OF RING • The ringer rings once at the selected level, then the date and time reappear in the display. RINGER OFF: OK? 2. If you selected RINGER OFF: OK?, to turn off the ringer, press START/ MEMORY key. 2. IC protectors replacement (2) Fax machine speaker ICPs (IC Protectors) are installed to protect the motor driver circuit. ICPs protect various ICs and electronic circuits from an overcurrent condition. 1. Press the SPEAKER key. 2. Press the UP or DOWN to select the desired volume level. • Press SPEAKER key again to turn off the speaker. The location of ICPs are shown below: CNPW CNLIUA FU100 CONTROL PWB (BOTTOM SIDE) (1) FU100 (KAB3202) is installed in order to protect IC’s from an overcurrent generated in the motor drive circuit. If FU100 is open, replace it with a new one. 2–1 FO-CC500A FO-K01A 5. Volume adjustment (Cordless Handset) (2) Cordless handset ringer You can adjust the volume of the ringer and handset, receiver using the UP and DOWN arrow keys. 1. When you are not talking on the cordless handset, press UP or DOWN to select the desired ringer volume level. Cordless handset display: RINGER: HIGH ↔ (1) Cordless handset receiver volume 1. When talking on the cordless handset, press UP or DOWN to select the desired volume level. ↔ RINGER: MIDDLE Cordless handset display: ↔ RINGER: LOW RECEIVER: HIGH ↔ • Note: The volume reverts to MIDDLE each time you hang up (press OFF key). ↔ RECEIVER: MIDDLE • The ringer will ring once at the selected level. RINGER OFF: OK? OK: PRESS START 2. If you selected RINGER OFF: OK? to turn off the ringer, press START key. RECEIVER: LOW [2] Diagnostics and service soft switch 1. Operating procedure (Fax machine) (1) Entering the diagnostic mode Press FUNC → 9 → → 8 → # → 7 , and the following display will appear. MAIN ROM Ver. TA83 After 2 sec: CORDLESS ROM Ver. TA85 SystemID After 2 sec: DIAG MODE MAIN ROM Ver.: TA83 CORDLESS ROM Ver.: TA85 Then press the START key. Select country name is risen on display for 2 sec. Select the desired item with the rapid key. Enter the mode with the START key. key or the key or select with the (Diag•specifications) FUNC 9 8 7 TA83 TA85 DIAG MODE START COUNTRY NAME START START Keypad test mode ROM & RAM check START START DTMF CDL ID RX Aging mode START START RF RX mode Panel key test START START RF TX mode Check pattern START START Flash mem. clear Signal send mode START START Flash mem. check Memory clear START START Entry data rcv. Shading mode START START Entry data send All black print START START Auto feeder mode Soft switch mode If the diag mode cannot be set, repeat the diag mode operation, performing the following operation. After the power is turned on and "WAIT A MOMENT" is indicated, press the STOP key. STOP KEY START KEY "Power ON" + Memory clear (Work + Backup) 2–2 In relation with the process response (request from Production Engineering) "WAIT A MOMENT" clock indication may appear depending on STOP key timing. If the STOP key is held down, "MEMORY CLEAR?" appears. FO-CC500A FO-K01A 2. Diagnostic items (Fax machine) ITEM No. Contents Function 1 SOFT SWITCH MODE Soft switches are displayed and changed. List can be output. 2 ROM & RAM CHECK ROM sum-check mand RAM read/write check. 3 AGING MODE 10 sheets of check patterns are output every 5 minutes per sheet. 4 PANEL KEY TEST Panel keys are tested. Result list is output. 5 CHECK PATTERN Check pattern is output. 6 SIGNAL SEND MODE Send the various signals. Signal is changed by pressing START key. 7 MEMORY CLEAR Back-up memory is cleared, and is set at delivery. 8 SHADING MODE Shading compensation is performed in this mode. 9 ALL BLACK PRINT To check the print head, whole dots are printed over the interval of 2 m. 10 AUTO FEEDER MODE Insertion and discharge of document are tested. 11 ENTRY DATA SEND Registered content is sent. 12 ENTRY DATA RCV. Registered content is received, and its list is output. 13 FLASH MEM. CHECK Checks flash memory write/read. 14 FLASH MEM. CLEAR Checks flash memory clearing. 15 RF TX MODE RF signal send test mode. 16 RF RX MODE RF signal receive test mode. 17 DTMF CDL ID RX Registered content is received, and its list is output. 18 KEYPAD TEST MODE I/F for DSS engine’s DIAG mode. 3. Diagnostic items description 3. 1. Soft switch mode 3. 5. Check pattern Used to change the soft switch settings. The soft switch which is stored internally is set by using the keys. The available soft switches are SW-A1 to SW-N3. The content of soft switches is shown in page 2-10 to 2-23. The contents are set to factory default settings. The contents of the soft switch setting backed up. This mode is used to check the state of the printing head. It is ended with the following pattern printed on one printing sheet. White/Black(3/8 mm alternately) >>> About 30 mm long. All Black >>> About 30 mm long All White >>> From All Black end to Pin OFF End White >>> From Pin OFF to 16.5 mm long 1 2 3 4 3. 2. ROM & RAM check Used to do the ROM sum check and the RAM read/write test and to clear the RAM. The test results will be given by means of beeps. A long beep means “all checked successful”. A short beep or beeps mean an IC in error, with the number of beeps indicating which IC failed. The test results also be printed. System ID of FAX machine and Cordless Handset preserves. 1 beep → ROM 2 beeps → S-RAM/D-RAM LETTER: 216 mm LEGAL: 216 mm A4: 210 mm Void area 4 mm 1 2 3. 3. Aging mode If any document is first present, copying will be executed sheet by sheet. If no document is present, the check pattern will be printed sheet by sheet. This operation will be executed at a rate of one sheet per 5 minutes, and will be ended at a total of 10 sheets. 3 3. 4. Panel key test This mode is used to check whether each key operates properly or not. Press the key on the operation panel, and the key will be displayed on the display. Therefore, press all keys. At this time, finally press the STOP key. When the STOP key is pressed, the keys which are not judged as "pressed" will be printed on the result list. • LED part of the contact image sensor (CIS) is kept on during the term from when "START" of the panel test mode to end with the STOP key. 4 Pin off 16.5 mm 2–3 FO-CC500A FO-K01A 3. 6. Signal send mode 3. 12. Entry data receive This mode is used to send various signals to the circuit during FAX communication. Every push of START key sends a signal in the following sequence. Moreover, the signal sound is also output to the speaker when the line monitor of the soft switch is on. In this mode, the registered data sent from the other machine is received and the received data is registered in the machine. When this mode is used for receiving, the other machine must be in the entry data send mode. After receiving is completed, the following lists are printed. 1. Telephone list data 2. Sender register data (The passcode No. is also printed if the polling function is provided.) (*) 3. Optional setting list (*) 4. Soft switch content 5. Junk fax number list (*) 6. Timer reservation data (Only on the model which timer reservation is possible.) 7. Recording setting list data (*) (*): Refer to SETUP LIST [1] No signals (CML signal turn on) [2] 14400BPS (V.33) [3] 12000BPS (V.33) [4] 14400BPS (V.17) [5] 12000BPS (V.17) [6] 9600BPS (V.17) [7] 7200BPS (V.17) [8] 9600BPS (V.29) [9] 7200BPS (V.29) 3. 13. Flash memory check [10] 4800BPS (V27ter) Data is written into and read from the flash memory to check data conformity. When the unit enters this mode, the check is started. [11] 2400BPS (V27ter) [12] 300BPS (FLAG) 3. 14. Flash memory clear [13] 2100Hz (CED) Data in the flash memory is cleared (memory clear). When the unit enters this mode, the check is started. *Operation of hardware and signal in the flash memory check mode and flash memory clear mode, and the result of check. The result is announced by the buzzer beeps. The result of check is printed. Beeps 1 → Memory error [14] 1100Hz (CNG) 3. 7. Memory clear This mode is used to clear the backup memory and reset to the default settings. (Various registrations are cleared.) • The registered Cordless Handset information is not deleted by “Memory clear”. 3. 15. RF TX mode This mode is for measurement of RF signal send level. When you press START key, the DSS unit move to be in the continuous signal send mode until you press STOP key. It needs exclusive measuring device. 3. 8. Shading mode The mode is used for the shading compensation. For reading, set up the special original paper. The compensation memorizes the reference data of white and black for reading. Moreover, the memorized data is not erased even if memory clear mode is executed. 3. 16. RF RX mode This mode is for measurement of RF signal send level. When you press START key, the DSS unit move to be in the continuous signal receive mode until you press STOP key. It needs exclusive measuring device. 3. 17. DTMF CDL ID RX 3. 9. All black print When you press START key, the display change to ‘LINE STANDBY’. And, it waits for the start signal (DTMF) of the System ID input protocol. The exclusive writer at the product line only corresponds to the protocol. This mode is used to check the state of the printing head and to intentionally overheat it. Whole dots are printed over the interval of 2 m. If it is overheated or the printing sheet is jammed, press STOP key for the end. 3. 18. Keypad test mode From this mode, you can enter the diag mode of the DSS unit (CONEXANT Merlin). The purpose of these items is to measure the wireless communication specification of this unit. By enter the access code written in Conexant’s user guide, you can start the desired menu. To implement this menu, this user guide is necessary. 3. 10. Auto feeder mode In this mode, a document is inserted and discharged to check the auto feed function. After this mode is started, set a document, and the document feed will be automatically tested. 3. 11. Entry data send This mode is used to send the registered data to another machine and make the other machine copy the registered content. Before sending in this mode, it is necessary to set the other machine at the entry data receive mode. The following, information will be sent to the remote machine: 1. Telephone list data 2. Sender register data 3. Optional setting content 4. Soft switch content 5. Junk fax number list 6. Timer reservation data (Only on the model which timer reservation is possible.) 7. Recording setting list data 2–4 FO-CC500A FO-K01A 4. How to make soft switch setting To enter the soft switch mode, press the following key entries in sequence. Press FUNCTION DATA No. 9 8 7 START START 1 2 3 4 5 6 7 8 S F T SW-A1 = 0 0 0 0 0 0 0 0 Press FUNCTION key. S F T SW-A1 = 1 0 0 0 0 0 0 0 Press key. Press key. S F T SW-A1 = 1 0 0 0 0 0 0 0 S F T SW-A1 = 1 0 0 0 0 0 0 0 Bit1 - 8 are set. S F T SW-A1 = 1 0 0 0 0 0 0 0 Press START key during setting. S F T SW-A2 = 0 0 0 0 0 0 0 0 Soft SW-A2 - SW-N3 are set. S F T SW-N3 = 0 0 0 0 0 0 0 0 To finish the settings halfway between SW-A1 and SW-N3, press the STOP key. In this case, the setting being done to the SW No. on display will be nullified while settings done to the preceding SW No. remain in effect. When the COPY key is pressed, the contents of soft switches are printed. The soft switch mode is terminated. 2–5 FO-CC500A FO-K01A 5. Operating procedure (Cordless handset) 5.1. Entering the diagnostic mode The following key is simultaneously inputted after a power supply on. 2 + + # 5.2. Escape method from production mode The off key is inputted from stand-by state of Production mode. 5.3. Each inspection mode It performs from a stand-by state. 5.3.1 Sending RF signal mode 1 After going into the mode, RF signal is sending out. 2 Sending channel is selected by inputting two ten-keys. 3 Sending power is selected by inputting Up of Down keys. (3 levels) 4 By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. 2 Channel selection 3 Power level selection Input key 0 Input key 1 CH Frequency(MHz) Input key Input key 0 1 1 2404.8 UP Power Up 0 2 2 2406.6 DOWN Power Down 0 3 3 2408.4 0 4 4 2410.2 0 5 5 2412.0 0 6 6 2413.8 0 7 7 2415.6 0 8 8 2417.4 0 9 9 2419.2 1 0 10 2421.0 1 1 11 2422.8 1 2 12 2424.6 1 3 13 2426.4 1 4 14 2428.2 1 5 15 2430.0 1 6 16 2431.8 1 7 17 2433.6 1 8 18 2435.4 1 9 19 2437.2 2 0 20 2439.0 2 1 21 2440.8 2 2 22 2442.6 2 3 23 2444.4 2 4 24 2446.2 2 5 25 2448.0 2 6 26 2449.8 2 7 27 2451.6 2 8 28 2453.4 2 9 29 2455.2 3 0 30 2457.0 3 1 31 2458.8 3 2 32 2460.6 3 3 33 2462.4 3 4 34 2464.2 3 5 35 2466.0 3 6 36 2467.8 3 7 37 2469.6 3 8 38 2471.4 3 9 39 2473.2 4 0 40 2475.0 2–6 4 End of mode OFF FO-CC500A FO-K01A 5.3.2 Receiving RF signal mode 1 After going into the mode, this cordless handset can receive RF signal. 2 Receiving channel is selected by inputting two ten-keys. 3 RF input Gain can be selected by Up/Down keys. (2 levels) 4 By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. 2 Channel selection 3 AGC level selection Input key 0 Input key 2 CH Frequency(MHz) Input key 1 1 2404.8 UP AGC High 0 2 2 2406.6 DOWN AGC Low 0 3 3 2408.4 0 4 4 2410.2 0 5 5 2412.0 0 6 6 2413.8 0 7 7 2415.6 0 8 8 2417.4 0 9 9 2419.2 1 0 10 2421.0 1 1 11 2422.8 1 2 12 2424.6 1 3 13 2426.4 1 4 14 2428.2 1 5 15 2430.0 1 6 16 2431.8 1 7 17 2433.6 1 8 18 2435.4 1 9 19 2437.2 2 0 20 2439.0 2 1 21 2440.8 2 2 22 2442.6 2 3 23 2444.4 2 4 24 2446.2 2 5 25 2448.0 2 6 26 2449.8 2 7 27 2451.6 2 8 28 2453.4 2 9 29 2455.2 3 0 30 2457.0 3 1 31 2458.8 3 2 32 2460.6 3 3 33 2462.4 3 4 34 2464.2 3 5 35 2466.0 3 6 36 2467.8 3 7 37 2469.6 3 8 38 2471.4 3 9 39 2473.2 4 0 40 2475.0 1 After going into the mode, speaker test can be tested. 2 Speaker volume is selected by using Up/Down keys. (3 levels) 3 By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. 2 Channel volume 3 End of mode Input key 0 Input key 3 Input key 0 5.3.3 Speaker test mode Input key UP Volume Up DOWN Volume Down OFF 2–7 4 End of mode OFF FO-CC500A FO-K01A 5.3.4 Panel key test mode 1 After going into the mode, cordless handset is waiting for a key to be pressed. 2 All keys should been pressed except for off key. 3 • After pressing all keys, off key should been pressed. If any keys that are not pressed exist, it will be displayed on LCD. • Press the NG keys. If another NG keys exists, it will also be displayed. • If all keys are pressed, cordless handset will going to stand-by state. * If you want to cancel the Panel Test, press the 1 Mode No. and # key simultaneously. 2 Press all keys 3 End of mode Input key 0 Input key OFF 4 5.3.5 LED test mode 1 After going into the mode, backlight is switched on. 2 By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. 2 End of mode Input key 0 Input key OFF 5 5.3.6 LCD test mode 1 After going into the mode, check patterns are displayed on the LCD. 2 By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. 2 End of mode Input key 0 Input key OFF 6 5.3.7 SX test mode 1 After going into the mode, sidetone root is enabled. 2 Receiver volume is selected by using Up/Down keys. (3levels) 3 By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. 2 Volume change 3 End of mode Input key 0 Input key 7 Input key UP Volume Up DOWN Volume Down OFF 5.3.8 Battery test mode 1 After going into the mode, cordless handset will check the Battery level. 2 • If it is less than 3.4V, “LOW BATT” will be displayed. ................. The input from the battery is turned off to create the “LOW BATT” state. Maintain this mode. • If it is more than 3.3V, “BATT OK” will be displayed. • If cordless handset is put on the cordless handset charger, “Cradle Power” will be displayed. By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. Input key 0 2 End of mode Input key 8 OFF 2–8 FO-CC500A FO-K01A 5.3.9 Headset test mode 1 After going into the mode, cordless handset will check the jack of headset. • If headset are put in the jack, “DETECT HEADSET” will be displayed. 2 By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. 2 End of mode Input key 0 Input key OFF 9 5.3.10 Bit rate test mode 1 After going into the mode, cordless handset will test the Bit Rate. 2 By inputting off key, it goes to stand-by state of Production mode. 1 Mode No. 2 End of mode Input key 1 Input key 0 OFF 5.3.11 INTERCOM test mode between cordless handsets (FO-K01 ONLY) 1 After going into the mode, please enter the system ID. (1digit, 0 ~ 9) 2 3 4 NOTE: You have to enter the same number for both partner cordless handsets do this test. If this test is done at more than 2 places in the communication area, please use the different System ID between each place. This rule is necessary to avoid the jamming. Please enter the cordless handsets number. NOTE: You have to set the different number for the partner cordless handsets. After above, cordless handset returns to the stand-by mode. You can call the partner cordless handset by pressing INTERCOM + its cordless handsets number. The operation after this is equal to the INTERCOM communication specification. 1 Mode No. 2 System ID 3 Cordless handsets No. 4 End of mode Input key Input key Input key Input key 0~9 1~4 2 0 OFF CAUTION: After this test, before packing, you have to do “MEMORY CLEAR”. 2–9 FO-CC500A FO-K01A 6. Soft switch description • Soft switch SW NO. SW l A1 DATA NO. 1 Protect from echo Forced 4800 BPS reception Footer print No Yes Yes Yes No No 0 0 0 4 Length limitation of copy/send/receive No limit Copy/send: 60cm Receive: 1m 0 5 CSI transmission No transmitted Transmitted 0 6 DIS receive acknowledgement during G3 transmission Twice NSF: Once DIS: Twice 0 7 Non-modulated carrier for V29 transmission mode Yes No 0 8 EOL detect timer 25 s 13 s 0 1 2 3 4 5 Sender’s information transmit 6 Reserved 7 8 0 1 0 0 1 1 1 0 0 1 0 1 1 0 0 0 0 0 0 1 0 0 0 0 0 1 0 0 1 0 0 0 1 0 0 1 1 1 0 0 0 Yes Communication error treatment in RTN sending mode (reception) No communication error Communication error 0 CNG transmission CED tone signal interval No 0 No. 1 1000ms 1 No. 2 1 0 Yes 750ms 1 500ms 0 75ms 0 0 0 0 1 0 0 3 MR coding No Yes 0 4 ECM mode No Yes 0 5 ECM MMR mode No Yes 6 Reserved 0 7 Reserved 0 8 Reserved 1 2 3 4 5 Signal transmission level 6 Protocol monitor (error print) Printed at com. error Not printed 0 7 Protocol monitor Yes No 0 8 Line monitor Yes No. = 1 2 No. 1 No. 2 (Transmission) 4 input 4 2 1 3 4 5 1 1 0 0 1 1 1 0 No Digital line equalization setting 3 0 0 Binary 16 8 1 2 0 1 Digital line equalization setting (Reception) SW l A5 1 0 1 No 2 SW l A4 Remarks V.33 V.17 V.29 V.27 ter 14400 12000 14400 12000 9600 7200 9600 7200 4800 2400 1 SW l A3 Initial setting 0 1 2 3 Modem speed SW l A2 Switch setting and function ITEM 0 7.2km 3.6km 1.8km 0km 1 1 1 0 0 1 0 0 0 1 7.2km 3.6km 1.8km 0km No. 3 1 1 0 0 0 No. 4 1 0 1 0 0 Digital cable equalizer setting (Reception No. 5 No. 6 7.2km 0km 1 1 0 0 5 6 for Caller ID) 7 Error criterion 10 ~ 20 % 5 ~ 10 % 0 8 Anti junk fax check Yes No 1 2 – 10 0 0 OPTION FO-CC500A FO-K01A SW NO. SW l A6 DATA NO. Switch setting and function ITEM 1 Initial setting 0 1 Reserved 2 End Buzzer Yes No 1 3 Disconnect the line when DIS is received in RX mode No Yes 1 4 5 Equalizer freeze control (MODEM) Equalizer freeze control 7200 BPS only On No Off Yes 0 0 6 7 8 CNG transmission in manual TX mode Reserved Modem speed automatic fallback when RX Yes No Yes No 1 0 0 Remarks 0 level is under -40dBm SW l B1 1 2 3 4 Recall interval 5 Recall times No. = 6 SW l B2 SW l B3 SW l B4 SW l B5 No. = Binary input 8 4 2 1 1 2 3 4 0 1 0 1 0 1 0 1 Binary input 0 8 4 2 1 0 5 0 6 0 7 1 8 0 1 0 0 7 8 1 Dial pausing (sec/pause) 4 sec 2 sec 2 3 Dial tone detection (before auto dial) Reserved No Yes 4 Busy tone detection (after auto dial) Waiting time after dialing No 1 0 Yes 45 seconds 55 seconds 90 seconds 140 seconds 0 0 1 1 1 5 No.5 6 7 No.6 Reserved 0 0 8 1 Reserved Reserved 0 0 2 3 Reserved Reserved 0 0 4 5 Reserved Reserved 0 0 6 Auto dial mode delay timer of before line connect 7 8 Reserved 1 Auto dial mode delay timer of after line connect Dial mode Pulse → Tone change function by Dial pulse make/break ratio (%) 6 7 Reserved Reserved 8 Recalling fixed only one time when dialing was Yes unsuccessful without detecting busy tone signal 1 DTMF signal transmission level (Low) 2 3 4 key No.6 0 second 0 No.7 0 No.1 2 3 4 5 0 1 0 1 1.5 seconds 3.0 seconds 4.5 seconds 0 1 1 1 0 1 1.7 seconds 3.0 seconds 3.6 seconds 4.0 seconds 0 0 1 1 No.2 Tone Enable 40/60 0 1 Pulse Disable 33/67 0 1 0 1 0 0 0 1 1 1 0 0 0 No No. = 0 Binary input 1 16 8 4 2 1 1 2 3 4 5 1 0 0 1 0 0 0 1 5 0 6 7 Reserved FLASH send time 8 Reserved Long time(450ms) Short time(100ms) 0 0 0 2 – 11 OPTION FO-CC500A FO-K01A SW NO. DATA NO. 1 Switch setting and function ITEM 1 DTMF signal transmission level (High) 2 SW l B6 No. = Binary input 0 16 8 4 2 1 1 1 2 3 4 5 0 1 1 1 1 1 1 1 3 4 5 6 Reserved 0 7 8 Reserved Reserved 0 0 Reading slice (Binary) 1 2 Factory setting Light Dark Darker in dark No. 1 No. 2 0 0 Factory setting 1 0 Light 0 1 Dark 1 1 Darker in dark 0 0 No. 3 0 1 0 1 0 No. 4 0 1 1 0 0 0 Reading slice (Half tone) SW l C1 3 4 5 6 Line density selection Reserved Fine 0 Standard 7 8 MTF correction in half tone mode Reserved No Yes 1 Number of rings for auto receive 2 3 No. = 4 SW l D1 5 6 Automatic switching manual to auto receive mode Reserved 0 8 1 4 2 2 3 1 4 0 1 0 0 1 0 0 Reception after 4 rings SW l D3 Remarks 0 0 Binary input No reception OPTION 0 0 Cl detect frequency SW l D2 Initial setting 0 7 No.7 As PTT 0 8 1 2 No.8 0 Reserved Reserved 3 Reserved 4 Distinctive ringing detection Yes No 0 OPTION 5 6 Caller ID function Caller ID detect during CI off Yes All times No Only first 0 1 OPTION 7 8 1 Reserved Reserved Cl off detection timer (0-1550ms setting by 2 50ms step) Country select for Caller ID Reserved 8 Reserved 13.0Hz 1 20.0Hz 1 1 0 1 0 0 0 0 0 0 0 0 Binary input No. = 16 8 4 2 1 1 1 2 3 4 5 0 1 1 1 0 1 1 0 3 4 5 6 7 11.5Hz 0 New Zealand Australia 0 0 0 2 – 12 OPTION FO-CC500A FO-K01A SW NO. SW l E1 SW l E2 DATA NO. Switch setting and function ITEM 1 1 Tel/Fax Automatic switching mode 2 Pseudo ringing time at the tel/fax automatic switching mode 3 4 Tel/Fax auto switch Number of CNG singnal detection at the Tel/Fax automatic switching mode No.3 Twice 0 1 OPTION 0 0 1 CNG detection when TEL/FAX mode 3 sec 5 sec 0 Pseudo ringer ON/OFF cycle Post answer tone (Tel/Fax mode) 1 sec ON/4 sec OFF No 1 sec ON/2 sec OFF Yes 0 0 8 Type of post answer tone LA-SI-DO tone 800Hz single tone 1 1 2 3 4 Pseudo ringer sound volume (0 to -15dBm setting by 1dBm step) No. = 5 6 7 8 Post answer tone transmission level (0 to -15dBm setting by 1dBm step) No. = 1 Reserved Binary input 8 4 2 1 1 2 3 4 1 0 1 0 1 0 1 0 Binary input 8 4 2 1 5 6 7 8 1 0 0 0 1 0 0 0 0 No Action No.2 No.3 No Action A.M. Remote Disconnect Operation Line 0 1 1 1 0 1 2 3 4 Reserved 1 0 0 5 Reserved 0 6 7 Reserved Reserved 0 0 8 Reserved 0 0 0 1 No. 1 50ms 0 2 3 No. 2 0 Protection of remote reception (5 4 Remote reception with GE telephone 5 6 Remote operation code figure by external TEL (0~9) 1 CNG detection in STAND-BY mode Number of CNG detect (AM mode) No. = 100ms 1 120ms 1 0 1 Not compatible 0 0 1 1 Binary input 8 4 2 1 0 1 5 0 0 1 6 1 7 0 Yes Number of CNG detect (STAND-BY mode) 6 7 8 1 2 3 4 5 6 7 8 1 No Compatible No. 2 No. 3 4 5 80ms 0 ) detect Yes 2 3 SW l G1 120 sec 1 6 7 7 8 SW l F2 1 Once Remarks 1 30 sec 1 5 DTMF detection time SW l F1 60 sec 0 0 Action select when DTMF “#” is received during tel/fax automatic SW l E3 Switch to Fax 15 sec 0 No.2 Initial setting 0 No. 4 No. 5 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved 8 1 1pulse 0 0 No 2pulses 0 1 3pulses 1 0 4pulses 1 1 1 1pulse 2pulses 3pulses 4pulses 0 0 0 1 1 0 1 1 0 1 0 1 0 0 0 0 0 0 0 0 0 0 0 2 – 13 OPTION FO-CC500A FO-K01A SW NO. SW l G2 SW l G3 DATA NO. Switch setting and function ITEM 1 1 2 Reserved Reserved 0 0 3 4 Reserved Reserved 0 0 5 6 Reserved Reserved 0 0 7 Reserved 0 8 1 2 Reserved Reserved Reserved 0 0 0 3 4 Reserved Reserved 0 0 5 6 Reserved Reserved 0 0 7 Reserved 0 8 Reserved Busy tone detection ON/OFF time (Lower 1 2 duration) No. 1 No. 2 No. 3 No. 4 250ms 350ms 0 0 0 1 1 0 1 1 650ms 900ms 1500ms 2700ms 0 0 0 1 1 0 1 1 0 0 5 Busy tone detect continuation sound detect during OGM Busy tone detect continuation sound detect No Yes 0 No Yes 0 7 Busy tone detect intermittent sound detect during OGM No Yes 0 8 Busy tone detect intermittent sound detect No 1 2 3 Yes 0 4pulses 6pulses 10pulses No. 1 0 0 1 1 0 No. 2 0 0 1 1 0 Fax switching when A.M. full Yes 1 No 320Hz - 570Hz 320Hz - 460Hz 5 Busy tone detect continuation sound detect frequency Reserved 6 7 Reserved AM OGM announce only mode Yes 8 Busy tone continuous sound detect time 5s 4 10s A.M. quiet time 1 3 4 No. 3 No. 4 A.M. quiet time 2 5 6 No. 5 No. 6 8 Reserved 0 0 No No. 1 No. 2 Key input buzzer on/off switch (Two way recording mode) OPTION 0 0 1 2 7 0 1 2pulses ICM recording time SW l I1 200ms duration) Busy tone detection pulse number SW l H2 150ms 3 4 6 Remarks 0 Busy tone detection ON/OFF time (Upper SW l H1 Initial setting 0 On 1 4min 15s 30s 60s 0 0 0 1 1 0 1 1 2s 3s 4s 5s 0 0 0 1 1 0 1 1 0s 1s 2s 3s 0 0 0 1 1 0 1 1 Off OPTION 0 0 0 0 1 0 0 0 2 – 14 OPTION FO-CC500A FO-K01A SW NO. DATA NO. 1 SW l I2 SW l I3 A.M. quiet detect time Binary input 0 3 4 5 1 0 2 3 4 5 0 1 1 0 1 1 0 6 Reserved 0 7 Reserved 0 8 1 2 Reserved Reserved Max OGM record time 15s 60s 0 0 0 3 4 Two way record function Toll saver Disable Disable Enable Enable 1 0 5 6 Reserved Reserved 7 8 Reserved Transfer dial recall 1 AGC maximum gain (line) 3 4 5 2 3 4 5 6 7 8 1 (10 ~ 25 dB) (1 dB step) (10 ~ 25 dB) (1 dB step) Binary input No. = No. = AGC eref access code (line) (-0 ~ -30 dB) (2 dB step) No. = AGC eref access code (Mic) (-0 ~ -30 dB) (2 dB step) No. = AGC again adaptation threshold (line) No. = AGC again adaptation threshold (Mic) 6 No. = 7 8 8 1 1 2 3 4 0 1 0 1 Binary input 0 1 0 4 2 1 1 5 6 7 8 0 1 1 0 Binary input 8 1 0 1 4 2 1 0 1 2 3 4 1 0 1 1 Binary input 8 1 1 1 8 4 2 1 1 5 6 7 8 1 1 0 1 Binary input 0 1 1 8 4 2 1 1 1 2 3 4 1 1 1 1 Binary input 1 1 1 8 4 2 1 1 5 1 6 7 8 1 1 1 Slow 1 1 No. 1 No. 2 AGC slew rate (Mic) SW l I7 3 4 0 4 2 1 AGC slew rate (line) 1 2 0 0 Yes AGC maximum gain (Mic) 2 3 4 5 0 0 No No. 3 No. 4 Normal Little fast Fast 0 0 0 1 1 0 1 1 Slow Normal Little fast Fast 0 0 0 1 1 0 1 1 1 1 1 1 5 6 Reserved Reserved 0 0 7 8 Reserved Reserved 0 0 2 – 15 Remarks 0 8 4 2 1 7 8 1 SW l I6 Initial setting 0 No. = 16 6 SW l I5 1 2 2 SW l I4 Switch setting and function ITEM OPTION FO-CC500A FO-K01A SW NO. SW l J1 DATA NO. Switch setting and function ITEM 1 Reserved 2 Reserved 3 4 Sender’s phone number setting Reserved 5 6 Reserved Reserved 1 0 Cannot change Change allowed SW l J3 0 0 No. 7 Off 0 Low 0 Middle 1 High 1 1 8 No. 8 0 1 0 1 0 Reserved 0 2 Reserved 0 3 Reserved 0 4 Reserved 0 5 Reserved Speaker volume (5 stages) 0 6 No. 6 Very Low 0 7 No. 7 0 0 1 1 0 1 No. 8 0 1 0 1 0 0 0 No. 2 E/T/M 0 No. 3 0 Reserved 2 Communication results printout (Transaction report) 3 4 5 No. 4 OGM/ICM output level to speaker (0 dB ~ -15 dB) (1 dB step) 7 8 1 Reserved 2 Reserved 3 OGM/ICM output level 4 (0 dB ~ -32 dB) (1 dB step) No. = Low 0 Middle 0 High 0 Very High 1 0 Send only Always No print Err only 0 0 0 1 OPTION OPTION 1 0 1 1 0 0 0 1 Binary input 0 1 0 0 0 8 4 2 1 0 5 0 6 7 8 0 1 1 1 1 0 0 Binary input No. = 0 32 16 8 4 2 1 5 6 7 3 0 4 5 6 7 8 0 1 0 0 0 8 SW l L1 OPTION 1 6 SW l K1 0 0 7 8 1 Remarks 0 Ringer volume SW l J2 Initial setting 0 0 1 0 0 0 1 Reserved 0 2 Reserved 0 3 4 5 6 Reserved Reserved Cut off mode (COPY mode) A4 paper enable Yes Enable No Disable 0 0 1 1 7 LEGAL & LETTER paper enable Enable Disable 0 8 Reserved 0 2 – 16 OPTION FO-CC500A FO-K01A SW NO. DATA NO. Switch setting and function ITEM 1 Paper set size SW l L2 SW l M1 1 No. 1 LETTER 0 LEGAL 0 A4 1 2 No. 2 0 1 0 3 Automatic reduce of receive Print contrast SW l N1 SW l N2 SW l N3 Auto 100 % Lighter Light 0 0 0 1 4 No. 4 5 No. 5 0 0 1 1 0 0 6 7 8 0 1 0 1 0 Reception reduction ratio in case of memory ful Reserved No. 6 100 % 0 0 0 1 2 Reserved Reserved Dark 0 Darker 1 1 3 Reserved Default speaker volume in speaker monitor function 93 % 0 0 0 4 No. 4 Low 0 5 No. 5 0 0 0 0 0 6 No. 6 0 0 1 1 0 Low 0 Middle 0 High 0 0 No. 7 0 1 0 1 0 8 Reserved 0 1 Reserved 0 2 3 Reserved Reserved 0 0 4 Reserved 0 5 6 7 Reserved Reserved Reserved 0 0 0 8 1 2 Reserved Reserved Reserved 0 0 0 3 4 5 Reserved Reserved Reserved 0 0 0 6 Reserved 0 7 8 Reserved Reserved 0 0 1 Reserved 0 2 3 Reserved Reserved 0 0 4 Reserved 0 5 6 7 Reserved Reserved Reserved 0 0 0 8 1 2 Reserved Reserved Reserved 0 0 0 3 4 5 Reserved Reserved Reserved 0 0 0 6 Reserved 0 7 8 Reserved Reserved 0 0 2 – 17 Remarks 1 Normal 0 7 SW l M2 Initial setting 0 OPTION OPTION FO-CC500A FO-K01A SW-A2 No. 8 CNG transmission • Soft switch function description When set to "0" , this model allows CNG transmission by pressing the Start key in the key pad dialing mode. When set to "1", CNG transmission in the key pad dialing mode cannot be performed. In either case. CNG transmission can be performed in the auto dial mode. SW-A1 No. 1 Protect from echo Used to protect from echo in reception. SW-A1 No. 2 Forced 4800BPS reception SW-A3 No. 1, No. 2 CED tone signal interval When line conditions warrant that receptions take place at 4800 BPS repeatedly. For international communication, the 2100Hz CED tone may act as an echo suppression switch, causing a communication problem. It may improve the success of receptions by setting at 4800BPS. Though SW-A3 No. 1 and No. 2 are normally set to 0, this setting is used to change the time between the CED tone signal to eliminate the communication caused by echo. TX RX This improves the receiving document quality and reduces handshake time due to fallback during training. SW-A1 No. 3 Footer print CED When set to "1", the date of reception, the sender machine No., and the page No. are automatically recorded at the end of reception. T SW-A1 No. 4 Length limitation of copy/send/receive DIS Used to set the maximum page length. SW-A3 No. 3 MR Coding To avoid possible paper jam, the page length is normally limited to 0.6 meter for copy or transmit, and 1 meters for receive. MR Coding is enable. It is possible to set it to "No limit" to transmit a long document, such as a computer print form, etc. (In this case, the receiver must also be set to no limit.) SW-A3 No. 4 ECM mode Used to determine ECM mode function. Refer to following table. SW-A1 No. 5 CSI transmission SW-A3 No.4 ECM MODE 0 0 1 1 SW-A3 No.5 ECM MMR MODE 0 1 0 1 Compression ECM MMR mode ECM MH mode method Yes No No No Yes Yes No No Yes Yes Yes Yes (CSI TRANSMISSION) is a switch to set whether the machine sends or does not send the signal (CSI signal) informing its own telephone No. to the remote fax machine when information is received. When "nonsending" is set, the telephone No. is not output on the remote transmitting machine if the remote transmitting machine has the function to display or print the telephone No. of receiving machine, using this CSI signal. (Depending on remote machine) SW-A1 No. 6 DIS receive acknowledgment during G3 transmission SW-A3 No. 5 ECM MMR mode Used to make a choice of whether reception of DIS (NSF) is acknowledged after receiving two DISs (NSFs) or receiving one DIS (two NSFs). It may be useful for overseas communication to avoid an echo suppression problem, if set to 1. See SW-A3 No. 4. SW-A1 No. 7 Non-modulated carrier for V29 transmission mode SW-A4 No. 1 ~ No. 5 Signal transmission level Though transmission of a non-modulated carrier is not required for transmission by the V29 modem according to the CCITT recommendation, it may be permitted to a send non-modulated carrier before the image signal to avoid an echo suppression problem. It may be useful for overseas communication to avoid an echo suppression problem, if set to 1. Used to control the signal transmission level in the range of-0dB to31dB. SW-A1 No. 8 EOL (End Of Line) detect timer SW-A4 No. 7 Protocol monitor Used to make a choice of whether to use the 25-second or 13-second timer for detection of EOL. This is effective to override communication failures with some facsimile models that have longer EOL detection. Normally set to "0". If set to "1", communication can be checked, in case of trouble, without using a G3 tester or other tools. When communication FSK data transmission or reception is made, the data is taken into the buffer. When communication is finished, the data is analyzed and printed out. When data is received with the line monitor (SW-A4 No. 8) set to "1" the reception level is also printed out. MR Mode SW-A3 No. 6 ~ No. 8 Reserved Set to "0". SW-A4 No. 6 Protocol monitor (Error print) If set to "1", protocol is printed at communication error. SW-A2 No. 1 ~ No. 4 Modem speed Used to set the initial modem speed. The default is 14400BPS. It may be necessary to program it to a slower speed when frequent line fallback is encountered, in order to save the time required for fallback procedure. SW-A4 No. 8 Line monitor SW-A2 No. 5 Sender’s information transmit SW-A5 No. 1, No. 2 Digital line equalization setting (Reception) (SENDER’S INFORMATION TRANSMISSION) is a switch to set the function to print the content of HEADER PRINT described in the passcode list at the front end of receiver’s original when original is sent to the remote machine. Line equalization when reception is to be set according to the line characteristics. If this switch is set to "NO", the HEADER PRINT is not output at the receiving machine. SW-A5 No. 3, No. 4 Digital line equalization setting (Transmission) Normally set to "0". If set to "1", the transmission speed and the reception level are displayed on the LCD. Used for line tests. Setting should be made according to distance between the telephone and the telephone company central switching station. Line equalization when transmitter is to be set according to the line characteristics. Setting should be made according to distance between the telephone and the telephone company central switching station. SW-A2 No. 6 Reserved Set to "0". SW-A2 No. 7 Communication error treatment in RTN sending mode (Reception) Used to determine communication error treatment when RTN is sent by occurrence of a received image error in G3 reception. When it is set to "1", communication error is judged as no error. SW-A5 No. 5, No. 6 Digital cable equalizer setting (Reception for Caller ID) Line equalization when reception for CALLER ID is to be set according to the line characteristics. Setting should be made according to distance between the telephone and the telephone company central switching station. 