Midland Radio 77120ESP User Manual 28905
Midland Radio Corporation 28905
8
77-120ES 40 Channel CB With Weather Receiver Your 40 channel CB represents the stale oi the art in high tech engineering. This unit is not only a lull feature CB transceiver but incorporates a high periormance 10 channel NOAA weather bureau VHF receiver. The full 10- channel