2 – 18 FO-CC500A FO-K01A SW-A5 No. 7 Error criterion SW-B3 No. 6, No. 7 Auto dial mode Delay timer of before line connect Used to select error criterion for sending back RTN when receiving image data. Delay time between the dial key input and line connection under the auto dial mode. RAPID01 CML RELAY ON SW-A5 No. 8 Anti junk fax check When using the Anti junk fax function, set to "1". SW-A6 No. 1 Reserved DIALLING Set to "0". No.6 No.7 0 0 1 1 0 1 0 1 SW-A6 No. 2 End buzzer Setting this bit to 0 will disable the end buzzer (including the error buzzer/ on-hook buzzer). 0sec 1.5sec 3.0sec 4.5sec SW-A6 No. 3 Disconnect the line when DIS is received in RX mode SW-B3 No. 8 Reserved Bit1= 0: When DIS signal is received during RX mode, the line is disconnected immediately. Set to "0". Bit1= 1: When DIS signal is received during RX mode, the line is disconnected on the next tone. Delay time between the line connection and dial data output under the auto dial mode. SW-B4 No. 1, No. 2 Auto dial mode Delay timer of after line connect DIAL DATA SW-A6 No. 4 Equalizer freeze control (MODEM) RAPID01 This switch is used to perform reception operation by fixing the equalizer control of modem for the line which is always in an unfavorable state and picture cannot be received. * Usually, the control is executed according to the state of line where the equalizer setting is changed always. CML RELAY ON SW-A6 No. 5 Equalizer freeze control 7200BPS only Setting which specifies SW-A3 No. 6 control only in the condition of 7200BPS modem speed. No.1 No.2 0 0 1 1 0 1 0 1 1.7sec 3.0sec 3.6sec 4.0sec SW-B4 No. 3 Dial mode When using the pulse dial, set to 1. When using the tone dial, set to 0. SW-A6 No. 6 CNG transmission in manual TX mode SW-B4 No. 4 Pulse → Tone change function by When set to "1", fax transmit the CNG signal in case of manual transmission mode (User press the START key after waiting for the fax answering signal from handset or speaker). key When setting to 1, the mode is changed by pressing the pulse dial mode to the tone dial mode. SW-A6 No. 7 Reserved SW-B4 No. 5 Dial pulse make/break ratio (%) Set to "0". When using the 33% make ratio pulse dial, set to "0". When using the 40% make ratio pulse dial, set to "1". SW-A6 No. 8 Modem speed automatic fallback when RX level is under -40dBm When set to "1", if fax signal level is under -40dBm during reception, machine selects the slower modem speed automatically. It is effective when noises occur on the received document due to the long distance communications. key from the SW-B4 No. 6, No. 7 Reserved Set to "0". SW-B4 No. 8 Recalling fixed only one time when dialing was unsuccessful without detecting busy tone signal When dialing results in failure since the busy tone cannot be detected, recalling is fixed to one time. SW-B1 No. 1 ~ No. 4 Recall interval Choice is made for a redial interval for speed and rapid dial calls. Use a binary number to program this. If set to 0 accidentally, 1 will be assumed. Supplementary explanation If time-out termination is made when dialing, only single recall is possible even if the setting time of recalls (SW-B1 No. 5 - No. 8) has been set to some times. This soft switch is added in order to meet FCC regulations. SW-B1 No. 5 ~ No. 8 Recall times Choice is made as to how many redials there should be. SW-B5 No. 1 ~ No. 5 DTMF signal transmission level (Low) SW-B2 No. 1 Dialing pause (sec/pause) The transmission level of DTMF signal is adjusted. (lower frequency) Pauses can be inserted between telephone numbers of direct dial connection. Selection of 4 sec or 2 sec pause is available. 00000: 0dBm SW-B2 No. 2 Dial tone detection (before auto dial) ↓ Used to set YES/NO of dial tone detection in auto dialing. 11111: -15.5dBm (-0.5dBm x 31) Set to "0". SW-B5 No. 6 Reserved Set to "0". SW-B2 No. 4 Busy tone detection (after auto dial) SW-B5 No. 7 FLASH send mode Used to set busy tone detection in auto dialing. The Brake time when REMOTE/FLASH key on the Cordless Handset is pressed. Set to “0”. SW-B2 No. 3 Reserved SW-B2 No. 5, No. 6 Waiting time after dialing This is time waiting for the opponent’s signals after dialing. SW-B5 No. 8 Reserved Set to "0". SW-B2 No. 7, No. 8 Reserved SW-B6 No. 1 ~ No. 5 DTMF signal transmission level (High) Set to "0". The transmission level of DTMF signal is adjusted. (higher frequency) SW-B3 No. 1 ~ No. 5 Reserved 00000: 0dBm Set to "0". ↓ 11111: -15.5 dBm (-0.5dBm x 31) 2 – 19 FO-CC500A FO-K01A SW-B6 No. 6 ~ No. 8 Reserved SW-D2 No. 7, No. 8 Reserved Set to "0". Set to "0". SW-C1 No. 1, No. 2 Reading slice (Binary) SW-D3 No. 1 ~ No. 5 CI off detection timer (0-1550ms setting by 50ms step) Used to determine the set value of reading density in standard/fine mode. The standard setting is "00" (Factory setting is "00") Set the minimum time period of CI signal interruption. (Example) SW-C1 No. 3, No. 4 Reading slice (Half tone) A Used to determine the set value of reading density in half tone mode. The standard setting is "00" (Factory setting is "00") B SW-C1 No. 5 Line density selection Used to set the transmission mode which is automatically selected when the Resolution key is not pressed. In the copy mode, however, the fine mode is automatically selected unless the Resolution key is manually set to another mode. 400msec 2000msec 1 2 SW-C1 No. 8 Reserved 01110 (50ms ~ 14): 700ms (CI interruption>700ms:Judged as a CI OFF section) The section 1 is not judged as a CI OFF section, the CI signal A is counted as one signal. The section 2 is judged as a CI OFF section, the CI signal B is considered as the second signal. 00111 (50ms ~ 7): 350ms (CI interruption>350ms:Judged as a CI OFF section) The section 1 is judged as a CI OFF section, and the CI signal A is counted as two signals. The section 2 is judged as a CI OFF section, and the CI signal B is considered as the third signal. Set to "0". SW-D3 No. 6 Country select for Caller ID SW-D1 No. 1 ~ No. 4 Number of rings for auto receive When machine using in Australia, set to "0". When machine using in New Zealand, set to "1". SW-C1 No. 6 Reserved Set to "0". SW-C1 No. 7 MTF correction in half tone mode This allows selection of MTF correction (dimness correction) in the half tone mode. When "NO" (=1) is selected, the whole image becomes soft and mild. Clearness of characters will be reduced. Normally set to "YES" (=0). When the machine is set in the auto receive mode, the number of rings before answering can be selected. It may be set from one to four rings using a binary number. Since the facsimile telephone could be used as an ordinary telephone if the handset is taken off the hook, it should be programmed to the user’s choice. If the soft switch was set to 1, direct connection is made to the facsimile. If a facsimile calling beep was heard when the handset is taken off the hook, press the START key and put the handset on the hook to have the facsimile start receiving. If it was set to 0 accidentally, receive ring is set to 1. NOTE: If the machine is set to answer after a large number of rings, it may not be able to receive faxes successfully. If you have difficulty receiving faxes, reduce the number of rings to a maximum of 6. SW-D3 No. 7, No. 8 Reserved Set to "0". SW-E1 No. 1 Tel/Fax Automatic switching mode Used to set auto TEL/FAX switching mode or to set the normal fax mode. SW-E1 No. 2, No. 3 Pseudo ringing time at the tel/fax automatic switching mode Choise is made as to how long to rumble the dummy ringer on TEL/FAX automatic switching mode. SW-E1 No. 4 Number of CNG signal detection at the tel/fax automatic switching mode SW-D1 No. 5 Automatic switching manual to auto receive mode Used for detection of CNG in one or two tones in the TEL/FAX automatic switching mode. This soft switch is used to select whether the machine should switch to the auto receive mode after 4 rings in the manual receive mode or remain in the same way as SW-D1 No. 1, No. 2, No. 3 and No. 4 "0"0"1"0" (4 rings). SW-E1 No. 5 CNG detection when TEL/FAX mode The switch which sets the time from the start of CNG detection to the end of detection. SW-D1 No. 6 Reserved Set to "0". SW-E1 No. 6 Pseudo ringer ON/OFF cycle SW-D1 No. 7, No. 8 CI detect frequency When set to "0", pseudo ringer is 1 sec ON and 2 sec OFF cycles. When set to "1", pseudo ringer is 1 sec ON and 4 sec OFF cycles. Detection frequency of ring signal for auto reception is set. When set to No. 6=0, No. 7=0, frequency is set to PTT recommendation. When set to No. 6=0, No. 7=1, frequency is set to 11.5Hz or more. When set to No. 6=1, No. 7=0, frequency is set to 13.0Hz or more. When set to No. 6=1, No. 7=1, frequency is set to 20.0Hz or more. SW-E1 No. 7 Post answer tone (TEL/FAX mode) When set to "0", machine send the tones in TEL/FAX auto changeover mode. SW-E1 No. 8 Type of post answer tone When set to "0", post answer tone is 800Hz single tone. When set to "1", post answer tone is 880Hz/988Hz/1046Hz(LA-SI-DO) tone. SW-D2 No. 1 ~ No. 3 Reserved Set to "0". SW-E2 No. 1 ~ No. 4 Pseudo ringer sound volume (0 ~ -15dBm setting by 1dBm step) SW-D2 No. 4 Distinctive ringing detection When set to "1", machine recognize the Cl signal FAX ringing or TEL ringing automatically. Used to adjust the sound volume of pseudo ringer to the line (ring back tone) generated on selecting TEL/FAX. SW-D2 No. 5 Caller ID function SW-E2 No. 5 ~ No. 8 Post answer tone transmission level (0 ~ -15dBm setting by 1dBm step) Used for Caller ID function. SW-D2 No. 6 Caller ID detect during CI off Used to adjust the sound volume of post answer tone to the line generated on selecting TEL/FAX. Detection of caller ID signal is performed as follows: 0:First CI OFF only 1:All of CI OFF SW-E3 No. 1 Reserved Set to "0". 2 – 20 FO-CC500A FO-K01A SW-E3 No. 2, No.3 Action select when DTMF "#" is received during tel/fax automatic switching mode SW-H1 No. 1, No. 2 Busy tone detection ON/OFF time (Lower duration) When set to No. 2-1, No. 3-1, if machine detects the DTMF code # during tel/fax automatic switching mode, stop the pseudo ringer and disconnect the line. This effect when operator wants to stop the pseudo ringer from extension phone connected with parallel. The initial value of detection is set according to electric condition. The set value is changed according to the local switch board. (Erroneous detection of sound is reduced.) Normally the upper limit is set to 900msec, and the lower limit to 200msec. SW-E3 No. 4 ~ No. 8 Reserved If erroneous detection is caused by sound, etc., adjust the detection range. Set to "0". The lower limit can be set in the range of 350msec to 150msec. SW-F1 No. 1, No. 2 DTMF detect time SW-H1 No. 3, No. 4 Busy tone detection ON/OFF time (Upper duration) Used to set detect time of DTMF (Dual Tone Multi Frequency) used in remote reception (5 ). Similarly to SW-H1 No. 1, the set value can be varied. The upper limit can be set in the range of 650msec to 2700msec. The longer the detect time is, the less the error detection is caused by noises. SW-H1 SW-H1 SW-H1 SW-H1 No. 1 No. 2 No. 3 No. 4 0 0 0 0 SW-F1 No. 4 Remote reception with GE telephone 0 0 0 1 150msec ~ 900msec (Corresponding to TEL made by GE) P. B. X. 0 0 1 0 150msec ~ 1500msec "1": Compatible with TEL mode by GE 0 0 1 1 150msec ~ 2700msec "0": Not compatible 0 1 0 0 200msec ~ 650msec • When sending (5 ) for remote reception with a GE manufactured telephone remote reception may not take place because of special specifications in their DTMF. To overcome this, a soft SW is provided to change the modem setting to allow for remote reception. 0 1 0 1 200msec ~ 900msec 0 1 1 0 200msec ~ 1500msec 0 1 1 1 200msec ~ 2700msec 1 0 0 0 250msec ~ 650msec If this soft SW is set to "1", other telephone sets may be adversely affected. 1 0 0 1 250msec ~ 900msec 1 0 1 0 250msec ~ 1500msec SW-F1 No. 5 ~ No. 8 Remote operation code figure by external TEL (0 ~ 9) 1 0 1 1 250msec ~ 2700msec 1 1 0 0 350msec ~ 650msec 1 1 0 1 350msec ~ 900msec 1 1 1 0 350msec ~ 1500msec 1 1 1 1 350msec ~ 2700msec SW-F1 No. 3 Protection of remote reception (5 Used to set the function of remote reception (5 the remote reception function is disabled. • ) detect ). When set to "1", Remote operation codes can be changed from 0 through 9. If set to greater than 9, it defaults to 9. The "5 " is not changed. Ex-7 (Default: 5 ) SW-F2 No. 1 CNG detection in STAND-BY mode Detection range 150msec ~ 650msec When setting to "1", the CNG signal detection function during stand-by stops. SW-H1 No. 5 Busy tone detect continuation sound detect during OGM SW-F2 No. 2, No. 3 Number of CNG detect (AM mode) Used to detect the continuous tone of specific frequency during OGM output. Used for detection of CNG in 1 to 4 pulses. SW-H1 No. 6 Busy tone detect continuation sound detect Used to select detection of the continuous sound of certain frequency. SW-F2 No. 4, No. 5 Number of CNG detect (STAND-BY mode) Used for detection of CNG in 1 to 4 pulses. SW-H1 No. 7 Busy tone detect intermittent sound detect during OGM SW-F2 No. 6 ~ No. 8 Reserved Used to detect the intermittent tone of specific frequency during OGM output. Set to "0". SW-G1 No. 1 ~ No. 8 Reserved Set to "0". SW-H1 No. 8 Busy tone detect intermittent sound detect Used to select detection of the intermittent sound of certain frequency. SW-G2 No. 1 ~ No. 8 Reserved SW-H2 No. 1, No. 2 Busy tone detection pulse number Set to "0". Used to set detection of Busy tone intermittent sounds. SW-G3 No. 1 ~ No. 8 Reserved SW-H2 No. 3 Fax switching when A.M. full Set to "0". If the answering machine’s memory is full and there is no response, the machine automatically switches to Fax reception. SW-H2 No. 4 Busy tone detect continuation sound detect frequency Set detecting frequency of busy tone continuation sound for 320 ~ 570 Hz of 320 ~ 460 Hz. SW-H2 No. 5, No. 6 Reserved Set to "0". SW-H2 No. 7 AM OGM announce only mode If this switch is set to 1, the machine will not record ICM. (disconnect the line after OGM output) 2 – 21 FO-CC500A FO-K01A SW-H2 No. 8 Busy tone continuous sound detect time SW-I5 No. 1 ~ No. 4 AGC eref access code (Line) (-0 ~ -30dB) (2dB step) Set detecting time busy tone continuous sound for 5 or 10 seconds. The AGC Energy Reference Level controls the playback level. Any message having average speech energy above the energy reference level has its playback level attenuated, and any level has its playback level increased. If the playback level is too high (low), then decreasing (increasing) the AGC Energy Reference Level will achieve the desired level. SW-I1 No. 1, No. 2 ICM recording time Used to select the incoming message recording time to 15sec/30sec/ 60sec/4min. SW-I1 No. 3, No. 4 A.M. quiet time 1 SW-I5 No. 5 ~ No. 8 AGC eref access code (Mic) (-0 ~ -30dB) (2dB step) Used to select four kinds of no sound time (2 sec ~ 5 sec) after reception in the T.A.D mode until OGM is output. Reception OGM output The AGC Energy Reference Level controls the playback level. Any message having average speech energy above the energy reference level has its playback level attenuated, and any level has its playback level increased. If the playback level is too high (low), then decreasing (increasing) the AGC Energy Reference Level will achieve the desired level. ICM recording 2 sec~ 5 sec ( SW-I1No. 3, No. 4) SW-I1 No. 5, No. 6 A.M. quiet time 2 SW-I6 No. 1 ~ No. 4 AGC gain adaptation threshold (Line) The AGC adjusts the amount of gain applied to the incoming message only when the average energy exceeds the AGC Gain Adaptation Threshold. The AGC Gain Adaptation Threshold prevents message background noise from corrupting the gain provided that the AGC Gain Adaptation Threshold is greater than the background noise energy. In the event that a message has background noise energy greater than the AGC Gain Adaptation Threshold, the AGC Gain can be no greater than the AGC Maximum Gain. Note that the AGC Gain Adaptation Threshold must always be greater than the RPACS VOX Turn-On Threshold. Used to select four kinds of no sound time (0 sec ~ 3 sec) after OGM output the T.A.D mode until ICM recording is started. Reception OGM output ICM recording 0 sec~3 sec (SW-I1 No. 5, No. 6) SW-I1 No. 7 Key input buzzer on/off switch (Two way recording mode) Used to turn ON/OFF key input buzzer in the TWO-WAY recording mode. SW-I6 No. 5 ~ No. 8 AGC gain adaptation threshold (Mic) The AGC adjusts the amount of gain applied to the incoming message only when the average energy exceeds the AGC Gain Adaptation Threshold. The AGC Gain Adaptation Threshold prevents message background noise from corrupting the gain provided that the AGC Gain Adaptation Threshold is greater than the background noise energy. In the event that a message has background noise energy greater than the AGC Gain Adaptation Threshold, the AGC Gain can be no greater than the AGC Maximum Gain. Note that the AGC Gain Adaptation Threshold must always be greater than the RPACS VOX Turn-On Threshold. SW-I1 No. 8 Reserved Set to "0". SW-I2 No. 1 ~ No. 5 A.M. quiet detect time Used to set no sound time (0 sec ~ 32 sec) during the T.A.D. mode operation. SW-I2 No. 6 ~ No. 8 Reserved Set to "0". SW-I3 No. 1 Reserved SW-I7 No. 1, No. 2 AGC slew rate (Line) Set to "0". The AGC Slew Rate controls the convergence of the message playback level to the desired playback level. A large slew rate will allow faster convergence and a small slew rate will allow slower convergence. SW-I3 No. 2 Max OGM record time Used select the outgoing message recording time to 60sec or 15sec. SW-I7 No. 3, No. 4 AGC slew rate (Mic) SW-I3 No. 3 Two way record function The AGC Slew Rate controls the convergence of the message playback level to the desired playback level. A large slew rate will allow faster convergence and a small slew rate will allow slower convergence. If this switch is set to "1", the machine disables two way recording. SW-I3 No. 4 Toll saver Used to turn on the toll saver function. If it is off, the reception frequency in the AM mode is identical with that in the FAX mode. SW-I7 No. 5 ~ No. 8 Reserved Set to "0". SW-I3 No. 5 ~ No. 7 Reserved SW-J1 No. 1, No. 2 Reserved Set to "0". Set to "0". SW-I3 No. 8 Transfer dial recall SW-J1 No. 3 Sender’s phone number setting If this switch is set to "1", machine disables redial in Transfer function. Used to make a choice of whether the registered sender’s phone number can be changed or not. If the switch is set to "1", new registration of the sender’s phone number is disabled to prevent accidental wrong input. SW-I4 No. 1 ~ No. 4 AGC maximum gain (Line) (10 ~ 25dB) (1dB step) The AGC Maximum Gain limits the gain applied by the AGC. Messages with average energy below the AGC Energy Reference Level will have their average energy level increased by no more than the AGC Maximum Gain. The AGC Maximum Gain should average energy of the message with the lowest average energy to the AGC Energy Reference Level. SW-J1 No. 4 ~ No. 6 Reserved Set to "0". SW-J1 No. 7, No. 8 Ringer volume Used to adjust ringing volume. SW-I4 No. 5 ~ No. 8 AGC maximum gain (Mic) (10 ~ 25dB) (1dB step) SW-J2 No. 1 ~ No. 5 Reserved Set to "0". The AGC Maximum Gain limits the gain applied by the AGC. Messages with average energy below the AGC Energy Reference Level will have their average energy level increased by no more than the AGC Maximum Gain. The AGC Maximum Gain should average energy of the message with the lowest average energy to the AGC Energy Reference Level. SW-J2 No. 6 ~ No. 8 Speaker volume (5 stages) Used to adjust sound volume from a speaker. SW-J3 No. 1 Reserved Set to "0". 2 – 22 FO-CC500A FO-K01A SW-J3 No. 2 ~ No. 4 Communication result printout (Transaction report) SW-N2 No. 1 ~ No. 8 Reserved Set to "0". Every communication, the result can be output. As usual, it is set to print the timer sending communication error alone. If No. 2: 0 No. 3: 1 No. 4: 0 are set, printing is always on (printed even if it is normally ended). SW-N3 No. 1 ~ No. 8 Reserved Set to "0". 000: Error, timer and memory sending/receiving 001: Sending 010: Continuous printing 011: Not printed 100: Communication error SW-J3 No. 5 ~ No. 8 OGM/ICM output level to speaker (0dB ~ -15dB) (1dB step) Used to control OGM and ICM output level to speaker. SW-K1 No.1, No. 2 Reserved Set to "0". SW-K1 No. 3 ~ No. 8 OGM/ICM output level to Line (0dB ~ -32dB) (1dB step) Used to control OGM and ICM output level to Line. SW-L1 No. 1 ~ No. 4 Reserved Set to "0". SW-L1 No. 5 Cut off mode (COPY mode) Whether the excessive part is printed on the next recording paper or discarded is selected to copy a document which is longer than the recording paper. SW-L1 No. 6 A4 Paper enable The use of recording paper of A4 is enabled. SW-L1 No. 7 LEGAL and LETTER paper enable The use of recording paper of LEGAL and LETTER is enabled. SW-L1 No. 8 Reserved Set to "0". SW-L2 No. 1, No. 2 Paper set size At present size of the recording paper. SW-L2 No. 3 Automatic reduce of receive If set to 1, it is reduced automatically when receiving. SW-L2 No. 4 ~ No. 6 Print contrast Used for adjustment of print contrast. SW-L2 No. 7 Reception reduction ratio in case of memory full This model is designed so that the print is started according to the setting of SW-L2 No.3 when reception of one page is completed. However, if the memory is filled with data before completion of reception of one page, the print is started with the reduction ratio which is set with this switch. SW-L2 No. 8 Reserved Set to "0". SW-M1 No. 1 ~ No. 3 Reserved Set to "0". SW-M1 No. 4 ~ No. 7 Default speaker volume in speaker monitor function Used to decide the speaker volume level when speaker monitor function is started. SW-M1 No. 8 Reserved Set to "0". SW-M2 No. 1 ~ No. 8 Reserved Set to "0". SW-N1 No. 1 ~ No. 8 Reserved Set to "0". 2 – 23 FO-CC500A FO-K01A [3] Troubleshooting Refer to the following actions to troubleshoot any of the problems mentioned in 1-4. [1] A communication error occurs. [2] Image distortion produced. [3] Unable to do overseas communication. [4] Communication speed slow due to FALLBACK. • Increase the transmission level SOFT SWITCH A4-1, 2, 3, 4, 5. May be used in case [1] [2] [3]. • Decrease the transmission level SOFT SWITCH A4-1, 2, 3, 4, 5. May be used in case [3]. • Apply line equalization SOFT SWITCH A5-1, 2. May be used in case [1] [2] [3] [4]. • Slow down the transmission speed SOFT SWITCH A2-1, 2, 3, 4. May be used in case [2] [3]. • Replace the LIU PWB. May be used in all cases. • Replace the control PWB. May be used in all cases. * If transmission problems still exist on the machine, use the following format and check the related matters. TO: ATT: Ref.No. : CC: ATT: Date FM: From: Mr. Our customer Other party Problem mode Dept : Sign : ***** Facsimile communication problem ***** Fax Tel No.: Name Address Contact person Name Address Contact person Line: Domestic / international Reception / Transmission Frequency: Confirmation item : Our customer A1 A2 Ref.No.: Date: Model: G3 Automatic reception / Manual reception Automatic dialing / Manual dialing / Others % ROM version: Other party B1 B2 C1 D2 C2 E1 E2 Our service D1 Other party's service Comment Countermeasure **** Please attach the G3 data and activity report on problem. **** * Please complete this report before calling the “TAC” hotline if problem still occurs. 2 – 24 Tel No. Fax No. Model name Tel No. Fax No. Model name Phase: A, B, C, D. Please mark problem with an X. No problem is: 0. A1 A2 B1 B2 C1 C2 D1 D2 E1 E2 Transmission level setting is ( customer Transmission level ( ) dBm Reception level ( ) dBm By level meter at B1 and B2 ) dB at our FO-CC500A FO-K01A [4] Error code table 1. Communication error code table G3 Transmission Code Final received signal Error Condition (Receiver side) 0 Incomplete signal frame Cannot recognize bit stream after flag 1 NSF, DIS Cannot recognize DCS signal by echo etc. 2 CFR Cannot recognize NSS signal (FIF code etc) Disconnects line during reception (carrier missing etc) 3 4 FTT MCF Disconnects line by fall back Disconnects line during reception of multi page 5 PIP or PIN Cannot recognize NSS, DCS signal in the case of mode change The line is hung up without replying to telephone request from the receiving party. 6 RTN or RTP Cannot recognize NSS, DCS signal after transmit RTN or RTP signal. 7 8 No signal or DCN − No response in receiver side or DCN signal received* (transmitter side) Owing to error in some page the error could not be corrected although the specified number of error retransmissions were attempted. 11 − Error occurred after or while reception by the remote (receiving) machine was revealed to be impossible. 12 − Error occurred just after fallback. 13 − Error occurred after a response to retransmission end command was received. G3 Reception Code 0 Final received signal Incomplete signal frame Error Condition (Receiver side) Cannot recognize bit stream after flag 1 NSS, DCS 2 NSC, DTC Cannot recognize CFR or FTT signal Disconnects line during transmission (line error) Cannot recognize NSS signal (FIF code etc) 3 EOP Cannot recognize MCF, PIP, PIN, RTN, RTP signal 4 5 EOM MPS Cannot recognize MCF, PIP, PIN, RTN, RTP signal in the case of mode change The line is hung up without replying to communication request. 6 7 PR1-Q No signal or DCN Cannot recognize PIP, PIN signal in the case of TALK request No response in transmitter (cannot recognize DIS signal) or DCN signal received* (receiver side) 8 9 − − Error occurred upon completion of reception of all pages. Error occurred when mode was changed or Transmission/Reception switching was performed. 10 11 − − Error occurred during partial page or physical page reception. Error occurred after or during inquiry from the remote (transmitting) machine as to whether 12 − reception is possible or not. Error occurred during or just after fallback. 13 − Error occurred after the retransmission end command was received. 2 – 25 FO-CC500A FO-K01A 3-2. Automatic document feed CHAPTER 3. MECHANISM BLOCKS 1) Use of the paper feed roller and separate plate ensures error-free transport and separation of documents. The plate spring presses the document to the paper feed roller to assure smooth feeding of the document. [1] General description 2) Document separation method: Separate plate 1. Document feed block and diagram Document Document guide upper Paper feed plate Front sensor Separate rubber Document Document sensor Separate plate Back roller Paper feed roller Paper feed roller Fig. 3 CIS 3-3. Documents applicable for automatic feed 10 sheets 1sheet(Manual) 70 kg 70 kg ~ 135 kg 21.5 lbs. 14 lbs. ~ 42 lbs. (80 g/m2) (52 g/m2 ~ 157g/m2 ) Paper thickness (ref.) 0.1 mm 0.1 mm ~ 0.18mm Paper size LGL 8.5” x 14”(216 mm x 355.6 mm) A4 8.27” x 11.7”(210 mm x 297 mm) LTR 8.5” x 11”(216 mm x 279 mm) Feeder capacity A4/LTR: 10 sheets LGL : 1 sheet Paper weight Fig. 1 2. Document feed operation 1) The original, which is set in the document hopper, feeds automatically when the front sensor is activated. This in turn activates the pulse motor which drives the document supply roller. The document stops when the lead edge is detected by the document sensor. 2) The lead edge of the original is fed a specified number of pulses after the lead edge of the document is detected for the reading process to begin. NOTE: Double-side coated documents and documents on facsimile recording paper should be inserted manually. The document feed quantity may be changed according to the document thickness. 3) The trailing edge of the original is fed a specific number of pulses after the trailing edge of the document deactivates the document sensor. The read process then stops and the original is discharged. Documents corresponding to a paper weight heavier than 70 kg (81.4g/ m 2 ) and lighter than 135 kg (157 g/m2 ) are acceptable for manual feed. 4) When the front sensor is in the OFF state (any document is not set up in the hopper guide), the drive will be stopped when the document is discharged. Documents heavier than 135 kg in terms of the paper weight must be duplicated on a copier to make it operative in the facsimile. 3-4. Loading the documents 3. Hopper mechanism 1) Make sure that the documents are of suitable size and thickness, and free from creases, folds, curls, wet glue, wet ink, clips, staples and pins. 3-1. General view 2) Place documents face down in the hopper. i) Adjust the document guides to the document size. ii) Align the top edge of documents and gently place them into the hopper. The first page under the stack will be taken up by the feed roller to get ready for transmission. NOTES: 1) Curled edge of documents, if any, must be straightened out. 2) Do not load the documents of different sizes and/or thicknesses together. Fig. 2 The hopper section contains document guides that are used to adjust the hopper to the width of the original document. This ensures that the original feeds straight into the fax machine for scanning. Document width: 148 mm to 216 mm (A5 longitudinal size to Letter longitudinal size) NOTE: Adjust the document guide after setting up the document. 3–1 FO-CC500A FO-K01A 2) Structure of recording mechanism Back of document Recording is achieved by applying a suitable pressure to the thermal head through the imaging film of the recording paper feed roller and the recording paper. The main scanning is electronically performed, and the sub-scanning is mechanically performed (by sending the recording paper with the recording paper feed roller). Last page of document Paper feed plate First page of document 3) Recording paper transfer sequence Separate rubber a) The recording paper stored in the paper tray ass’y is fed with the PU roller, and is stopped when the P-IN sensor is turned on by sensing its lead edge. Separate plate b) Hereafter, the imaging film and recording paper are transferred with the recording paper feed roller, and thermal transcription is performed on the recording paper. Paper feed roller c) After thermal transcription, the imaging film is taken up by the roller on the take-up side, and the recording paper is discharged by the back roller. Fig. 4 Uneven image density can be caused by a longitudinal misalignment of the thermal head to the heater line. Otherwise, the head is in uneven contact with the recording paper feed roller, or the imaging film is wrinkled. 3-5. Documents requiring use of document carrier 1) Documents smaller than 148mm (W) x 140mm (L). The following items are described as the simplified checking method. 1 Are the power and signal cables of the thermal head suitably treated? 2 Does the same symptom appear even if the thermal head pressure 2) Documents thinner than the thickness of 0.06mm. 3) Documents containing creases, folds, or curls, especially those whose surface is curled (maximum allowable curl is 5mm). spring is replaced? 3 Is the feed roller of the recording paper concentric? (Density is un- 4) Documents containing tears. even at intervals.) 5) Carbon-backed documents. (Insert a white sheet of paper between the carbon back and the document carrier to avoid transfer of carbon to the carrier.) 4 Does the same symptom appear even if the thermal head is replaced? 5 Is the imaging film stained or wrinkled? 6) Documents containing an easily separable writing material (e.g., those written with a lead pencil). 5-3. General view 7) Transparent documents. 8) Folded or glued documents. Document in document carrier should be inserted manually into the feeder. Paper tray extension (Accessory) 4. Document release 4-1. General To correct a jammed document or to clean the document running surface, pull the insertion side of document center of the operation panel. To open the upper document guide, the operation panel must be opened first. Feed plate Paper tray ass'y (Accessory) Separate rubber P-IN sensor lever (Upper) 5. Recording block Platen roller 5-1. Driving In the drive mechanism, the rotating force of the pulse motor for both transmission and reception is transmitted to the paper supply roller, the recording paper feed roller and imaging film drive gear through the pulse motor axle gear, reduction gear and planetary gear. PU roller Release lever 5-2. Recording Imaging film (Supply side) Thermal head Film sensor lever This equipment employs the thermal transcription system which uses the thermal head imaging film. Imaging film (Take-up side) 1) Thermal head Fig. 5 The thermal head is composed of 2,016 heating elements in traverse line, and the resolution power is 8 dots/mm. The maximum speed is 10 ms/line. 3–2 FO-CC500A FO-K01A [2] Disassembly and assembly procedures • • This chapter mainly describes the disassembly procedures. For the assembly procedures, reverse the disassembly procedures. • • The numbers in the illustration, the parts list and the flowchart in a same section are common to each other. Easy and simple disassembly/assembly procedures of some parts and units are omitted. For disassembly and assembly of such parts and units, refer to the Parts List. To assure reliability of the product, the disassembly and the assembly procedures should be performed with care. 1 Bottom plate, PWB’s and drive unit Parts list (Fig. 1) No. Q’ty No. Qty No. Q’ty No. 1 Mechanism unit Part name 1 7 Hook Part name 1 13 Cordless PWB unit 1 18 Hook 1 2 Screw (3×10) 5 8 Connector 1 14 Screw (3×10) 1 19 Control PWB unit 1 3 Screw 1 9 Power supply PWB unit 1 15 Connector 1 20 Wire hold PWB 1 4 Washer 1 10 Antenna cable 1 16 LIU PWB unit 1 21 Screw (3×10) 2 5 AC cord earth cable 1 11 Screw (3×10) 2 17 Connector 6 22 Drive unit 1 6 Bottom plate 1 12 Connector 1 Part name Part name 2 2 2 5 AC cord 11 10 9 11 16 4 3 8 Pull 13 6 5 14 20 15 17 17 12 Push 17 19 17 20 21 16 7 18 1 Fig. 1 3–3 22 21 Qty FO-CC500A FO-K01A 2 Parts list (Fig. 2) Operation panel unit, top cover unit and sub frame unit No. NOTE: For disassembly of the inside of the unit, refer to the exploded view in the parts guide. Qty No. 1 Mechanism unit Part name 1 6 Operation panel unit Part name Qty 2 Stopper plate 1 7 Screw (3×10) 2 3 Operation panel unit/ 8 Hook 7 top cover unit/ sub frame unit 1 9 Top cover unit 1 4 Interface PWB cover 1 10 Sub frame unit 1 5 Screw (3×12) 4 1 Operation 6 panel unit 8 8 10 Sub frame unit 8 5 P-IN lever 5 9 Top cover unit 7 8 8 8 5 5 7 8 3 Screwdriver 4 Hook Screwdriver 2 1 Fig. 2 3–4 NOTE: When removing the operation panel unit, detach the stopper plate at first. FO-CC500A FO-K01A 3 CIS unit and thermal head unit Parts list (Fig. 3) No. NOTE: For disassembly of the inside of the unit, refer to the exploded view in the parts guide. Qty No. 1 Mechanism unit Part name 1 5 CIS unit Part name Qty 1 2 Screw (3×10) 1 6 Head cover 1 3 Earth sheet 1 7 Thermal head unit 1 4 Static brush 1 2 3 Screwdriver 4 5 CIS unit Hook 6 (200 g) Hook Hook (400 g) 7 Thermal head unit (700 g) (800 g) (700 g) (200 g) (400 g) 1 Fig. 3 3–5 FO-CC500A FO-K01A 4 Wire treatment Parts list (Fig. 6) No. Part name Qty 1 Screw (4×6) 1 2 Band (100mm) 3 3 Core (F2125) 1 4 Screw 1 3 : The Interface cable pass Bottom plate to the core 3 times. AC cord earth cable AC cord Figure for setting the Speaker Hold Spring 1 Wire hold PWB LIU PWB Power supply PWB Head cable 2 Speaker Hold Spring Drive unit 3 Speaker Speaker Motor cable Cam switch cable Speaker cable Antenna cable CIS cable Cordless PWB Panel cable 4 Drive unit Control PWB Rib Rib Motor cable Cam switch cable Operation panel unit Top cover unit 2 Panel cable Thermal head CIS cable Head cable Scanner frame Rib Panel cable Rib Head cable Tape Rib 2 Tape Rib Wire hold PWB Fig. 6 3–6 FO-CC500A FO-K01A 5 Cordless handset Parts list (Fig. 7) No. Qty No. 1 Cordless handset unit Part name 1 8 Screw (2x6) Part name 1 2 Battery cover 1 9 Screw (2x8) 2 3 Connector 1 10 Hook 2 4 Battery 1 11 LCD flat cable 1 5 Screw (2x8) 4 12 LCD holder 1 6 Solder 2 13 Cordless handset PWB unit 1 7 Back cabinet 1 2 9 1 8 4 3 Front cabinet 5 7 11 Hook RF unit 6 Hook 13 Hook Hook 10 Front cabinet Plastic plate (About 0.5mm) NOTE: Insert the plastic plate between the front and back cabinets and move it in the direction indicated by the arrow until it clicks and move it further until it clicks again. (3 places for one side) Fig. 7 3–7 12 Qty SPEAKER HANDSET LINE CML 4–1 DRAM 4MBIT 32.768kHz +3.3V VREG +24V CI FLASH ROM 4MBIT(PROGRAM) +3.3V REGULATOR SPEAKER AMPLIFIER KEY LCD INI CONTROLLER TIMER WATCH DOG TIMER PIO SIO CPU MC24 SRAM RTC FAX ENGINE SCE214V ANALOG SW BLOCK AMPLIFIER TRANSFORMER FLASH MEMORY 4MBIT(SERIAL I/F) CI DETECT AMPLIFIER POWER SUPPLY UNIT CONTROL PWB CPC DETECT SURGE PROTECT/ FILTER LIU PWB READING PROCESSOR (PADC) MODEM SIO PANEL PWB CIS I/F MOTOR I/F SENSOR I/F THERMAL HEAD I/F PANEL I/F CODEC IA(20438) 32.256MHz I/F CODEC IA(20438) SIO DSP MERLIN VREG +3.3V REGULATOR CORDLESS PWB DRIVER OSC CPU MC19 VREG +3.3V REGULATOR RF MODULE THERMAL HEAD P-IN/FILM SENSOR CAM SW SENSOR ORG/FRT SENSOR MOTOR CIS 19.2MHz TCXO INVERTER BASE BAND MODEM RF IF RAM FLASH ROM EEPROM ANTENNA FO-CC500A FO-K01A CHAPTER 4. DIAGRAMS [1] Block diagram (Fax machine) 4–2 EARPHONE JACK RCA JACK LED TERMINAL SIO KEYPAD GPIO RAM CODEC IF DSP MERLIN POWER REGULATOR +6.0V AMPLIFIER CODEC IA(20438) CRADLE UNIT SPEAKER AMPLIFIER CORDLESS HANDSET PWB AC ADAPTOR LCD KEY MICROPHONE RECEIVER SPEAKER OSC CPU MC19 TERMINAL 19.2MHz TCXO INVERTER PARK DETECT LOW BAT DETECT BASE BAND MODEM RF IF PARK DETECTOR LOW BAT DETECTOR BATTERY CHARGER FLASH ROM 512KBITS EEPROM 4KBITS REGULATOR VCC +3.3V BATTERY CONNECTOR RF MODULE BATTERY ANTENNA FO-CC500A FO-K01A Block diagram (Cordless handset) 4–3 CNLCD OPERATION PANEL PWB UNIT 14 LCD UNIT CNPN-A CONTACT IMAGE SENSOR THERMAL HEAD FAX MACHINE 7 15 16 CNCIS CNTH TX/RX MOTOR CNCSW 2 CN101 UNIT1 RF MODULE 2 CN4 13 CNPW CNLIUA CNSP 2 SPEAKER CORDLESS PWB UNIT CN1 CNDSS CONTROL PWB UNIT ANTENNA CNPN CNMT 6 CAM SW 6 14 CNTLJ CNLNJ POWER SUPPLY PWB UNIT CNPW CNLIUA LIU PWB UNIT CNHJ 4 AC CORD EXTERNAL LINE TEL LINE HANDSET SPEAKER ANTENNA 2 CORDLESS HANDSET PWB UNIT CN101 22 LCD UNIT CN1 2 BATTERY RECEIVER 2 CORDLESS HANDSET FO-CC500A FO-K01A [2] Wiring diagram FO-CC500A FO-K01A [3] Point-to-point diagram (Fax machine) CNMT TX/RX MOTOR TPBDTPADTPBD TPAD VMT VMT 1 2 3 4 5 6 THERMAL HEAD VTH VTH STRB1STRB2THI RANK THG THG THG THVDD STRB3STRB4LATCHPCLK DATA VTH 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 OPERATION PANEL PWB CIS CNPN-A KEN4A 1 KEN3A 2 KEN2A 3 KEN1A 4 DG 5 +3.3V 6 ORGSNS- 7 FRSNS8 E 9 SEN0 10 SEN1 11 SEN2 12 SEN3 13 SEN4 14 SEN5 15 SEN6 16 VO VG CISVDD øT CISCLK GLED +24V 1 2 3 4 5 6 7 1 2 3 4 5 6 TPBDTPADTPBD TPAD VMT VMT CNTH VTH 1 STRB12 STRB23 THI 4 RANK 5 THG 6 THG 7 THG 8 THVDD 9 10 STRB311 STRB412 LATCHPCLK 13 DATA 14 VTH 15 CNPN KEN4A 1 KEN3A 2 KEN2A 3 KEN1A 4 DG 5 +3.3V 6 7 ORGSNSFRSNS8 E 9 SEN0 10 SEN1 11 SEN2 12 SEN3 13 SEN4 14 SEN5 15 SEN6 16 CNLIUA 1 RHS2 MAG 3 +24VL MICMUTE 4 5 TELIN TELMUTE 6 7 RXIN 8 TXOUT 9 CML 10 PIN 11 FILM 12 CI13 HSTELOUT 14 CNLIUA 1 RHS2 DG 3 +24VL 4 MICMUTE 5 TELIN 6 TELMUTE 7 RXIN LIU PWB 8 TXOUT 9 CML 10 PIN 11 FILM 12 CI 13 HS-(N.C.) 14 TELOUT CNDSS 1 DG 2 DG 3 VREG 4 VREG 5 CI 6 SRLRX 7 SRLTX 8 PARK 9 DSSIN DSSOUT 10 11 INCOM 12 DSSTX 13 DSSRX CN1 1 2 3 4 5 6 7 8 9 10 11 12 13 CNPW +24V 1 +24V 2 MG 3 MG 4 DG 5 +5V 6 CNCIS VO 1 VG 2 CISVDD 3 øT 4 CISCLK 5 GLED 6 +24V 7 CNPW 1 2 3 4 5 6 +24V +24V MG MG DG +5V POWER SUPPLY PWB CAM SWITCH CNCSW 1 CSW2 DG 1 2 CSWDG CNSP 1 2 1 2 SP+ SP– SP+ SP– CONTROL PWB 4–4 DG DG VREG VREG CI SRLRX CORDLESS PWB SRLTX PARK DSSIN DSSOUT INCOM DSSTX DSSRX SPEAKER FO-CC500A FO-K01A Point-to-point diagram (Cordless handset) LCD UNIT LCDRS LCDRW LCDE LCDCS ROW7 ROW6 ROW5 ROW4 +3.3V V4 V3 V2 V1 V0 VR VOUT CAP2– CAP2+ CAP1– CAP1+ VSS RESETB 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 CORDLESS HANDSET PWB CN101 LCDRS 1 LCDRW 2 LCDE 3 LCDCS 4 ROW7 5 ROW6 6 ROW5 7 ROW4 8 +3.3V 9 V4 10 V3 11 V2 12 V1 13 V0 14 VR 15 VOUT 16 CAP2– 17 CAP2+ 18 CAP1– 19 CAP1+ 20 VSS 21 RESETB 22 VBAT DG MIC1 MICROPHONE CN1 1 2 AG LINOUT LINEIN N.C. EMJCHK J1 1 2 3 4 5 1 2 VBAT DG BATTERY 1 2 SP+ SP– SPEAKER HEADSET JACK RECEIVER 4–5 FO-CC500A FO-K01A 3. Operational description CHAPTER 5. CIRCUIT DESCRIPTION Operational descriptions are given below: • [1] Circuit description When a document is loaded in stand-by mode, the state of the document sensor is sensed via the 1 chip fax engine (SCE214V). With depression of the START key in the off-hook state, transmission takes place. Then, the procedure is sent out from the modem and the motor is rotated to move the document down to the scan line. In the scan processor, the signal scanned by the CIS is sent to the internal image processor and the AD converter to convert the analog signal into binary data. This binary data is transferred from the scan processor to the image buffer within the RAM and encoded and stored in the transmit buffer of the RAM. The data is then converted from parallel to serial form by the modem where the serial data is modulated and sent onto the line. 1. General description The compact design of the control PWB is obtained by using CONEXANT fax engine in the main control section and high density printing of surface mounting parts. Each PWB is independent according to its function as shown in Fig. 1. 2. PWB configuration MOTOR • LCD CIS CONTROL PWB First, the SCE214V controls the procedure signals from the modem to be ready to receive data. When the program goes into phase C, the serial data from the modem is converted to parallel form in the modem interface of the 1 chip fax engine (SCE214V) which is stored in the receive buffer of the RAM. The data in the receive buffer is decoded software-wise to reproduce it as binary image data in the image buffer. The data is DMA transferred to the recording processor within the SCE214V which is then converted from parallel to serial form to be sent to the thermal head. The data is printed line by line by the SCE214V which is assigned to control the motor rotation and strobe signal. PANEL PWB CORDLESS HANDSET PWB Receive operation There are two ways of starting reception, manual and automatic. Depression of the START key in the off-hook mode in the case of manual receive mode, or CI signal detection by the LIU in the automatic receive mode. LIU PWB POWER SUPPLY PWB Transmission operation AC CORD CORDLESS PWB • CRADLE UNIT Copy operation To make a copy on this facsimile, the COPY key is pressed when the machine is in stand-by with a document on the document table and the telephone set is in the on-hook state. First, depression of the COPY key advances the document to the scan line. Similar to the transmitting operation, the image signal from the CIS is converted to a binary signal in the DMA mode via the 1 chip fax engine (SCE214V) which is then sent to the image buffer of the RAM. Next, the data is transferred to the recording processor in the DMA mode to send the image data to the thermal head which is printed line by line. The copying takes place as the operation is repeated. Fig. 1 1) Control PWB The control PWB controls peripheral PWBs, mechanical parts, transmission, and performs overall control of the unit. This machine employs a 1-chip modem (SCE214V) which is installed on the control PWB. 2) LIU PWB This PWB controls connection of the telephone line to the unit. 3) Power supply PWB This PWB provides voltages of +5V and +24V to the other PWBs. 4) Panel PWB The panel PWB allows input of the operation keys. 5) LCD PWB This PWB controls the LCD display. 6) Cordless PWB This PWB performs a communication with remote cordless handset by 2.4 GHz radio frequency and is connected with FAX MACHINE on the control PWB by using it is serial I/F. 7) Cordless handset PWB This PWB is for a cordless handset and is communicated with cordless PWB by 2.4 GHz radio frequency. To communicate, both Cordless PWB and Cordless Handset PWB have common system ID. 8) Cradle unit This PWB has a 3-terminals regulator. The input voltage AC adaptor is transformed about +6.5 volt output. 5–1 FO-CC500A FO-K01A 4) External RAM and ROM [2] Circuit description of control PWB Moveable and programmable size external SRAM memory of up to 1 MB, DRAM memory of up to 4 MB, and ROM of up to 4 MB can be directly connected to the SCE214V. By using an external address decoder, the size of SRAM and/or ROM can be extended. The ROM stores all the program object code. 1. General description Fig. 2 shows the functional blocks of the control PWB, which is composed of 4 blocks. (1) SCE214V IA(20438) MEMORY(SRAM) 5) Flash Memory Controller (2) FLASH ROM The SCE214V includes a flash memory controller that supports NOR, NAND, and Serial NAND-type flash memory. The supported size of NORtype memory is up to 1 MB and the supported size of NAND-type memory is unlimited. (3) DRAM 6) Stepper Motor Control (4) FLASH MEMORY Eight outputs are provided to external current drivers: four to the scanner motor and four to the printer motor. The stepping patterns are programmable and selectable line times are supported. A timeout circuit controls the power control of the motors. The printer or scanner motor outputs can be programmed as GPOs for applications using single motor or paper printers. Fig. 2 Control PWB functional block diagram 7) T.4/T.6 Compressor/Decompressor 2. Description of each block MH, MR and MMR compression and decompression are provided in hardware. T.4 line lengths of up to 8192 pixels are supported. MMR and Alternating Compression/Decompression (ACD) on a line by line basis provide support for up to three independent compression and decompression processes. (1) Main control block The main control block is composed of CONEXANT 1 chip fax engine (SCE214V), FLASH ROM (4Mbit), DRAM (4Mbit) and FLASH MEMORY (4Mbit). Devices are connected to the bus to control the whole unit. 8) Bi-level Resolution Conversion 2) SST39VF040P (IC1): pin-32 TSOP (FLASH ROM) One independent programmable bi-level 1D-resolution conversion block is provided to perform expansion or reduction on the T.4 decompressed data and scan image data. Image expansion can be programmed up to 200% and reduction down to 33%. Vertical line O-Ring and data output bit order reversal is also provided. FLASH of 4Mbit equipped with software for the main CPU. 9) Printer IF 3) MSM51V4800E (IC2): pin-28 SOJ (DRAM) The Printer Interface provides a standard connection between the SCE214V and a thermal printhead to support thermal printing or thermal transfer. The thermal printer interface consists of programmable data, latch, clock, and up to four strobe signals. Programmable timing supports traditional thermal printers, as well as the latchless split mode printers, and line lengths of up to 2048 pixels. Line times from 5 ms to 40 ms are supported. The SCE214V includes a thermal ADC (TADC) function utilizing a D/A converter and a comparator to monitor the printhead temperature. External terminating resistors must be supplied; the values are determined by the specific printhead selected. As an option, plain paper inkjet printing can be supported. 1) SCE214V (IC3) : pin-176 QFP (FAX CONTROLLER) 1 chip fax engine has Internal Integrated Analog (20438) and Internal memory (SRAM : 32kbit). • Image memory for recording process. 4) K9F4008W0A (IC8): pin-44 TSOP (FLASH MEMORY) A 512 k x 8bit NAND FLASH MEMORY to store the voice and image data when using memory function. (2) IC3 (SCE214V) Hardware description A) CONTROL BLOCK 1) Integrated Controller (SCC) The Controller contains an internal MC24 Processor with a 16-MB address space and dedicated circuitry optimized for facsimile image processing and monitoring and for thermal or thermal transfer printer support. The CPU provides fast instruction (up to 10 MHz clock speed) execution and memory efficient input/output bit manipulation. The CPU connects to other internal functions over an 8-bit data bus and 24-bit address bus and dedicated control lines. The 24-bit external address bus, 8-bit data bus, control, status and decoded chip select signals support connection to external ROM, SRAM, DRAM, and FLASH memory. 10) TPH Hardware Timer The TPH hardware timer provides a 500 ms timer that can be re-triggered or reset. 11) Scanner and Video Control Five programmable control and timing signals support common CCD and CIS scanners. The video control function provides signals for controlling the scanner and for processing its video output. Three programmable control signals (START, CLK1n, and CLK2) provide timing related to line and pixel timing. These are programmable with regard to start time, relative delay and pulse width. Two video control output signals (VIDCTL[1:0]) provide digital control for external signal pre-processing circuitry. These signals provide a per pixel period, or per line period, timing with programmable polarity control for each signal. 2) DRAM Controller The CX06835 includes a DRAM controller with signal and page mode access support which supports fast, normal, or slow refresh time. DRAM memory space is provided in one block up to 4 MB. A maximum of 4 MB of DRAM is supported. This space has a programmable size and starting address. Refresh is performed automatically and is supported in stand-by mode. CAS and RAS signal support is provided for one-DRAM banks for both 4-bit and 8-bit organizations. Access speeds from 50ns to 70ns can be supported. 3) DMA Channels Six internal DMA channels support memory access for scanner, T.4/T.6, and resolution conversion. DMA Channel 2 can be reprogrammed for external access to thermal printing, thermal transfer, or plain paper inkjet printing. 5–2 FO-CC500A FO-K01A 12) Video Processing 20) Power Up/Down Control The CX06835 supports two modes of shading correction for scanner data non-uniformity arising from uneven sensor output or uneven illumination. Corrections are provided on either an 8-pixel group or are applied separately to each pixel. Dark level correction and gamma correction are also provided. Two-dimensional Error Diffusion/Dithering is performed on halftone images. The CX06835 includes an 8 x 8 dither table, which is programmable and stored internally (8-bit per table entry). The table is arranged in a matrix of 8 rows by 8 columns. The video processing circuit provides mixedmode detection/processing and multi-level Resolution Conversion for the scanner multi-level data. The conversion ratio of the multi-level Resolution Conversion is fixed to B4-A4 conversion. Power Up/Down detection is provided internally. The threshold voltages are: • Power Up detection level = 2.83V to 2.95V. An internally generated power down signal controls internal switching between primary and battery power. This control signal is also provided as an output on the PWRDWNn pin. An externally generated power down detector (optional) can be provided as an input on the PWRDWNn pin by setting the INTPWRDWNEn pin. 21) Stand-by and Sleep Modes Two power saving modes are provided to reduce the power consumption. In stand-by mode, the CPU is functional, but the modem clock is turned off to save power. When this occurs, the modem may be activated by software under different conditions. In sleep mode, the clock is cut off from both the modem and the CPU to increase the power savings. The system can be activated by paper insertion, key pressing events, and telephone ring detection. 13) Operator Panel Interface Operation Panel functions are supported by the operator output bus OPO[6:0], the operator input bus OP[3:0], and two control outputs (LCDCS and LEDCTRL). The CX06835 can directly interface to a 28-key keypad. A 2-line LCD display module with 20 characters per line can be supported. 22) Embedded Modem DSP The embedded modem DSP is a synchronous 9600 bps half-duplex modem with error detection and DTMF generation/reception. It provides data transmission/reception from regular PSTN lines, PBX, or private lines. The modem can operate at any standard V.29 data speed up to 9600 bps as well as in V.21 and V.23 modes. The modem is designed for use in Group 3 facsimile machines. It satisfies the requirements specified in ITU-T recommendations V.29, V.27ter, V.21 Channel 2, and T.4 , and meets the signaling requirements of T.30. It also performs HDLC framing according to T.30 at all speeds. 14) Synchronous Serial Interface (SSIF) One or optionally two Synchronous only Serial Interfaces (SSIF) are built into the CX06835, which allows it to communicate with external peripherals. Each SSIF provides separate signals for Data (SSTXD, SSRXD), Clock (SSCLK), and Status (SSSTAT). Each SSIF is a duplex, three-wire system. The SSIF may be configured to operate as either a master or a slave interface. The bit rate, clock polarity, clock phase, and data shifting order are programmable. 15) Synchronous/Asynchronous Serial Interface (SASIF) Note: For technical details, refer to the FM209/FM214 Designer’s Guide, (document 1175). One or optionally two Synchronous/Asynchronous Serial Interface (SASIF) performs the following: • Serial-parallel conversion of data received from a peripheral device. • Parallel-to-serial conversion of data for transmission to a peripheral device. This interface consists of serial transmit data (SASTXD), serial receive data (SASRXD), and a serial clock(SASCLK). The SASIF includes a programmable bit rate generator for asynchronous and synchronous operations. The data shifting order, data bit number, and the SASCLK polarity are programmable. The optional SASIF 2 has an additional pin called DSS_AVAIL. This signal can be used to tristate the SASCLK2 and SASTXD2 signals. 23) Software and Firmware Support Features Available software and embedded firmware provides the following: • Modem support for speeds up to 9600 bps. • ECM under conditional assembly. • DRAM memory support under conditional assembly. • MH, MR and MMR support. • Page memory receiving. • 5 ms minimum scan line time. • Conditional Error Diffusion or Dither table (8x8) support. • Dark Level Correction support. • Single motor support. • 28-key operator panel support. • Call progress support for Europe and U.S.A. • Monochrome inkjet print engine support. 16) Real Time Clock (RTC) The CX06835 includes a battery backup real time clock. The RTC will automatically maintain the proper date and time for 32 years. Leap year compensation is included. A 32.768 kHz or 65.536 kHz crystal is required by the RTC. 17) Tone Generator (ALT_TONE) The CX06835 provides a programmable tone generator output. The frequency of the tone generator is programmable from 400 Hz to 4 kHz. By using a PWM programmable high frequency as a modulation frequency, the output level can be made programmable. 18) Watchdog Timer The Programmable Watchdog Timer is intended to guard against firmware lockup on the part of either executive-controlled background tasks or interrupt-driven tasks, and can only be enabled by a sequence of events under control of the Watchdog Control Logic. Once the Watchdog Timer has been enabled, it can not be disabled unless a system reset occurs. 19) Reset and Power Control The RESETn I/O pin provides an internally generated reset output to external circuits, or it can accept an externally generated reset signal. This reset signal will not reset the RTC. Separate RTC battery power inputs are provided for battery-backup functions. A BATRSTn pin is provided, which resets the RTC circuits and other SCC circuits. 5–3 FO-CC500A FO-K01A B) Modem block 4) Features 1) Facsimile Modem • Group 3 facsimile transmission/reception The modem can operate at 14400, 12000, 9600, 7200, 4800, 2400, or 300 bps, and can perform HDLC framing per T.30 at all rates. A programmable DTMF detector, three programmable tone detectors, V.21 Channel 2 FSK 7E flag detector, Caller ID demodulator and ring detector are provided. - ITU-T V.17 and V.33 - ITU-T V.29, V.27 ter, T.30, V.21 Channel 2, T.4 - ITU-T V.17 and V.27 ter short train - HDLC framing at all speeds 2) Voice and Audio Codecs - Receive dynamic range: 0 dBm to -43 dBm - Automatic adaptive equalization - Fixed and programmable digital compromise equalization - DTMF detect and tone detect - ITU-T V.21 Channel 2 FSK 7E Flag Detect - Ring detector Programmable transmits level - Programmable single/dual tone transmission The voice coder/decoder (codec) compresses voice at an average rate of 2.9 kbps which provides 24 minutes of stored voice messages in 4 Mbits of memory. But for FO-CC500A, a part of memory is used for other uses. So the total recording time is shortened at about 20 minutes. This voice codec allows the host controller to efficiently store and playback digital incoming messages (ICMs), outgoing messages (OGMs). The ADPCM audio codec compresses audio signals (music/voice) at 32 kbps or 24 kbps and the PCM audio codec records audio signals at 128 kbps or 64 kbps for highest fidelity coding and reproduction. • Voice codec Selectable error correction coding allows storage in audio grade RAMs (ARAMs). Echo cancellation techniques employed during playback allow DTMF tone and Type II Caller ID CAS detection during voice/audio codec operation to support user selectable features. The coder can record messages from the PIA or SIA. The decoder can playback messages to the PIA or both the PIA and SIA. Dual/signal tone transmission is available when the decoder is disabled. - 24 minutes of voice storage per 4 Mbit memory - Near toll quality voice recording and playback - Programmable AGCs - Programmable line/microphone input and line/speaker output filters - Error correction coding allows ARAM usage 3) V.23 Full-duplex Modem and Caller ID - DTMF detect, tone detect, and tone transmit Both full-duplex transmit and receive (with asymmetric 1200/75 bps connection) and half-duplex (1200 bps) asynchronous V.23 are supported, as will as both serial and parallel interfaces to the modem. The V.23 algorithm includes an optional, programmable. receive compromise equalizer which is active in both V.23 and Caller ID (V.23 Receive only) modes. - Type II Caller ID CAS detection - Pitch synchronized fast and slow playback - Near-end echo cancellation • Common applications for V.23 include France’s Minitel and Japan’s Lowest Cost Routing. • • ADPCM Audio codec - High fidelity recording and playback of audio signals - 32 kbps and 24 kbps - Programmable AGCs - Programmable line/microphone input and line/speaker output filters - DTMF detect, tone detect, and tone transmit - Type II Caller ID CAS detection - Near-end echo cancellation PCM audio codec - 128 kbps and 64 kbps - DTMF detect and tone detect - Type II Caller ID CAS detection - Near-end echo cancellation V.23 and Type I Caller ID - Full-duplex modes: TX = 75 bps. RX = 1200 bps TX = 1200 bps. RX = 75 bps - Half-duplex mode: TX = RX = 1200 bps • 5–4 - Serial and parallel data modes Programmable parallel data mode - 5, 6, 7, or 8 data bits - 1 or 2 Stop bits - Mark, Space, Even, or Odd Parity - Break function - Transmitter squelch - Compromise equalizer 3.3V/5V operation FO-CC500A FO-K01A 5) Integrated Analog Control Resisters for 20438 The 20438 IA can be used as a Primary Integrated Analog (PIA) codec or as a Secondary Integrated Analog (SIA) codec, depending on the signal connection with the SCE Controller ASIC device. In the SCE100 product, both the PIA and the SIA are packaged external to the SCE Controller device, whereas in the SCE214V, the PIA is packaged with the SCE214V Controller and the SIA is external. The 20438 IA provides gain, filtering, internal analog switching, and an internally sourced microphone bias output. The IA is controlled by three control registers and an address register located in internal RAM space which are accessed via the modem interface memory. These registers provide individual controls for the IA’s inputs, outputs, gain settings, and switching. The registers are located in internal DSP RAM. Each bit of each 8-bit IA control register has exactly the same meaning for the PIA and the SIA. The LSB of each 16-bit address contents is used to control the PIA. The MSB of each 16-bit address contents is used to control the SIA. The following table the PIA/SIA control register RAM access code. Register SBRAMx BRx Crx IOx AREXx ADDx PIA Reg* SIA Reg* IACR1 0 0 0 0 0 D0 0 1 IACR2 0 0 0 0 0 D4 0 1 IACR3 0 0 0 0 0 D5 0 1 IAADD 0 0 0 0 0 CE 0, 1 0, 1 NOTES: *Registers to use when x=1. When x=2, add 10h. • For changes made to IACR1 tobe effective, the host must write to IAADD with a value of 0002h. • For changes made to IACR2 tobe effective, the host must write to IAADD with a value of 0006h. • For changes made to IACR3 tobe effective, the host must write to IAADD with a value of 0007h. Configuration default values are shown below. DEFAULT VALUE CONFIGURATION IACR1 IACR2 IACR3 V.17/V.33 1D9Eh 0008h 0000h V.29 1D9Eh 0008h 0000h V.27ter 1D9Eh 0008h 0000h V.21 Ch. 2 1D9Eh 0008h 0000h V.23/Caller ID 1D9Eh 0008h 0000h Tone Transmit/Detect 1D9Eh 0008h 0000h Voice/Audio Codec 0D16h 0008h 0000h Speakerphone 0D16h 0008h 0000h The following signal flow block diagram is for a signal IA and it applies to both PIA and SIA. LINE IN ENABLE MIC ENABLE MICM LINEIN MIC/LINE SELECT MICP GAIN LPF ADC 0, 20, 25, 30 dB(MIC IN) 0dB(LINE IN) SOUT 0, +4 dB LINE OUT ENABLE (1,0) (1,1) LINE OUT LINE IN SELECT LINE DRIVER (0,0) Mute, 0, -6, -12 dB SPKRP SPEAKER DRIVER (0,0) RT Loop SPKRM DAC (1,0) (0,1) 0, 6 dB SPEAKER OUT ENABLE (1,1) Fig. 3 PIA/SIA Signal Flow Control 5–5 SIN FO-CC500A FO-K01A SCE214V (IC3) Terminal descriptions Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 Pin List VDDPLL VSSPLL ROMCSn SYNC/GPO[20] WRn RDn DEBUGn TSTCLK VSS SXIN SXOUT OPO[0]/GPO[8]/SMPWRCTRL OPO[1]/GPO[9]/PMPWRCTRL OPO[2]/GPO[10]/RINGER OPO[3]/GPO[11] OPO[4]/GPO[12]/SSTXD1 OPO[5]/GPO[13] OPO[6]/GPO[14] OPI[0]/GPIO[21]/SSRXD1 OPI[1]/GPIO[22]/SSSTAT1 OPI[2]/GPIO[23]/SSCLK1 OPI[3]/GPIO[24] LCDCS/GPO[17] VDD RASn CAS[0]n DWRn VBAT XIN XOUT WRPROTn TEST[1] TEST[0] BATRSTn INTPWRDWNEn PWRDWNn N.C. ADGA VREFn/CLREF VIN ADGA ADVA ADXG VREFp VSS IVREFn IVREFp VDD THADI VSS GPIO[17]/DSPIRQn GPIO[16]/IRQ[8] GPIO[15]/CS[5]n GPIO[13]/CS[3]n GPIO[37]/IRQ15n/DSPCSn GPIO[4]/CPCIN/TPHPWRCTRL/DMAREQ STRB[0] STRB[1] STRB[2] STRB[3] PLAT PDAT PCLK/DMAACK I/O Input Type Output Type — — O O O O I O — I O O O OZ O O O O I/O I/O I/O I/O O — O O O — I O O I I I I I/O — — I I — — — I — O O — I — I/O I/O I/O I/O I I/O O O O O O O O — — — — — — Hu — — Osc0 — — — — — — — — Hu Hu Hu Hu — — — — — — Osc1 — — Hd Hd H H H — VADG VRVA VADG VADV VXG VR — — — — Analog — Hu Hu Hu Hu Hu Hu — — — — — — — — — 13Xs 13Xs 13Xs 13Xs — 13Xs — — Osc0 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 1XC — 13Xs 13Xs 13Xs — — Osc1 1XC — — — — 13Xs — — — — — — — — — VRVR+ — — — 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 1XC 1XC 1XC 1XC 3XC 2XC 3XC Pin Description PLL Power PLL GND — — — — — — Digital GND — — — — — — — — — — — — — — Digital Power — — — RTC Battery Power — — — — — — — — — PADC Analog GND PADC PADC PADC Analog GND PADC Analog Power PADC PADC VSS Digital GND PADC PADC Digital Power TADC Digital GND — — — — — — — — — — — — — 5–6 FO-CC500A FO-K01A SCE214V (IC3) Terminal descriptions Pin No. 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 Pin List VDD GPIO[11]/BE/SERINP/SR4IN GPIO[19]/RDY/SEROUT START CLK1n/GPO[25] CLK2/GPO[24] GND MCLK CTRLI TESTC SOUT SIN FSYNC POR GND LINE_INP MIC_INP MIC_INM MIC_BIAS BG VC AVDD GND LINE_OUTP SPKR_OUTP SPKR_OUTM DVDD MODE_0 ICLK VSS FCSn[1]/VIDCTL[0]/GPO[23] IARESET IACLK VDD IA1CLK SR3IN/DSPIRQn SR4OUT SR1IO SA1CLK GPIO[7]/SSRXD2/SASRXD2 GPIO[6]/SSTXD2/SASTXD2 GPIO[5]/SSCLK2/SASCLK2 GPIO[10]/SSSTAT2/DSS_AVAIL VSS RESETn GPIO[3]/SASCLK GPIO[2]/SASRXD GPIO[1]/SASTXD GPIO[9]/FRDn GPIO[8]/FWRn A[0] A[1] A[2] A[3] A[4] VDD A[5] A[6] A[7] A[8] A[9] A[10] A[11] I/O — I/O I/O O O O — ID ID ID OD ID I/OD IA — IA IA IA OA OA OA PWR — OA OA OA PWD ID I/OD — O O O — I I O O I I/O I/O I/O I/O — I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O — I/O I/O I/O I/O I/O I/O I/O Input Type Output Type — Hu Hu — — — — — d d — d d d — — — — — — — — — — — — — u — — — — — — H H — — H Hu Hu Hu Hu — Hu Hu Hu Hu Hu Hu Tu Tu Tu Tu Tu — Tu Tu Tu Tu Tu Tu Tu — 13Xs 13Xs 2XC 13Xs 13Xs — — — — T — — — — — — — — — — — — — — — — — — — 13Xs 13Xs 13Xs — — — 13Xs 13Xs — 13Xs 13Xs 13Xs 13Xs — 2XC 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs — 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs Pin Description Digital Power — — — — — IA GND Main Clock from DSP Control Data from DSP IA Test Serial Data to DSP Serial Data to DSP Frame Sync Signal (IA) Hardware Reset IA GND Analog Input to Line Pre-Amp. Positive differential Analog Input to Microphone Pre-Amp. Negative differential Analog Input to Microphone Pre-Amp. 2.2 V Nominal DC Bias Source for Electret Microphone Analog reference Voltage Output Analog Ground Bias Output IA Analog Power IA GND Line Driver Output Positive Speaker Driver Output Negative Speaker Driver Output IA Digital Power Connect to VSS (IA Mode Selection) IA Bit Clock Input/Output VSS Digital GND — DSP to EXTIA POR DSP to EXTIA MCLK Digital Power DSP from EXTIA ICLK DSP from primary EXTIA SOUT/EXT. Modem IRQn DSP to primary EXTIA SIN DSP to EXTIA CTRL1 DSP from EXTIA FSYNC — — — — Digital GND — — — — — — CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus Digital power CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus 5–7 FO-CC500A FO-K01A SCE214V (IC3) Terminal descriptions Pin No. 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 Pin List A[12] A[13] A[14] A[15] A[16] VDD VSS A[17] A[18] A[19] A[20] A[21]/EYECLK A[22]/EYESYNC A[23]/EYEXY D[0] D[1] D[2] D[3] D[4] D[5] D[6] D[7] GPIO[20]/ALTTONE GPIO[26] GPIO[27] GPIO[28] GPO[26] GPO[27] GPO[28] GPO[29] GPO[30]/SR3OUT GPIO[29] GPIO[31] GPIO[32] VDD GPIO[34] GPIO[35] GPIO[36] Vss VDD PM[0]/GPO[0] PM[1]/GPO[1] PM[2]/GPO[2] PM[3]/GPO[3] SM[0]/GPO[4] SM[1]/GPO[5] SM[2]/GPO[6] SM[3]/GPO[7] REGDMA/GPO[18]/CLKDIV[0] WAITn/GPO[19]/CLKDIV[1] I/O I/O I/O I/O I/O I/O — — I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O O O O O O I/O I/O I/O — I/O I/O I/O — — O O O O O O O O I/O I/O Input Type Output Type Tu Tu Tu Tu Tu — — Tu Tu Tu Tu Tu Tu Tu Tu Tu Tu Tu Tu Tu Tu Tu Hu Hu Hu Hu — — — — — Hu Hu Hu — Hu Hu Hu — — — — — — — — — — T T 13Xs 13Xs 13Xs 13Xs 13Xs — — 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs — 13Xs 13Xs 13Xs — — 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs 13Xs Pin Description CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus Digital Power Digital GND CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Address Bus CPU Data Bus CPU Data Bus CPU Data Bus CPU Data Bus CPU Data Bus CPU Data Bus CPU Data Bus CPU Data Bus — — — — — — — — — — — — Digital power — — — Digital GND Digital Power — — — — — — — — — — 5–8 FO-CC500A FO-K01A (3) Panel control block The following controls are performed by the SCE214V. • Operation panel key scanning • Operation panel LCD display (4) Mechanism/recording control block • Recording control block diagram (1) OPERATOR PANEL, KEYPAD, LEDS & LCD PRINTER DATA CONTROL & SENSORS OPO[7:0]* OPI[3:0]* LEDCTL* LCDCS* STRB[3:0] STRBPOL THADI PDAT PCLK PLAT TEST[1:0] BATRSTN RESETN TONE ALTTONE TSTCLK REGDMA WAITN SYNC PWRDWNN INTPWRDWNEN XIN XOUT RTC CRYSTAL SXIN SXOUT SYSCLK CRYSTAL TELEPHONE LINE PM[3:0]* PRINTER & SCANNER MOTOR DRIVERS SM[3:0]* INTERNAL IA SCE214V 1-CHIP FAX ENGINE SCANNER CONTROLS & SENSORS SCANNER VIDEO PREPROCESSING SERIAL SYNC PORTS (SSIF) GENERAL PURPOSE I/O SYNC/ASYNC SERIAL PORT SASIF RXIN TXOUT LINE INTERFACE START CLK2 CLK1 CLK1N VIDCTL[1:0] VIN VREFP VREFN IVREFP IVREFN SSCLK[2:1]* SSTXD[2:1]* SSRXD[2:1]* SSSTAT[2:1]* GPIO SASCLK* SASTXD* SASRXD* A[23:0] D[7:0] RDN WRN ROMCSN CS[5:0]N* WRPROTN FRDN* FRWN* FCLE* FCSN[2:0] DEBUGN VDD VDRAM VBAT VSS ADVA ADGA Fig. 4 5–9 EXTERNAL BUS RDN, ROMCSN FLASH ROM CAS[0,1]N, RASN, DWRN CS3N, CS4N** D7[7:0] DRAM FLASH MEMORY (OPTION) NOTES: * ALTERNATIVE GPO, GPI OR GPIO LINES **FOR SAMSUNG NAND-TYPE FLASH FO-CC500A FO-K01A [3] Circuit description of LIU PWB (1) LIU block operational description 1) Block diagram CORDLESS PWB IC1:20438 DSSIN IC2:MERLIN IC5:MERLIN IC8:20438 CORDLESS HANDSET PWB DSSIN INCOM DSSOUT ADC GN AUDIOIN 1 GN AUDIOIN 1 GN ADC GN MICIN CONTROL PWB PRE SCALER ADC LINEIN GN MIC IN MIC ADC MIC GN PRESCALE SETTING C ECHOATTN SIDE TONE 1 GN SIDE TONE 1 GN LINEIN GN POSTSCALE SETTING DAC GN IC12A DTMF MUTE F DAC SPKOP SPKROUT GN LIU PWB POST SCALER F TXCTRL RF AUDIOIN 1 GN RF AUDIOIN 1 GN VOLUME 1 VOLUME 1 DAC GN SPKOP F DAC F RECEIVER SPKR OUT GN TXCTRL RCVOL IC101 2904 EMJMIC LINE ATTN IC12B 1 0 0 1 TG1, TG2 IC7 TG1, TG2 EMJSP HS RECEIVER IC10A TEL MUTE LINE ATTEN LINE LINE O EMJSP AMP GPIO IC10B EMJSP MUTE IC102 2904 RX AMP(MIC AMP) MIC ENABLE 0,20,25,30dB SIGRX IC10C MIC GAIN MICP IC5:MERLIN 0dB AUX VOLUME LININ GAIN 1 IC101 2904 TG3 GAIN AUXDAC IC6 SPEAKER ADC LPF 0 0,–4dB DSSIN HS MIC TELOUT LINEIN ADC GAIN LINE IN ENABLE SP MUTE SP MUTE EMJSP MUTE MIC MUTE Q102 RLYCONT IC102 2904 CML SPEAKER OUT ENABLE IC12D IC11 1,0 TX AMP 0,1 SP DRIVER SIGTX 0,0 SPKRP LINE DAC 1,1 0,6dB RT LOOP SIG MUTE CI W-TONE LINE OUT ENABLE IC4 DAC GAIN 0,0 SP AMP 1,0 SP MUTE LINE DRIVER 1,1 LINEOUT SPEAKER LNINSEL MUTE,0,–6,–12dB IC7 2113 IC5 4051 LINE OUT ATTENUATION TONE VOLA CML VOLB VOLC CI CML CI TEL MUTE SP MUTE VOLA RCVOL SIG MUTE VOLB RLYCONT DTMF MUTE W-TONE VOLC IC3:SCE214V MIC MUTE SASTXD,SASRXD Fig. 5 2) Circuit description 3) Block description The LIU PWB is composed of the following 6 blocks. 1. Speech circuit section 1. Speech circuit section • 2. Dial transmission section 3. Speaker amplifier section This circuit is composed by IC101.IC102 and that circumference circuit. 2. Dial transmission section 4. Ringer circuit section • D.P. transmission: The CML relay is turned on and off for control in the DP calling system. (Refer to the attached sheet.) • DTMF transmission: It is formed in the modem, and is output. 5. CI detection circuit 6. Signal/DTMF transmission level & receiving level 3. Speaker amplifier section • Ringer volume • Speaker volume :It is controlled by the attenuator value of the IC5 and IC3 (VOL-A,B,C) :It is controlled by the combination of the attenuator value of the LINE DRIVER in the modem and the ringer sending level sent from the modem. 4. Ringer circuit section • 5 – 10 The ringer sound is formed in the tone of modem when CI signal is detected. The amplifier circuit drives the speaker of the main body. FO-CC500A FO-K01A 5. CI detection circuit • CI is detected by the photo coupler which is integrated in series in the primary side TEL circuit well proven in the existing unit. 6. Signal/DTMF transmission level & receiving level • Signal transmission level setting: According to soft switch list. • DTMF transmission level setting: According to soft switch list. 4) Signal selection The following signals are used to control the transmission line of TEL/ FAX signal. For details, refer to the signal selector matrix table. [Control signals from output port] Signal Name Description CML Line connecting relay and DP generating relay H: Line make L: Line break (The circuit is located in the LIU PWB.) SP MUTE (The circuit is located in the LIU PWB.) TELMUTE Speaker tone mute control signal H: Muting (Power down mode) L: Muting cancel (Normal operation) Handset reception mute control signal H: Muting L: Muting cancel VOLUME SETTING Key buzzer volume setting Fixed Speaker volume setting Level1 Level2 Level3 Level4 Level5 Ringer volume setting Low Middle High DTMF speaker volume Level1 setting Level2 Level3 Level4 Level5 OGM playback speaker Level1 volume setting Level2 Level3 Level4 Level5 ICM record speaker Level1 volume setting Level2 Level3 Level4 Level5 LINEOUT A RCVOL DTME VOL A (HIGH) (LOW) MUTE 1 0 0 1 0 1 1 0 0 1 1 1 1 1 0 1 0 1 0 0 1 0 1 0 5 – 11 VOL B VOL C 1 1 0 1 1 0 1 0 0 0 0 0 0 0 0 1 1 0 0 0 1 1 0 0 1 1 1 0 0 0 1 1 0 1 1 1 1 1 1 0 0 0 0 1 0 0 0 0 FO-CC500A FO-K01A [Signals for status recognition according to input signals] Signal Name RHS- Function NO Signal Name (CNLIUA) NO Signal Name (CNLIUA) 1 RHS- 8 TXOUT 2 3 DG +24VL 9 10 CML PIN 4 5 MICMUTE 11 12 FILM TELIN 6 7 TELMUTE RXIN 13 14 HS-(N.C.) TELOUT H: The handset is in the on-hook state. L: The handset is in the off-hook state. Incoming call (CI) detection signal CI [Other signals] Signal Name TEL IN Function Receiving signal from line or modem SPOUT CI Speaker output signal Transmission (DTMF) analog signal output TXOUT from modem Reception (DTMF, others) analog signal input RXIN into modem TELOUT Voice input to MODEM from handset. (Example: SENDING/RECEIVING) CORDLESS PWB IC1:20438 DSSIN IC2:MERLIN IC5:MERLIN IC8:20438 CORDLESS HANDSET PWB DSSIN INCOM DSSOUT ADC GN AUDIOIN 1 GN AUDIOIN 1 GN ADC GN MICIN CONTROL PWB PRE SCALER ADC LINEIN GN MIC IN MIC ADC MIC GN PRESCALE SETTING C ECHOATTN SIDE TONE 1 GN SIDE TONE 1 GN LINEIN GN POSTSCALE SETTING DAC GN IC12A SPKOP DTMF MUTE F DAC SPKOP SPKROUT GN LIU PWB DAC GN POST SCALER F TXCTRL RF AUDIOIN 1 GN VOLUME 1 RF AUDIOIN 1 GN VOLUME 1 F DAC F RECEIVER SPKR OUT GN TXCTRL RCVOL IC101 2904 EMJMIC LINE ATTN IC12B 1 0 0 1 TG1, TG2 IC7 TG1, TG2 EMJSP HS RECEIVER IC10A TEL MUTE LINE ATTEN LINE LINE O EMJSP AMP GPIO IC10B EMJSP MUTE IC102 2904 RX AMP(MIC AMP) MIC ENABLE 0,20,25,30dB MIC GAIN 1 IC101 2904 SIGRX IC10C IC5:MERLIN 0dB AUX VOLUME LININ GAIN MICP TG3 GAIN IC6 SPEAKER ADC LPF 0 0,–4dB DSSIN HS MIC TELOUT LINEIN ADC GAIN LINE IN ENABLE MIC MUTE Q102 RLYCONT IC102 2904 CML AUXDAC SPEAKER OUT ENABLE IC12D IC11 1,0 TX AMP 0,1 SP DRIVER SIGTX DAC 0,0 1,1 SPKRP LINE 0,6dB RT LOOP SIG MUTE CI W-TONE LINE OUT ENABLE IC4 DAC GAIN 0,0 SP AMP 1,0 SP MUTE LINE DRIVER 1,1 LINEOUT SPEAKER LNINSEL MUTE,0,–6,–12dB IC7 2113 IC5 4051 LINE OUT ATTENUATION TONE VOLA CML VOLB VOLC CI CML CI TEL MUTE SP MUTE VOLA RCVOL SIG MUTE VOLB RLYCONT DTMF MUTE W-TONE VOLC IC3:SCE214V : FAX SENDING/RECEIVING Fig. 6 5 – 12 MIC MUTE SASTXD,SASRXD SP MUTE EMJSP MUTE SP MUTE FO-CC500A FO-K01A [4] Circuit description of Cordless PWB (2) Audio data flow Data flow in transmission and reception mode are shown as Fig. 8. Example) FAX(BS) (1) This 2.4GHz cordless machine use DSSS(Direct Sequence Spread Spectrum) technology. LINE TRANSMISSION DSSS feature • The communication is little influenced by noise. • The ability of keeping a secret is high level. LIU And the communication using the radio frequency is performed TDD operation between the sets of keeping a common system ID. The system ID is stored nonvolatile memory of each set. The ID code are kinds of 224 . LINE IMPEDANCE MATCHING 1) Transmission Voice signal is inputted from mic and headset is adjusted the level of signal and converted from analog signal to digital in the CODEC, and is sent to Merlin (Baseband IC). In Merlin, the inputted signal is converted ADPCM data and scrambled by XORed PN sequence. The scrambled signal is differentially encoded and spreaded. A 12chip spreading code is used to meet FCC part 15.247 requirements for a DSS(Digital Spread Spectrum) system. The spreaded signal is modulated by DBPSK (Differential Binary Phase Shift Keying) and is sent to RF109(2.4GHz Digital Spread Spectrum Transceiver) into a RF MODULE. RF109 generates the Local Oscillator(LO) frequencies using a PLL(Phase Look Loop) frequency synthesizer and external 2.4GHz VCO(Voltage Controlled Oscillator). The baseband signal from Merlin is mixed LO frequency. The mixed signal pass through Matching Network Circuits and is sent to RF110(RF Power Amplifier). The Amplified signal in RF110 pass through Antenna Matching Circuit and is sent to Antenna. CODEC MERLIN RF MODULE RF109 TRANSCEIVER MATCHING NETWORK RF110 POWER AMPLIFIER LPF TX/RX SW 2) Reception The signal from radio pass through BPF (Band Pass Filter) of 2.4GHz band width and is sent to RF109. RF109 adjust the level of signal in LNA(Low Noise Amplifier) and downconverted to Baseband I/Q signals. Baseband I/Q signals is sent to the Merlin and despread, demodulated and descrambled to ADPCM data. The ADPCM data is converted analog signal in CODEC. ANTENNA MATCHING NETWORK ANTENNA 3) Stand-by When the cordless handset(HS) put on the cradle, the system become stand-by mode. In this mode FAX(BS) monitor a present using channel and other channel to choice best channel. HS is sleep mode. but it wakes up every 1second, and monitor the signal from BS. And it checks link establishment with BS every 10 second. ANTENNA RECEPTION RF MODULE ANTENNA MATCHING NETWORK 4) Serial communication with FAX ENGINE The merlin and fax engine is connected by serial interface. Example) If user push Talk key, the Talk command from merlin is sent to fax engine through the serial interface and the fax engine control the connection to line. TX/RX SW 2450MHz BPF RF MODULE BLOCK DIAGRAM (TMX964A:UNIT1) RF109 TRANSCEIVER 3-TERMINALS REGULATOR VCC VCO BALUN MERLIN CODEC RF110 MATCHING NETWORK RF109 TX DATA LINE IMPEDANCE MATCHING RXI,RXQ 2450MHz BPF TXEN LIU RXEN LPF TX/RX SW ANTENNA MATCHING NETWORK ANTENNA LINE Fig. 7 Fig. 8 5 – 13 FO-CC500A FO-K01A 1) Technical Overview This section provides a technical description of the Merlin device set and how it is used to implement all 900 MHz and 2.4 GHz cordless telephone features. The device set is used both in the handset and the base station as shown in Fig. 9. MC19 Controller & Address Decoder Logic Serial Ports/Timers Serial EEPROM Second Codec Codec ADPCM,tone generation, CAS detection,SDT detection CID demodulation, HDX speakerphone support Codec Serial Port BS/HS interface ROM(48kB) RAM(2kB) ART/Timer B Keypad/LCD/ Switches/LEDs Vbattery DSP Core GPIO Configurable Port B Timer A RF GPIO configurable Port C RF Interface Power control Synthesizer control Keypad GPIO Phone GPIO configurable Port A Telephone Interface Hook/Ringer/LEDs/ Other miscellaneous Controller Interface Low Battery Detector Emulator/Test/ Parallel Interface (128-pin ASIC only) Data bus,Address bus Bus control signals DAC Watchdog/Sleep Timer Resetln OSC Reset Park Inverter 19.2MHz TCXO Park Detect Baseband Modem(Digital Spread - Spectrum Engine) RXI RXQ AGC LNA RX Data Path demodulator descrambler DAC Time Division dupiex controller & clock generator TX Data Path modulator scrambler spreader TXD AGC Logic Fig. 9 Merlin ASIC Block Diagram 2) System Controller The system controller handles all telephone features, the DSS engine, the RF module settings, and the link between the base station and the handset. Interrupt Controller. Interrupts are latched, prioritized, and passed to the microcontroller. Interrupts are used to interface with the Codec, the DSS engine, serial ports, and timers. The system controller provides a microcontroller, interrupt controller, wait-state generator, and system timer support. The system controller also provides General Purpose I/O (GPIO) and serial ports for peripheral control, a baseband modem (DSS engine) for signal processing of the received and transmitted data, and a DSP core for ADPCM conversion and CID support. Wait-State Generator. Slower access times for off-chip RAM and ROM are handled separately with programmable wait states. Off-chip reads/ writes can be extended up to seven clock cycles. Watchdog/Sleep/Wake-Up Timers. These timers perform two basic functions. They provide a reset if the software malfunctions (watchdog). They also minimize power consumption by keeping a low-frequency clock active to duty-cycle the system between normal mode and stand-by mode (sleep and wake-up timer). Microcontroller. The microcontroller is the 65C02-based MC19CPU. It is supported by 2 kB of on-chip RAM and 48 kB of on-chip ROM. The CPU communicates with the internal memory via a 16-bit address/8-bit data bus and dedicated control lines. The 128-pin Merlin XROM also has an address/data bus available for accessing external memory. Emulator/Test Interface. A standard 65C02-family parallel interface supports an external emulator for code development. ROM is mapped off-chip when operating with an emulator. Emulator functions are only provided with the Merlin XROM ASIC. 5 – 14 FO-CC500A FO-K01A 3) Controller Peripheral Functions Several peripheral phone functions are supported via the microcontroller registers or dedicated hardware. For a switch interface, the eight KEYPADR[7:0] control signals are driven, one at a time, and GPIOC0, with an internal pullup resistor, is read to determine if a switch is open or closed. General purpose timers are configured to provide the timing required for firmware execution. An asynchronous serial port and a dedicated Codec serial port are also available. GPIOs are provided for peripheral control. Several GPIOs are dedicated to interface to peripherals such as the LEDs, keypad, RF control, and serial EEPROM control. GPIOs are also used as dedicated interfaces for phone functions such as ring detection and hook relay control. KEYPADC0 is used to select either 900 MHz or 2.4 GHz control. Not connecting KEYPADC0 and SWCTL (GPIOC0) selects 900 MHz radio control. A diode connected between KEYPADC0 and SWCTL (GPIOC0) selects 2.4 GHz radio control. An LCD interface can be implemented as shown in Fig. 10. Keypad signals are used for the LCD data interface and GPIOs are used for the LCD control lines. The LCD driver and LCD management software must be written by the OEM. General Purpose Timer A. Timer A is used for various firmware needs such as link timing. It generates either single or continuous interrupts and consists of an 8-bit interval register (TmrA) for the interval value, an 8-bit counter for generating the timer interrupt, and a divide-by256 prescaler. Timer A uses the main 9.6 MHz clock divided by 256. An ITAD interface can be implemented by multiplexing KEYPADR[7:0] as ITAD data lines and using GPIOs as ITAD control lines. General Purpose Timer B. Timer B may be configured as a general purpose timer or as an ART serial port. When configured as a timer, its operation is similar to that of Timer A. Timer B consists of an 8-bit interval register (TmrB), a divide-by-5 prescaler and an 8-bit counter. Timer B uses the main 9.6 MHz clock divided by 5. A seven-segment interface can be implemented by multiplexing KEYPADR[7:0] as data lines and GPIOs as control lines to switch between different bank of LEDs. Codec Serial Port. Digitized voice-band audio is supported through an interrupt-driven, 5-pin serial Codec interface. Clock and frame timing for the Codec are internally generated and externally output to the device. The Codec serial port interfaces to the Merlin Codec. The Codec serial port uses three memory-mapped locations to interface with the controller. They consist of high and low Codec data bytes, which are used to write out 16 bits of Tx data and read 16 bits of Rx data, and an 8-bit Codec configuration/status register. Asynchronous Receiver/Transmitter. An asynchronous serial port with a programmable baud rate can be configured using Timer B. The ART logic controls the two-pin asynchronous serial port of the ASIC. The ART port is used for base/handset data transfer and as the test interface. The ASIC can interface with up to two Codecs by sharing the clock and control signals between the two Codecs, and by using GPIOs as the serial data input and output for the second Codec. ITAD D7 D6 D5 D4 D3 D2 D1 D0 PWR LCDPWR R/W LCDRW RS LCDRS LCD display E DB7 LCDEN keypadR7 DB6 keypadR6 DB5 keypadR5 DB4 keypadR4 DB3 keypadR3 DB2 keypadR2 DB1 keypadR1 DB0 keypadR0 D7 D6 D5 D4 D3 D2 D1 D0 keypadC5 RF Transceiver Control. The ASIC allocates several GPIOs to control all necessary radio transceiver functions. Two pins control the Power Amplifier (PA) output levels. Four pins make up the synthesizer serial port, clock data, strobe, and synthesizer enable. One pin is used as the LNA attenuation control and two pins are used for TR switch control and Tx/Rx enable. The OEM can select ASIC support for either the 900 MHz or 2.4 GHz radio. The firmware protocol for programming the Conexant synthesizer in the RF105 and RF109 and the radio link parameter settings are automatically configured with the selection of the 900 MHz or 2.4 GHz radio. The OEM can select the radio type using the keypad switch control, or by the OEM configuration settings in serial EEPROM or external ROM. If the radio type is selected using serial EEPROM or external ROM, the keypad switch control radio selection is not used. key press wakeup & status flag keypadC4 keypad keypadC3 keypadC2 keypadC1 Battery Detector. This analog function performs A/D conversion on the battery voltage and makes it available to the microcontroller for battery quality estimation. External level shifting resistors set the input level to the ASIC. The low battery threshold can be set by the OEM in EEPROM. keypadC0 Diodes D7-D0 are required for isolation if KEYPADC pins are used to also drive LCD or switches. Two multiplexed inputs are available to monitor more than one voltage supply level. switches General Purpose Inputs/Outputs (GPIOs). GPIOs are available on all Merlin ASICs. GPIOs are software bit-configurable as inputs or outputs. The GPIOs may be used as dedicated control signals for LED drivers, LCD control, hook relay control, ring detection, RF control, half-duplex speakerphone device control, serial EEPROM interface, ITAD device control, and seven-segment LED control, depending on the system configuration. The recommended GPIO assignments. SWCTL/GPIOC0 Fig. 10 Keypad/Switch/LCD/ITAD Interface Keypad/Switch/LCD/ITAD/Seven Segment Interface. This interface is used to provide multiplexed control for a 6x8 keypad, up to eight switches, and a parallel interface for an LCD (see Fig. 10). For a keypad interface, the eight KEYPADR[7:0] control signals are driven low, one at a time, and the six KEYPADC[5:0] inputs, with internal pullup resistors, are read to determine which key in the 48-key matrix is closed. The firmware scans the keypad at 10 ms intervals and debounces the key presses. Ringer/Buzzer Control. A ringer/buzzer can be driven by either the Codec LINEO, the ASIC AUXDAC, or a GPIO. 5 – 15 FO-CC500A FO-K01A 4) Baseband Modem Clock Oscillator. A highly accurate crystal oscillator (TCXO etc.) is needed to register multi cordless handsets to fax machine by wireless. And its output level convert to meet Merlin specification using high speed inverter or high speed rail-to-rail input and output operational amplifiers. A 19.2 MHz crystal oscillator generates a 19.2 MHz clock and a 9.6 MHz clock. The 19.2 MHz clock is used only for the DSP core. The 9.6 MHz clock is the main system clock used by the controller and the rest of the system. The baseband modem section in each of the Merlin ASICs performs all of the spread spectrum modulation and demodulation, data timing recovery, AFC, AGC, framing, and rate adaptation required for a DSS system. Transmit/Receive Data Paths. The transmit data path consists of a parallel-to-serial converter, scrambler, differential encoder, spreader, and modulator. The receive data path comprises A/D converters, matched filter with frequency compensation insertion, data demodulator, descrambler, and a serial-to-parallel converter. 5) DSP Core Audio Coprocessor Scrambler/Descrambler. The scrambler/descrambler is a 16-bit maximum length Pseudorandom Noise (PN) sequence generator. The PN sequence is XORed with Tx data for scrambling and XORed with Rx data for descrambling. The voice and supervisory bits are scrambled. The DSP audio coprocessor is connected to the microcontroller via the internal data bus and memory mapped registers. The DSP converts ADPCM data to/from 16-bit linear Codec data, generates audio tones, and performs CID signal processing. The PN sequence generator’s starting location is programmable using one memory mapped register along with the two ID registers. This starting location is used to initialize the PN generator at the start of each link. The MSB of the PN generator is used to scramble/ descramble. The first frame bit scrambled/descrambled uses the initialized value of the MSB. ADPCM Coder/Decoder. The ADPCM coder/decoder is the DSP core main block. This block performs the processing that encodes linear speech data, passes it to the radio as ADPCM compressed speech, and decodes ADPCM data received from the radio into linear speech data. Using the ITU G.726 32 kbps ADPCM audio compression algorithm, 14-bit linear samples are compressed to 4 bits at a rate of 8 k samples per second. Differential Encoder. When this block is enabled, data is differentially encoded. The encoder is initialized to zero during the Tx frame’s first “zero bit.” In DBPSK, a data symbol is inferred by the presence or absence of a 180-degree phase shift or inversion in the carrier signal at regular intervals. A phase shift therefore indicates a change of state from one to zero, or zero to one. To determine which of these two possibilities was intended, the spread data is differentially encoded. Tone Generators. The DSP core also contains three independent tone generators. The tone generators are used to create DTMF signaling as required by the telephone system, and to create all MMI audio alert signals. Spread Spectrum Spreader. A 12-chip spreading code is used to meet FCC part 15.247 requirements for a DSS system. The spreading code cyclic duration is 12 times that of the encoded data. The code starts and stops on encoded bit boundaries. The spreading code may be configured by the controller. CID Processing. The DSP core contains a demodulator for decoding CID FSK signals. The DSP core also performs CPE Alert Signal (CAS) detection for CID type ll, stutter dial tone detection, and Visual Message Waiting Indication (VMWI) processing. No external CID devices are required. The DSP CID processing supports the following: Modulation. The data from the differential encoder is input to the modulator. An analog block exists at the Tx output that maintains a constant voltage level independent of supply operation. • CID types 1, 2, and 2.5 • VMWI • Synchronous Call Logging (SCL) • Stutter dial tone detection Receiver A/D Converters. Baseband I/Q signals from the radio are sampled at 1.92 MHz and converted to digital with 3-bit flash A/D converters. 6) Audio Codec The audio Codec is a monolithic CMOS integrated circuit packaged in all of the Merlin devices except for the XROM ASIC. The Codec consists of an A/D and D/A converter path, with digital filtering and analog signal processing circuits to realize a compliant ITU G.714compatible voice frequency linear coder/decoder (see Fig. 11). The user word rate to and from the device is 8 k words per second. AFC/Timing. Internal AFC allows a crystal tolerance of up to ±90 ppm for a 900 MHz radio or ±40 ppm for a 2.4 GHz radio. This allows for a total system clock error of 180 ppm for a 900 MHz radio or 80 ppm for a 2.4 GHz radio. The modem uses a standard early-late mechanism to maintain timing locks. MICIN Data Demodulation. This block determines the value for the received bit and determines a frequency error estimate used for the AFC. Data is demodulated by using I/Q matched filter data which is exactly one bit time apart. LINEIN MIC/line select Matched Filters. The spreading code is removed (despread) from the received, digitized I/Q signals with matched filters. Modulator and filter 16-bit register CDCMCLK FSYNC Control register MICBIAS CDCICLK SIN Signal Quality. A signal quality metric is accumulated over each frame and can be read by the microcontroller at any time. SOUT SPKRO Modulator and filter 16-bit register LINEO ID Detector. A 32-bit ID word (16-bit programmable) is used during acquisition to verify the RF link and initialize frame timing. Fig. 11 Merlin Codec Block Diagram Time Division Duplex Controller (TDDC). The TDDC handles the spread spectrum protocol. ASIC Interface Port. Six interface lines are used to link the audio Codec and ASIC. Two lines are used for clocks (CDCMCLK and CDCICLK) and a third creates an 8 kHz framing pulse. The remaining lines are for data in and data out lines as well as a reset line. The clocks and framing pulse are synchronous to each other. The data I/O port will be time-multiplexed between data and control words. AGC and Gain Imbalance. The signal energy is compared to a programmable threshold and scaled with programmable gain. The digital AGC value is output to the radio by an 8-bit D/A converter. The gain imbalance of the I/Q system is automatically calculated and removed during calibration of the system. 5 – 16 FO-CC500A FO-K01A Microphone Input. The Codec provides a microphone interface for an electret microphone. The microphone input is differential to reduce common mode noise pickup. The microphone must be AC-coupled to the MICINP and MICINN inputs. A quiet, clean voltage (MICBIAS) is available to provide a bias for the electret microphone. The microphone input amplifier has programmable gains from -4 to 28 dB (-4, 0, 6, 12, 18, 24, and 28 dB), to accommodate a wide range of microphone sensitivities. The microphone input is multiplexed with the line input signal before the A/D conversion. Line output. LINEO is a single-ended output capable of driving a 1 kΩ load. The output amplifier has programmable gains from -35 dB to 1.1 dB in 6 dB steps. Speaker Output. The SPKROP and SPKRON signals form a differential output capable of driving a 150 Ω resistive load or a highly capacitive (100 nF) ceramic receiver via dual 150 Ω series resistors. This output may be used to drive either the PSTN or the handset earpiece. The output amplifier has programmable gains from -29 dB to 3 dB. Line Input. The Codec line input is an auxiliary input which may be used as an alternative analog interface. For example, this interface may be used between the base station Codec and the PSTN. The line input, before final A/D conversion, is multiplexed with the microphone input signal. 7) Power Requirements All six of the ASICs in the Merlin family of spread spectrum devices operate within +2.7 to +3.3 V. Each of the ASICs has an active, low power consumption of less than 60 mW (+3.3 V) and a very low power stand-by consumption of less than 3 mW (+3.3 V). MVCS MVDI Serial EEPROM MVDO MVCLK 128-Pin Merlin XROM LNAATN 900MHz or 2.4GHz Radio RXEN RXIP RXIN RXQP RXQN AGC SYNEN OHP RINGP REFOSC SYNSTB SYNDATA Base Station /PSTN Interface LINEIN SYNCLK CDCDATAI SPKROP SPKRON 32-Pin Merlin Codec TXDATA CDCDATAO TXEN CDCFRAME TXPWR0 ICLK TXPWR1 MCLK TRSW RESETOP earpiece MICINN Keypad column 1-6 MICINP microphone Keypad Keypad row 1-8 LINEO (on handset,AUXDAC and GPIOA6 may be used) DATA LCDRS LCDPWR LCD LCDRW DATA[7:0] LCDEN ROMCSP External ROM ADDR[15:0] SYNC EMUCLK RDP NMIP HOSTCSP External device Emulator (Development System Only) HOSTIRQ HOSTACK WRP optional Base station only Handset only Fig. 12 Typical System Block Diagram for the 128-pin Merlin XROM ASIC 5 – 17 FO-CC500A FO-K01A MERLIN ASIC XROM (R6815): Terminal description Pin Name Pin No. Type (Note 1) Description Controller Interface 122 DATA0 B-PUP Data bit 0 121 DATA1 B-PUP Data bit 1 120 DATA2 B-PUP Data bit 2 119 DATA3 B-PUP Data bit 3 118 DATA4 B-PUP Data bit 4 117 DATA5 B-PUP Data bit 5 116 DATA6 B-PUP Data bit 6 115 DATA7 B-PUP Data bit 7 15 ADDR0 T Address bit 0 16 ADDR1 T Address bit 1 17 ADDR2 T Address bit 2 18 ADDR3 T Address bit 3 19 ADDR4 T Address bit 4 20 ADDR5 T Address bit 5 21 ADDR6 T Address bit 6 22 ADDR7 T Address bit 7 51 ADDR8 T Address bit 8 52 ADDR9 T Address bit 9 55 ADDR10 T Address bit 10 53 ADDR11 T Address bit 11 46 ADDR12 T Address bit 12 50 ADDR13 T Address bit 13 49 ADDR14 T Address bit 14 47 ADDR15 T Address bit 15 48 WRP (Note 2) T Write; active low 54 RDP T Read; active low 112 ROMCSP O2 ROM chip select; active low 79 RAMCSP O2 RAM chip select; active low 83 HOSTCSP O2 Host chip select; active low 84 HOSTACK IS-PUP Host input acknowledge 82 SYNC (Note 2) O2 Synchronize, CPU fetching OP code 81 NMIP IS-PUP Non-maskable interrupt; active low 85 XCODEP I-PUP Emulator select; active low 80 EMUCLK (Note 2) O2 Phase 2 clock output from MC19 89 REFOSC B4 9.6 MHz clock used by synthesizer 102 RXIN I-A Receiver I negative differential input 101 RXIP I-A Receiver I positive differential input 104 RXQN I-A Receiver Q negative differential input 103 RXQP I-A Receiver Q positive differential input RF Interface 106 AUXREF B-A AUXDAC reference 100 TXDATA O-A Transmitter data 105 AGC O-A AGC control 110 TRSW O Transmit=1/receive=0 select 108 TXEN O Transmit enable 76 RXEN O Receive enable 75 GPIOC1 O General purpose I/O. Can be configured as LNA select (LNAATN). 111 GPIOC2 O General purpose I/O. Can be configured as PA power level select (TXPWR0). 5 – 18 FO-CC500A FO-K01A MERLIN ASIC XROM (R6815): Terminal description Pin No. Pin Name Type (Note 1) Description RF Interface 109 GPIOC3 O General purpose I/O. Can be configured as PA power level select (TXPWR1). 88 GPIOC4 O2 General purpose I/O. Can be configured as synthesizer power (SYNEN). 87 GPIOC5 O2 General purpose I/O. Can be configured as synthesizer strobe (SYNSTB). 77 GPIOC6 O2 General purpose I/O. Can be configured as synthesizer data (SYNDATA). 76 GPIOC7 O2 General purpose I/O. Can be configured as synthesizer clock (SYNCLK). 43 CDCDATAO B2 Codec data output 44 CDCDATAI I-PDN Codec data input 42 CDCFRAME T-PDN Codec frame 58 ICLK T-PDN Codec serial port clock 45 MCLK T-PDN Codec clock 59 RESETOP O4 Codec reset Codec Interface GPIO Interface 123 GPIOA0 B4 General purpose I/O 124 GPIOA1 B4 General purpose I/O 125 GPIOA2 B4 General purpose I/O 126 GPIOA3 B4 General purpose I/O 127 GPIOA4 B4 General purpose I/O 128 GPIOA5 B4 General purpose I/O 1 GPIOA6 B4 General purpose I/O 8 GPIOA7 B4 General purpose I/O 38 GPIOB0 B4 General purpose I/O 37 GPIOB1 B4 General purpose I/O 36 GPIOB2 B4 General purpose I/O 31 GPIOB3 B4 General purpose I/O 30 GPIOB4 B4 General purpose I/O 26 GPIOB5 B4 General purpose I/O 25 GPIOB6 B4 General purpose I/O 24 GPIOB7 B4 General purpose I/O 9 GPIOC0 B4-PUP General purpose I/O. Can be configured as switch control read input (SWCTL). 60 KEYPADR0 BIS Keypad bidirectional control 61 KEYPADR1 BIS Keypad bidirectional control 62 KEYPADR2 BIS Keypad bidirectional control 63 KEYPADR3 BIS Keypad bidirectional control 64 KEYPADR4 BIS Keypad bidirectional control 65 KEYPADR5 BIS Keypad bidirectional control 66 KEYPADR6 BIS Keypad bidirectional control Keypad Interface 67 KEYPADR7 BIS Keypad bidirectional control 23 KEYPADC0 BIS-PUP Keypad read input 14 KEYPADC1 BIS-PUP Keypad read input 13 KEYPADC2 BIS-PUP Keypad read input 12 KEYPADC3 BIS-PUP Keypad read input 11 KEYPADC4 BIS-PUP Keypad read input 10 KEYPADC5 BIS-PUP Keypad read input 40 PARKP IS Park input; active low on base station, active high on handset. 95 AGND O-A Analog ground. Phone Interface Analog Support 5 – 19 FO-CC500A FO-K01A MERLIN ASIC XROM (R6815): Terminal description Pin Name Pin No. Type (Note 1) Description Miscellaneous 41 ARTO O-OD ART output 39 ARTI I-PUP ART input 107 AUXDAC O-A Auxiliary DAC output 94 RESETIP I-PUP POR input; active low 91 OSCI I 19.2 MHz crystaloscillator input 90 OSCO O 19.2 MHz crystaloscillator output 96 BATT1 I-A Battery voltage input 97 BATT0 I-A Battery voltage input 86 VISP (Note 2) I-PUP Visibility mode select; active low 72 NC No connect 3 NC No connect 4 NC No connect 34 NC No connect 35 NC No connect 68 NC No connect 69 NC No connect 98 NC No connect 99 NC No connect Supply Pins 6 VDDP VDD VDD supply to pad ring 28 VDDP VDD VDD supply to pad ring 56 VDDP VDD VDD supply to pad ring 74 VDDP VDD VDD supply to pad ring 113 VDDP VDD VDD supply to pad ring 7 VSSP VSS VSS supply to pad ring 29 VSSP VSS VSS supply to pad ring 57 VSSP VSS VSS supply to pad ring 73 VSSP VSS VSS supply to pad ring 114 VSSP VSS VSS supply to pad ring 2 VDDC VDD VDD supply to core 32 VDDC VDD VDD supply to core 71 VDDC VDD VDD supply to core 5 VSSC VSS VSS supply to core 33 VSSC VSS VSS supply to core 70 VSSC VSS VSS supply to core 92 AVDD VDD-A VDD supply to analog 93 AVSS VSS-A VSS supply to analog 27 VDDP VDD VDD supply to pad ring Note 1: B2 B4 B4-PUP pin type: Digital Digital Digital BIS BIS-PUP Digital Digital B-A B-PUP Analog Digital I IS Digital Digital Note 2: Available only for the emulation version; defined as NC for the production version. Bidirectional: 2 mA driver and CMOS receiver Bidirectional: 4 mA driver and CMOS receiver Bidirectional: 4 mA driver and CMOS receiver with pullup Bidirectional: 4 mA driver and CMOS Schmitt receiver Bidirectional: 4 mA driver with pullup and CMOS Schmitt receiver Bidirectional: Analog receiver/driver Bidirectional: 2 mA driver with pullup and CMOS receiver Input: CMOS receiver Input: CMOS Schmitt receiver 5 – 20 IS-PDN IS-PUP I-A I-PDN I-PUP O O2 O-A O-OD T T-PDN T-PUP Digital Digital Analog Digital Digital Digital Digital Analog Digital Digital Digital Digital Input: CMOS Schmitt receiver with pulldown Input: CMOS Schmitt receiver with pullup Input: Analog receiver Input: CMOS receiver with pulldown Input: CMOS receiver with pullup Output: 4 mA driver Output: 2 mA driver Output: Analog driver Output: Open drain Tristate: 2 mA driver Tristate: 2 mA driver with pulldown Tristate: 4 mA driver with pullup FO-CC500A FO-K01A 20438: Terminal description Pin Name Pin No. Type (Note 1) Description 1 NC No connect (Note 2) 2 NC No connect (Note 2) 3 NC No connect (Note 2) 4 SOUT O Serial data output 5 SIN I Serial data input 6 FSYNC I/O Frame sync 7 CDCPOR I Reset input, active low 8 AVSS I Analog 0 V power supply 9 LINEIN I-A Analog input to line pre-amp, ADC channel 10 MICNP I-A Positive differential analog input to microphone pre-amp, ADC channel 11 MICINN I-A Negative differential analog input to microphone pre-amp, ADC channel 12 MICBIAS O-A 2.2 V nominal DC bias source for electret microphone 13 VREF O-A Analog reference voltage output. Bypass to AVSS with 0.1 µF capacitor. 14 AGND O-A Analog ground bias output. Bypass to AVSS with 0.1 µF capacitor. 15 AVDD I-A Analog power supply, 2.7-3.3 V 16 AVSS I-A Analog 0 V power supply 17 LINEO O-A Line driver output, DAC channel 18 SPKROP O-A Positive speaker driver output, DAC channel 19 SPKPON O-A Negative speaker driver output, DAC channel 20 DVSS I Digital 0 V power supply 21 DVDD I 22 NC No connect (Note 2) 23 NC No connect (Note 2) 24 NC No connect (Note 2) 25 NC 26 CDCICLK 27 NC No connect (Note 2) 28 NC No connect (Note 2) 29 NC No connect (Note 2) 30 NC No connect (Note 2) 31 CDCMCLK 32 NC Note 1: Note 2: Digital power supply, 2.7-3.3 V No connect (Note 2) I I Bit clock input/output for digital serial interface Main clock input No connect (Note 2) pin type: I Digital Input: CMOS receiver I-A Analog Input: Analog receiver O Digital Output: 4 mA driver O-A Analog Output: Analog driver Do not connect. Use of this pin may cause malfunction and/or damage to the device. 5 – 21 FO-CC500A FO-K01A 2) LCD(GPM190A0) This LCD is COG type. Its display format is 15charactor × 3line dot matrix and display mode is STN. [5] Circuit description of Cordless handset PWB 1. Cordless handset configuration 3) RECEIVER(DTR-208H) This part is Dynamic receiver with Hearing Aid to meet FCC regulation. ANTENNA LCD RECEIVER 4) SPEAKER(DSH-305) This is Dynamic Mylar Speaker. Output impedance is 32 Ω at 1 kHz. HEADSET (OPTION) 5) BATTERY(3HR-5/4AAAU) This is Nickel Metal Hydride Rechargeable Battery. It consists of 3cell battery, poly switch, cable and 2pin connector. The normal voltage is 3.6 V, and the typical capacity is 850 mAh. CORDLESS HANDSET PWB SPEAKER BATTERY 6) HANDSET Handset is able to communicate with hands free by using Handset. The meat plug size is φ 2.5. Fig. 13 1) Cordless handset PWB The block diagram is shown below. 7) ANTENNA Antenna type is Whip antenna. FLASH ROM CODEC MERLIN RF MODULE EEPROM Fig. 14 1MERLIN (R6815)(IC5): pin-128 QFP The MERLIN is mainly consist of MC19 controller, DSP core, Baseband Modem and internal RAM. Crystal frequency is 19.2 MHz. The system clock is 9.6 MHz. 2SST39LF512P(IC3): pin-32 TSOP (FLASH ROM) This memory store the program for MERLIN. It is able to change the program by using download tool. 3S-24C04(IC4): pin-8 SOP (EEPROM) This is nonvolatile memory. The memory size is 4 Kbits. It is stored the system ID, channel number etc. 420438(IC8): pin-32 QFP (CODEC) This part is adjust the signal level from mic/to receiver. And it convert the signal from analog to digital or from digital to analog. 5TMX964A(UNIT1): pin-26 SOP (RF MODULE) This part is modulated the baseband signal to 2.4 GHz band radio frequency. It consist of RF109, RF110 made by CONEXANT and VCO for oscillating 2.4 GHz etc. RF109 is 2.4 GHz DSS Transceiver. The main function are that LNA/Quadrature mixer from RF down to baseband and mixer for baseband to RF modulation. Transmitter output levels are selectable for high, medium, and low power modes. LNA gains are selectable for high and low modes. RF110 is a three stage class AB power amplifier for 2.4 GHz band. 5 – 22 FO-CC500A FO-K01A 2. Charger circuit 4. Channel Frequency CHARGER CIRCUIT Using channel are shown as below. The frequency spacing is 1.8MHz, not overlapping. + TERMINAL Channel Number – R9 HSCHG R10 F1 CONNECTOR FOR BATTERY VCC BAT TO REGULATOR Fig. 15 This system use two methods of charging to the battery. One is quick charge, another is trikle charge. The quick charge is that HSCHG signal level is high. The current of quick charge is about 160mA - 92mA. The control of trikle charge is shown as below. 1 HSCHG 0 5.8SEC 54.2SEC CURRENT about 100mA 8mA Fig. 16 Channel Center Frequency (MHz) Channel Number Channel Center Frequency (MHz) 1 2404.8 21 2440.8 2 2406.6 22 2442.6 3 2408.4 23 2444.4 4 2410.2 24 2446.2 5 2412.0 25 2448.0 6 2413.8 26 2449.8 7 2415.6 27 2451.6 8 2417.4 28 2453.4 9 2419.2 29 2455.2 10 2421.0 30 2457.0 11 2422.8 31 2458.8 12 2424.6 32 2460.6 13 2426.4 33 2462.4 14 2428.2 34 2464.2 15 2430.0 35 2466.0 16 2431.8 36 2467.8 17 2433.6 37 2469.6 18 2435.4 38 2471.4 19 2437.2 39 2473.2 20 2439.0 40 2475.0 Ex.) The current of quick charge mode to the battery CHARGER CIRCUIT 5. TX Wideband Response + TERMINAL Fig. 18 shows a typical plot of random spread spectrum data as viewed at the antenna. This plot can be used to check that the system performs to the FCC out-of-band emission requirements. – R9 HSCHG Ref Level 40 dBm R10 RBW VBW SWT 100 kHz 1 MHz 5 ms RF Att 40 dB Unit dBm 10.9 dB Offset F1 CONNECTOR FOR BATTERY 30 VCC BAT 20 TO REGULATOR 10 Fig. 17 0 -10 3. 2.4GHz DSSS Technical Specifications -20 No. -30 1 Item FREQUENCY Specifications -40 2.4GHz ISM BAND 2 NUMBER OF CHANNEL 40CH 3 CHANNEL SPACING 1.8MHz 4 ACCESS METHOD FDMA-TDD (Frequency Division Multiple Access, Time Division Duplex) 5 SPREAD METHOD DSSS (Direct Sequence Spread Spectrum) 6 CHIP RATE 12chips/bit 7 DATA TRANSFER RATE 100kbps 8 RATE OF BASE BAND DATA 1200kbps 9 MODULATION METHOD Test Conditions: High Power Mode VBATT: +3.6 V -50 -60 Center 2439.0 MHz 500 kHz Fig. 18 RF Spectrum of Merlin 2400 MHz DBPSK (Differential Binary Phase Shift Keying) 5 – 23 Span 5 MHz FO-CC500A FO-K01A 6. RUNTZ2099XHZZ LCD Terminal description (Cordless handset) Pin No. Symbol Functions 1 RS Register selection input 2 RW-WR This pin is connected to R/W pin of MPU 3 E-RD This pin is connected to E pin of MPU 4 CSB Chip selection input 5-8 DB7-DB4 Data bus 9 VDD Power supply for logic 10-14 V4-V0 Bias voltage level for LCD driving 15 VR Voltage adjust pin 16 VOUT DC/DC voltage converter output 17 CAP2- Capacitor connecting pin for the internal voltage converter 18 CAP2+ Capacitor connecting pin for the internal voltage converter 19 CAP1- Capacitor connecting pin for the internal voltage converter 20 CAP1+ Capacitor connecting pin for the internal voltage converter 21 VSS Ground 22 RESETB Hardware reset input [6] Circuit description of power supply PWB This power supply unit has the function to convert the AC 220 - 240 V 50/60 Hz to DC +24 V, and provide these outputs to the equipment. The following explains the function of each block. (See Fig. 20) 1. Block diagram F1 T2.5A/250V Filter Circuit AC IN Rectifying/ Smoothing Circuit Switching Circuit TRANSFORMER F2 T2.5A/250V +24V Circuit F101 T4A/250V +24V +5V Circuit +5V GND Control Circuit Photo Coupler Fig. 20 2-1. Filter circuit 2-4. Control circuit This circuit reduces the outgoing noise through the input lines which is generated in the power supply unit, and prevents the invasion of the noise from the lines.(the excessive surge such as the thunder is prevented by the varistor(Z1).) This circuit block controls the output voltage by transmitting the detected +24 V voltage to the primary control circuit through the photocoupler(PC1). In case of the over-current, this circuit reduces providing the energy to the transformer. In case of the over-voltage, this circuit reduces providing the energy to the transformer by letting the PowerZener(D104; connected between the +24 V output voltage and GND) into the short mode and letting the over-current protection circuit work. 2-2. Rectifying/smoothing circuit This circuit rectifies and smoothes the AC input, and provides the DC voltage to the switching circuit block. 2-5. +24V circuit 2-3. Switching circuit This circuit block rectifies and smoothes the high-frequency pulse voltage provided by the transformer, and provides the DC +24 V output to the equipment. The output voltage is adjusted by the variable resistor(VR101). This circuit converts the DC voltage(provided from the Rectification and smoothing circuit block) to the high frequency pulse voltage by FET(Q1)’s switching(on/off repeat), and provides the energy to the transformer(T1). It discharges the energy(charged during the FET ON time) to the secondary side during the FET OFF time through the secondary windings. The output voltage on the secondary side provided by the energy depend on the ratio of the winding turns(primary : secondary) etc. 2-6. +5V circuit This circuit block rectifies and smoothes the high-frequency pulse voltage provided by the transformer, and provides about DC +6 V output to the regulator IC, and provides the DC +5 V output to the equipment. 5 – 24 FO-CC500A FO-K01A [7] Circuit description of CIS unit 1. CIS 2. Waveforms The following clock is supplied from SCE214V of the control board, and VO is output. CIS is an image sensor which puts the original paper in close contact with the full-size sensor for scanning, being a monochromatic type with the pixel number of 1,728 dots and the main scanning density of 8 dots/mm. It is composed of sensor, rod lens, LED light source, light-conductive plate, control circuit and so on, and the reading line and focus are previously adjusted as the unit. Due to the full-size sensor, the focus distance is so short that the set is changed from the light weight type to the compact type. 5ms Approx.3.3V øT 0V 2µs CISCLK VO 0.8V~2.9V (White original paper) Fig. 21 5 – 25 1 2 3 4 5 CNTH-1 2 CNTH-1 4 CNTH-1 3 CNTH-2 CNTH-3 CNTH-1 0 CNTH-1 1 CNCIS-4 CNCIS-5 A LATCH- DATA PCLK STRB1- STRB2- STRB3- STRB4- < ØT > > ØT < C IS C L K > CISC LK C118 N. M. DG DG DG 150 470 R173 R175 B 0 270 270 1 2 3 4 DG 270 RA3 R155 8 7 6 5 R116 R117 C116 N. M. C132 22p/50V 1M DG 100 DG R187 DG 60 59 58 57 63 62 61 67 69 C131 22p/50V R134 220 11 C C143 1u/10V 100pFX5 STRB3 STRB2 STRB1 STRB0 PCLK PDAT PLAT START CLK2 SXOUT SXIN TEST1 TEST0 C107 C108 C111 C112 C109 C110 N. M. 32.256MHz X1 R133 10 32 33 +3.3V SEN4 6 [1] Control PWB circuit Main control block C145 1u/10V RA2 470 SEN2 +3.3V 1u/10V C166 DG D D RA1 470 C122 0.1u/50V 0.1u/50V C123 0.1u/50V C168 0.1u/50V C141 0.1u/50V C138 0.1u/50V C129 0.1u/50V C119 0.1u/50V C121 0.1u/50V C130 E IC 3 FAX CONTROLLER SCE214V(1/2) DG 220px4 F E DG 100px4 F DG DG R157 1 C C103 C104 C101 C102 B 0 100p/50V 100p/50V 100p/50V 100p/50V 100p/50V 100p/50V 100p/50V 42 ADVA SEN0 C195 C194 C176 C197 C198 C196 C177 38,41 ADGA CNP N-14 C115 100p 43 ADXG SEN3 CNP N-13 R108 470 46 CNP N-12 R106 470 47 IVREFn E 4 3 2 1 5 6 7 8 SEN1 CNP N-11 SEN6 CNP N-16 24 IVREFp 18 17 16 15 14 13 12 23 R105 470 CNP N-10 SEN5 CNP N-15 48 VDD KEN4A CNPN-1 R104 CNPN-9 C113 100p 64 VDD 22 21 20 19 4 3 2 1 1000p/50V 1000p/50V N.M 97 VDD OPI3 OPI2 OPI1 OPI0 5 6 7 8 2 VSSPLL VDDPLL SM3 SM2 SM1 SM0 174 173 172 171 R130 R118 R135 R132 1K 1K 1K 1K TPBTPATPB TPA C200 C199 C167 119 VDD KEN3A 9 VSS C174 C175 C152 C154 C170 1u/10V 132 VDD CNPN-2 45 VSS ALTTONE (BZ) 149 (6-1E) BZOUT1 OPO6 OPO5 OPO4 OPO3 OPO2 OPO1 OPO0 LCDCS 161 VDD KEN2A 50 VSS C140 1u/10V 166 CNPN-3 70 VSS (5-6D) VIN VDD KEN1A 107 VSS (5-2I) THA DI DG DG C142 1u/10V DG C149 C146 20p/50V 20p/50V X2 10M XIN 29 VDD CNPN-4 133 THADI VIN VREFn/CLREF VSS VREFp 49 40 39 +3.3V 44 165 XOUT 30 GG DG 10K VSS (5-5E) (5-5E) (5-5E) (5-5E) 32.768K Hz 8 7 DEBUGn A3 A2 A1 A0 A7 A6 A5 A4 A11 A10 A9 A8 A15 A14 A13 A12 A23 A22 A21 A20 A19 A18 A17 A16 DG C144 1u/10V DG DG C147 1u/10V R128 220K SYNC WRPROT WAIT/GPO19/CLKDIV1 REGDMA/GPO18/CLKDIV0 RAS CAS DWR RD WR ROMCS 108 RESET INTPWRDOWNE 35 R156 PWRDWN 36 (4-2D) PWRDWN- VBAT 28 VBAT BATRST 6–1 34 TSTCLK D7 D6 D5 D4 148 147 146 145 D7 D6 D5 D4 D3 D2 D1 D0 144 143 142 141 D3 D2 D1 D0 A H C148 1u/10V 4 31 176 175 25 26 27 6 5 3 117 116 115 114 122 121 120 118 126 125 124 123 130 129 128 127 140 139 138 137 136 135 134 131 H 10K R101 DG DG A3 A2 A1 A0 A7 A6 A5 A4 A11 A10 A9 A8 A15 A14 A13 A12 A18 A17 A16 A[18:0](2-6A) 1/6 (2-3F) (2-4G) (2-4G) (2-4G) I RLYCONT (6-2A) WP- RASCASDW R- RD(2-3A) WR (2-3A) ROMCS- (2-4A) D[ 7:0] (2-5A) I 1 2 3 4 5 6 FO-CC500A FO-K01A CHAPTER 6. CIRCUIT SCHEMATICS AND PARTS LAYOUT 6–2 1 2 3 4 5 6 A (1-4I) RD- (1-4I) WR - (1-3I) ROMCS- (1-6I) D[ 7:0] (1-5I) A[18:0] R112 10k +3.3V 0 R113 R125 10k +3.3V Memory block A A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 R115 0 B R114 N. M. B 30 20 19 18 17 16 15 14 13 3 2 31 1 12 4 5 11 10 6 9 IC1 WE OE GND VDD D0 D1 D2 D3 D4 D5 D6 D7 SST39VF040P FLASH ROM CE A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 N.C.(A18) 7 32 24 8 21 22 23 25 26 27 28 29 C C DG C126 0.1u/50V 0 L110 D0 D1 D2 D3 D4 D5 D6 D7 +3.3V D D E E (1-6H) WP- F F (1-3I) RAS- DG C217 N. M. R199 N. M. +3.3V (1-3I)DW R- (1-3I) CAS- G (3-2A) READY (3-2A) FRDFC S(3-2A) (3-2A) FCLE (3-2A) FALE (3-2A) FW R- R204 N. M. +3.3V G R205 N. M. DG A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 C210 N. M. 22 7 23 8 6 10 11 12 13 16 17 18 19 20 9 IC2 GND GND NC VCC VCC DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 R/BRECE- N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. N.C. CLE ALE WEWP- IC8 GND VSS VSS VCC VCC N.C. N.C. N.C. N.C. N.C. N.C. N.C. I/O4 I/O5 I/O6 I/O7 I/O0 I/O1 I/O2 I/O3 H 28 15 21 1 14 2 3 4 5 24 25 26 27 40 1 22 44 23 39 38 37 36 35 34 33 24 25 26 27 18 19 20 21 K9F4008W0A FLASH MEMORY 41 42 43 6 7 8 9 10 11 12 13 14 15 16 17 28 29 30 31 32 2 3 4 5 MSM51V4800E DRAM OE WE CAS RAS NC A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 H DG DG I 0.1u/50V C135 D4 D5 D6 D7 D0 D1 D2 D3 +3.3V +3.3V D0 D1 D2 D3 D4 D5 D6 D7 2/6 C100 0.1u/50V I 1 2 3 4 5 6 FO-CC500A FO-K01A 6–3 1 2 3 4 5 6 A B VTHON A CNLIU A-4 (5-1i) TMICHK CND SS-7 CND SS-6 CND SS-8 (6-1G) VOLA (6-1G) VOLB (6-1G) VOLC FC SFRDFW RFC LE FALE READY CNP RG-3 CNP RG-1 W-TONE (2-2G) (2-2G) (2-3G) (2-3G) (2-3G) (2-2G) (6-2D) (6-2C) WA RNING FRSNS(4-3C) (4-4C) ORGSNS(4-5C) DR/RBN (4-6C) CS WI LED ON (5-5E) CNL IUA-16 THCHK CNL IUA-15 (5-3D) (5-5E) N. M. CNTH-5 CNLIU A-9 CNLIU A-6 (6-3E) RCV OL (6-3E) DTMFMUTE (6-1A) SIGMUTE (6-1I) SPMUTE CNL IUA-10 CNLIUA- 1 CNL IUA-13 CNL IUA-12 CND SS-5 CI - C190 C203 270 C169 1000p/50V DG 270 52 53 DG C209 100p/50V C 160 168 156 167 MICMUTE N. M. C220 B DG 270 104 103 106 SRLTX SRLRX PARK 158 105 150 169 170 VOL A VOL B VOL C 110 94 112 113 152 153 151 R189 150 111 109 FC S DG FRD FW R FCLE FALE READY (5-2D) THLOOK R191 FLRXD N. M. R190 FLTXD C128 150 1K 55 163 164 65 66 1K NOT MOUNTED R174 270 FR SNS ORGSNS DR/ RB N CS WI R129 DG C202 R176 R177 R186 155 56 C127 DG C204 DG 470 VTHON LEDON DPMUTE DP ON (6-5A) DP ON THRANK R178 CML C206 100p/50V. R183 TELMUTE 157 159 RCVOL 68 162 154 DG DTMFMUTE SIGMUTE SPMUTE C205 54 4 3 2 1 PI N 100px3 270 RA4 51 5 6 7 8 RH S- HS- CI - C D D GPIO29 SASCLK2 SASTXD2 SASRXD2 DSS_PARK VOL-A VOL-B VOL-C FCS FRD FWR FCLE FALE READY SASRXD SASTXD GPIO3 GPIO35 GPIO36 GPIO11 GPIO19 VTHON GPO1 GPO29 GPO0 GPIO32 GPIO37 GPO28 GPO30 GPIO31 GPO27 GPO25 GPIO34 GPIO13 GPIO17 GPIO16 GPIO15 / CS5 E IC3 SCE214V(2/2) MODEM BLOCK E DVSS(IIA) DVDD (IIA) AGND (IIA) VREF (IIA) AVSS2 (IIA) AVSS1 (IIA) AVDD (IIA) LINE_OUTP (IIA) LINE_INP (IIA) SPKR_OUTM (IIA) SPKR_OUTP (IIA) MIC_BIAS (IIA) MIC_INM (IIA) MIC_INP (IIA) TESTC MCDE0 N.C. POR (IIA) IARESET SOUT (IIA) SR3IN SIN (IIA) SR4OUT CTRLI (IIA) SR1IO MCLK (IIA) IACLK ICLK (IIA) IA1CLK FSYNC (IIA) SA1CLK 93 90 84 83 78 86 85 87 79 89 88 82 81 80 73 91 37 77 95 74 99 75 100 72 101 71 96 92 98 76 102 DG F C139 0.1u/50V C6 10u/50V 1K R153 C162 0.1u/50V 0.1u/16V-K C137 N. M. + C7 C165 0.1u/50V 10u/50V 2.2K R154 C164 DG DG F C163 0.1u/50V + FAX Modem block MAG C4 10u/50V +3.3V + MAG L105 L107 L106 15 G L104 G 0 0 0 DG +3.3V (6-1C) (6-4E) SPOUT H (6-2E) TELOUT1 (6-6E) SIGTX SIGRX H I I 3/6 1 2 3 4 5 6 FO-CC500A FO-K01A 6–4 C C211 470p/50V DG B 51K R127 DG DG DG DG C PW RDWN - (1-1G) C105 1000p/50V C106 1000p/50V C207 1000p/50V C171 100p/50V (3-3A) FRS NSi(3-3A) ORGSNS i- (3-3A) DR/RBN (3-3A) CSW i- D CNDS S-4 CNDS S-3 DGD E CNPW -4 CNPW -3 CNPW -2 CNPW -1 CNPW -5 CNPW -6 0 C158 N. M. R147 MG MG +24V +24V DG <+24V> VREG G C157 N. M. R170 N. M. ZD 2 MTZJ5.6B DG F 5.6K C192 0.1u/50V CR2032 BAT1 R100 R109 N. M. C9 220u/16V MG + REG1 D101 1SS355 ON/OFF Vin K K G C193 0.1u/50V FG + C10 22u/50V +24V DG S-814A33A UC-BCX 4 5 HRW 0202 R111 N. M. VREG A2 D100 +3.3V G A NC Vout 3 1 C159 1u/10V H H DG 0 L102 <+3.3V> L109 L108 0 0 MA G DG PD G + C8 220u/6.3V +3.3V VBAT PDG MAG DG DG DG DG +3.3V I I CNPN-5 CNLIU A-2 CND SS-2 CND SS-1 CNPR G-2 CNC SW -2 CNPN-6 4/6 3 4 5 6 1 +3.3V 270 R102 270 R103 270 R179 270 F 1 FRSNS- ORGSNS- FILM CSW - R168 +3.3V R166 20k E 2 A CNPN-8 CNPN-7 CNL IUA-11 CNC SW -1 D + 2 3 4 5 6 B A1 A VSS 2 Sensor/Reset/Power supply block FO-CC500A FO-K01A 1 2 3 4 5 VO A DG 1000p/ 50V N.M. 300Ω( 2W) B 0.01 u/ 50V 0Ω R1 C124 0 R192 R1 N.M. L100 0 C1 220u/6.3V N.M R192 0 R119 VG DY NA ROHM +24V +3.3V VG R107 10K B CIS Maker (5-5I) LEDON- CNCIS-1 R120 5.1K C124 VG DG GLED +24V VG C CNCIS-6 CNCIS-7 CNCIS-2 CNCIS-3 C117 0.1u/50V C114 0.1u/50V CISV DD 0.01u/50V CISV DD 2SA1530A Q100 CISV DD E C 6 D (1-2F) D (3-2B) THLOOK (5-5H) THCHK- (3-3A) VTHON VIN Video processing/Motor drive/Thermal block C Q102 1N436C B E DG TPATPB- (1-1E) (1-1E) C E Q110 1N141C 100k R149 (3-3A) LED ON (3-4A) THCHK TPB TPA (1-1E) (1-1F) E C DG E B B R151 100k 02CZ1 8-Y ZD100 120K R171 F 4 3 2 1 8 7 6 5 4 3 2 1 F +3.3V Q111 KRA102S +24V MG E C 6–5 7C 6C 5C 4C 3C 2C 1C COM 0 THG R150 470K R152 20K G L103 D2 6 D1 5 S3 SI4431ADY D4 8 D3 7 MG S2 10 11 12 13 14 15 16 9 S1 Q108 KID65001AP E 7B 6B 5B 4B 3B 2B 1B IC6 +24V G MG G C C161 N. M. 100u/25V C5 R172 22K 1N4748 ZD1 THG R206 100K + C3 10u/50V DG R163 0.1u/50V KAB3202 FU100 H H DG E B + A Q113 1N141C B DG DG C178 N. M. THI THVDD THG THG THG VTH VTH TMICHK CNTH-4 THADI CNTH-9 CNTH-8 CNTH-7 CNTH-6 5/6 I (3-1A) (1-2F) CNTH-1 5 CNTH-1 LEDON- (5-3A) THCHK- (5-3D) CNMT-1 CNMT-2 CNMT-3 CNMT-4 CNLIU A-3 CNMT-6 CNMT-5 THADI C160 1u/10V THG TPBD- TPAD- TPBD TPAD +24VL VMT VMT I 1 2 3 4 5 6 FO-CC500A FO-K01A 1 2 3 4 5 IC M (3-5A) SIGMUTE CNLIU A-8 (6-6C) TELOUT (1-3I) RL YC ONT CNDSS-12 CNDSS-10 CNLIU A-7 CNDSS-13 (6-2F) (3-4A) DP ON A MAG C222 N. M. TXOUT DSSTX DSSOUT RXIN DSSRX DS SIN 10 11 C218 3K MAG B NOT MOUNTED C219 6 1u/10V-K R196 C215 1u/10V-K C183 1u/10V-K 5 3 +3.3V R193 1M C +3.3V +3.3V C R182 N. M. C C C181 Q106 MAG D B Not mounted C180 R160 MAG Q105 1N141C SPOUT (1-1F) BZOUT1 (3-2H) MAG +3.3V (3-3A) W-TONE Q104 B C B B Q112 1N141C 0 MAG 0.022u/50V C188 MAG SIGTX (3-3H) WA RNING (3-3A) MAG C213 0.1u/50V 0 C179 MAG C223 5 IC11 KIC7S66F (KIC7S66F) 3 2 R164 R165 R167 2.4K CNDSS-11 R200 N. M. MAG MAG NOT MOUNTED I NCOM R194 2K C184 0.01u/50V NOT MOUNTED R184 1u/10V 1u/10V C185 1u/10V-K SIGTX 15K 0.1u/16V-K Not mounted IC13 1 4 C187 MAG R181 C225 N. M. 4 MAG 13 12 0.1u/50V C172 C189 C186 TELOUT (6-2A) D E +3.3V R203 100 IC10A LV4053 MAG MAG 11 N. M. IC 10C LV4053 14 100 R201 R180 IC 12C 4066 9 ZD101 HZU2 .7B1 C182 8 MAG Q103 C 0.1u/16V-K C208 MAG 2 IC10B LV4053 1 +3.3V 2K R195 MAG B IC 12D 4066 15 100 R202 1u/10V-K C224 10 16 8 6 7 CNDS S-9 C221 N. M. 16 E TELOUT 16 8 6 7 12 E CNL IUA-14 E 9 7 6 8 1 4 E E C151 4700p/50V 20K R137 C155 0.1u/50V 5 DG 2 3 DG R131 15K 0.01u/50V C133 1u/10V C150 1u/10V-K C214 (3-5A) MAG RCV OL (3-5A) IC12A /B 1 3 R136 150K R121 3K F F IC M (6-5A) NOT MOUNTED R198 R197 CNLIU A-9 (3-4A) SIGRX (3-3H) DTMFMUTE IC4 KIC7S66F 4 1 TELIN CML SIGRX TELOUT1 (3-2H) CNLIU A-5 D103 1SS355 1SS355 D102 +3.3V +3.3V E 5 13 6 2 R141 R140 R142 R139 R146 R143 R144 R145 4066 2 4 1.5M 470K 200K 220K 91K 39K 24K 6.2K 4 2 5 1 12 15 14 13 X7 X6 X5 X4 X3 X2 X1 X0 LV4051 IC5 N. M. R138 C B A G GND VEE E- VDD X 9 10 11 8 7 6 16 3 RCV OL (3-5A) DG +3.3V 4066 IC 12C DG VOLC (3-1A) VOLB (3-1A) 3 + NJM2113 IC7 220K 4 2 VREG 220p/50V MAG H C125 1u/10V R124 H C216 0.1u/50V +3.3V C134 7 14 VOLA (3-1A) 0.1uF/ 50V C156 R122 100K DTMFMUTE (3-5A) G 6 Analog signal block 3 5 1 C DG 7 B 8 6–6 5 C212 0.1u/50V 1 DG 2 A I SP- SP+ C2 47u/25V I SPMUTE (3-5A) CNSP-2 CNSP-1 6/6 1 2 3 4 5 6 FO-CC500A FO-K01A FO-CC500A FO-K01A Control PWB parts layout (Top side) 6–7 FO-CC500A FO-K01A Control PWB parts layout (Bottom side) 6–8 A B C CNTLJ -5 CN LNJ- 1 CNTLJ -2 CN LNJ- 6 CNTLJ -4 CN LNJ- 2 CNLNJ-3 CN LNJ- 4 L1 T1 E E S S EX-T2 T2 L2 C6 TN07G181 5 RA501P-C 6 ARG L9 N. M. R- 5C N. M. N. M. R- 5C N. M A3X-24E-908 3 CML(1/3) 4 5 CML(2/3) 9 8 N.C. 10 C10 0.56u/250V N.C. N. M JP22 MTZJ20B ZD4 2 1SS133/1SS270 D4 43k R117(2125) 4. 7mH L4 N. M 1 PC1(1/2) TLP621 4 3 JP23 JP ~ - S1ZB60 RE C1 ~+ 300(1/10W) ( 2125) R115 0.33u C11 N. M C118(2125) JP21 NOTE: This mark indicates a safety-critical part(s). JP N. M JP4 L8 JP6 L7 JP5 L6 L5 22k(1 W) J.P CSS-301M AR2 N. M VA2 CN LNJ- 5 R4 ZD6 JP20 C9 N. M PC2(1/2) 4 3 51(1W) JP24 1u/250 N.M N.M JP C20 ZD9 EX-T1 C122(2125) 4 3 2 0.068u/25 N. M PC3(1/2) 2165 T1 + N. M Q5 B ZD3 ZD2 CNTLJ -3 R140(2125) HZ2A1 JP1 15k D 1 + N. M. DG 1 1K R118 Q104 G N. M. C125(2125) Q3 G C12 BS108 S D 2 ZD8 R143 22u/50 [2] LIU PWB circuit 3 MTZJ6.8B N.M (2125) B 15 (1/ 4W) 4 C124 C15 N.M Q4 Vre f A 1/3 C E HZ2A1 C E R9 R5 R145 D S PC4(1/2) 1 2 15(1/4W) N.M (2125) N.M 6–9 JP25 N.M 5 (2 -5D) A (2 -5D) IN/OUT A B C D FO-CC500A FO-K01A 0 (2125) R144 N. M. 10u/50V 10k (1/4W) R10 TN07G270 RA501P-C 6 AR1 VA1 CNHJ -3 CNHJ -2 CNLIU A-4 CNHJ -1 CNHJ -4 Vre f A C144 C112 G RX- RX+ MICMUTE TX- TX+ D 5 N. M. 0.01u B E C RT1N436C Q102 R- 5C L3 L1 N. M JP JP31 R- 5C N. M JP30 L2 N. M JP29 1.5k R112 N.M R107 Vre f A (3-2A) DG1 Vr ef B 0.1u HSDG C104 DG 390 R130 (3-2A) 1k R101 + DG N.M 4 4.7u/50V C1 + A B C A ( 1-1D) ( 3-5D) 0 Q106 N.M S C113 0 1K 0 C143 R132 C145 0.01uF N.M C135 R131 620 C119 0 R126 C4 DG R120 N. M. ( 1-1D) N.M 3.9K 22u/50V C101 1k DG1 R105 IC102 NJM2904M 7 (3-2A) 0.056uF B N. M C106 Q100 KTC3875GR 5 6 N. M DG C131 N. M - E 2.2k R106 NJM2904M 16k 7 DG 1500p Q6 N.M IC101 5 + 6 R102 C109 C 23 Vre f A +C + N.M C129 IN/OUT C103 R124 C134 D1 1000p R127 C100 1k N.M D2 220p C133 1000p C E C102 C132 B 220k C105 R142 DG + 6.8k R121 N. M N.M 3 3.3k R104 C Vr ef A E DG1 B - 820p 47k 22k (3-2A) NOT MOUNTED + 3 2 150k 1000p IC101 R111 C117 C137 R133 R134 0 R103 (2-1B) 22k Vr ef A R136 NJM2904M 1 22 N. M 0 Q101 RT1N436C DG +C 10K C13 10uF/50V R125 C127 C142 N. M 3.3k D 150(2125) R100 100pF C115 R122 DG N.M C130 N.M C116 LIU PWB circuit C138 C136 N.M 3 C108 N.M 6 – 10 N.M DG 2 + 2 - 3 + 2 30k 1000p R109 R110 1 8.2k 24k NJM2904M IC102 R135 C139 N.M 4 N.M C2 DG1 Vre f B 3.3k (3-2A) DG DG ZD7 DG ZD5 5 N.M 1 TELMUTE TELIN TELOUT (2-3D) RXIN TXOUT 1 CNLIU A-6 CNLIU A-5 CNL IUA-14 CNLIU A-7 CNLIU A-8 2/3 A B C D FO-CC500A FO-K01A MTZJ10B R137 C140 N.M A B +24VL N. M N. M R128 N. M R129 D3 DG DG R119 5 CML(3/3) A5X-24E-908 R123 DG N. M. PC3(2/2) 1 PC2(2/2) 1 C126 N. M. 1SS133/1SS270 PC4(2/2) TLP621 PC1(2/2) 4 3 C 4 3 Vre f A C C141 DG Ci HS B C C C CML NOT MOUNTED N. M 2 N. M 2 B RT1N436C Q103 DG DG E Q105 N. M. B B B CNLIU A-9 CNL IUA-13 CNL IUA-12 DG N. M Q109 DG N. M Q107 DG N. M. Q108 E E E C N.M 4 Vre f A DPMUTE DP ON RL YCNT Vre f B CNL IUA-16 CNL IUA-15 CNL IUA-17 + R1 ZD1 DG N. M NOT MOUNTED +24VA SW1 1 2 HOOK SW 3 DG R113 3 20K R108 ( 2-5D) ( 1-1D) C5 22u/50V 0.1u/50V E A N.M R3 + 20K PH2 DG PH1 SG206 SG206 DG1 HSDG 100u/50V D 0.1u C107 C114 1.2k(1W ) C8 0.1u/50V 1000p N. M. 24VL 0.1u NOT MOUNTED C121 R116 R2 100(1/4W) + 1 TP1 3 JP TP2 JP 2 DG CNLIU A-1 CNL IUA-11 CNL IUA-10 2 CNLIU A-2 2 (3-2A) DG1 +24VA CNLIU A-3 RHS FILM PI N NJM78L05A REG1 +24VL Vin Vout GND DG1 Vre f A C3 47u/25V +24VL + DG2 C14 DG NJM2904M +24VL 100uF/25V 8 IC101 4 8 IC102 6 – 11 C123 0.1u NJM2904M N.M C110 C111 0.1u 1 DG1 3/3 (3-2A) 1 NOTE: This mark indicates a safety-critical part(s). 4 3 N.M LIU PWB circuit 4 C128 5 A B C D FO-CC500A FO-K01A C120 FO-CC500A FO-K01A LIU PWB parts layout (Top side) 6 – 12 FO-CC500A FO-K01A LIU PWB parts layout (Bottom side) 6 – 13 6 – 14 A B C D 5 4 2 3 Common Round DG Crystal [K SS] 1 X1 V C C _3 . 3 V L 102 0 DG C 43 0.1u 5 C 4 0.1u DG R156 56k(F) R155 56k(F) 1 NC RESETO ( 3-5D) L 101 0 C 30 8p INCOM ROMCS WR ITE READ ( 3-5B) ( 1-1A) ( 1-1A) ( 1-1A) C 31 0.1u DSS IN DSSOUT ( 3-5B) ( 3-5B) R107 N.M R106 N.M DG C 3 0.1u C 34 0.1u 4 5 C 2 8p C 35 8p DG R105 DG C113 100p R120 10k L 104 C 32 0.1u C 36 0.1u 0 C130 33p 4 0 AG C 33 8p C 37 8p C 9 0.1u C 40 0.1u C 38 0.1u TP47 TP49 C 39 8p 92 5 33 70 C 8 8p 93 C 41 8p 2 32 71 7 29 57 73 114 6 27 28 56 74 113 48 54 79 112 84 83 86 80 81 82 85 59 45 58 43 44 42 40 39 41 TP30 TP20 TP14 TP15 TP13 TP11 TP12 107 TP31 to EMUCLK TP32 TP33 to NMI TP34 to EMUSYNC TP35 DG R121 10k 96 97 94 91 90 3 4 34 35 68 69 98 99 72 C112 100p R119 10k DG to RESET C 56 0.01u(K ) TP62 V C C _3 . 3 V C 7 N.M DG TP5 DG 10 C102 0.22u C 60 1u DG R154 R125 47k(F) R5 270 V C C _3 . 3 V D D D D D D DG V C C _3 . 3 V D C C MCLK ICLK ( 3-5D) ( 3-5D) D FRAME CDDATAO UT D CDDAT AIN D ( 3-5D) D ( 3-5D) ( 3-5D) PARK ( 3-3B) ( 3-5B) D D 56k(F) TC7SZ04F V C C _3 . 3 V MONIN MONOUT C 5 8p Vcc GND OUT IN R124 DG 3 2 IC 6 ( 3-3B) ( 3-5B) ( 3-3B) ( 3-5B) V C C _3 . 3 V Codec Control DG C 59 0.01u(K ) V C C _3 . 3 V C 42 8p Reset Turn on Vcc_BA T = 2.76V (RESETIP Input Voltage = 1.257 V[ +36mV,-36mV] ) Turn off Vcc_BAT = 2.96V (RESETIP Input Voltage = 1.35 V[ +36mV,-36mV] ) C 61 0.1u DG 4 V C C _3 . 3 V [3] Cordless PWB circuit Main control block AVSS AVDD VSSC VSSC VSSC VDDC VDDC VDDC VSSP VSSP VSSP VSSP VSSP VDDP VDDP VDDP VDDP VDDP VDDP WPR~3 RDP RAMCSP ROMCSP HOSTACK HOSTCSP VISP~3 EMUCLK~3 NMIP SYNC~3 XCODEP NC NC NC NC NC NC NC NC NC RESETOP/CDCPOR MCLK/CDCMCLK CDCICLK/ICLK CDCDATAO CDCDATAI CDCFRAME PARKP ARTI ARTO AUX DAC BATT1 BATT0 RESETIP OSCI OSCO AGC REFOSC AUXREF RXEN TXEN TRSW TXDATA AGND RXQN RXQP RXIN RXIP 3 DATA0 DATA1 DATA2 DATA3 DATA4 DATA5 DATA6 DATA7 ADDR0 ADDR1 ADDR2 ADDR3 ADDR4 ADDR5 ADDR6 ADDR7 ADDR8 ADDR9 ADDR10 ADDR11 ADDR12 ADDR13 ADDR14 ADDR15 KEYPADC0 KEYPADC1 KEYPADC2 KEYPADC3 KEYPADC4 KEYPADC5 KEYPADR0 KEYPADR1 KEYPADR2 KEYPADR3 KEYPADR4 KEYPADR5 KEYPADR6 KEYPADR7 GPIOA0 GPIOA1 GPIOA2 GPIOA3 GPIOA4 GPIOA5 GPIOA6 GPIOA7 GPIOB0 GPIOB1 GPIOB2 GPIOB3 GPIOB4 GPIOB5 GPIOB6 GPIOB7 GPIOC0/SWCTL GPIOC1 GPIOC2 GPIOC3 GPIOC4 GPIOC5 GPIOC6 GPIOC7 IC2 CX80705-13 3 105 122 121 120 119 118 117 116 115 15 16 17 18 19 20 21 22 51 52 55 53 46 50 49 47 23 14 13 12 11 10 60 61 62 63 64 65 66 67 123 124 125 126 127 128 1 8 38 37 36 31 30 26 25 24 9 75 111 109 88 87 77 78 89 106 76 108 110 100 95 104 103 102 101 L 111 5 6 7 8 8 7 5 6 8 7 6 5 100 RA 5 100 RA 1 100 RA 4 4 3 2 1 1 2 4 3 1 2 3 4 5 6 7 8 8 5 6 7 8 7 6 5 R148 100 RA 6 100 RA 2 100 RA 3 0 100k DG R109 R129 22k AG R123 BLM 11HB102SD 100 100 0.1u TP6 R108 R128 C 55 TP1 TP2 TP3 TP4 4 3 2 1 1 4 3 2 1 2 3 4 R139 R140 R112 R131 R130 R126 R127 R111 R132 100 A R110 100 D0 D1 D2 D3 D4 D5 D6 D7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 CI ( 3-5B) V C C _3 . 3 V 100 100 100 100 100 100 100 100 100 C114 N.M RFG D D A A A A A A (2 -5C) D D D D D D C D[0 .. 7] 2 A[0 ..15] A0 TP36 A1 TP37 A2 TP39 A3 TP41 A4 TP42 A5 TP44 A6 TP46 A7 TP48 A8 TP50 A9 TP51 A10 TP52 A11 TP53 A12 TP54 A13 TP38 A14 TP40 A15 TP43 6 9 10 20 19 18 17 16 15 14 13 3 2 31 1 12 4 5 11 VSS VDD WE# OE# CE# DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 R142 10k 30 24 8 7 TP28 TP27 TP26 TP16 TP17 TP18 TP21 TP22 TP23 TP24 TP25 GND A2 A1 A0 D0 D1 D2 D3 D4 D5 D6 D7 DG C118 0.1u R138 R141 R144 4 3 2 1 1 1/3 DG D D D ( 1-5B) WR ITE ( 1-5B) RE AD ROMCS ( 1-5B) High Power Medium Power Low Power Undefined V C C _3 . 3 V 100 100 100 S-24C04 [SII] SDA SCL TEST VCC IC 4 DG 5 6 7 8 TDD Control TXEN = High : Transmit Data RXEN = High : Receiver Data C119 0.1u DG 32 : : : : Low Noise Amp attenuation LNATTN = Low : receiver High Gain mode LNATTN = High : receiver Low Gain mode R143 10k 21 22 23 25 26 27 28 29 1 Power Level Control TXPWR1 = Low , TXPWR0 = Low TXPWR1 = Hihg, TXPWR0 = Low TXPWR1 = Low , TXPWR0 = High TXPWR1 = Hihg, TXPWR0 = Hihg V C C _3 . 3 V SST39LF512 [SST] NC NC NC A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 IC 3 V C C _3 . 3 V ( 2-2C) ( 2-5C) ( 2-5C) ( 2-2D) ( 2-2D) ( 2-2C) ( 2-2C) (PLL Clock 9.6M Hz) C REFOSC (2 -2C) (2 -5C) (2 -2D) (2 -4C) (2 -4C) (2 -4C) (2 -4C) LNATTN TXPWR0 TXPWR1 SYNEN SYNSTB SYNDA TA SYNCLK I2 C Serial Data I2 C Clock RXEN TXEN TXDATA RXQN RXQP RXIN RXIP AGC 2 A B C D FO-CC500A FO-K01A Merlin ASIC XROM 6 – 15 A B C D V C C _3.3V R F L 112 5 RFG + 3[2012] 2 4 C126 0.75p RFG CN101 1 H,FL-R C54 1000u/10V TP66 RFG TP65 3 RFG C48 0.1u C49 8p AGC ( 1-2D) C127 3p TP67 RFG A A A RXIP ( 1-2D) A RXQP ( 1-2D) RXIN ( 1-2D) A R141 D RXQN ( 1-2D) TXEN ( 1-2D) TXPWR1 D ( 1-2C) TXPWR0 D ( 1-2C) RFG 1k 1k R8 R9 k R101 C51 8p RFG C123 1000p RFG k C52 8p RFG C124 1000p RFG 4 R11 3k R13 3k C50 8p RFG C53 8p RFG RFG C125 1000p RFG R121 k 4 Connector 2pin 1 2 CN4 RF module/power supply block 5 GND RXIP RXIN RXQP RXQN VCC AGC TXEN TXPWR1 TXPWR0 GND ANTENNA GND V C C _3.3V V C C _3.3V R F 13 12 11 10 9 8 7 6 5 4 3 2 1 + C47 220u/6.3V DG C121 N.M DG C122 N.M RFG RFG DG 1 2 3 Vin Vout 5 4 A On/Off Vin K 5 4 3 S-814(SOT-89-5)[SII] Vout Vss NC IC5 1SS355 S-816(SOT-23-5)[SII] EXT Vss Cont D101 1 2 3 IC101 2.4GH z RF M odu l e UNIT1 3 B E C 14 15 16 17 18 19 20 21 22 23 24 25 26 + RFG C117 N.M C14 8p RFG C15 8p RFG C16 8p RFG C17 8p RFG C22 8p RFG C23 8p RFG C24 8p RFG 4.7k 3(1/2W)[ 5025] R7 C46 1000u/10V RFG R137 2SB1427 Q101 GND VCC LNAATTN RXEN SYNDATA REFOSC VCC SYNCLK SYNSTB SYNEN TXDATA VCC GND 2 2 C13 N.M RFG C104 N.M RFG C19 N.M RFG C129 1000p RFG C105 1000p RFG C26 8p RFG RFG C57 N.M D D D C C D D A V C C _5.0V LNATTN ( 1-2C) RXEN ( 1-2D) SYNDA TA ( 1-2C) REFOSC ( 1-2C) SYNCLK ( 1-2C) SYNSTB ( 1-2C) SYNEN ( 1-2C) TXDATA ( 1-2D) C11 8p C20 C27 8p C12 0.1u C21 C28 0.1u + L 105 3 N.M L 106 3 C25 1000u/10V C10 220u/6.3V C18 + + L 107 3[2012] 1 RFG V C C _3.3V R F RFG V C C _3.3V R F RFG V C C _3.3V R F 1 2/3 A B C D FO-CC500A FO-K01A 6 – 16 A B C D R3 RESETO D 5 AG + C101 0.1u DG 3.3k DG + + C116 0.1u AG C1 220u/6.3V C29 220u/6.3V AG C106 0.1u C58 15 14 13 7 6 C111 0.1u 20 21 16 C108 0.1u 8 10u/10V [3216] + 2 1 TP55 TP56 C107 0.1u 26 31 0 100 100 R122 R118 R117 4 5 0 0 R149 R150 DATAO DVSS DVDD AVSS_RX AVSS_TX AVDD AGND VREF RESETB CTRLSOUT CTRLSIN ICLK MCLK FRAME DATAI IC1 20438 ( 1-2B) ( 1-5C) ( 3-3B) ( 1-5C) ( 3-3B) ( 1-5C) ( 3-3B) ( 1-5B) ( 1-5B) ( 1-5B) ( 3-3D) ( 3-3D) CI MONOUT MONIN PARK DSS IN DSSOUT INCOM DSSTX DSSRX A D D D D D D A A V C C _5.0V R152 R153 DG + 18k 0 4 DG C131 100p C44 47u/25V C132 100p C115 0.1u Main Control Connector Block V C C _3.3V C45 220u/6.3V R135 10 V C C _3.3V ( 1-5C) V C C _3.3V FRAME IC LK MCLK ( 1-5C) ( 1-5C) ( 1-5C) C C CDDATAO UT D D CDDAT AIN ( 1-5C) ( 1-5C) D Analog codec/connector block C133 100p 25 27 28 29 30 32 22 3 24 23 17 18 19 Connector 13pin 1 2 3 4 5 6 7 8 9 10 11 12 13 TP58 TP57 0.1u C110 11 9 2.2k 0.1u R116 C109 12 10 CN1 NC1 NC2 NC3 NC4 NC5 NC6 XCLOKO TEST MODE0 MODE1 LINEO SPKROP SPKRON LINEIN MICINN MICINP MICBIAS CNMAIN C128 N.M AG 1k A A DSSTX ( 3-5B) DSSRX ( 3-5B) AG PARK MONOUT MONIN D D D 3 TP59 R136 N.M 1 2 3 4 CN2 R103 DG DG R101 N.M R115 R104 Connector 5pin 1 2 3 4 5 CN3 Connector 4pin DG f rom NMI f rom EMUSYNC fr om RESET Emurator Connector Block (1 -5C) ( 3-5B) (1 -5C) (3 -5B) (1 -5C) ( 3-5B) Down Load Connector Block R114 3 CNDL 4 Merlin Codec CNEMU 5 2 Use to EMURATOR R106 for N.M R107 for 10k ohm R136 for 10k ohm FG R102 N.M Short(2012) Short(2012) Short(2012) AG AG R113 CT1 R151 R147 R146 R145 R134 R133 RFG1 RFG Common Ground Plane 2 N.M[ 2012] Jumper RFG2 CT2 N.M[ 2012] N.M[ 2012] N.M[ 2012] N.M[ 2012] N.M[ 2012] N.M[ 2012] DG 1 1 3/3 A B C D FO-CC500A FO-K01A FO-CC500A FO-K01A Cordless PWB parts layout (Top side) 6 – 17 FO-CC500A FO-K01A Cordless PWB parts layout (Bottom side) 6 – 18 6 – 19 C5 56/400 5 3 R12 20K R25 270 D20 1SS133 R28 Q22 2SC4081 C8 47P L1 PLA10A2230R4 4 6 D7 1SS133 R9 9.1K R11 D14 1SS133 C12 R10 6.8K N.M. PC1 PC123 6 C11 100P R26 47K Q23 2SC4081 F2 T2.5A/250V C7 4700P R17 680 F1 T2.5A/250V 5 2 R27 56K R6 470 R7 390 D9 1SS133 R13 1K 1 R29 4.7K N.M. D4 3 R24 100K N.M. D21 D6 1SS133 CNAC D18 1SS133 C9 0.01 Q21 2SC1741AS R2 R3 680K 680K R19 33 D17 1SS133 C15 4700P 5 D102 EC31QS04 4 BEA101 JUMPER N.M. D101 YG911S2 R123 C1 0.1 1 T1 2D84 C111 1000P 2 R117 4.7K IC101 PQ05RD11 D104 HZ-30CP 4 R112 47K Q101 2SC4081 C110 0.1 VR101 5K(1/10W) R1 4.7M(1/2W) 2 3 2 R110 470 Z1 ENC471 D13 ERA15-06 D12 ERA15-06 3 1 N.M. F102 0 F101 T4A/250V R115 15K R122 A NTC1 NTH7D8R0 D11 ERA15-06 D10 ERA15-06 2 4 R111 1K B C D 1 [4] Power supply PWB circuit 5 R121 1 5 4 3 GND MG MG +5V +24V 2 6 +24V 1 CNPW 1/1 A B C D FO-CC500A FO-K01A R113 7.5K D105 HZS7 PC1 PC123 C101 220/35 C102 330/16 D5 HZS9 D22 HZS11 C14 0.1 C13 100P R8 33K C10 4700P Q2 2SC1741AS R5 22K Q1 2SK2717 BEA1 BL02RN1 FO-CC500A FO-K01A Power supply PWB parts layout (Top side) Power supply PWB parts layout (Bottom side) 6 – 20 6 – 21 A B C D CNPN_A-8 CNPN_A-7 CNPN_A-5 CNPN_A-6 CNPN_A-9 CNPN_A-1 CNPN_A-2 CNPN_A-3 CNPN_A-4 FRSNS ORGSNS DG +3.3V E KEN4A KEN3A KEN2A KEN1A 5 CNPN_A-16 CNPN_A-15 CNPN_A-14 CNPN_A-13 CNPN_A-12 CNPN_A-11 CNPN_A-10 SEN6 SEN5 SEN4 SEN3 SEN2 SEN1 SEN0 SW1 SW2 DG + D7 1SS133 D6 1SS133 D1 1SS133 D5 1SS133 D4 1SS133 D3 1SS133 R6 R5 N.M. 3 6 9 # START A 2 5 8 0 UP DOWN REC/MEMO 1 4 7 STOP REDIAL PLAY 3 INTERCOM COPY SPEAKER N.M. OP LCR RESOLUTION FUNCTION 2 DG CNPN-A 1 KEN4A 2 KEN3A 3 KEN2A 4 KEN1A 5 DG 6 +3.3V 7 ORGSNS8 FRSNS9 E 10 SEN0 11 SEN1 12 SEN2 13 SEN3 14 SEN4 15 SEN5 16 SEN6 N.M. R2 4 3 2 Note: Since the parts of PWB cannot be supplied, change it as a unit. C2 22/50 4 D2 1SS133 +3.3V R4 [5] Operation Panel PWB circuit R1 5 JP R3 DG N.M. 1 DG C1 CNPN 1 DG 2 +3.3V 3 VO 4 RS 5 R/W 6 E 7 N.C. 8 N.C. 9 N.C. 10 N.C. 11 LD0 12 LD1 13 LD2 14 LD3 1 LD0 DG +3.3V VO E R/W RS LD3 LD2 LD1 CNLCD-1 CNLCD-2 CNLCD-3 CNLCD-6 CNLCD-5 CNLCD-4 CNLCD-14 CNLCD-13 CNLCD-12 CNLCD-11 1/1 A B C D FO-CC500A FO-K01A FO-CC500A FO-K01A Operation panel PWB parts layout (Top side) Operation panel PWB parts layout (Bottom side) Note: Since the parts of PWB cannot be supplied, change it as a unit. 6 – 22 6 – 23 A B C D 4 Crys tal [KSS] 2 3 Common Round 1 X1 DG C26 0.1u 0[1608] C27 8p PARK VCC_3.3V C40 0.1u SPOUT ( 3-4B) RESETO ( 3-5D) L4 0[1608] C29 8p ROMCS DG D D D DG C41 8p C18 8p DG R43 R54 R59 VCC_3.3V C39 0.1u 5 100k 10k 10k 10k R41 R35 R42 DG N.M 62k(F ) C25 100p DG DG DG DG C31 N. M DG L6 C22 0.1u C19 0.1u 0 4 C23 N. M DG AG 0[1608] C21 8p C17 8p N.M N.M C34 0.1u C14 0.1u C16 0.1u C15 8p 92 5 33 70 2 32 71 7 29 57 73 114 6 27 28 56 74 113 C38 8p 93 C13 8p 79 112 TP13 48 54 84 83 86 80 81 82 85 3 4 34 35 68 69 98 99 72 59 45 58 43 44 42 40 39 41 107 96 97 94 91 90 TP11 TP12 TP10 TP9 TP7 TP8 TP(R) C305 0.01u(K) C309 N. M. DG VCC_3.3V C43 N. M DG 120k (F) 0 C24 100p DG C306 0.1u DG R91 (Codec Input Clock 4.8M Hz) (Codec Output Clock 1.2M Hz) R29 R28 R26 R27 DG N.M DG 1000p 0.1u C20 0.1u TP(C) TP(N) TP(S) VCC_3.3V WR ITE READ C30 0.1u 5 C308 f or Emulator D C C MCLK ICLK ( 3-5D) ( 3-5D) D FRAME CDDATAO UT D CDDAT AIN D ( 3-5D) D D A ( 3-5D) ( 3-5D) 120k MONIN MONOUT ( 1-1A) C42 8p C35 VCC_3.3V N.M R49 C32 56k(F ) R45 R30 Vcc N. M GND OUT 4 DG TC7SZ04F R224 100 R221 N. M NC IN 160k (F) C37 DG 3 ( 1-1A) ( 1-1A) D 1 2 IC9 N.M R50 ( 4-3D) ( 5-2C) ( 5-3B) VCC_BAT VCC_BAT Codec Control ( 4-3D) ( 5-2B) DG R223 56k(F ) VCC_BAT DG C118 0.01u(K) R222 56k(F ) C44 0 DG R48 NOTE: This mark indicates a safety-critical part(s). VCC_3.3V L3 Charge Turn on PARK = 6.6V (PARK = 3.0 V) Turn off PARK = 0.0V (PARK = 0.0 V) [PAR K Port Hi gh Level is 2.0V ] Low Battery Turn on Vcc_BA T = 3.33V (BATT0 Input Voltage = 1.75 V[ +25mV,-25mV] ) Turn off Vcc_BAT = 3.52V (BATT0 Input Voltage = 1.85 V[ +25mV,-25mV] ) Reset Turn on Vcc_BA T = 2.97V (RESETIP Input Voltage = 1.257 V[ +36mV,-36mV] ) Turn off Vcc_BAT = 3.19V (RESETIP Input Voltage = 1.35 V[ +36mV,-36mV] ) C119 0.1u DG 4 VCC_3.3V R470 AVSS AVDD VSSC VSSC VSSC VDDC VDDC VDDC VSSP VSSP VSSP VSSP VSSP VDDP VDDP VDDP VDDP VDDP VDDP WPR~3 RDP RAMCSP ROMCSP HOSTACK HOSTCSP VISP~3 EMUCLK~3 NMIP SYNC~3 XCODEP NC NC NC NC NC NC NC NC NC RESETOP/CDCPOR MCLK/CDCMCLK CDCICLK/ICLK CDCDATAO CDCDATAI CDCFRAME PARKP ARTI ARTO AUX DAC BATT1 BATT0 RESETIP OSCI OSCO AGC REFOSC AUXREF RXEN TXEN TRSW TXDATA AGND RXQN RXQP RXIN RXIP 3 DATA0 DATA1 DATA2 DATA3 DATA4 DATA5 DATA6 DATA7 ADDR0 ADDR1 ADDR2 ADDR3 ADDR4 ADDR5 ADDR6 ADDR7 ADDR8 ADDR9 ADDR10 ADDR11 ADDR12 ADDR13 ADDR14 ADDR15 KEYPADC0 KEYPADC1 KEYPADC2 KEYPADC3 KEYPADC4 KEYPADC5 KEYPADR0 KEYPADR1 KEYPADR2 KEYPADR3 KEYPADR4 KEYPADR5 KEYPADR6 KEYPADR7 GPIOA0 GPIOA1 GPIOA2 GPIOA3 GPIOA4 GPIOA5 GPIOA6 GPIOA7 GPIOB0 GPIOB1 GPIOB2 GPIOB3 GPIOB4 GPIOB5 GPIOB6 GPIOB7 GPIOC0/SWCTL GPIOC1 GPIOC2 GPIOC3 GPIOC4 GPIOC5 GPIOC6 GPIOC7 IC5 CX80705-13 3 105 122 121 120 119 118 117 116 115 15 16 17 18 19 20 21 22 51 52 55 53 46 50 49 47 23 14 13 12 11 10 60 61 62 63 64 65 66 67 123 124 125 126 127 128 1 8 38 37 36 31 30 26 25 24 R200 R201 R202 R203 R204 TP43 TP44 R20 5 6 7 8 5 6 7 8 100 RA1 100 RA3 100 RA2 ROW 0 ROW 1 ROW 2 ROW 3 ROW 4 ROW 5 ROW 6 ROW 7 5 6 7 8 C33 100p AG R40 100 100 VCC_3.3V 4 3 2 1 4 3 2 1 4 3 2 1 5 6 7 8 5 6 7 8 5 6 7 8 COL0 COL1 COL2 COL3 COL4 COL5 100 RA6 100 RA4 100 RA5 D D D D D D D D D 4 3 2 1 4 3 2 1 4 3 2 1 R53 C45 N. M RFG (5 -3B) (5 -3C) (5 -3C) (5 -3C) (5 -3C) LCDRST LCDR S LCDR W LCDE LCDC S ( 5-2D) ( 5-3B) D0 D1 D2 D3 D4 D5 D6 D7 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 COL[0. .5](5 -5D) (2 -5C) D D D D D D C D[0 .. 7] A[0 ..15] 2 (2 -2C) A0 TP14 A1 TP16 A2 TP18 A3 TP20 A4 TP22 A5 TP24 A6 TP26 A7 TP28 A8 TP30 A9 TP31 A10 TP33 A11 TP34 A12 TP36 A13 TP37 A14 TP39 A15 TP40 DG 6 9 10 20 19 18 17 16 15 14 13 3 2 31 1 12 4 5 11 ( 2-2C) ( 2-5C) ( 2-5C) ( 2-2D) ( 2-2D) ( 2-2C) ( 2-2C) (PLL Clock 9.6M Hz) C REFOSC (2 -2C) (2 -5C) (2 -2D) (2 -4C) (2 -4C) (2 -4C) (2 -4C) LNATTN TXPWR0 TXPWR1 SYNEN SYNSTB SYNDA TA SYNCLK I2 C Serial Data I2 C Clock 100 RXEN TXEN TXDATA RXQN RXQP RXIN RXIP AGC 2 EMJMUTE (3 -2C) (3 -3C) EMJ CHK (3 -3C) (3 -3B) (5 -5A) SPMUTE LEDEN HSC HG ( 4-4C) 100 100 100 100 100 100 100 100 100 D D A A A A A A R31 22k[ 1608] DG 100 ROW [0-3] to Key Matrix ROW [4-7] to LCD Data ROW [0.. 7] 100[1608] 100[1608] 100[1608] 100[1608] 100[1608] 100k R23 R22 DG R60 R34 R33 R55 R56 R58 R57 R51 L5 BLM11HB102SD[1608] 0 AG C313 C312 C311 C310 TP5 0.1u TP1 TP2 TP3 TP4 N.M R52 R32 C36 TP6 9 75 111 109 88 87 77 78 89 106 76 108 110 100 95 104 103 102 101 D 5 D [6] Cordless handset PWB circuit Main control block VSS VDD WE# OE# CE# DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 VCC_3.3V 24 8 7 32 30 21 22 23 25 26 27 28 29 TP38 TP35 TP32 TP15 TP17 TP19 TP21 TP23 TP25 TP27 TP29 C11 0.1u DG R25 10k VCC_3.3V D0 D1 D2 D3 D4 D5 D6 D7 R24 10k R6 DG C12 0.1u R14 R7 GND A2 A1 A0 100 1 VCC_3.3V 100 100 4 3 2 1 D D D ( 1-5B) WR ITE ( 1-5B) RE AD ROMCS ( 1-5B) DG 1/5 High Power Medium Power Low Power Undefined S-24C04 [SII] SDA SCL TEST VCC IC4 DG 5 6 7 8 TDD Control TXEN = High : Transmit Data RXEN = High : Receiver Data SST39LF512 [S ST] NC NC NC A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 IC3 : : : : Low Noise Amp attenuation LNATTN = Low : receiver High Gain mode LNATTN = High : receiver Low Gain mode Power Level Control TXPWR1 = Low , TXPWR0 = Low TXPWR1 = Hihg, TXPWR0 = Low TXPWR1 = Low , TXPWR0 = High TXPWR1 = Hihg, TXPWR0 = Hihg 1 A B C D FO-CC500A FO-K01A Merlin ASIC XROM 6 – 24 L15 3[2012] 5 A A RXIN ( 1-2D) RXIP ( 1-2D) 1k 1k 1k R209 R210 1k R208 R207 1k 8 R206 3k R205 3k 7 C113 8p RFG 4 13 12 11 10 9 GND RXIP RXIN RXQP RXQN VCC AGC TXEN 3 GND VCC LNAATTN RXEN SYNDATA REFOSC VCC SYNCLK SYNSTB SYNEN TXDATA VCC GND 14 15 16 17 18 19 20 21 22 23 24 25 26 TP60 R88 C91 8p RFG C92 8p RFG C93 8p RFG C96 8p RFG C98 8p RFG C99 8p RFG C102 8p RFG 4.7k C94 N. M RFG C95 N. M RFG C100 N. M RFG C300 1000p RFG C104 1000p RFG C105 8p RFG 2 D D D C C D D A LNATTN (1 -2C) RXEN (1 -2D) SYNDA TA (1 -2C) REFOSC (1 -2C) SYNCLK (1 -2C) SYNSTB (1 -2C) SYNEN (1 -2C) TXDATA (1 -2D) C97 N. M C88 8p C103 8p C90 0.1u C101 N. M C106 0.1u + + + 3[2012] VCC_3. 3VRF 3[1608] VCC_3. 3VRF RFG VCC_3. 3VRF RFG C89 33u/10V[pai5.0 x 4.5L] L13 C79 N.M[3216 ] L10 3 RFG C107 100u/6.3V[pai6.3 x 4.5L] L14 1 1 2/5 C D A C110 8p A A RXQP ( 1-2D) RXQN ( 1-2D) R39 6 C114 8p RFG C111 1000p RFG TXPWR1 TXPWR0 2.4GH z RF M odu l e UNIT1 2 A C109 0.1u A D C115 8p RFG C112 1000p RFG 5 C117 8p RFG 4 C116 1000p RFG RFG GND ANTENNA GND 3 B RFG + C108 470u/6.3V[pai6.3 x 11] VCC_3. 3VRF AGC ( 1-2D) TXEN ( 1-2D) TXPWR1 D ( 1-2C) TXPWR0 D ( 1-2C) 3 2 1 4 B C D RF module block 5 FO-CC500A FO-K01A 6 – 25 A B C D D R89 VCC_3.3V C62 0.1u DG 3.3k + + DG C71 0.1u IC LK MCLK 0.1u C302 C80 4.7u/ 10V[3216] 13 21 8 16 15 14 C81 0.1u 20 C86 0.1u 10u/10V[3216] + 2 1 TP41 TP42 0.1u 26 31 100 100 R77 R69 7 6 0 R70 C85 4.7u/ 10V[3216] AG AG C68 C69 C C 5 0 R212 4 0 R211 DVSS DVDD AVSS_RX AVSS_TX AVDD AGND VREF RESETB CTRLSOUT CTRLSIN ICLK MCLK FRAME DATAI DATAO IC8 Merlin Codec 5 LINEIN MICINN MICINP MICBIAS NC1 NC2 NC3 NC4 NC5 NC6 XCLOKO TEST MODE0 MODE1 LINEO SPKROP SPKRON NOTE: This mark indicates a safety-critical part(s). AG R78 10 VCC_3.3V RESETO ( 1-5C) VCC_3.3V ( 1-5C) ( 1-5C) FRAME ( 1-5C) D CDDATAO UT D ( 1-5C) D CDDAT AIN ( 1-5C) Analog codec block 5 4 4 19 25 27 28 29 30 32 22 3 24 23 17 18 200 0.1u(K)[1608] R216 20k 20k R76 EMJMUTE D ( 1-3B) ( 3-2C) 0.1u(K)[1608] A R84 2.2 k 1k AG C78 22u/ V[ 3216] AG 1.5 k R83 R73 15k 1 2 3 4 R68 D R215 56k AG AG C47 1u/10V[1608] Vout GND VCC NC 27k 3 AG R66 C51 0.1u R214 0.1u(K)[1608] C56 C52 8p C46 4.7u/ 10V[2012] SPMUTE (1 -3C) EMJ CHK D ( 1-3B) 3k 8 7 6 5 AG 100 NJU708 1R [JRC] STBY NC +Vin -Vin IC7 47 C74 8p R81 C73 8p AG AG 47 C63 8p R71 C55 8p AG AG R64 10k C72 8p AG 1 2 3 4 DG 3 R65 C54 C77 8p AG Vout2 GND VCC Vout1 AG 120k 1000p(K) 8 7 6 5 AG AG C65 0.1u 10u(K) C57 R82 L11 L12 C83 8p AG 2 C E DG C50 8p AG C49 8p C48 8p AG 2 C53 N.M[1608 ] Q6 N.M 22 B TP83 TP90 3 5 4 2 1 + - MJC-012 J1 CT4 Speaker Rand + CT3 Speake r Rand - Microphone MIC1 + Speaker Rand + Speake r Rand - EMJMUTE (1 -3B) (3 -3C) TP87 TP88 TP85 TP84 VCC_BAT D AG TP89 L9 0[1608] TP82 C2 8p TP81 BLM11HB102SD[1608] 47 R74 47 47 BLM11HB102SD[1608] C76 8p R3 R2 Near The Microphone C84 8p 47 47 C82 8p C59 1u[1608] NJM 2149R [JR C] CD +Vref +Vin -Vin IC6 C58 8p 1 Q7 AG 47 R218 47 R219 VCC_BAT DTC114 EU R85 10k 2 C75 8p R80 C64 8p R72 VCC_3.3V HeadSet Detector Control EMJCHK = High : Headset On EMJCHK = Low : Headset Off AG Backside Speaker Control SPMUTE = High : Active SPMUTE = Low : Stand-By (Mute) C67 10u/10V[3216/2012] AG R67 100 C301 0.01u(K) + R213 HeadSet Reciver Control EMJMUTE = High : Stand-By (Mute) EMJMUTE = Low : Active VCC_3.3V 200 C66 SPOUT ( 1-5C) R87 R86 C61 0.1u(K)[1608] C70 11 9 0.1u(K)[1608] 2.2 k R79 C60 12 10 3 1 1 3/5 A B C D FO-CC500A FO-K01A 6 – 26 A B C D 5 C1 N. M L2 2pin C307 N. M. DG Chip Fuse 1.0A[2012] F1 3 AG DG 1 DG 2 DG UDZS 4. 7B D2 DTC114 EU RFG Common Ground Plane L17 0 L16 0 D Q2 + k C4 22u[3225] DG R111 DG BLM41A102SG[4516] BLM41A102SG[4516] 5 NOTE: This mark indicates a safety-critical part(s). Connector 1 2 CN1 ( 1-3C) HSC HG High Speed CHarGe High = High Speed Charge ON Supply Current (Ave.) = 160 mA Low = High Speed Charge OFF Supply Current (Ave.) = 10 mA Charge Control High Speed Charge [HSCHG = Al ways Hi gh] 160 mA/h Charge VCC_3.3V Trickle Charge [HSCHG High time = msec, Low time = msec ] mA/h Charge R90 N. M L1 D1 N.M[PT Z] Charge Control Block CT2 Contac t - Power Supply Volt age CT1 = 6.5 V (max) Powe Supply Current Contact + = 500 mA (max) Cr adle Contacts 4 R10 4 E C3 8p DG Q3 KTA1298Y C B 10k D3 U1GC4 4 A K Power supply block R5 160[5025] R9 10[5025] R4 N. M N. M Q1 N. M B C E 1 2 3 Vin Vss On/Off IC1 NC Vout D D 5 4 3 S-L2980(SO T-23-5)[SII] DG DG R8 N. M VCC_3.3V 3 ( 1-5C) ( 5-2B) R220 DG + 0 C9 N.M[3225 ] DG MONIN ( 1-5C) ( 5-2C) PARK C303 + C10 N. M DG 150u/6.3 V[SMD] RFG C8 N. M DG + VCC_3.3V VCC_BAT 2 VCC_3. 3VRF C304 330u/6.3 V[SMD] DG 2 Sub Block Power Supply Radio Frequency Module Only RF Module Power Supply Merlin ASIC, Codec, Flash Memory, EEPROM, LCD, etc... Main Core Power Supply Audio AMP, LED, etc... 1 1 4/5 A B C D FO-CC500A FO-K01A 6 – 27 A B C D COL0 COL1 COL2 COL3 COL4 COL5 ( 1-3C) LEDEN LED ENable High = LED ON Low = LED OFF 5 R61 LED Total Supply Current Vcc_BAT = 4.5V LCD Back Li ght Current + Key Li ght Current = 96 mA 1 1 1 1 2 1 2 CA15 3 CA14 TASW5 1 Down 2 Talk Off CA9 1 Start 2 Review Up TASW1 TASW3 1 TP58 R18 N. M Remote 2 R17 N. M TASW4 CA1 TP59 R16 N. M 2 2 2 2 R19 N. M DG R62 100k Q5 B E C DG KTC3876Y Supply Current Vcc_BAT = 4.5V R = 390 ohm 6mA x 2 Total Supply Current = 12 mA K ey L i gh t s Supply Current Vcc_BAT = 4.5V R = 130 ohm 17.5mA x 3 R = 220 ohm 10.5mA x 3 Total Supply Current = 84 mA L C D B a ck L i g h t s R15 N. M 1.8 k Handset LED Block COL[0.. 5] ( 1-3B) VCC_+3 .0V Keypad Block R114 390 [ 1608] 390 [ 1608] R113 130 [ 1608] R123 220 [ 1608] 220 [ 1608] R120 R122 130 [ 1608] R121 130 [ 1608] 2 2 2 2 220 [ 1608] 1 CA16 Talk CA10 Search TASW2 Functi on CA2 R119 R118 1 1 1 1 TP57 R21 N. M 4 9 CA17 6 CA11 Hold CA8 # CA5 A CL-195Y G A CL-195Y G A CL-195Y G A CL-195Y G A CL-195Y G A CL-195Y G A CL-195Y G (OFF Key) C LED116 8 CA18 5 CA12 Volume CA7 0 CA4 VCC_BAT 1 1 1 1 TP55 A CL-195Y G 2 2 2 2 (TALK Key) C LED115 C LED122 C LED121 C LED120 C LED119 C LED118 C LED117 1 1 1 1 TP56 Keypad/LED/LCD/remote contact block 4 2 2 2 2 2 2 7 CA19 4 CA13 2 2 Int erco m CA6 * CA3 ( 1-3C) ( 1-3C) ( 1-3C) ( 1-3C) ( 1-3C) LCDRST 0.47u[2012] C201 VCC_3.3V ROW [4.. 7] ( 1-3B) LCDR S LCDR W LCDE LCDC S 3 R127 R126 N.M[1608 ] 10k[ 1608] TP50 TP51 TP52 TP53 TP70 TP71 TP72 TP73 TP74 TP75 TP76 TP77 TP79 TP78 2 CN101 ROW 3 ROW 2 ROW 1 ROW 0 2 Connect or 22pin 1 2 R217 10k[ 1608] 3 4 ROW 7 DG 5 ROW 6 6 ROW 5 7 ROW 4 8 9 C208 0.1u(K)[1608] 10 C207 0.1u(K)[1608] 11 C206 0.1u(K)[2012] 12 C205 0.1u(K)[2012] 13 C204 0.1u(K)[2012] 14 TP80 15 R125 820k (F)[ 1608] 16 C203 0.47u(K)[2012] 17 R124 430k (F)[ 1608] DG C202 0.47u(K)[2012] 18 19 20 21 22 DG VCC_3.3V LCD Interface Block 1 1 1 1 TP54 3 CNLCD 5 (1 -5C) (4 -3D) (1 -5C) (4 -3D) (1 -5C) PARK MONOUT MONIN VCC_BAT ID Calib ration RS-232C Connect Emulator D D D DG Remote Contact Block for Flash Download ROW [3.. 0] ( 1-3B) 5/5 1 CP5 (DG) CP4 (M ONOUT) CP2 (BAT ) CP1 (PAR K) CP3 (MONIN) Remote Cont acts 1 A B C D FO-CC500A FO-K01A FO-CC500A FO-K01A Cordless handset PWB parts layout (Top side) Cordless handset PWB parts layout (Bottom side) 6 – 28 FO-CC500A FO-K01A CHAPTER 7. OPERATION FLOWCHART [1] Protocol Receive side G3 communication Transmitter side (Document inserted into document sensor during standby) CED To recording position CED NSF NSF CSI CSI DIS DIS TSI Document inserted to the reading position TSI (DCS) NSS NSS (DCS) TCF TCF CFR IMAGE SIGNAL IMAGE SIGNAL CFR 1st page RTC RTC Next page insert command Cut line printed MPS MPS MCF IMAGE SIGNAL IMAGE SIGNAL MCF RTC RTC EOP EOP Cut line printed MCF MCF DCN DCN Recording paper ejected 7–1 Document ejected FO-CC500A FO-K01A [2] Power on sequence START CPU initialized MODEM initialized “WAIT A MOMENT” display STOP key ? NO “MEMORY CLEAR ?” display NO 3 sec ? YES 1 YES STAND-BY START key ? NO 2 YES COPY key ? 1 2 “MEMORY CLEARED” display “MEMORY CLEARED” display Memory clear Memory clear STAND-BY PROCESS CHECK MODE NO YES STOP key ? NO 3 sec ? NO YES STAND-BY 7–2 FO-CC500A FO-K01A CHAPTER 8. OTHERS [1] Service tools 1. List NO. 1 2 PARTS CODE DESCRIPTION CPWBF3201SCS1 PSHEZ3579SCZZ Extension board unit (LIU PWB) Shading wave memory standard paper Q’TY 1 1 PRICE RANK BA AD Extension board unit LIU PWB PH2 K A TP1 PIN (BROWN) PH1 TP3 DG (ORANGE) C E C E R30 K A TP2 FILM (RED) TP4 +24VL (YELLOW) NO. PARTS CODE DESCRIPTION Q’TY PRICE RANK AG 1 QCNWG203BSCZZ SPEAKER RELAY CABLE 1 2 QCNWG206BSCZZ PANEL RELAY CABLE 1 AT 3 QCNWG202BSCZZ CIS RELAY CABLE 1 AN 4 QCNWG205BSCZZ HEAD RELAY CABLE 1 AS 5 QCNWG204BSCZZ CAM SWITCH RELAY CABLE 1 AG 6 QCNWG242BSCZZ MOTOR RELAY CABLE 1 AM 7 QCNWG201BSCZZ SENSOR RELAY CABLE 1 BB 8 VRS-RE3AA122J RESISTOR (1W 1.2KΩ ±5%)[R30] 1 AC 9 VHPSG206S//-1 PHOTO TRANSISTOR [PH1] 1 AG 10 VHPSG206S//-1 PHOTO TRANSISTOR [PH2] 1 AG 8–1 FO-CC500A FO-K01A 2. Description 2-1. Relay board unit 1. Remove the LIU PWB, control PWB and Power Supply PWB from this unit, and mount the relay board unit instead. • Before connecting the wiring to the relay board unit, set the test PWB switches to the fixed position. 2. The setting is as follows. • The relay cables are used as one pair. • The hook switch is manually operated. Relay cable 1 CNLIUA CNLIUA 14 CHECK LIU PWB The hook switch is operated by the mechanical unit switch and the test PWB switch. When performing installation in the machine unit, set the test PWB switches to the fixed position. Mechanical unit PWB to be tested Actual operation with mechanical unit Hook SW ON/OFF operation ON-HOOK PWB sensor check CNPW CNPW POWER SUPPLY PWB Hook SW ON-HOOK ON/OFF operation CHECK CONTROL PWB NOTE CHECK CONTROL PWB DON'T SEPARATE CHECK LIU PWB UNIT RELAY CABLE PAPER SENSOR RELAY CABLE (QCNWG201BSCZZ) PIN(TP1) TO FILM(TP2) EXTENSION DG(TP3) PWB +24VL(TP4) (LIU) (LIU) (LIU) (LIU) POWER SUPPLY PWB BROWN RED ORANGE YELLOW TO CHECK PWB 8–2 FO-CC500A FO-K01A 3. Shading paper The white and black basis is applied to remember the shading waveform. Be sure to perform this operation when replacing the battery or replacing the control PWB. Execute in the shading mode of DIAG mode. SHADING WAVE MEMORY STANDARD PAPER (PSHEZ3579SCZZ) 8–3 FO-CC500A FO-K01A [2] IC signal name CONTROL PWB UNIT 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 GPIO[37]/IRQ15n/DSPCSn GPIO[4]/CPCIN/TPHPWRCTRL/DMAREQ STRB[0] STRB[1] STRB[2] STRB[3] PLAT PDAT PCLK/DMAACK VDD GPIO[11]/BE/SERINP/SR4IN GPIO[19]/RDY/SEROUT START CLK1n/GPO[25] CLK2/GPO[24] GND MCLK CTRLI TESTC SOUT SIN FSYNC POR GND LINE_INP MIC_INP MIC_INM MIC_BIAS BG VC AVDD GND LINE_OUTP SPKR_OUTP 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 SCE214V 1 CHIP FAX ENGINE 176 Pin LQFP VSS IVREFn IVREFp VDD THADI VSS GPIO[17]/DSPIRQn GPIO[16]/IRQ[8] GPIO[15]/CS[5]n GPIO[13]/CS[3]n VDDPLL VSSPLL ROMCSn SYNC/GPO[20] WRn RDn DEBUGn TSTCLK VSS SXIN SXOUT OPO[0]/GPO[8]/SMPWRCTRL OPO[1]/GPO[9]/PMPWRCTRL OPO[2]/GPO[10]/RINGER OPO[3]/GPO[11] OPO[4]/GPO[12]/SSTXD1 OPO[5]/GPO[13] OPO[6]/GPO[14] OPI[0]/GPIO[21]/SSRXD1 OPI[1]/GPIO[22]/SSSTAT1 OPI[2]/GPIO[23]/SSCLK1 OPI[3]/GPIO[24] LCDCS/GPO[17] VDD RASn CAS[0]n DWRn VBAT XIN XOUT WRPROTn TEST[1] TEST[0] BATRSTn INTPWRDWNEn PWRDWNn RESERVED ADGA VREFn/CLREF VIN ADGA ADVA ADXG VREFp 133 176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 WAITn/GPO[19]/CLKDIV[1] REGDMA/GPO[18]/CLKDIV[0] SM[3]/GPO[7] SM[2]/GPO[6] SM[1]/GPO[5] SM[0]/GPO[4] PM[3]/GPO[3] PM[2]/GPO[2] PM[1]/GPO[1] PM[0]/GPO[0] VDD VSS GPIO[36] GPIO[35] GPIO[34] VDD GPIO[32] GPIO[31] GPIO[29] GPO[30]/SR3OUT GPO[29] GPO[28] GPO[27] GPO[26] GPIO[28] GPIO[27] GPIO[26] GPIO[20]/ALTTONE D[7] D[6] D[5] D[4] D[3] D[2] D[1] D[0] A[23]/EYEXY A[22]/EYESYNC A[21]/EYECLK A[20] A[19] A[18] A[17] VSS IC3: VHiSCE214V/-1 (SCE214V) 8–4 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 VDD A[16] A[15] A[14] A[13] A[12] A[11] A[10] A[9] A[8] A[7] A[6] A[5] VDD A[4] A[3] A[2] A[1] A[0] GPIO[8]/FWRn GPIO[9]/FRDn GPIO[1]/SASTXD GPIO[2]/SASRXD GPIO[3]/SASCLK RESETn VSS GPIO[10]/SSSTAT2/DSS_AVAIL GPIO[5]/SSCLK2/SASCLK2 GPIO[6]/SSTXD2/SASTXD2 GPIO[7]/SSRXD2/SASRXD2 SA1CLK SR1IO SR4OUT SR3IN IA1CLK VDD IACLK IARESET FCSn[1]/VIDCTL[0]/GPO[23] VSS ICLK MODE0 DVDD SPKR_OUTM FO-CC500A FO-K01A [3] Rewriting version up to the FLASH ROM 1 Step 1 File setting Execute “DSS_LOADER.EXE” and extract the compressed file. File contents: ¥DSS_LOADER¥----+----¥CMD¥-----+---- Atd.cmd | +---- Atl0.cmd | +---- FF.cmd | +---- FF_6000.cmd | +---- flash144.ver | +---- RECOVERY.VER | ----+----¥CONFIG¥--+---- DSS144_DOWNLOAD.txt | +---- DSS144_RECOVERY.txt | +---- FAX_DOWNLOAD.txt | ----+----¥DATA¥----+---- ¥FAX¥ +---- ¥koki¥ +---- ¥oyaki¥ 2 Step 2 File setting Copy the downloaded file ( .ver) to the designated directory shown below (the target directory may be optional). ¥DSS_LOADER¥DATA¥FAX¥ ¥DSS_LOADER¥DATA¥koki¥ ¥DSS_LOADER¥DATA¥oyaki¥ Step 3 Flash ROM rewriting Description for application is detailed in the attached document below. · Rewriting the Flash ROM for the FAX engine (with software (TeraTerm) for the PC) · Rewriting the Flash ROM for the DSS PWB (with software (TeraTerm) for the PC) 8–5 FO-CC500A FO-K01A PC DUNTK404CSCZZ RS-232C Cable RS-232C DSUB 9PIN FO-CC500 Program Loader BOX Com Port CN1 RF Cable QCNW-307BSCZZ RM Cable QCNW-308BSCZZ CN2 Main Cable QCNW-306BSCZZ 4PIN 5PIN 3PIN 5PIN HOLES CN2 CNPRG Handset Cordless PWB FAX Machine Cordless PWB FAX Machine Control PWB Fig. 1. Connected chart PRICE RANK NAME DUNTK404CSCZZ PART CORD DG FO-CC500 Program loader BOX and Calibration UNIT Includes RS-232C cable REMARKS QCNW-306BSCZZ BF FO-CC500 Main cable Connects FO-CC500 Program loader BOX and FAX machine. QCNW-307BSCZZ BF FO-CC500 RF cable Connects FO-CC500 Program loader BOX and the DSS PWB (Cordless Handset PWB) of the Cordless Handset. QCNW-308BSCZZ BF FO-CC500 RM cable Connects FO-CC500 Program loader BOX and the DSS PWB (Cordless PWB) of the FAX machine. Table 1. FO-CC500 Program loader and Calibration unit FRONT PANEL MAIN SW CALIBRATION BACK PANEL BAT SW PARK SW RS-232C DSUB 9PN ON ON OFF OFF OFF IC Voltage 5V MODE ON CALIBRATION FUSE OFF CALIBRATION Cordless MAIN DOWNLOAD CN1 3.3V ON CN2 DOWNLOAD Fig. 2. FO-CC500 Program loader BOX 8–6 AC CORD FO-CC500A FO-K01A Table 2. FO-CC500 Program loader BOX connection procedures (FAX PWB Rewriting) 1 Before connecting the PC 2 After connecting the PC 3 Power supply to the FAX 4 Connect Program loader Set the switches of Program Set the switch of Program loader BOX as follows. loader BOX as follows. (a) MAIN SW OFF (down) (g) MAIN SW ON (up) (b) CALIBRATION OFF (down) (c) BAT SW OFF (down) (d) PARK SW OFF (down) (e) IC Voltage to 3.3V (down) (f) MODE to DOWNLOAD (down) Plug the AC power cord of the FAX machine to the outlet. (2*) and Program loader BOX with RS-232C cable. FAX PWB rewriting and Program loader BOX with RS-232C cable. (1*) machine. BOX and the Control PWB of the FAX machine (CNPRG) with FO-CC500 Main cable. (3*) --- 1*: Connect one end of RS-232C cable to the COM port of the PC and the other end to RS-232C DSUB 9PIN of FO-CC500 Program loader BOX. 2*: Press and hold down the keys 1 and 3 simultaneously while turning on the FAX machine and until “DOWNLOAD MODE” appears. 3*: Perform the procedure before . (Turn on the Program loader BOX and the FAX machine before connecting FO-CC500 Main cable and the FAX machine.) Connect one end of FO-CC500 Main cable to the connector of the control PWB connector for the FAX machine (CNPRG) (refer to Fig. 3), and the other end to CN1 of FO-CC500 Program loader BOX. 3 4 Table 3. FO-CC500 Program loader BOX connection procedures (DSS PWB Rewriting) 1 Before connecting the PC 2 After connecting the PC and Program loader BOX with RS-232C cable. and Program loader BOX with RS-232C cable. (1*) 3 Connecting Program 4 When supplying power to loader BOX and DSS PWB DSS PWB. with FO-CC500 RF cable or FO-CC500 RM cable. (2*) --Set the switch of Program loader BOX as follows. (h) BAT SW to ON (up) Cordless Handset DSS PWB (Cordless Handset PWB) Set the switches of Program Set the switch of Program loader BOX as follows. loader BOX as follows. (a) MAIN SW OFF (down) (g) MAIN SW ON (up) (b) CALIBRATION OFF (down) (c) BAT SW OFF (down) (d) PARK SW OFF (down) (e) IC Voltage to 3.3V (down) (f) MODE to DOWNLOAD (down) --- FAX machine DSS PWB (built into FAX machine) (Cordless PWB) Set the switches of Program Set the switch of Program loader BOX as follows. loader BOX as follows. (a) MAIN SW OFF (down) (g) MAIN SW ON (up) (b) CALIBRATION OFF (down) (c) BAT SW OFF (down) (d) PARK SW OFF (down) (e) IC Voltage to 3.3V (down) (f) MODE to DOWNLOAD (down) Connect the AC power cord cable of the FAX machine to the socket. (3*) --- FAX machine DSS PWB (Unit) (Cordless PWB) Set the switches of Program Set the switch of Program loader BOX as follows. loader BOX as follows. (a) MAIN SW OFF (down) (g) MAIN SW ON (up) (b) CALIBRATION OFF (down) (c) BAT SW OFF (down) (d) PARK SW OFF (down) (e) IC Voltage to 3.3V (down) (f) MODE to DOWNLOAD (down) Set the switch of Program loader BOX as follows. (h) PARK SW to ON (up) 1*: Connect one end of RS-232C cable to the COM port of the PC and the other end to RS-232C DSUB 9PIN of FO-CC500 Program loader BOX. 2*: Each one end of FO-CC500 RF cable and FO-CC500 RM cable is connected to the connector of the DSS PWB (refer to Figs. 4, 5 and 6) and the other end to the CN1 of the Program loader BOX. 3*: Press and hold down the keys 1 and 3 simultaneously while turning on the FAX machine and until “DOWNLOAD MODE” appears. 8–7 FO-CC500A FO-K01A Main Cable QCNW-306BSCZZ From FO-CC500 Program Loader BOX (CN1) ROM Cover RF Cable QCNW-307BSCZZ Cordless Handset Control PWB unit CN PR G Cordless PWB unit FAX machine 5 Pin Holes From FO-CC500 Program Loader BOX (CN1) Fig. 3. FAX machine (FO-CC500 Main cable connection) From FO-CC500 Program Loader BOX (CN1) Fig. 4. Cordless Handset (5 pin holes) (FO-CC500 RF cable connection) RM Cable QCNW-308BSCZZ ROM Cover Control PWB unit From FO-CC500 Program Loader BOX (CN1) RM Cable QCNW-308BSCZZ Cordless PWB unit Cordless PWB unit FAX machine Fig. 5. FAX machine DSS PWB (Cordless PWB) built into the FAX machine (FO-CC500 RM cable connection) Fig. 6. FAX machine DSS PWB (Cordless PWB)(Unit) (FO-CC500 RM cable connection) 8–8 FO-CC500A FO-K01A 1) Rewriting the flash ROM for the FAX engine Using software for the PC (TeraTerm) Uncompress the compressed file of TeraTerm. Execute the “SETUP.EXE” from compressed files to install TeraTerm. Execute the “ttermpro.exe” to start TeraTerm. 1-1. Select “New connection” from the pull-down menu of “File”. 1 Check “Serial”. 2 Select the port number in which the RS-232C cable is connected to. 3 Click “OK” for confirmation. ↓ Proceed to 1-2. 8–9 FO-CC500A FO-K01A 1-2. Select “Serial port” from the pull-down menu of “Setup”. Select the port number which the RS-232C cable is connected to. Set the other parameters as follows and click “OK” for confirmation. ↓ Proceed to 1-3. 8 – 10 FO-CC500A FO-K01A 1-3. Perform procedures described in Table 4. 1 Before connecting the PC 2 After connecting the PC and Program loader BOX with RS-232C cable. and Program loader BOX with RS-232C cable. (1*) Set the switches of Program Set the switch of Program loader BOX as follows. loader BOX as follows. (a) MAIN SW OFF (down) (g) MAIN SW ON (up) (b) CALIBRATION OFF (down) FAX PWB rewriting (c) BATSW OFF (down) (d) PARK SW OFF (down) (e) IC Voltage to 3.3V (down) (f) MODE to DOWNLOAD (down) 3 Power supply to the FAX 4 Connect Program loader machine. BOX and the Control PWB of the FAX machine (CNPRG) with FO-CC500 Main cable. (3*) Plug the AC power cord of the FAX machine to the outlet. (2*) --- Table 4. FO-CC500 Program loader BOX connection procedures 1*: Connect one end of RS-232C cable to the COM port of the PC and the other end to RS-232C DSUB 9PIN of FO-CC500 Program loader BOX. 2*: Press and hold down the keys 1 and 3 simultaneously while turning on the FAX machine and until “DOWNLOAD MODE” appears. 3*: Perform the procedure before . (Turn on the Program loader BOX and the FAX machine before connecting FO-CC500 Main cable and the FAX machine.) Connect one end of FO-CC500 Main cable to the connector of the Control PWB connector for the FAX machine (CNPRG) (refer to Fig. 3), and the other end to CN1 of FO-CC500 Program loader BOX. 3 4 After performing procedures described in Table 4, press down the START key on the FAX machine. “DOWNLOAD MODE WT” appears on the LCD. ↓ Proceed to 1-4. 8 – 11 FO-CC500A FO-K01A 1-4. Select “Send file” from the pull-down menu of “File”. Enable the Binary in “Option” and open “Atl0. cmd”. ↓ Proceed to 1-5. 8 – 12 FO-CC500A FO-K01A 1-5. If the description above does not appear, return to 1-4. If the description above appears, proceed to 1-6. 8 – 13 FO-CC500A FO-K01A 1-6. Select “Send file” from the pull-down menu of “File”. Enable the Binary in “Option” and open “ta .ver”. (Select a file you want to download here.) ↓ Proceed to 1-7. 8 – 14 FO-CC500A FO-K01A 1-7. If the description above appears, return to 1-4. If the description above appears, downloading was completed normally. ↓ Proceed to 1-8. 8 – 15 FO-CC500A FO-K01A 1-8. 1. To go on to download FLASH ROM, perform the following procedures. 1-1. Only perform procedures and described in Table 5. 1-2. Return to 1-3. 1 2 1 3 2. To complete downloading FLASH ROM, perform the following procedures. 2-1. Perform procedures through described in Table 5. 2-2. Terminate “TeraTerm”. Table 5. Termination procedures (1*) 1 Remove the connector from the 2 Turn off the FAX machine. Control PWB (CNPRG) of the FAX machine. FAX PWB rewriting 1*. Perform procedures --- Turn off the FAX machine. 1 through 3 in numerical order. 8 – 16 3 Turn off the Program loader BOX. Set the switch of Program loader BOX as follows. (a) MAIN SW OFF (down) FO-CC500A FO-K01A 2) Rewriting the flash ROM for the DSS PWB Using software for the PC (TeraTerm) Uncompress the compressed file of TeraTerm. Execute the “SETUP.EXE” from compressed files to install TeraTerm. Execute the “ttermpro.exe” to start TeraTerm. 2-1. Select “New connection” from the pull-down menu of “File”. 1 Check “Serial”. 2 Select the port number in which the RS-232C cable is connected to. 3 Click “OK” for confirmation. ↓ Proceed to 2-2. 8 – 17 FO-CC500A FO-K01A 2-2. Select “Serial port” from the pull-down menu of “Setup”. Select the port number which the RS-232C cable is connected to. Set the other parameters as follows and click “OK” for confirmation. ↓ Proceed to 2-3. 8 – 18 FO-CC500A FO-K01A 2-3. Select “Send file” from the pull-down menu of “File”. Enable the Binary in “Option” and open “¥DSS_LOADER¥CMD¥FF_6000.cmd”. Before starting the work above, perform 2-4 and Table 6. ↓ Proceed to 2-4. 8 – 19 FO-CC500A FO-K01A 2-4. Supply the power to the DSS PWB while the following is displayed (approx. 10 seconds) (refer to Table 6). (If the power cannot be supplied, return to step 2-3.) Table 6. Power supply to the DSS PWB (1*) 1 Before connecting the PC 2 After connecting the PC and Program loader BOX with RS-232C cable. and Program loader BOX with RS-232C cable. (2*) 3 Connecting Program 4 When supplying power to loader BOX and DSS PWB DSS PWB. with FO-CC500 RF cable or FO-CC500 RM cable. (3*) --Set the switch of Program loader BOX as follows. (h) BAT SW to ON (up) Cordless Handset DSS PWB (Cordless Handset PWB) Set the switches of Program Set the switch of Program loader BOX as follows. loader BOX as follows. (a) MAIN SW OFF (down) (g) MAIN SW ON (up) (b) CALIBRATION OFF (down) (c) BAT SW OFF (down) (d) PARK SW OFF (down) (e) IC Voltage to 3.3V (down) (f) MODE to DOWNLOAD (down) --- FAX machine DSS PWB (built into FAX machine) (Cordless PWB) Set the switches of Program Set the switch of Program loader BOX as follows. loader BOX as follows. (a) MAIN SW OFF (down) (g) MAIN SW ON (up) (b) CALIBRATION OFF (down) (c) BAT SW OFF (down) (d) PARK SW OFF (down) (e) IC Voltage to 3.3V (down) (f) MODE to DOWNLOAD (down) Connect the AC power cord cable of the FAX machine to the socket. (4*) --- FAX machine DSS PWB (Unit) (Cordless PWB) Set the switches of Program Set the switch of Program loader BOX as follows. loader BOX as follows. (a) MAIN SW OFF (down) (g) MAIN SW ON (up) (b) CALIBRATION OFF (down) (c) BAT SW OFF (down) (d) PARK SW OFF (down) (e) IC Voltage to 3.3V (down) (f) MODE to DOWNLOAD (down) Set the switch of Program loader BOX as follows. (h) PARK SW to ON (up) 12 3 1*: Complete , and before performing items of 2-3. 2*: Connect one end of RS-232C cable to the COM port of the PC and the other end to RS-232C DSUB 9PIN of FO-CC500 Program loader BOX. 3*: Each one end of FO-CC500 RF cable and FO-CC500 RM cable is connected to the connector of the DSS PWB (refer to Figs. 4, 5 and 6) and the other end to the CN1 of the Program loader BOX. 4*: Press and hold down the keys 1 and 3 simultaneously while turning on the FAX machine and until “DOWNLOAD MODE” appears. ↓ Proceed to 2-5. 8 – 20 FO-CC500A FO-K01A 2-5. Select “Serial port” from the pull-down menu of “Setup”. Set the “Baud rate” to 14400 and click “OK”. ↓ Proceed to 2-6. 8 – 21 FO-CC500A FO-K01A 2-6. Select “Send file” from the pull-down menu of “File”. Enable the Binary in “Option” and open “¥DSS_LOADER¥CMD¥Atd.cmd”. ↓ Proceed to 2-7. 8 – 22 FO-CC500A FO-K01A 2-7. If the following message appears, proceed to 2-8. If not the following message appears, return to 2-2. 8 – 23 FO-CC500A FO-K01A 2-8. Select “Send file” from the pull-down menu of “File”. Enable the Binary in “Option” and open “¥DSS_LOADER¥CMD¥flash144.ver”. ↓ Proceed to 2-9. 8 – 24 FO-CC500A FO-K01A 2-9. If the following message appears, proceed to 2-10. If not the following message appears, return to 2-2. 8 – 25 FO-CC500A FO-K01A 2-10. Select “Send file” from the pull-down menu of “File”. Enable the Binary in “Option” and open “¥DSS_LOADER¥CMD¥Atl0.cmd”. ↓ Proceed to 2-11. 8 – 26 FO-CC500A FO-K01A 2-11. If the following message appears, proceed to 2-12. If not the following message appears, return to 2-10. 8 – 27 FO-CC500A FO-K01A 2-12. Select “Send file” from the pull-down menu of “File”. Enable the Binary in “Option” and open “¥DSS_LOADER¥DATA¥ ¥ta .ver”. (Select a file you want to download here.) TA85ot.VER ta85c.ver ↓ Proceed to 2-13. 8 – 28 FO-CC500A FO-K01A 2-13. If “load complete” appears, rewriting is completed properly. Although other messages may be indicated after “load complete” appears, proceed to the step 2-16. If not, return to 2-14. 2-14. If the following message appears, proceed to 2-10. If not the following message appears, return to 2-15. 8 – 29 FO-CC500A FO-K01A 2-15. Select “Send file” from the pull-down menu of “File”. Enable the Binary in “Option” and open “¥DSS_LOADER¥CMD¥Recovery.ver”. ↓ Return to 2-14. 8 – 30 FO-CC500A FO-K01A 2-16. 1. To go on to download FLASH ROM, perform the following procedures. 1-1. Only perform procedures and described in Table 7. 1-2. Return to 2-1. 1 2 2. To complete downloading FLASH ROM, perform the following procedures. 2-1. Perform procedures described in Table 7. 2-2. Terminate “TeraTerm”. Table 7. Termination procedures Cordless Handset DSS PWB (Cordless Handset PWB) FAX machine DSS PWB (built into FAX machine) (Cordless PWB) FAX machine DSS PWB (Unit) (Cordless PWB) 1 Set the BAT SW of the Program loader BOX to OFF (down). 2 Remove the connector jointed to the Cordless Handset DSS PWB (Cordless Handset PWB). 1 Turn off the FAX machine. 2 Remove the connector jointed to the FAX machine DSS PWB (Cordless PWB). 1 Set the (h) PARK SW of the Program loader BOX to OFF (down). 2 Remove the connector jointed to the FAX machine DSS PWB (Cordless PWB). 3) System ID Refer to the Operation Manual of FO-K01 as for writing the system ID on the Cordless Handset. (When you add a Cordless Handset, the system ID is automatically written.) 8 – 31 FO-CC500A FO-K01A PARTS GUIDE FACSIMILE FO-CC500 MODEL FO-CC500 Facsimile System cosisting of FO-CC500 (Facsimile Unit) and FO-CC500K (Cordless Handset). ACCESSORY CORDLESS HANDSET MODEL FO-K01 MODEL FO-CC500 FO-K01 SELECTION CODE DESTINATION A Australia/ New Zealand A Australia/ New Zealand CONTENTS 1 Cabinet, etc. 8 Control PWB unit 2 Top cover/Sub frame 9 LIU PWB unit 3 Upper cabinet/Document guide upper 10 Cordless PWB unit 4 Drive unit 11 Power supply PWB unit 5 Cordless handset (FO-CC500K/FO-K01) 12 Operation panel PWB unit 6 Packing material & Accessories (FO-CC500) 13 Cordless handset PWB unit (FO-CC500K/FO-K01) 7 Packing material & Accessories, Accessory Cordless handset (FO-K01) Index Because parts marked with " " are indispensable for the machine safety maintenance and operation, it must be replaced with the parts specific to the product specification. FO-CC500A FO-K01A [1] Cabinet,etc. OPERATION PANEL UNIT 16 62 DOCUMENT GUIDE UPPER 27 22 30 B1 63 31 33 64 23 TOP COVER/ SUB FRAME 34 28 25 25 32 24 26 B2 B2 26 42 29 B1 29 57 45 75 B4 4 B2 41 49 55 65 44 39 36 38 B3 43 39 W1 59 40 75 7 35 B1 B1 37 61 48 67 3 58 B6 6 47 B1 46 52 54 50 17 51 53 16 8 B1 5 74 W2 DRIVE UNIT 66 70 B1 B1 B5 –1– FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [1] Cabinet,etc. 1 1 1 3 4 5 6 7 8 16 17 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 57 58 59 61 62 63 64 65 66 67 70 74 75 B1 B2 B3 B4 B5 B6 W1 W2 CCNWN484AXH01 CLEVP2358XH01 CROLR2481XH01 DCEKC087SXHZZ DCEKL460CXH01 QPWBF3206XHZ2 QCNWN332BXHZZ LBNDJ2006XHZZ LBSHP2140XHZA LBSHP2143XHZZ LFRM-2225XHSE MSPRC3295XHZZ MSPRD3379XHZZ NGERH2569XHZZ NGERH2570XHZZ NROLP2332XHZZ NROLR2482XHZZ PGIDM2617XHZZ PGIDM2618XHZZ QCNWN485AXHZZ RUNTZ2124XHZZ GCABB2393XHSW LHLDZ2227XHZZ LHLDZ2228XHZZ MSPRC3287XHZZ MSPRC3288XHZZ MSPRC3340XHZA PCOVP2130XHZZ PGIDM2615XHZZ PGIDM2616XHZZ QCNWN486AXHZZ RHEDZ2065XHZZ GCOVA2447XHSE GLEGG2078XHZZ LPLTM3178XHZZ LPLTP3177XHZZ MLEVP2357XHZZ MLEVP2356XHZZ MSPRD3286XHZA MSPRD3285XHZZ MSPRD3291XHZZ MSPRD3292XHZA PCOVP2131XHSE PCOVP2132XHZZ QACCL2045XHZZ RDENT2194XHZZ HPNLH2418XHS2 PBRS-2055XHZZ PSHEZ3687XHZZ MSPRD3341XHZZ DROMR375CXH03 QANTH2020SCZA RCORF2125XHZZ MSPRC3357XHZZ MSPRC3346XHZZ XEBSD30P10000 XEBSD30P12000 LX-BZ2282XHZZ XEPSD30P08000 LX-BZ2205XHZZ LX-BZ2286XHZZ XWHSN40-08100 LX-WZ2290XHZZ AL AD AQ CA BH AH AK AA AC AC AN AB AD AC AD AD AR AD AD AG BP BA AD AD AB AB AD AE AD AD AM BP AH AD AF AD AD AD AB AB AD AB AE AD AR BN AL AN AD AD AV AE AD AD AA AA AB AA AC AE AA AE N N N N N N N N N N N N N N N N N N C C C E E E C C C C C C C C C C C C C C B D C C C C C C C C C B D C C C C C C C C C C C B E D C C C E C B C C C C C C C C C C Speaker ass’y Hook switch lever ass’y PO roller ass’y Control PWB unit(Within ROM) LIU PWB unit Wire hold PWB(PWB only) Panel cable Band(100mm) Back bearing,left Back bearing,right Scanner frame CIS spring PO pinch roller spring Back gear Reduction gear,21/37Z PO pinch roller Back roller CIS guide,left CIS guide,right CIS cable CIS unit Lower cabinet Ink ribbon spool 1 Ink ribbon spool 2 Head spring A Head spring B Head spring C Head cover Head guide,left Head guide,right Head cable Thermal head Front cover Rubber leg Bottom plate Stopper plate Film sensor lever P-IN sensor lever,lower Film sensor lever spring P-IN sensor lever spring,lower Speaker hold spring Head earth spring Interface PWB cover ROM cover AC cord ass’y Power supply PWB unit Decoration panel Static brush Earth sheet Up spring Cordless PWB unit(Within ROM and ID label x 2pcs.) Antenna with cable Core PO roller spring Head spring D Screw(3x10) Screw(3x12) Screw Screw(3x8) Screw Screw(3x14) Washer Washer –2– FO-CC500A FO-K01A [2] Top cover/Sub frame 27 25 16 28 26 15 B1 12 B2 30 32 6 11 1 B1 20 B2 19 23 13 B2 4 24 29 3 2 B3 24 22 9 PARTS CODE B2 PRICE RANK NEW MARK PART RANK B2 AS AB AD AF AF AQ AT AD AB AB AC AC AL AL AG AG AT AL AD AD AH AH AB AB AE AE AD AQ AA AD AD AE AD AA AC N C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C D D C C C DESCRIPTION [2] Top cover/Sub frame 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 B1 B2 B3 GCOVA2448XHSE MSPRC3301XHZZ NGERP2318XHZZ PGIDM2619XHSE PGIDM2620XHSE LFRM-2227XHZZ LFRM-2232XHZZ MLEVP2363XHZZ MSPRC3305XHZZ MSPRD3302XHZZ NGERH2580XHZZ NGERH2581XHZZ NROLR2483XHZZ NROLR2484XHZZ NSFTP2357XHZZ NSFTP2358XHZZ PGIDM2621XHSE LHLDZ2224XHZZ LPLTG3181XHZZ LPLTP3179XHZZ LPLTP3180XHZZ LPLTP3182XHZZ MSPRC3299XHZZ MSPRC3300XHZZ LBSHP2148XHZZ LBSHP2149XHZZ NGERH2579XHZZ NROLR2485XHZZ LBNDJ2006XHZZ MSPRC3335XHZZ TLABH319DXHZZ TLABH468DXHZA LX-BZ2234XHZZ XEBSD30P10000 LX-BZ2222XHZZ N N N N N N Top cover Hopper spring Pinion gear Hopper guide,left Hopper guide,right Sub frame Sub frame plate P-IN sensor lever,upper Release lever spring P-IN sensor lever spring,upper Reduction gear,15/22Z Idler gear,25Z Paper feed roller PU roller Paper feed roller shaft PU roller shaft Release lever RP feed plate holder RP separate rubber RP separate base RP separate plate RP feed plate RP separate spring RP feed spring Platen bearing,left Platen bearing,right Platen gear Platen roller Band Paper feed roller spring Imaging film set label Maximum 10 label Screw Screw(3x10) Screw –3– 7 17 31 NO. 10 21 22 18 5 14 8 FO-CC500A FO-K01A [3] Upper cabinet/Document guide upper 901 10 1 9 6 5 13 7 12 15 18 3 4 B1 8 17 11 14 2 16 NO. PARTS CODE PRICE RANK NEW MARK PART RANK N D C C C E C C C C E C C C C C C C C C Panel case 12 key Start key Function key Operation panel PWB unit Tact switch FRSNS sensor ORGSNS sensor Panel cable LCD unit Separate rubber Separate plate Feed plate Separate spring Feed spring Document guide upper Separate rubber sheet TAD key Screw(2x6) E Operation panel unit DESCRIPTION [3] Upper cabinet/Document guide upper 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 B1 901 GCASP2145XHST JBTN-2339XHSA JBTN-2340XHSC JBTN-2341XHSD DCEKP336CXH08 QSW-K0005AWZZ QSW-M2246AXZZ QSW-M2294XHZZ QCNWN332BXHZZ RUNTZ2080XH01 LPLTG2911XHZZ LPLTP3175XHZZ LPLTP3176XHZZ MSPRD3293XHZZ MSPRT3294XHZZ PGIDM2614XHSE PSHEP3660XHZZ JBTN-2342XHSA XEBSD20P06000 (Unit) DCEKP334CXH26 AV AF AE AG BG AC AH AE AK BA AE AD AD AB AB AQ AE AE AA BG N N N N N –4– [SW] [SW1] [SW2] FO-CC500A FO-K01A [4] Drive unit 1 15 16 4 18 11 8 15 21 14 23 B1 7 22 20 3 6 9 10 2 12 19 13 5 PARTS CODE NO. PRICE RANK NEW MARK PART RANK CGERH2314XH05 CLEVP2359XH01 CLEVP2360XH01 CLEVP2361XH01 CLEVP2362XH01 LFRM-2226XHZZ LPLTM3190XHZZ MCAMP2028XHZZ MSPRD3298XHZZ NGERH2380XHZZ NGERH2409XHZZ NGERH2571XHZZ NGERH2572XHZZ NGERH2573XHZZ NGERH2574XHZZ NGERH2575XHZZ NGERH2576XHZZ NGERH2577XHZZ NGERH2582XHZZ QCNWN483AXHZZ QSW-F2224SCZZ RMOTS2175XHZZ MSPRP3297XHZZ XEBSD30P08000 AS AD AD AD AD AQ AG AE AE AC AB AD AD AD AD AD AD AD AC AD AE AX AD AA N C C C C C C C C C C C C C C C C C C C C C B C C 17 DESCRIPTION [4] Drive unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 B1 10 Slip gear ass’y Planet gear lever ass’y A Planet gear lever ass’y B Planet gear lever ass’y C Planet gear lever ass’y D Drive unit frame Motor plate Cam Cam hold spring Reduction gear,17/36Z Idler gear,23Z Slip gear Reduction gear,25/63Z Reduction gear,20/40Z Reduction gear,15/30Z Idler gear,40Z Idler gear,21Z Idler gear,20Z Idler gear,15Z Cam switch cable Cam switch Motor Earth spring Screw(3x8) –5– FO-CC500A FO-K01A [5] Cordless handset (FO-CC500K/FO-K01) 901 A B 14 27 B2 10 B3 8 3 13 12 18 24 25 23 19 9 16 11 B1 B1 7 6 5 2 31 1 21 20 4 17 A B 22 NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [5] Cordless handset (FO-CC500K/FO-K01) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 16 17 18 19 20 21 22 23 24 25 27 31 B1 B2 B3 901 DCYO-373CXH05 GCABA2399XHVC GCABB2400XHSC GCOVA2457XHSC GCOVH2456XHZZ JKNBZ0309XHSA JKNBZ0310XHSD LHLDZ2234XHZA LHLDZ2235XHZZ PCAPH2092XHSB PCUSS2172XHZZ PCUSS2173XHZZ PSHEP3695XHZZ PSHEZ3696XHZZ PTPEH0003XHZZ PTPEH2091XHZZ QANTH2022XHZZ QCNTM0045XHSC QTANB9013BXZZ QTANB9014BXZZ RMICC2012SCZZ RPHOA2012XHZZ RUNTZ2099XHZZ CCNW-255BXH01 TLABM407FXHTZ TLABM408FXHTZ RUNTZ2098XHZB XEBSD20P06000 XEBSD20P08000 XEBSF20P08000 (Unit) DSOGO373CXHE5 CA AU AL AG AL AL AK AF AE AK AE AE AD AC AD AE BA AF AF AN AR BG AT BW AA AA AA CC N N N N N N N N N N N N E D D C C C C C C C C C C C C C C C C C B B B C D D B C C C Cordless handset PWB unit(Within ROM) Front cabinet Back cabinet LCD panel Headset cover Cursor key Start key LCD holder Speaker holder Antenna cap LCD cushion Speaker cushion LCD diffuse sheet LCD reflect sheet Cursor key both tape LCD panel both tape Antenna Rubber key Charge terminal,left Charge terminal,right Mic Receiver LCD Speaker ass’y Model name label Model name label RF unit Screw(2x6) Screw(2x8) Screw(2x8) E Cordless handset unit –6– [FO-CC500K] [FO-K01] FO-CC500A FO-K01A [6] Packing material & Accessories, Facsimile (FO-CC500) 2 9 16 10 19 24 25 13 14 AC CORD 6 TAPE 12 TAPE 27 21 4 22 TAPE 15 TAPE TAPE 8 23 18 3 R 26 7 AC CORD 11 17 1 5 (1) (4) (3) (2) 20 R NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [6] Packing material & Accessories, Facsimile (FO-CC500) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 DUNTK443CXHGY QCNWG209BXHGY LPLTP3184XHZZ NGERH2568XHZZ PRBNN2033SC10 QCNWG0376AFZZ SPAKA429EXHZZ SPAKA430EXHZZ QCNWG0381AFZZ TLABZ446DXHZZ TINSE4319XHTZ TLABM234FXHZZ UBATM2099XHZZ SPAKA465CXHZZ SPAKA301DXHZZ QPLGZ9065AFZZ CPAKC356EXH01 SPAKP329DXHZZ RUNTZ2100XHE3 CPLTP3183XHR2 CGERH2566XH01 RADPA2067XHZZ SPAKA324DXHZZ GCOVH2455XHSB PCUSS0685XHZZ TCADZ3496XHZZ DSOGO373CXHE5 AY AN AH AB AL AM N N N N AM AC AU N N BG AF AK AP N AF AZ AM AG BB AE AH AC CC N N N N N E C C C S C D D C D D D B D D C D D E C C B D C C D E Handset Handset cord Paper tray extension Imaging film gear Imaging film(Initial starter roll 10m) Telephone line cord Packing add.,A Packing add.,B New Zealand cable Caution label Operation manual Pop card Battery pack Packing add.,left Packing add.,right Australia plug Packing case with label Vinyl cover Cordless handset charger Paper tray ass’y Imaging film gear ass’y AC adaptor Antenna protector Battery cover Battery cover cushion Operation manual correction sheet Cordless handset unit –7– [FO-CC500K] FO-CC500A FO-K01A [7] Packing material & Accessories,Accessory cordless handset (FO-K01) 11 7 8 10 6 2 3 4 9 12 1 5 NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [7]Packing material & Accessories, Accessory cordless handset (FO-K01) 1 2 3 4 5 6 7 8 9 10 11 12 TCADH3527XHZZ RADPA2067XHZZ RUNTZ2100XHE3 SPAKA427EXHZZ SPAKC364EXHTZ UBATM2099XHZZ GCOVH2455XHSB PCUSS0685XHZZ DSOGO373CXHE5 TLABZ446DXHZZ SPAKA428EXHZZ TCADZ3496XHZZ BB AZ BG AH AC CC AC N N N N N N N N N D B E D D B C C E D D D Operation manual AC adaptor Cordless handset charger Packing add.,A Packing case Battery pack Battery cover Battery cover cushion Cordless handset unit Caution label Packing add.,B Operation manual correction sheet –8– [FO-K01] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [8] Control PWB unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 UBATL2049SCZZ VCEAGA0JW227M VCEAGA1EW476M VCEAGA1HW106M VCEAGA1HW106M VCEAGA1EW107M VCEAGA1HW106M VCEAGA1HW106M VCEAGA0JW227M VCEAGA1CW227M VCEAGA1HW226M VCKYCY1HF104Z VCCCCY1HH221J VCCCCY1HH221J VCCCCY1HH221J VCCCCY1HH221J VCKYCY1HB102K VCKYCY1HB102K VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCKYCY1HF104Z VCCCCY1HH101J VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HB103K VCKYCY1AF105Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCCCCY1HH220J VCCCCY1HH220J VCKYCY1HB103K VCCCCY1HH221J VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1AF105Z VCKYCY1HF104Z VCKYCY1AF105Z VCKYCY1AF105Z VCKYCY1AF105Z VCKYCY1AF105Z VCCCCY1HH200J VCKYCY1AF105Z VCKYCY1AF105Z VCCCCY1HH200J VCKYCY1AF105Z VCKYCY1HB472K VCCCCY1HH101J VCCCCY1HH101J VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1AF105Z VCKYCY1AF105Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1CB104K VCKYCY1HF104Z VCKYCY1AF105Z VCKYCY1HF104Z VCKYCY1HB102K VCKYCY1AF105Z VCCCCY1HH101J VCKYCY1HF104Z VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VRS-CY1JB000J VRS-CY1JB000J VCKYCY1AB105K VCKYCY1AB105K VCKYCY1HB103K AF AD AA AA AA AB AA AA AD AB AB AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AC AA AA AA AA AA AA AA AA AA AA AC AA AC AC AC AC AA AC AC AA AC AA AA AA AA AA AC AC AA AA AB AA AC AA AA AC AA AA AA AA AA AA AA AA AB AB AA B C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C Battery(CR2032T23) Capacitor(6.3WV 220µF) Capacitor(25WV 47µF) Capacitor(50WV 10µF) Capacitor(50WV 10µF) Capacitor(25WV 100µF) Capacitor(50WV 10µF) Capacitor(50WV 10µF) Capacitor(6.3WV 220µF) Capacitor(16WV 220µF) Capacitor(50WV 22µF) Capacitor(50WV 0.1µF) Capacitor(50WV 220PF) Capacitor(50WV 220PF) Capacitor(50WV 220PF) Capacitor(50WV 220PF) Capacitor(50WV 1000PF) Capacitor(50WV 1000PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 0.1µF) Capacitor(50WV 100PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.01µF) Capacitor(10WV 1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 22PF) Capacitor(50WV 22PF) Capacitor(50WV 0.01µF) Capacitor(50WV 220PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(10WV 1µF) Capacitor(50WV 0.1µF) Capacitor(10WV 1µF) Capacitor(10WV 1µF) Capacitor(10WV 1µF) Capacitor(10WV 1µF) Capacitor(50WV 20PF) Capacitor(10WV 1µF) Capacitor(10WV 1µF) Capacitor(50WV 20PF) Capacitor(10WV 1µF) Capacitor(50WV 4700PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(10WV 1µF) Capacitor(10WV 1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(10WV 1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 1000PF) Capacitor(10WV 1µF) Capacitor(50WV 100PF) Capacitor(50WV 0.1µF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Capacitor(10WV 1.0µF) Capacitor(10WV 1µF) Capacitor(50WV 0.01µF) –9– [BAT1] [C1] [C2] [C3] [C4] [C5] [C6] [C7] [C8] [C9] [C10] [C100] [C101] [C102] [C103] [C104] [C105] [C106] [C108] [C109] [C110] [C111] [C112] [C113] [C114] [C115] [C117] [C119] [C121] [C122] [C123] [C124] [C125] [C126] [C129] [C130] [C131] [C132] [C133] [C134] [C135] [C138] [C139] [C140] [C141] [C142] [C143] [C144] [C145] [C146] [C147] [C148] [C149] [C150] [C151] [C152] [C154] [C155] [C156] [C159] [C160] [C162] [C163] [C164] [C165] [C166] [C168] [C169] [C170] [C171] [C172] [C174] [C175] [C176] [C177] [C179] [C181] [C182] [C183] [C184] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [8] Control PWB unit 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 VCKYCY1AB105K VCKYCY1AF105Z VRS-CY1JB153J VCKYCY1HB223K VCKYCY1AF105Z VCCCCY1HH101J VCKYCY1HF104Z VCKYCY1HF104Z VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCKYCY1HB102K VCKYCY1HB102K VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J VCKYCY1HB102K VCKYCY1CB104K VCCCCY1HH101J VCKYCY1HB471K VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1AB105K VCKYCY1AB105K VCKYCY1HF104Z VCKYCY1AB105K QCNCM7014SC0G QCNCM7014SC0B QCNCM2508SC1C QCNCM2508SC1D QCNCM7014SC0F QCNCM7014SC1F QCNCM7014SC0C QCNCM2638SC0F QCNCM2401SC0B QCNCM7014SC1E VHDHRW0202B-1 VHD1SS355//-1 VHD1SS355//-1 VHD1SS355//-1 QFS-L1037YCZZ VHIF004/TA83B RH-IX2168SCZZ VHISCE214V/-1 VHIKIC7S66F-1 RH-IX2270XHZZ VHIKID65001AP VHINJM2113M-1 VHIKM29W040-1 RH-IX2262XHZZ VHIKIC7S66F-1 RH-IX2273XHZZ VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB150J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB000J VS2SA1530AS-1 VSRT1N436C/-1 VSRT1N141C/-1 VSSI4431ADY-1 VSRT1N141C/-1 VSKRA102S//-1 VSRT1N141C/-1 VSRT1N141C/-1 VRS-CY1JB562J VRS-CY1JB103J VRS-CY1JB271J VRS-CY1JB271J VRS-CY1JB000J VRS-CY1JB471J VRS-CY1JB471J VRS-CY1JB103J AB AC AA AC AC AA AA AA AA AA AA AA AA AA AA AA AA AA AA AB AA AB AA AA AB AB AA AB AB AD AG AF AB AD AA AE AA AC AD AB AB AB AD N BB AF AK AL AE AG AV AP AK AP AA AA AA AA AA AA AA AA AA AA AC AD AB AF AB AD AB AB AA AA AA AA AA AA AA AA N N N N N N N N C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B A B B B B B B B B B B B C C C C C C C C C C B B B B B B B B C C C C C C C C Capacitor(10WV 1µF) Capacitor(10WV 1µF) Resistor(1/16W 150KΩ ±5%) Capacitor(50WV 0.022µF) Capacitor(10WV 1µF) Capacitor(50WV 100PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 1000PF) Capacitor(50WV 1000PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 1000PF) Capacitor(16WV 0.1µF) Capacitor(50WV 100PF) Capacitor(50WV 470PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(10WV 1.0µF) Capacitor(10WV 1.0µF) Capacitor(50WV 0.1µF) Capacitor(10WV 1µF) Connector(7pin) Connector(2pin) Connector(13pin) Connector(14pin) Connector(6pin) Connector(16pin) Connector(3pin) Connector(6pin) Connector(2pin) Connector(15pin) Diode(HRW0202B) Diode(1SS355) Diode(1SS355) Diode(1SS355) IC protector(KAB3202) IC,Main FLASH ROM(4MB)(Ver.:TA83B)(DROM-087SXH0A) IC(MSM51V4800E) IC(SCE214V) IC(KIC7S66F) IC(SN74LV4051ANSR) IC(KID65001AP) IC(NJM2113M) IC(K9F4008W0A) IC(SN74LV4053) IC(KIC7S66F) IC(SN74LV4066) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 15Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Transistor(2SA1530AS) Transistor(1N436C) Transistor(1N141C) FET(SI4431ADY) Transistor(1N141C) Transistor(KRA102S) Transistor(1N141C) Transistor(1N141C) Resistor(1/16W 5.6KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 470Ω ±5%) Resistor(1/16W 470Ω ±5%) Resistor(1/16W 10KΩ ±5%) – 10 – [C185] [C186] [C187] [C188] [C189] [C190] [C192] [C193] [C194] [C195] [C196] [C197] [C198] [C199] [C200] [C203] [C205] [C206] [C207] [C208] [C209] [C211] [C212] [C213] [C214] [C215] [C216] [C224] [CNCIS] [CNCSW] [CNDSS] [CNLIUA] [CNMT] [CNPN] [CNPRG] [CNPW] [CNSP] [CNTH] [D100] [D101] [D102] [D103] [FU100] [IC1] [IC2] [IC3] [IC4] [IC5] [IC6] [IC7] [IC8] [IC10] [IC11] [IC12] [L100] [L102] [L103] [L104] [L105] [L106] [L107] [L108] [L109] [L110] [Q100] [Q102] [Q105] [Q108] [Q110] [Q111] [Q112] [Q113] [R100] [R101] [R102] [R103] [R104] [R105] [R106] [R107] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [8] Control PWB unit 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 VRS-CY1JB471J VRS-CY1JB103J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB271J VRS-CY1JB151J VRS-CY1JB102J VRS-CY1JB000J VRS-CY1JB512J VRS-CY1JB154J VRS-CY1JB104J VRS-CY1JB224J VRS-CY1JB103J VRS-CY1JB513J VRS-CY1JB224J VRS-CY1JB102J VRS-CY1JB102J VRS-CY1JB153J VRS-CY1JB102J VRS-CY1JB105J VRS-CY1JB221J VRS-CY1JB102J VRS-CY1JB302J VRS-CY1JB203J VRS-CY1JB224J VRS-CY1JB474J VRS-CY1JB155J VRS-CY1JB204J VRS-CY1JB393J VRS-CY1JB243J VRS-CY1JB622J VRS-CY1JB913J VRS-CY1JB000J VRS-CY1JB104J VRS-CY1JB474J VRS-CY1JB104J VRS-CY1JB203J VRS-CY1JB102J VRS-CY1JB222J VRS-CY1JB000J VRS-CY1JB103J VRS-CY1JB106J VCKYCY1HF104Z VRS-CY1JB203J VRS-CY1JB242J VRS-CY1JB271J VRS-CY1JB124J VRS-CY1JB223J VRS-CY1JB271J VRS-CY1JB102J VRS-CY1JB271J VRS-CY1JB271J VRS-CY1JB471J VRS-CY1JB271J VCKYCY1CB104K VRS-CY1JB271J VRS-CY1JB271J VRS-CY1JB101J VRS-CY1JB271J VRS-CY1JB151J VRS-CY1JB151J VRS-CY1JB000J VRS-CY1JB105J VRS-CY1JB202J VRS-CY1JB202J VRS-CY1JB302J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB104J RR-TZ3018SCZZ RR-TZ3018SCZZ RR-TZ3018SCZZ RR-TZ3017SCZZ VHIS814A33AUC RCRSP2176SCZZ RCRSB0297AFZZ VHE1N4748A/-1 VHEMTZJ5R6B-1 VHE02CZ180Y-1 AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AB AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AB AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AC AC AC AC AH AG AD AC AB AC C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B Resistor(1/16W 470Ω ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 150Ω ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 5.1KΩ ±5%) Resistor(1/16W 150KΩ ±5%) Resistor(1/16W 100KΩ ±5%) Resistor(1/16W 220KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 51KΩ ±5%) Resistor(1/16W 220KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 15KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1.0MΩ ±5%) Resistor(1/16W 220Ω ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 3KΩ ±5%) Resistor(1/16W 20KΩ ±5%) Resistor(1/16W 220KΩ ±5%) Resistor(1/16W 470KΩ ±5%) Resistor(1/16W 1.5MΩ ±5%) Resistor(1/16W 200KΩ ±5%) Resistor(1/16W 39KΩ ±5%) Resistor(1/16W 24KΩ ±5%) Resistor(1/16W 6.2KΩ ±5%) Resistor(1/16W 91KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 100KΩ ±5%) Resistor(1/16W 470KΩ ±5%) Resistor(1/16W 100KΩ ±5%) Resistor(1/16W 20KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 2.2KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 10MΩ ±5%) Capacitor(50WV 0.1µF) Resistor(1/16W 20KΩ ±5%) Resistor(1/16W 2.4KΩ ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 120KΩ ±5%) Resistor(1/16W 22KΩ ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 470Ω ±5%) Resistor(1/16W 270Ω ±5%) Capacitor(16WV 0.1µF) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 150Ω ±5%) Resistor(1/16W 150Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 1MΩ ±5%) Resistor(1/16W 2KΩ ±5%) Resistor(1/16W 2KΩ ±5%) Resistor(1/16W 3KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100KΩ ±5%) Block resistor(470Ωx4) Block resistor(470Ωx4) Block resistor(470Ωx4) Block resistor(270Ωx4) IC(S-814A33AUC-BCX-T2) Crystal(32.256MHz) Crystal(32.768kHz) Diode(1N4748A) Zener diode(MTZJ5.6B) Zener diode(02CZ180Y) – 11 – [R108] [R112] [R113] [R115] [R116] [R117] [R118] [R119] [R120] [R121] [R122] [R124] [R125] [R127] [R128] [R129] [R130] [R131] [R132] [R133] [R134] [R135] [R136] [R137] [R139] [R140] [R141] [R142] [R143] [R144] [R145] [R146] [R147] [R149] [R150] [R151] [R152] [R153] [R154] [R155] [R156] [R157] [R163] [R166] [R167] [R168] [R171] [R172] [R173] [R174] [R175] [R177] [R178] [R179] [R181] [R183] [R186] [R187] [R189] [R190] [R191] [R192] [R193] [R194] [R195] [R196] [R201] [R202] [R203] [R206] [RA1] [RA2] [RA3] [RA4] [REG1] [X1] [X2] [ZD1] [ZD2] [ZD100] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [8] Control PWB unit 241 901 VHEHZU2R7B1-1 (Unit) DCEKC087SXHZZ AE CA N B Zener diode(HZU2.7B1) E Control PWB unit(Within ROM) B B C C C C B C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B C C C B B B B C C C C C C B B B B B B B B C C C C C C C C C C C C C C Varistor(RA501P-C6) Varistor(RA501P-C6) Capacitor(50WV 4.7µF) Capacitor(25WV 47µF) Capacitor(50WV 22µF) Capacitor(50WV 22µF) Varistor(TNR7G181) Capacitor(50WV 100µF) Capacitor(250WV 1µF) Capacitor(250WV 0.56µF) Capacitor(50WV 0.33µF) Capacitor(50WV 22µF) Capacitor(50WV 10µF) Capacitor(25WV 100µF) Capacitor(50WV 10µF) Capacitor(50WV 1000PF) Capacitor(50WV 1000PF) Capacitor(50WV 220PF) Capacitor(16WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 1500PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.01µF) Capacitor(50WV 1000PF) Capacitor(50WV 1000PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.068µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Resistor(1/16W 0Ω ±5%) Capacitor(50WV 100PF) Capacitor(50WV 0.056µF) Capacitor(50WV 0.01µF) Capacitor(50WV 820PF) Capacitor(50WV 1000PF) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Relay(A5X-24E-908) Jack Connector(14pin) Jack Diode(1SS133) Diode(1SS133) IC(NJM2904M) IC(NJM2904M) Resistor(1W 51Ω ±5%) Coil(R-5C) Coil(R-5C) Coil(4.7mH) Coil(R-5C) Coil(R-5C) Photo coupler(TLP621) Photo transistor(SG206S) Photo transistor(SG206S) FET(BS108) Transistor(KTC3875GR) Transistor(RT1N436C) Transistor(RT1N436C) Transistor(RT1N436C) Resistor(1/4W 100Ω ±5%) Resistor(1W 1.2KΩ ±5%) Resistor(1W 22KΩ ±5%) Resistor(1/4W 15Ω ±5%) Resistor(1/4W 15Ω ±5%) Resistor(1/4W 10KΩ ±5%) Resistor(1/16W 3.3KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 16KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 3.3KΩ ±5%) Resistor(1/10W 150Ω ±5%) Resistor(1/16W 2.2KΩ ±5%) Resistor(1/16W 1KΩ ±5%) [ZD101] [9] LIU PWB unit 1 1 1 1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 VHVRA501PC6-1 VHVRA501PC6-1 VCEAGA1HW475M VCEAGA1EW476M VCEAGA1HW226M VCEAGA1HW226M VHVTN07G181-1 VCEAGA1HW107M RC-FZ3079SCZZ RC-FZ3078SCZZ VCFYDA1HA334J VCEAGA1HW226M VCEAGA1HW106M VCEAGA1EW107M VCEAGA1HW106M VCKYCY1HB102K VCKYCY1HB102K VCCCCY1HH221J VCKYCY1CB104K VCKYCY1HF104Z VCKYCY1HB152K VCKYCY1HF104Z VCKYCY1HB103K VCKYCY1HB102K VCKYCY1HB102K VCKYCY1HF104Z VCKYCY1HF104Z VCKYTV1HB683K VCKYCY1HF104Z VCKYCY1HF104Z VRS-CY1JB000J VCCCCY1HH101J VCKYCY1HB563K VCKYCY1HB103K VCKYCY1HB821K VCKYCY1HB102K VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB000J RRLYD3436XHZZ QJAKZ2079XH0D QCNCW715PAFZZ QJAKZ2073SCFD VHDDSS133//-1 VHDDSS133//-1 VHINJM2904M-2 VHINJM2904M-2 VRS-HT3AA510J RFILN2027XHZZ RFILN2027XHZZ RCILF2125SCZZ RFILN2027XHZZ RFILN2027XHZZ VHPTLP621-1BL VHPSG206S//-1 VHPSG206S//-1 VSBS108////-1 VSKTC3875GR-1 VSRT1N436C/-1 VSRT1N436C/-1 VSRT1N436C/-1 VRD-HT2EY101J VRS-RE3AA122J VRS-HT3AA223J VRD-HT2EY150J VRD-HT2EY150J VRD-HT2EY103J VRS-CY1JB332J VRS-CY1JB102J VRS-CY1JB163J VRS-CY1JB000J VRS-CY1JB332J VRS-TS2AD151J VRS-CY1JB222J VRS-CY1JB102J AG AG AA AA AB AB AC AA AG AF AC AB AA AB AA AA AA AA AB AA AB AA AA AA AA AA AA AB AA AA AA AA N AA AA AA AA AA AA AP AD AG AE AA AA AG AG AA AC AC AF AC AC AD AG AG AE AB AD AD AD AA AC AA AA AA AA AA AA AA AA AA AA AA AA N N – 12 – [AR1] [AR2] [C1] [C3] [C4] [C5] [C6] [C8] [C9] [C10] [C11] [C12] [C13] [C14] [C15] [C101] [C102] [C103] [C104] [C107] [C109] [C111] [C113] [C114] [C117] [C120] [C121] [C122] [C123] [C126] [C127] [C130] [C133] [C135] [C137] [C139] [C143] [C144] [C145] [CML] [CNHJ] [CNLIUA] [CNLNJ] [D3] [D4] [IC101] [IC102] [JP24] [L1] [L2] [L4] [L6] [L8] [PC1] [PH1] [PH2] [Q3] [Q100] [Q101] [Q102] [Q103] [R2] [R3] [R4] [R5] [R9] [R10] [R100] [R101] [R102] [R103] [R104] [R105] [R106] [R107] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [9] LIU PWB unit 1 1 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 901 VRS-CY1JB203J VRS-CY1JB822J VRS-CY1JB243J VRS-CY1JB154J VRS-CY1JB152J VRS-CY1JB203J VRS-TS2AD301J VRS-TS2AD433J VRS-CY1JB102J VRS-CY1JB102J VRS-CY1JB682J VRS-CY1JB224J VRS-CY1JB621J VRS-CY1JB103J VRS-CY1JB392J VRS-CY1JB000J VRS-CY1JB391J VRS-CY1JB102J VRS-CY1JB473J VRS-CY1JB223J VRS-CY1JB303J VRS-CY1JB223J VRS-CY1JB332J VRS-TS2AD153J VRS-TS2AD000J RH-DX2007SCZZ VHINJM78L05A1 QSW-Z2317XHZZ RTRNI2165XHZZ VHVCSS301M/-U VHVTN07G270-1 VHEHZ2A1///-1 VHEHZ2A1///-1 VHEMTZJ200B-1 VHEMTZJ100B-1 VHEMTZJ6R8B-1 (Unit) DCEKL460CXH01 AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AC AD AF AG AL AC AC AC AC AC AC BH N N C C C C C C C C C C C C C C C C C C C C C C C C C B B C B B B B B B B B Resistor(1/16W 20KΩ ±5%) Resistor(1/16W 8.2KΩ ±5%) Resistor(1/16W 24KΩ ±5%) Resistor(1/16W 150KΩ ±5%) Resistor(1/16W 1.5KΩ ±5%) Resistor(1/16W 20KΩ ±5%) Resistor(1/10W 300Ω ±5%) Resistor(1/10W 43KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 6.8KΩ ±5%) Resistor(1/16W 220KΩ ±5%) Resistor(1/16W 620Ω ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 3.9KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 390Ω ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 47KΩ ±5%) Resistor(1/16W 22KΩ ±5%) Resistor(1/16W 30KΩ ±5%) Resistor(1/16W 22KΩ ±5%) Resistor(1/16W 3.3KΩ ±5%) Resistor(1/10W 15KΩ ±5%) Resistor(1/10W 0Ω ±5%) Diode bridge(S1ZB60) IC(NJM78L05A) Hook switch Transformer(I2165) Varistor(CSS-301M) Varistor(TNR7G270K) Zener diode(HZ2A1) Zener diode(HZ2A1) Zener diode(MTZJ20B) Zener diode(MTZJ10B) Zener diode(MTZJ6.8B) E LIU PWB unit C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C Capacitor(6.3WV 220µF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(6.3WV 220µF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(10WV 1000µF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(6.3WV 220µF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 0.1µF) Capacitor(25WV 47µF) Capacitor(6.3WV 220µF) Capacitor(10WV 1000µF) Capacitor(6.3V 220µF) [R108] [R109] [R110] [R111] [R112] [R113] [R115] [R117] [R118] [R120] [R121] [R122] [R124] [R125] [R126] [R127] [R130] [R132] [R133] [R134] [R135] [R136] [R137] [R140] [R144] [REC1] [REG1] [SW1] [T1] [VA1] [VA2] [ZD2] [ZD3] [ZD4] [ZD5] [ZD8] [10] Cordless PWB unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 VCEAGA0JW227M VCCCCY1HH8R0D VCKYCY1HF104Z VCKYCY1HF104Z VCCCCY1HH8R0D VCCCCY1HH8R0D VCKYCY1HF104Z VCEAGA0JW227M VCCCCY1HH8R0D VCKYCY1HF104Z VCCCCY1HH8R0D VCCCCY1HH8R0D VCCCCY1HH8R0D VCCCCY1HH8R0D VCCCCY1HH8R0D VCCCCY1HH8R0D VCCCCY1HH8R0D VCEAGU1AW108M VCCCCY1HH8R0D VCCCCY1HH8R0D VCKYCY1HF104Z VCEAEA0JW227M VCCCCY1HH8R0D VCKYCY1HF104Z VCKYCY1HF104Z VCCCCY1HH8R0D VCKYCY1HF104Z VCCCCY1HH8R0D VCKYCY1HF104Z VCCCCY1HH8R0D VCKYCY1HF104Z VCCCCY1HH8R0D VCKYCY1HF104Z VCCCCY1HH8R0D VCCCCY1HH8R0D VCKYCY1HF104Z VCEAGA1EW476M VCEAEA0JW227M RC-EZ3089SCZZ VCEAEA0JW227M AD AA AA AA AA AA AA AD AA AA AA AA AA AA AA AA AA AC AA AA AA AB AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AB AC AB N N – 13 – [C1] [C2] [C3] [C4] [C5] [C8] [C9] [C10] [C11] [C12] [C14] [C15] [C16] [C17] [C22] [C23] [C24] [C25] [C26] [C27] [C28] [C29] [C30] [C31] [C32] [C33] [C34] [C35] [C36] [C37] [C38] [C39] [C40] [C41] [C42] [C43] [C44] [C45] [C46] [C47] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [10] Cordless PWB unit 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 VCKYCY1HF104Z VCCCCY1HH8R0D VCCCCY1HH8R0D VCCCCY1HH8R0D VCCCCY1HH8R0D VCCCCY1HH8R0D VCEAGU1AW108M VCKYCY1HF104Z VCKYCY1HB103K VCKYTQ1AF106Z VCKYCY1HB103K VCKYCY1AF105Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1CB224K VCKYCY1HB102K VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCCCCY1HH101J VCCCCY1HH101J VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HF104Z VCKYCY1HB102K VCKYCY1HB102K VCKYCY1HB102K VCCCCY1HHR75C VCCCCY1HH3R0C VCKYCY1HB102K VCCCCY1HH330J VCCCCY1HH101J VCCCCY1HH101J VCCCCY1HH101J QCNCW715NAFZZ QCNCM7014SC0D QCNCM2646XH0B QCNCW754AAFZZ VHD1SS355//-1 RH-IX2264XHZZ RH-IX2264XHZZ VHIF512KTA85C RH-IX2322XHZZ VHIS814A33AUC VHITC7SZ04A-1 RH-IX2267XHZZ VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB3R0J VRS-CY1JB3R0J VRS-TS2AD3R0J RFILN2033XHZZ VRS-TS2AD3R0J VS2SB1427E/-1 VRS-CY1JB332J VRS-CY1JB271J VRS-CY1JB472J VRS-CY1JB102J VRS-CY1JB102J VRS-CY1JB102J VRS-CY1JB302J VRS-CY1JB102J VRS-CY1JB302J VRS-CY1JB102J VRS-CY1JB000J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB102J VRS-CY1JB222J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB103J AA AA AA AA AA AA AC AA AA AD AA AC AA AA AE AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AE AA AA AA AA AA AA AK AB AG AG AB BN BN AM AH AD AL AA AA AA AA AA AA AE AA AD AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA N N N N C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B B B C C C C C C C C B C C C C C C C C C C C C C C C C C C C C C Capacitor(50WV 0.1µF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(50WV 8PF) Capacitor(10WV 1000µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.01µF) Capacitor(10WV 10µF) Capacitor(50WV 0.01µF) Capacitor(10WV 1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(16WV 0.22µF) Capacitor(50WV 1000PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 1000PF) Capacitor(50WV 1000PF) Capacitor(50WV 1000PF) Capacitor(50WV 0.75PF) Capacitor(50WV 3PF) Capacitor(50WV 1000PF) Capacitor(50WV 33PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Connector(13pin) Connector(4pin) Connector(2pin) Antenna jack Diode(1SS355) IC(20438)(Within IC1 and IC2 pair) IC(CX80705-13)(Within IC1 and IC2 pair) IC,Cordless FLASH ROM(512KB)(Ver.:TA85C)(DROM-375CXH03) IC(S-24C04BFJ-TB-S) IC(S-814A33AUC-BCX-T2) IC(TC7SZ04AFE) IC(S-816A33AMC-BAI-T2) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 3Ω ±5%) Resistor(1/16W 3Ω ±5%) Resistor(1/10W 3Ω ±5%) Coil(BLM11HB102SD) Resistor(1/10W 3Ω ±5%) Transistor(2SB1427E) Resistor(1/16W 3.3KΩ ±5%) Resistor(1/16W 270Ω ±5%) Resistor(1/16W 4.7KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 3KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 3KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 2.2KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 10KΩ ±5%) – 14 – [C48] [C49] [C50] [C51] [C52] [C53] [C54] [C55] [C56] [C58] [C59] [C60] [C61] [C101] [C102] [C105] [C106] [C107] [C108] [C109] [C110] [C111] [C112] [C113] [C115] [C116] [C118] [C119] [C123] [C124] [C125] [C126] [C127] [C129] [C130] [C131] [C132] [C133] [CN1] [CN2] [CN4] [CN101] [D101] [IC1] [IC2] [IC3] [IC4] [IC5] [IC6] [IC101] [L101] [L102] [L104] [L105] [L106] [L107] [L111] [L112] [Q101] [R3] [R5] [R7] [R8] [R9] [R10] [R11] [R12] [R13] [R14] [R105] [R108] [R109] [R110] [R111] [R112] [R114] [R116] [R117] [R118] [R119] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK N N C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B C B B Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 100KΩ ±5%) Resistor(1/16W 56KΩ ±1%) Resistor(1/16W 47KΩ ±1%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 22KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 10Ω ±5%) Resistor(1/2W 3Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 18KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 10Ω ±5%) Resistor(1/16W 56KΩ ±1%) Resistor(1/16W 56KΩ ±1%) Block resistor(100Ωx4) Block resistor(100Ωx4) Block resistor(100Ωx4) Block resistor(100Ωx4) Block resistor(100Ωx4) Block resistor(100Ωx4) RFG jumper wire RF unit Crystal(19.2MHz) N E Cordless PWB unit(Within ROM and ID label x 2pcs.) C C C C C C C C C C C C C C C C C C B B B B B B B B B B B B B B B B B A A Ferrite beads(BL02RN1) Jumper Capacitor(275VW 0.1µF) Electrolytic capacitor(400VW 56µF) Capacitor(4700PF) Capacitor(2KWV 47PF) Capacitor(50VW 0.01µF) Capacitor(50VW 4700PF) Capacitor(50VW 100PF) Capacitor(50VW 100PF) Capacitor(50VW 0.1µF) Capacitor(4700PF) Electrolytic capacitor(35VW 220µF) Electrolytic capacitor(16VW 330µF) Capacitor(50VW 0.1µF) Capacitor(500VW 1000PF) Connector(B2P3-VH) Connector(IMSA-9110S-06) Zener diode(HZS9) Diode(1SS133) Diode(1SS133) Diode(1SS133) Diode(ERA15-06) Diode(ERA15-06) Diode(ERA15-06) Diode(ERA15-06) Diode(1SS133) Diode(1SS133) Diode(1SS133) Diode(1SS133) Zener diode(HZS11) Diode(YG911S2) Diode(EC31QS04) Zener diode(HZ-30P) Zener diode(HZS7) Fuse(T2.5A/250V) Fuse(T2.5A/250V) DESCRIPTION [10] Cordless PWB unit 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 901 VRS-CY1JB103J VRS-CY1JB103J VRS-CY1JB000J VRS-CY1JB104J VRS-CY1JB563F VRS-CY1JB473F VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB223J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB100J VRS-TW2HF3R0J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB103J VRS-CY1JB103J VRS-CY1JB101J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB183J VRS-CY1JB000J VRS-CY1JB100J VRS-CY1JB563F VRS-CY1JB563F RR-TZ3012SCJ0 RR-TZ3012SCJ0 RR-TZ3012SCJ0 RR-TZ3012SCJ0 RR-TZ3012SCJ0 RR-TZ3012SCJ0 QCNW-287BXHZZ RUNTZ2098XHZB RCRUA2001XHZZ (Unit) DROMR375CXH03 AA AA AA AA AC AC AA AA AA AA AA AA AA AA AC AA AA AA AA AA AA AA AA AA AA AA AA AA AC AC AB AB AB AB AB AB AE BW BC [R120] [R121] [R122] [R123] [R124] [R125] [R126] [R127] [R128] [R129] [R130] [R131] [R132] [R135] [R137] [R138] [R139] [R140] [R141] [R142] [R143] [R144] [R148] [R149] [R150] [R152] [R153] [R154] [R155] [R156] [RA1] [RA2] [RA3] [RA4] [RA5] [RA6] [RFG1] [UNIT1] [X1] [11] Power supply PWB unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 0KY0L551A0010 0KY0W000A0050 0KY0C245Q1040 0KYC3126MS560 0KY0C176Q4720 0KY0C1B2S4700 0KYC1103EC103 0KYC1103EC472 0KY0C194E1010 0KY0C1Q1E1010 0KY0C195E1040 0KY0C176Q4720 0KY0C3A0D2210 0KY0C3A0B3310 0KY0C195E1040 0KY0C1A9Y1020 0KY0K251A0020 0KYK2101LS006 0KY0D466A0600 0KY0D251A0020 0KY0D251A0020 0KY0D251A0020 0KY0D157A0060 0KY0D157A0060 0KY0D157A0060 0KY0D157A0060 0KY0D251A0020 0KY0D251A0020 0KY0D251A0020 0KY0D251A0020 0KY0D466A0720 0KY0D221B0020 0KYD3110AC004 0KY0D461A3200 0KY0D466A0480 0KYK7125AS2R5 0KYK7125AS2R5 AE AC AM AR AL AF AC AC AC AD AD AL AM AL AD AG AK AK AE AD AD AD AG AG AG AG AD AD AD AD AE AT AN AL AE AN AN N – 15 – [BEA1] [BEA101] [C1] [C5] [C7] [C8] [C9] [C10] [C11] [C13] [C14] [C15] [C101] [C102] [C110] [C111] [CNAC] [CNPW] [D5] [D6] [D7] [D9] [D10] [D11] [D12] [D13] [D14] [D17] [D18] [D20] [D22] [D101] [D102] [D104] [D105] [F1] [F2] FO-CC500A FO-K01A PARTS CODE NO. PRICE RANK NEW MARK PART RANK DESCRIPTION [11] Power supply PWB unit 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 1 901 0KY0K758A4R00 0KYR3121TC000 0KY0MPS901200 0KY0H135A5R00 0KY0W000A0100 0KY0L110K2230 0KY0D763A8R00 0KYH7138AS001 0KY0T645A0020 0KY0T358A0040 0KY0T358A0040 0KY0T394A0010 0KY0T394A0010 0KY0T394A0010 0KY0R166B4750 0KY0R353U6840 0KY0R353U6840 0KYR3120TC223 0KY0R153U4710 0KYR3121TC391 0KYR3121TC333 0KYR3111VC682 0KYR3120TC912 0KYR3120TC203 0KY0R3Q0V1020 0KYR3111VC681 0KY0R153U3300 0KYR3120TC104 0KY0R153U2710 0KYR3120TC473 0KYR3120TC563 0KYR3120TC472 0KYR3121TC471 0KYR3111VC102 0KYR3121TC473 0KYR3120TC752 0KYR3120TC153 0KYR3121TC472 0KYR3131AC562 0KY0M135A0050 0KYL2000DS084 0KY0R854E5020 0KY0D754A4710 (Unit) RDENT2194XHZZ AT AC AE AV AC AS AN AP AX AG AG AF AF AF AE AD AD AD AC AC AC AB AC AC AC AB AC AC AC AC AC AC AC AB AC AC AB AC AC AE AZ AK AK BN N N N N N N N N N N N N N N N N A C C B C C B B B B B B B B C C C C C C C C C C C C C C C C C C C C C C C C C C B C B Fuse(T4A/250V) Resistor(1/8W 0Ω ±5%) Heat sink IC(PQ05RD11) Jumper Inductor(PLA10A2230R4) Thermistor(NTH7D8R0) Photo coupler(PC123) FET(2SK2717) Transistor(2SC1741AS) Transistor(2SC1741AS) Transistor(2SC4081) Transistor(2SC4081) Transistor(2SC4081) Resistor(1/2W 4.7MΩ ±5%) Resistor(1/4W 680KΩ ±5%) Resistor(1/4W 680KΩ ±5%) Resistor(1/8W 22KΩ ±5%) Resistor(1/4W 470Ω ±5%) Resistor(1/8W 390Ω ±5%) Resistor(1/8W 33KΩ ±5%) Resistor(1/16W 6.8KΩ ±5%) Resistor(1/8W 9.1KΩ ±5%) Resistor(1/8W 20KΩ ±5%) Resistor(1/8W 1KΩ ±5%) Resistor(1/16W 680Ω ±5%) Resistor(1/4W 33Ω ±5%) Resistor(1/8W 100KΩ ±5%) Resistor(1/4W 270Ω ±5%) Resistor(1/8W 47KΩ ±5%) Resistor(1/8W 56KΩ ±5%) Resistor(1/8W 4.7KΩ ±5%) Resistor(1/8W 470Ω ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/8W 47KΩ ±5%) Resistor(1/8W 7.5KΩ ±5%) Resistor(1/8W 15KΩ ±5%) Resistor(1/8W 4.7KΩ ±5%) Resistor(1/4W 5.6KΩ ±5%) Screw Transformer(2D84) Variable resistor(1/10W 5KΩ) Transient voltage surge suppressor(ENC471) E Power supply PWB unit C C C Tact switch FRSNS sensor ORGSNS sensor E Operation panel PWB unit [F101] [F102] [HS1] [IC101] [J101] [L1] [NTC1] [PC1] [Q1] [Q2] [Q21] [Q22] [Q23] [Q101] [R1] [R2] [R3] [R5] [R6] [R7] [R8] [R10] [R11] [R12] [R13] [R17] [R19] [R24] [R25] [R26] [R27] [R29] [R110] [R111] [R112] [R113] [R115] [R117] [R121] [SR1] [T1] [VR101] [Z1] [12] Operation panel PWB unit 1 2 3 901 QSW-K0005AWZZ QSW-M2246AXZZ QSW-M2294XHZZ (Unit) DCEKP336CXH08 AC AH AE BG N [SW] [SW1] [SW2] [13] Cordless handset PWB unit (FO-CC500K/FO-K01) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYTM1AF226Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCCCCZ1HH8R0D VCKYCZ1CF104Z VCCCCZ1HH8R0D VCKYCZ1CF104Z VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYCZ1CF104Z VCKYCZ1CF104Z VCCCCZ1HH8R0D VCKYCZ1CF104Z VCCCCZ1HH101J VCCCCZ1HH101J VCKYCZ1CF104Z VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYCZ1CF104Z VCKYCZ1HB102K VCCCCZ1HH101J VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCZ1CF104Z AA AA AN AB AB AA AB AA AB AA AA AB AB AA AB AA AA AB AA AA AB AA AA AB AB AB C C C C C C C C C C C C C C C C C C C C C C C C C C Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(10WV 22µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(50WV 100PF) Capacitor(50WV 100PF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(50WV 1000PF) Capacitor(50WV 100PF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) – 16 – [C2] [C3] [C4] [C11] [C12] [C13] [C14] [C15] [C16] [C17] [C18] [C19] [C20] [C21] [C22] [C24] [C25] [C26] [C27] [C29] [C30] [C32] [C33] [C34] [C36] [C37] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [13] Cordless handset PWB unit (FO-CC500K/FO-K01) 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 VCCCCZ1HH8R0D VCKYCZ1CF104Z VCKYCZ1CF104Z VCCCCZ1HH8R0D VCCCCZ1HH8R0D VRS-CZ1JB000J VCKYTV1AF475Z VCKYCY1AF105Z VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYCZ1CF104Z VCCCCZ1HH8R0D VCKYCZ1HB102K VCCCCZ1HH8R0D VCKYCY1CB104K VCKYTQ0JB106K VCCCCZ1HH8R0D VCKYCY1AF105Z VCKYCY1CB104K VCKYCY1CB104K VCKYCZ1CF104Z VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYCZ1CF104Z VCKYCY1CB104K VCKYTQ1AF106Z VCKYCZ1CF104Z VCKYCZ1CF104Z VCKYCY1CB104K VCKYCZ1CF104Z VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYTQ1AF226Z VCKYTQ1AF475Z VCKYCZ1CF104Z VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYTQ1AF475Z VCKYCZ1CF104Z VCCCCZ1HH8R0D VCEAPW1AW336M VCKYCZ1CF104Z VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYCZ1HB102K VCCCCZ1HH8R0D VCKYCZ1CF104Z VCEAPW0JW107M VCEAGU0JW477M VCKYCZ1CF104Z VCCCCZ1HH8R0D VCKYCZ1HB102K VCKYCZ1HB102K VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCCCCZ1HH8R0D VCKYCZ1HB102K VCCCCZ1HH8R0D VCKYCZ1EB103K VCKYCZ1CF104Z VCKYTV1CB474K VCKYTV1CB474K VCKYTV1CB474K VCKYTV1HB104K VCKYTV1HB104K VCKYTV1HB104K VCKYCY1CB104K VCKYCY1CB104K AA AB AB AA AA AA AD AC AA AA AA AB AA AA AA AB AE AA AC AB AB AB AA AA AB AB AD AB AB AB AB AA AA AA AA AA AA AL AD AB AA AA AA AD AB AA AG AB AA AA AA AA AA AA AA AA AA AA AB AG AB AB AA AA AA AA AA AA AA AA AB AB AC AC AC AA AA AA AB AB C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Resistor(1/16W 0Ω ±5%) Capacitor(10WV 4.7µF) Capacitor(10WV 1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 1000PF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(6.3WV 10µF) Capacitor(50WV 8.0PF) Capacitor(10WV 1µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(10WV 10µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(10WV 22µF) Capacitor(10WV 4.7µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(10WV 4.7µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(10WV 33µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 1000PF) Capacitor(50WV 8.0PF) Capacitor(16WV 0.1µF) Capacitor(6.3WV 100µF) Capacitor(6.3WV 470µF) Capacitor(16WV 0.1µF) Capacitor(50WV 8.0PF) Capacitor(50WV 1000PF) Capacitor(50WV 1000PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 8.0PF) Capacitor(50WV 1000PF) Capacitor(50WV 8.0PF) Capacitor(25WV 0.01µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.47µF) Capacitor(16WV 0.47µF) Capacitor(16WV 0.47µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(50WV 0.1µF) Capacitor(16WV 0.1µF) Capacitor(16WV 0.1µF) – 17 – [C38] [C39] [C40] [C41] [C42] [C44] [C46] [C47] [C48] [C49] [C50] [C51] [C52] [C54] [C55] [C56] [C57] [C58] [C59] [C60] [C61] [C62] [C63] [C64] [C65] [C66] [C67] [C68] [C69] [C70] [C71] [C72] [C73] [C74] [C75] [C76] [C77] [C78] [C80] [C81] [C82] [C83] [C84] [C85] [C86] [C88] [C89] [C90] [C91] [C92] [C93] [C96] [C98] [C99] [C102] [C103] [C104] [C105] [C106] [C107] [C108] [C109] [C110] [C111] [C112] [C113] [C114] [C115] [C116] [C117] [C118] [C119] [C201] [C202] [C203] [C204] [C205] [C206] [C207] [C208] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [13] Cordless handset PWB unit (FO-CC500K/FO-K01) 1 1 1 1 1 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 VCKYCZ1HB102K VCKYCZ1EB103K VCKYTQ1AF106Z VCEAPS0JC157M VCEAPS0JC337M VCKYCZ1EB103K VCKYCZ1CF104Z QCNCM742BAFZZ QCNCW2644XHZZ VHEUDZS4R7B-1 VHDU1GC44//-1 QFS-L102ACFNZ RH-IX2268XHZZ VHIF512KTA84C RH-IX2322XHZZ RH-IX2264XHZZ VHINJM2149R-1 VHINJU7081R-1 RH-IX2264XHZZ VHITC7SZ04A-1 QJAKM0214AFZZ RFILN2034XHZZ RFILN2034XHZZ VRS-CY1JB000J VRS-CY1JB000J RFILN2033XHZZ VRS-CY1JB000J VRS-CY1JB000J VRS-CY1JB3R0J RFILN2033XHZZ RFILN2033XHZZ VRS-CY1JB3R0J VRS-TS2AD3R0J VRS-TS2AD3R0J VRS-TP2BD000J VRS-TP2BD000J VHPCL195YG/-1 VHPCL195YG/-1 VHPCL195YG/-1 VHPCL195YG/-1 VHPCL195YG/-1 VHPCL195YG/-1 VHPCL195YG/-1 VHPCL195YG/-1 VSDTC114EU/-1 VSKTA1298Y/-1 VSKTC3876Y/-1 VSDTC114EU/-1 VRS-CZ1JB470J VRS-CZ1JB470J VRS-TW2HF161J VRS-CZ1JB101J VRS-CZ1JB101J VRS-TW2HF100J VRS-CZ1JB103J VRS-CZ1JB102J VRS-CZ1JB101J VRS-CZ1JB104J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB103J VRS-CZ1JB104J VRS-CZ1JB124J VRS-CY1JB223J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB623F VRS-CZ1JB102J VRS-CZ1JB000J VRS-CZ1JB124F VRS-CZ1JB000J VRS-CZ1JB563F VRS-CZ1JB000J VRS-CZ1JB164F VRS-CZ1JB101J AA AB AD AF AH AB AB AB AQ AE AC AE AN AM BN AF AR BN AD AN AG AG AA AA AE AA AA AA AE AE AA AA AA AA AA AC AC AC AC AC AC AC AC AB AC AC AB AA AA AE AA AA AE AA AA AA AA AA AA AA AA AA AA AA AA AE AA AA AA AA AD AA AA AD AA AD AA AD AA N N N N N C C C C C C C C C B B A B B B B B B B B C C C C C C C C C C C C C C C C B B B B B B B B B B B B C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C Capacitor(50WV 1000PF) Capacitor(25WV 0.01µF) Capacitor(10WV 10µF) Capacitor(6.3WV 150µF) Capacitor(6.3WV 330µF) Capacitor(25WV 0.01µF) Capacitor(16WV 0.1µF) Connector(2pin) Connector(22pin) Zener diode(UDZ4.7B) Diode(1GC44) Fuse(1A/250V) IC(S-L2980A33MC-C6STF) IC,Cordless handset FLASH ROM(512KB)(Ver.:TA84C)(DROM-376CXH05) IC(S-24C04BFJ-TB-S) IC(CX80705-13)(Within IC5 and IC8 pair) IC(NJM2149R) IC(NJU7081R) IC(20438)(Within IC5 and IC8 pair) IC(TC7SZ04AFE) Jack Coil(BLM41A102SG) Coil(BLM41A102SG) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Coil(BLM11HB102SD) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 3Ω ±5%) Coil(BLM11HB102SD) Coil(BLM11HB102SD) Resistor(1/16W 3Ω ±5%) Resistor(1/10W 3Ω ±5%) Resistor(1/10W 3Ω ±5%) Resistor(1/8W 0Ω ±5%) Resistor(1/8W 0Ω ±5%) Photo transistor(CL195YG) Photo transistor(CL195YG) Photo transistor(CL195YG) Photo transistor(CL195YG) Photo transistor(CL195YG) Photo transistor(CL195YG) Photo transistor(CL195YG) Photo transistor(CL195YG) Transistor(DTC114EU) Transistor(KTA1298Y) Transistor(KTC3876Y) Transistor(DTC114EU) Resistor(1/16W 47Ω ±5%) Resistor(1/16W 47Ω ±5%) Resistor(1/2W 160Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/2W 10Ω ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 100KΩ ±5%) Resistor(1/16W 120KΩ ±5%) Resistor(1/16W 22KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 62KΩ ±1%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 120KΩ ±1%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 56KΩ ±1%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 160KΩ ±1%) Resistor(1/16W 100Ω ±5%) – 18 – [C300] [C301] [C302] [C303] [C304] [C305] [C306] [CN1] [CN101] [D2] [D3] [F1] [IC1] [IC3] [IC4] [IC5] [IC6] [IC7] [IC8] [IC9] [J1] [L1] [L2] [L3] [L4] [L5] [L6] [L9] [L10] [L11] [L12] [L13] [L14] [L15] [L16] [L17] [LED115] [LED116] [LED117] [LED118] [LED119] [LED120] [LED121] [LED122] [Q2] [Q3] [Q5] [Q7] [R2] [R3] [R5] [R6] [R7] [R9] [R10] [R11] [R14] [R20] [R22] [R23] [R24] [R25] [R26] [R27] [R28] [R29] [R30] [R31] [R32] [R33] [R34] [R35] [R39] [R40] [R42] [R43] [R45] [R47] [R50] [R51] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [13] Cordless handset PWB unit (FO-CC500K/FO-K01) 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB182J VRS-CZ1JB104J VRS-CZ1JB103J VRS-CZ1JB124J VRS-CZ1JB302J VRS-CZ1JB153J VRS-CZ1JB273J VRS-CZ1JB101J VRS-CZ1JB000J VRS-CZ1JB470J VRS-CZ1JB470J VRS-CZ1JB222J VRS-CZ1JB220J VRS-CZ1JB203J VRS-CZ1JB101J VRS-CZ1JB100J VRS-CZ1JB222J VRS-CZ1JB470J VRS-CZ1JB470J VRS-CZ1JB470J VRS-CZ1JB102J VRS-CZ1JB152J VRS-CZ1JB103J VRS-CZ1JB201J VRS-CZ1JB201J VRS-CZ1JB472J VRS-CZ1JB332J VRS-CZ1JB000J VRS-CY1JB391J VRS-CY1JB391J VRS-CY1JB131J VRS-CY1JB221J VRS-CY1JB221J VRS-CY1JB131J VRS-CY1JB221J VRS-CY1JB131J VRS-CY1JB434F VRS-CY1JB824F VRS-CY1JB103J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CY1JB101J VRS-CZ1JB302J VRS-CZ1JB302J VRS-CZ1JB102J VRS-CZ1JB102J VRS-CZ1JB102J VRS-CZ1JB102J VRS-CZ1JB000J VRS-CZ1JB000J VRS-CZ1JB101J VRS-CZ1JB101J VRS-CZ1JB563J VRS-CZ1JB203J VRS-CY1JB103J VRS-CZ1JB470J VRS-CZ1JB470J VRS-TV2AB000J VRS-CZ1JB563F VRS-CZ1JB563F VRS-CY1JB101J RR-TZ3012SCJ0 RR-TZ3012SCJ0 RR-TZ3012SCJ0 RR-TZ3012SCJ0 RR-TZ3012SCJ0 RR-TZ3012SCJ0 PSHEM3720XHZZ PSHEM3720XHZZ QSW-K0237AFZZ QSW-K0237AFZZ AA AA AA AA AA AA AA AA AA AA AE AD AD AD AA AA AA AA AD AA AD AA AA AD AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AC AD AA AA AA AA AA AA AD AD AA AA AA AA AA AA AA AA AD AD AA AA AA AA AD AD AA AB AB AB AB AB AB AC AC AC AC C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B C C C C Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 1.8KΩ ±5%) Resistor(1/16W 100KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 120KΩ ±5%) Resistor(1/16W 3KΩ ±5%) Resistor(1/16W 15KΩ ±5%) Resistor(1/16W 27KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 47Ω ±5%) Resistor(1/16W 47Ω ±5%) Resistor(1/16W 2.2KΩ ±5%) Resistor(1/16W 22Ω ±5%) Resistor(1/16W 20KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 10Ω ±5%) Resistor(1/16W 2.2KΩ ±5%) Resistor(1/16W 47Ω ±5%) Resistor(1/16W 47Ω ±5%) Resistor(1/16W 47Ω ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1.5KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 200Ω ±5%) Resistor(1/16W 200Ω ±5%) Resistor(1/16W 4.7KΩ ±5%) Resistor(1/16W 3.3KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 390Ω ±5%) Resistor(1/16W 390Ω ±5%) Resistor(1/16W 130Ω ±5%) Resistor(1/16W 220Ω ±5%) Resistor(1/16W 220Ω ±5%) Resistor(1/16W 130Ω ±5%) Resistor(1/16W 220Ω ±5%) Resistor(1/16W 130Ω ±5%) Resistor(1/16W 430KΩ ±1%) Resistor(1/16W 820KΩ ±1%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 3KΩ ±5%) Resistor(1/16W 3KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 1KΩ ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 0Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 100Ω ±5%) Resistor(1/16W 56KΩ ±5%) Resistor(1/16W 20KΩ ±5%) Resistor(1/16W 10KΩ ±5%) Resistor(1/16W 47Ω ±5%) Resistor(1/16W 47Ω ±5%) Resistor(1/10W 0Ω ±5%) Resistor(1/16W 56KΩ ±1%) Resistor(1/16W 56KΩ ±1%) Resistor(1/16W 100Ω ±5%) Block resistor(100Ωx4) Block resistor(100Ωx4) Block resistor(100Ωx4) Block resistor(100Ωx4) Block resistor(100Ωx4) Block resistor(100Ωx4) Earth sheet Earth sheet Tact switch Tact switch – 19 – [R52] [R53] [R55] [R56] [R57] [R58] [R60] [R61] [R62] [R64] [R65] [R66] [R67] [R68] [R69] [R70] [R71] [R72] [R73] [R74] [R76] [R77] [R78] [R79] [R80] [R81] [R82] [R83] [R84] [R85] [R86] [R87] [R88] [R89] [R91] [R113] [R114] [R118] [R119] [R120] [R121] [R122] [R123] [R124] [R125] [R126] [R200] [R201] [R202] [R203] [R204] [R205] [R206] [R207] [R208] [R209] [R210] [R211] [R212] [R213] [R214] [R215] [R216] [R217] [R218] [R219] [R220] [R222] [R223] [R224] [RA1] [RA2] [RA3] [RA4] [RA5] [RA6] [SHEET1] [SHEET2] [TASW1] [TASW2] FO-CC500A FO-K01A NO. PARTS CODE PRICE RANK NEW MARK PART RANK DESCRIPTION [13] Cordless handset PWB unit (FO-CC500K/FO-K01) 267 268 269 270 271 901 QSW-K0237AFZZ QSW-K0237AFZZ QSW-K0237AFZZ RUNTZ2098XHZB RCRUA2001XHZZ (Unit) DCYO-373CXH05 AC AC AC BW BC CA N N C C C B B Tact switch Tact switch Tact switch RF unit Crystal(19.2MHz) N E Cordless handset PWB unit(Within ROM) – 20 – [TASW3] [TASW4] [TASW5] [UNIT1] [X1] FO-CC500A FO-K01A Index PARTS CODE [C] CCNW-255BXH01 CCNWN484AXH01 CGERH2314XH05 CGERH2566XH01 CLEVP2358XH01 CLEVP2359XH01 CLEVP2360XH01 CLEVP2361XH01 CLEVP2362XH01 CPAKC356EXH01 CPLTP3183XHR2 CROLR2481XH01 [D] DCEKC087SXHZZ ″ DCEKL460CXH01 ″ DCEKP334CXH26 DCEKP336CXH08 ″ DCYO-373CXH05 ″ DROMR375CXH03 ″ DSOGO373CXHE5 ″ ″ DUNTK443CXHGY [G] GCABA2399XHVC GCABB2393XHSW GCABB2400XHSC GCASP2145XHST GCOVA2447XHSE GCOVA2448XHSE GCOVA2457XHSC GCOVH2455XHSB ″ GCOVH2456XHZZ GLEGG2078XHZZ [H] HPNLH2418XHS2 [J] JBTN-2339XHSA JBTN-2340XHSC JBTN-2341XHSD JBTN-2342XHSA JKNBZ0309XHSA JKNBZ0310XHSD [L] LBNDJ2006XHZZ ″ LBSHP2140XHZA LBSHP2143XHZZ LBSHP2148XHZZ LBSHP2149XHZZ LFRM-2225XHSE LFRM-2226XHZZ LFRM-2227XHZZ LFRM-2232XHZZ LHLDZ2224XHZZ LHLDZ2227XHZZ LHLDZ2228XHZZ LHLDZ2234XHZA LHLDZ2235XHZZ LPLTG2911XHZZ LPLTG3181XHZZ LPLTM3178XHZZ LPLTM3190XHZZ LPLTP3175XHZZ LPLTP3176XHZZ LPLTP3177XHZZ LPLTP3179XHZZ LPLTP3180XHZZ LPLTP3182XHZZ LPLTP3184XHZZ LX-BZ2205XHZZ LX-BZ2222XHZZ LX-BZ2234XHZZ No. PRICE NEW PART RANK MARK RANK 5-25 1-3 4-1 6-21 1-4 4-2 4-3 4-4 4-5 6-17 6-20 1-5 AT AL AS AG AD AD AD AD AD 1-6 8-901 1-7 9-901 3-901 3-5 12-901 5-1 13-901 1-66 10-901 5-901 6-27 7-9 6-1 CA CA BH BH BG BG BG CA CA 5-2 1-35 5-3 3-1 1-46 2-1 5-4 6-24 7-7 5-5 1-47 AU BA AL AV AH AS AH AH AG AD 1-62 AL 3-2 3-3 3-4 3-18 5-6 5-7 AF AE AG AE AL AL 1-17 2-29 1-22 1-23 2-25 2-26 1-24 4-6 2-6 2-7 2-18 1-36 1-37 5-8 5-9 3-11 2-19 1-48 4-7 3-12 3-13 1-49 2-20 2-21 2-22 6-3 1-B5 2-B3 2-B1 AA AA AC AC AE AE AN AQ AQ AT AL AD AD AK AF AE AD AF AG AD AD AD AD AH AH AH AC AC AD N N AM AQ CC CC CC AY C C C C C C C C C D C C N N N N N N N N N N N N N N N E E E E E E E E E E E E E E E N N N N N N N N N D D D D D C C C C C C N N N N N N N N D C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C PRICE NEW PART RANK MARK RANK PARTS CODE No. LX-BZ2282XHZZ LX-BZ2286XHZZ LX-WZ2290XHZZ [M] MCAMP2028XHZZ MLEVP2356XHZZ MLEVP2357XHZZ MLEVP2363XHZZ MSPRC3287XHZZ MSPRC3288XHZZ MSPRC3295XHZZ MSPRC3299XHZZ MSPRC3300XHZZ MSPRC3301XHZZ MSPRC3305XHZZ MSPRC3335XHZZ MSPRC3340XHZA MSPRC3346XHZZ MSPRC3357XHZZ MSPRD3285XHZZ MSPRD3286XHZA MSPRD3291XHZZ MSPRD3292XHZA MSPRD3293XHZZ MSPRD3298XHZZ MSPRD3302XHZZ MSPRD3341XHZZ MSPRD3379XHZZ MSPRP3297XHZZ MSPRT3294XHZZ [N] NGERH2380XHZZ NGERH2409XHZZ NGERH2568XHZZ NGERH2569XHZZ NGERH2570XHZZ NGERH2571XHZZ NGERH2572XHZZ NGERH2573XHZZ NGERH2574XHZZ NGERH2575XHZZ NGERH2576XHZZ NGERH2577XHZZ NGERH2579XHZZ NGERH2580XHZZ NGERH2581XHZZ NGERH2582XHZZ NGERP2318XHZZ NROLP2332XHZZ NROLR2482XHZZ NROLR2483XHZZ NROLR2484XHZZ NROLR2485XHZZ NSFTP2357XHZZ NSFTP2358XHZZ [P] PBRS-2055XHZZ PCAPH2092XHSB PCOVP2130XHZZ PCOVP2131XHSE PCOVP2132XHZZ PCUSS0685XHZZ ″ PCUSS2172XHZZ PCUSS2173XHZZ PGIDM2614XHSE PGIDM2615XHZZ PGIDM2616XHZZ PGIDM2617XHZZ PGIDM2618XHZZ PGIDM2619XHSE PGIDM2620XHSE PGIDM2621XHSE PRBNN2033SC10 PSHEM3720XHZZ ″ PSHEP3660XHZZ PSHEP3695XHZZ PSHEZ3687XHZZ PSHEZ3696XHZZ 1-B3 1-B6 1-W2 AB AE AE 4-8 1-51 1-50 2-8 1-38 1-39 1-25 2-23 2-24 2-2 2-9 2-30 1-40 1-75 1-74 1-53 1-52 1-54 1-55 3-14 4-9 2-10 1-65 1-26 4-23 3-15 AE AD AD AD AB AB AB AB AB AB AB AD AD AD AD AB AB AD AB AB AE AB AD AD AD AB 4-10 4-11 6-4 1-27 1-28 4-12 4-13 4-14 4-15 4-16 4-17 4-18 2-27 2-11 2-12 4-19 2-3 1-29 1-30 2-13 2-14 2-28 2-15 2-16 AC AB AB AC AD AD AD AD AD AD AD AD AD AC AC AC AD AD AR AL AL AQ AG AG 1-63 5-10 1-41 1-57 1-58 6-25 7-8 5-11 5-12 3-16 1-42 1-43 1-31 1-32 2-4 2-5 2-17 6-5 13-263 13-264 3-17 5-13 1-64 5-14 AN AE AE AE AD AC AC AK AE AQ AD AD AD AD AF AF AT AL AC AC AE AE AD AD – 21 – N N N N C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C N N N N N N C C C C C C C C C C C C C C C C C S C C C C C C PARTS CODE PTPEH0003XHZZ PTPEH2091XHZZ [Q] QACCL2045XHZZ QANTH2020SCZA QANTH2022XHZZ QCNCM2401SC0B QCNCM2508SC1C QCNCM2508SC1D QCNCM2638SC0F QCNCM2646XH0B QCNCM7014SC0B QCNCM7014SC0C QCNCM7014SC0D QCNCM7014SC0F QCNCM7014SC0G QCNCM7014SC1E QCNCM7014SC1F QCNCM742BAFZZ QCNCW2644XHZZ QCNCW715NAFZZ QCNCW715PAFZZ QCNCW754AAFZZ QCNTM0045XHSC QCNW-287BXHZZ QCNWG0376AFZZ QCNWG0381AFZZ QCNWG209BXHGY QCNWN332BXHZZ ″ QCNWN483AXHZZ QCNWN485AXHZZ QCNWN486AXHZZ QFS-L102ACFNZ QFS-L1037YCZZ QJAKM0214AFZZ QJAKZ2073SCFD QJAKZ2079XH0D QPLGZ9065AFZZ QPWBF3206XHZ2 QSW-F2224SCZZ QSW-K0005AWZZ ″ QSW-K0237AFZZ ″ ″ ″ ″ QSW-M2246AXZZ ″ QSW-M2294XHZZ ″ QSW-Z2317XHZZ QTANB9013BXZZ QTANB9014BXZZ [R] RADPA2067XHZZ ″ RC-EZ3089SCZZ RC-FZ3078SCZZ RC-FZ3079SCZZ RCILF2125SCZZ RCORF2125XHZZ RCRSB0297AFZZ RCRSP2176SCZZ RCRUA2001XHZZ ″ RDENT2194XHZZ ″ RFILN2027XHZZ ″ ″ ″ RFILN2033XHZZ ″ ″ ″ RFILN2034XHZZ ″ RH-DX2007SCZZ No. PRICE NEW PART RANK MARK RANK 5-16 5-17 AC AD 1-59 1-67 5-18 8-117 8-111 8-112 8-116 10-81 8-110 8-115 10-80 8-113 8-109 8-118 8-114 13-114 13-115 10-79 9-42 10-82 5-19 10-157 6-6 6-9 6-2 1-16 3-9 4-20 1-33 1-44 13-118 8-123 13-127 9-43 9-41 6-16 1-8 4-21 3-6 12-1 13-265 13-266 13-267 13-268 13-269 3-7 12-2 3-8 12-3 9-103 5-20 5-21 AR AV AE AA AG AF AE AG AD AA AB AB AB AC AD AB AQ AK AG AG BA AE AM AM AN AK AK AD AG AM AE AD AN AE AD AP AH AE AC AC AC AC AC AC AC AH AH AE AE AF AF AF 6-22 7-2 10-39 9-10 9-9 9-51 1-70 8-237 8-236 10-159 13-271 1-61 11-901 9-49 9-50 9-52 9-53 10-97 13-132 13-136 13-137 13-128 13-129 9-101 BB BB AC AF AG AF AE AD AG BC BC BN BN AC AC AC AC AE AE AE AE AG AG AC C C N N N N N N N N N N N N N N B C C C C C C C C C C C C C C C C C C C C C C C C C C C C C A A C C C C E C C C C C C C C C C C C C C C B B C C C C B B B B B E E C C C C C C C C C C B FO-CC500A FO-K01A PRICE NEW PART RANK MARK RANK PARTS CODE No. RH-IX2168SCZZ RH-IX2262XHZZ RH-IX2264XHZZ ″ ″ ″ RH-IX2267XHZZ RH-IX2268XHZZ RH-IX2270XHZZ RH-IX2273XHZZ RH-IX2322XHZZ ″ RHEDZ2065XHZZ RMICC2012SCZZ RMOTS2175XHZZ RPHOA2012XHZZ RR-TZ3012SCJ0 ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ RR-TZ3017SCZZ RR-TZ3018SCZZ ″ ″ RRLYD3436XHZZ RTRNI2165XHZZ RUNTZ2080XH01 RUNTZ2098XHZB ″ ″ RUNTZ2099XHZZ RUNTZ2100XHE3 ″ RUNTZ2124XHZZ [S] SPAKA301DXHZZ SPAKA324DXHZZ SPAKA427EXHZZ SPAKA428EXHZZ SPAKA429EXHZZ SPAKA430EXHZZ SPAKA465CXHZZ SPAKC364EXHTZ SPAKP329DXHZZ [T] TCADH3527XHZZ TCADZ3496XHZZ ″ TINSE4319XHTZ TLABH319DXHZZ TLABH468DXHZA TLABM234FXHZZ TLABM407FXHTZ TLABM408FXHTZ TLABZ446DXHZZ ″ [U] UBATL2049SCZZ UBATM2099XHZZ ″ [V] VCCCCY1HHR75C VCCCCY1HH101J ″ ″ ″ ″ ″ ″ ″ ″ ″ 8-125 8-132 10-84 10-85 13-122 13-125 10-90 13-119 8-128 8-134 10-87 13-121 1-45 5-22 4-22 5-23 10-151 10-152 10-153 10-154 10-155 10-156 13-257 13-258 13-259 13-260 13-261 13-262 8-234 8-231 8-232 8-233 9-40 9-104 3-10 5-31 10-158 13-270 5-24 6-19 7-3 1-34 BB AP BN BN BN BN AL AN AL AP AM AM BP AN AX AR AB AB AB AB AB AB AB AB AB AB AB AB AC AC AC AC AP AG BA BW BW BW BG AZ AZ BP 6-15 6-23 7-4 7-11 6-7 6-8 6-14 7-5 6-18 AK AE 7-1 6-26 7-12 6-11 2-31 2-32 6-12 5-27 5-27 6-10 7-10 N N N N N N N N N N N N N AF N AF D D D D D D D D D AC AC D D D D D D D D D D D 8-1 6-13 7-6 AF BG BG B B B 10-72 8-19 8-20 8-21 8-22 8-23 8-24 8-26 8-56 8-57 8-70 AE AA AA AA AA AA AA AA AA AA AA C C C C C C C C C C C AU AD AE N N N N B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C C C B B E B B B B E E B N N N N PARTS CODE VCCCCY1HH101J ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VCCCCY1HH200J ″ VCCCCY1HH220J ″ VCCCCY1HH221J ″ ″ ″ ″ ″ VCCCCY1HH3R0C VCCCCY1HH330J VCCCCY1HH8R0D ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VCCCCZ1HH101J ″ ″ VCCCCZ1HH8R0D ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ No. 8-72 8-73 8-74 8-75 8-86 8-89 8-90 8-91 8-92 8-93 8-96 8-97 8-98 8-101 9-32 10-63 10-64 10-76 10-77 10-78 8-50 8-53 8-37 8-38 8-13 8-14 8-15 8-16 8-40 9-18 10-73 10-75 10-2 10-5 10-6 10-9 10-11 10-12 10-13 10-14 10-15 10-16 10-17 10-19 10-20 10-23 10-26 10-28 10-30 10-32 10-34 10-35 10-42 10-43 10-44 10-45 10-46 13-16 13-17 13-23 13-1 13-2 13-6 13-8 13-10 13-11 13-14 13-19 13-20 13-27 13-30 13-31 13-35 13-36 13-37 13-39 13-41 13-44 13-49 13-50 – 22 – PRICE NEW PART RANK MARK RANK AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C PARTS CODE No. VCCCCZ1HH8R0D ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VCEAEA0JW227M ″ ″ VCEAGA0JW227M ″ ″ ″ VCEAGA1CW227M VCEAGA1EW107M ″ VCEAGA1EW476M ″ ″ VCEAGA1HW106M ″ ″ ″ ″ ″ VCEAGA1HW107M VCEAGA1HW226M ″ ″ ″ VCEAGA1HW475M VCEAGU0JW477M VCEAGU1AW108M ″ VCEAPS0JC157M VCEAPS0JC337M VCEAPW0JW107M VCEAPW1AW336M VCFYDA1HA334J VCKYCY1AB105K ″ ″ ″ ″ ″ VCKYCY1AF105Z ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ 13-58 13-59 13-60 13-61 13-62 13-63 13-67 13-68 13-69 13-72 13-75 13-76 13-77 13-78 13-79 13-80 13-81 13-82 13-84 13-89 13-92 13-93 13-94 13-96 10-22 10-38 10-40 8-2 8-9 10-1 10-8 8-10 8-6 9-14 8-3 9-4 10-37 8-4 8-5 8-7 8-8 9-13 9-15 9-8 8-11 9-5 9-6 9-12 9-3 13-87 10-18 10-47 13-110 13-111 13-86 13-73 9-11 8-78 8-79 8-81 8-105 8-106 8-108 8-33 8-44 8-46 8-47 8-48 8-49 8-51 8-52 8-54 8-60 8-61 8-66 8-69 8-82 8-85 10-52 13-34 PRICE NEW PART RANK MARK RANK AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AB AB AB AD AD AD AD AB AB AB AA AA AA AA AA AA AA AA AA AA AB AB AB AB AA AB AC AC AF AH AG AG AC AB AB AB AB AB AB AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC AC N N N N C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C FO-CC500A FO-K01A PARTS CODE No. VCKYCY1AF105Z VCKYCY1CB104K ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VCKYCY1CB224K VCKYCY1HB102K ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VCKYCY1HB103K ″ ″ ″ ″ ″ ″ VCKYCY1HB152K VCKYCY1HB223K VCKYCY1HB471K VCKYCY1HB472K VCKYCY1HB563K VCKYCY1HB821K VCKYCY1HF104Z ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ 13-45 8-64 8-100 8-215 9-19 13-42 13-46 13-47 13-52 13-56 13-105 13-106 10-55 8-17 8-18 8-68 8-94 8-95 8-99 9-16 9-17 9-24 9-25 9-36 10-56 10-69 10-70 10-71 10-74 8-32 8-39 8-80 9-23 9-34 10-49 10-51 9-21 8-84 8-102 8-55 9-33 9-35 8-12 8-25 8-27 8-28 8-29 8-30 8-31 8-34 8-35 8-36 8-41 8-42 8-43 8-45 8-58 8-59 8-62 8-63 8-65 8-67 8-71 8-87 8-88 8-103 8-104 8-107 8-203 9-20 9-22 9-26 9-27 9-29 9-30 10-3 10-4 10-7 10-10 10-21 PRICE NEW PART RANK MARK RANK AC AB AB AB AB AB AB AB AB AB AB AB AE AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AB AC AB AA N AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C PARTS CODE No. VCKYCY1HF104Z ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VCKYCZ1CF104Z ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VCKYCZ1EB103K ″ ″ VCKYCZ1HB102K ″ ″ ″ ″ ″ ″ VCKYTM1AF226Z VCKYTQ0JB106K VCKYTQ1AF106Z ″ ″ VCKYTQ1AF226Z VCKYTQ1AF475Z ″ VCKYTV1AF475Z VCKYTV1CB474K ″ ″ VCKYTV1HB104K ″ ″ VCKYTV1HB683K VHDDSS133//-1 ″ VHDHRW0202B-1 VHDU1GC44//-1 VHD1SS355//-1 ″ 10-24 10-25 10-27 10-29 10-31 10-33 10-36 10-41 10-48 10-53 10-54 10-57 10-58 10-59 10-60 10-61 10-62 10-65 10-66 10-67 10-68 13-4 13-5 13-7 13-9 13-12 13-13 13-15 13-18 13-21 13-24 13-25 13-26 13-28 13-29 13-38 13-48 13-51 13-54 13-55 13-57 13-66 13-71 13-74 13-85 13-88 13-98 13-113 13-97 13-108 13-112 13-22 13-40 13-83 13-90 13-91 13-95 13-107 13-3 13-43 10-50 13-53 13-109 13-64 13-65 13-70 13-33 13-99 13-100 13-101 13-102 13-103 13-104 9-28 9-44 9-45 8-119 13-117 8-120 8-121 – 23 – PRICE NEW PART RANK MARK RANK AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AB AA AA AA AA AA AA AA AN AE AD AD AD AL AD AD AD AC AC AC AA AA AA AB AA AA AD AC AB AB C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B PARTS CODE No. VHD1SS355//-1 ″ VHEHZU2R7B1-1 VHEHZ2A1///-1 ″ VHEMTZJ100B-1 VHEMTZJ200B-1 VHEMTZJ5R6B-1 VHEMTZJ6R8B-1 VHEUDZS4R7B-1 VHE02CZ180Y-1 VHE1N4748A/-1 VHIF004/TA83B VHIF512KTA84C VHIF512KTA85C VHIKIC7S66F-1 ″ VHIKID65001AP VHIKM29W040-1 VHINJM2113M-1 VHINJM2149R-1 VHINJM2904M-2 ″ VHINJM78L05A1 VHINJU7081R-1 VHISCE214V/-1 VHIS814A33AUC ″ VHITC7SZ04A-1 ″ VHPCL195YG/-1 ″ ″ ″ ″ ″ ″ ″ VHPSG206S//-1 ″ VHPTLP621-1BL VHVCSS301M/-U VHVRA501PC6-1 ″ VHVTN07G181-1 VHVTN07G270-1 VRD-HT2EY101J VRD-HT2EY103J VRD-HT2EY150J ″ VRS-CY1JB000J ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ 8-122 10-83 8-241 9-107 9-108 9-110 9-109 8-239 9-111 13-116 8-240 8-238 8-124 13-120 10-86 8-127 8-133 8-129 8-131 8-130 13-123 9-46 9-47 9-102 13-124 8-126 8-235 10-88 10-89 13-126 13-143 13-144 13-145 13-146 13-147 13-148 13-149 13-150 9-55 9-56 9-54 9-105 9-1 9-2 9-7 9-106 9-62 9-67 9-65 9-66 8-76 8-77 8-135 8-136 8-137 8-139 8-140 8-141 8-142 8-143 8-144 8-157 8-163 8-164 8-168 8-193 8-200 8-222 9-31 9-37 9-38 9-39 9-71 9-91 10-91 10-92 10-93 10-110 10-123 10-143 PRICE NEW PART RANK MARK RANK AB AB AE AC AC AC AC AB AC AE AC AC N N N AK AK AE AV AG AF AG AG AD AR AF AH AH AD AD AC AC AC AC AC AC AC AC AG AG AD AL AG AG AC AC AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA N N N B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B B C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C FO-CC500A FO-K01A PARTS CODE VRS-CY1JB000J ″ ″ ″ ″ ″ ″ VRS-CY1JB100J ″ VRS-CY1JB101J ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VRS-CY1JB102J ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VRS-CY1JB103J ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VRS-CY1JB104J ″ ″ ″ ″ VRS-CY1JB105J ″ VRS-CY1JB106J VRS-CY1JB124J VRS-CY1JB131J ″ ″ No. 10-144 10-145 10-147 13-130 13-131 13-133 13-134 10-134 10-148 8-218 8-227 8-228 8-229 10-111 10-112 10-113 10-114 10-115 10-118 10-119 10-127 10-128 10-129 10-131 10-132 10-133 10-136 10-137 10-138 10-139 10-142 13-233 13-234 13-235 13-236 13-237 13-256 8-167 8-176 8-177 8-179 8-182 8-198 8-210 9-69 9-75 9-84 9-85 9-93 10-103 10-104 10-105 10-107 10-109 10-116 8-154 8-160 8-162 8-173 8-201 9-89 10-120 10-121 10-122 10-140 10-141 13-232 13-250 8-171 8-194 8-196 8-230 10-124 8-180 8-223 8-202 8-207 13-224 13-227 13-229 PRICE NEW PART RANK MARK RANK AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C PARTS CODE VRS-CY1JB150J VRS-CY1JB151J ″ ″ VRS-CY1JB152J VRS-CY1JB153J ″ VRS-CY1JB154J ″ VRS-CY1JB155J VRS-CY1JB163J VRS-CY1JB183J VRS-CY1JB202J ″ VRS-CY1JB203J ″ ″ ″ ″ VRS-CY1JB204J VRS-CY1JB221J ″ ″ ″ VRS-CY1JB222J ″ ″ VRS-CY1JB223J ″ ″ ″ ″ VRS-CY1JB224J ″ ″ ″ VRS-CY1JB242J VRS-CY1JB243J ″ VRS-CY1JB271J ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VRS-CY1JB3R0J ″ ″ ″ VRS-CY1JB302J ″ ″ ″ VRS-CY1JB303J VRS-CY1JB332J ″ ″ ″ VRS-CY1JB391J ″ ″ VRS-CY1JB392J VRS-CY1JB393J VRS-CY1JB434F VRS-CY1JB471J ″ ″ ″ VRS-CY1JB472J VRS-CY1JB473F VRS-CY1JB473J VRS-CY1JB474J ″ VRS-CY1JB512J No. 8-138 8-166 8-220 8-221 9-80 8-83 8-178 8-170 9-79 8-187 9-70 10-146 8-224 8-225 8-184 8-197 8-204 9-76 9-81 8-188 8-181 13-225 13-226 13-228 8-199 9-74 10-117 8-208 9-95 9-97 10-130 13-174 8-172 8-175 8-185 9-87 8-205 8-190 9-78 8-155 8-156 8-165 8-206 8-209 8-211 8-212 8-214 8-216 8-217 8-219 10-101 10-94 10-95 13-135 13-138 8-183 8-226 10-106 10-108 9-96 9-68 9-72 9-98 10-100 9-92 13-222 13-223 9-90 8-189 13-230 8-158 8-159 8-161 8-213 10-102 10-126 9-94 8-186 8-195 8-169 – 24 – PRICE NEW PART RANK MARK RANK AA AA AA AA AA AA AA AA AA AB AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AC AA AA AA AA AA AC AA AA AA AA C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C PARTS CODE VRS-CY1JB513J VRS-CY1JB562J VRS-CY1JB563F ″ ″ VRS-CY1JB621J VRS-CY1JB622J VRS-CY1JB682J VRS-CY1JB822J VRS-CY1JB824F VRS-CY1JB913J VRS-CZ1JB000J ″ ″ ″ ″ ″ ″ ″ VRS-CZ1JB100J VRS-CZ1JB101J ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ ″ VRS-CZ1JB102J ″ ″ ″ ″ ″ ″ VRS-CZ1JB103J ″ ″ ″ ″ ″ ″ ″ VRS-CZ1JB104J ″ ″ VRS-CZ1JB124F VRS-CZ1JB124J ″ VRS-CZ1JB152J VRS-CZ1JB153J VRS-CZ1JB164F VRS-CZ1JB182J VRS-CZ1JB201J ″ VRS-CZ1JB203J ″ VRS-CZ1JB220J VRS-CZ1JB222J ″ VRS-CZ1JB273J VRS-CZ1JB302J ″ ″ VRS-CZ1JB332J VRS-CZ1JB470J ″ ″ No. 8-174 8-153 10-125 10-149 10-150 9-88 8-191 9-86 9-77 13-231 8-192 13-32 13-180 13-182 13-184 13-202 13-221 13-244 13-245 13-209 13-158 13-159 13-163 13-165 13-166 13-175 13-176 13-177 13-186 13-187 13-188 13-189 13-190 13-191 13-192 13-193 13-201 13-208 13-246 13-247 13-162 13-179 13-214 13-240 13-241 13-242 13-243 13-161 13-167 13-168 13-169 13-170 13-171 13-196 13-216 13-164 13-172 13-195 13-181 13-173 13-197 13-215 13-199 13-185 13-194 13-217 13-218 13-207 13-249 13-206 13-205 13-210 13-200 13-198 13-238 13-239 13-220 13-155 13-156 13-203 PRICE NEW PART RANK MARK RANK AA AA AC AC AC AA AA AA AA AD AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AA AD AE AE AA AD AD AA AA AA AD AD AA AD AD AD AD AD AD AA AA AA AA C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C FO-CC500A FO-K01A PARTS CODE No. VRS-CZ1JB470J ″ ″ ″ ″ ″ VRS-CZ1JB472J VRS-CZ1JB563F ″ ″ VRS-CZ1JB563J VRS-CZ1JB623F VRS-HT3AA223J VRS-HT3AA510J VRS-RE3AA122J VRS-TP2BD000J ″ VRS-TS2AD000J VRS-TS2AD151J VRS-TS2AD153J VRS-TS2AD3R0J ″ ″ ″ VRS-TS2AD301J VRS-TS2AD433J VRS-TV2AB000J VRS-TW2HF100J VRS-TW2HF161J VRS-TW2HF3R0J VSBS108////-1 VSDTC114EU/-1 ″ VSKRA102S//-1 VSKTA1298Y/-1 VSKTC3875GR-1 VSKTC3876Y/-1 VSRT1N141C/-1 ″ ″ ″ VSRT1N436C/-1 ″ ″ ″ VSSI4431ADY-1 VS2SA1530AS-1 VS2SB1427E/-1 13-204 13-211 13-212 13-213 13-251 13-252 13-219 13-183 13-254 13-255 13-248 13-178 9-64 9-48 9-63 13-141 13-142 9-100 9-73 9-99 10-96 10-98 13-139 13-140 9-82 9-83 13-253 13-160 13-157 10-135 9-57 13-151 13-154 8-150 13-152 9-58 13-153 8-147 8-149 8-151 8-152 8-146 9-59 9-60 9-61 8-148 8-145 10-99 PRICE NEW PART RANK MARK RANK AA AA AA AA AA AA AA AD AD AD AD AD AA AA AC AA AA AA AA AA AA AA AA AA AA AA AA AE AE AC AE AB AB AD AC AB AC AB AB AB AB AD AD AD AD AF AC AD N N N N N N N N C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C B B B B B B B B B B B B B B B B B B PARTS CODE [X] XEBSD20P06000 ″ XEBSD20P08000 XEBSD30P08000 XEBSD30P10000 ″ XEBSD30P12000 XEBSF20P08000 XEPSD30P08000 XWHSN40-08100 [0] 0KYC1103EC103 0KYC1103EC472 0KYC3126MS560 0KYD3110AC004 0KYH7138AS001 0KYK2101LS006 0KYK7125AS2R5 ″ 0KYL2000DS084 0KYR3111VC102 0KYR3111VC681 0KYR3111VC682 0KYR3120TC104 0KYR3120TC153 0KYR3120TC203 0KYR3120TC223 0KYR3120TC472 0KYR3120TC473 0KYR3120TC563 0KYR3120TC752 0KYR3120TC912 0KYR3121TC000 0KYR3121TC333 0KYR3121TC391 0KYR3121TC471 0KYR3121TC472 0KYR3121TC473 0KYR3131AC562 0KY0C1A9Y1020 0KY0C1B2S4700 0KY0C1Q1E1010 0KY0C176Q4720 ″ 0KY0C194E1010 0KY0C195E1040 0KY0C195E1040 No. PRICE NEW PART RANK MARK RANK 3-B1 5-B1 5-B2 4-B1 1-B1 2-B2 1-B2 5-B3 1-B4 1-W1 AA AA AA AA AA AA AA AA AA AA C C C C C C C C C C 11-7 11-8 11-4 11-33 11-45 11-18 11-36 11-37 11-78 11-71 11-63 11-59 11-65 11-74 11-61 11-55 11-69 11-67 11-68 11-73 11-60 11-39 11-58 11-57 11-70 11-75 11-72 11-76 11-16 11-6 11-10 11-5 11-12 11-9 11-11 11-15 AC AC AR AN AP AK AN AN AZ AB AB AB AC AB AC AD AC AC AC AC AC AC AC AC AC AC AC AC AG AF AD AL AL AC AD AD C C C B B C A A B C C C C C C C C C C C C C C C C C C C C C C C C C C C N N N N N N N N N N N N N N N N PARTS CODE No. 0KY0C245Q1040 0KY0C3A0B3310 0KY0C3A0D2210 0KY0D157A0060 ″ ″ ″ 0KY0D221B0020 0KY0D251A0020 ″ ″ ″ ″ ″ ″ 0KY0D461A3200 0KY0D466A0480 0KY0D466A0600 0KY0D466A0720 0KY0D754A4710 0KY0D763A8R00 0KY0H135A5R00 0KY0K251A0020 0KY0K758A4R00 0KY0L110K2230 0KY0L551A0010 0KY0MPS901200 0KY0M135A0050 0KY0R153U2710 0KY0R153U3300 0KY0R153U4710 0KY0R166B4750 0KY0R3Q0V1020 0KY0R353U6840 ″ 0KY0R854E5020 0KY0T358A0040 ″ 0KY0T394A0010 ″ ″ 0KY0T645A0020 0KY0W000A0050 0KY0W000A0100 11-3 11-14 11-13 11-23 11-24 11-25 11-26 11-32 11-20 11-21 11-22 11-27 11-28 11-29 11-30 11-34 11-35 11-19 11-31 11-80 11-44 11-41 11-17 11-38 11-43 11-1 11-40 11-77 11-66 11-64 11-56 11-52 11-62 11-53 11-54 11-79 11-47 11-48 11-49 11-50 11-51 11-46 11-2 11-42 PRICE NEW PART RANK MARK RANK AM AL AM AG AG AG AG AT AD AD AD AD AD AD AD AL AE AE AE AK AN AV AK AT AS AE AE AE AC AC AC AE AC AD AD AK AG AG AF AF AF AX AC AC C C C B B B B B B B B B B B B B B B B B B B C A C C C C C C C C C C C C B B B B B B C C COPYRIGHT © 2003 BY SHARP CORPORATION ALL RIGHTS RESERVED. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without prior written permission of the publisher. SHARP CORPORATION Communication Systems Group Quality & Reliability Control Center Higashihiroshima, Hiroshima 739-0192, Japan A0303-DS•IS•T
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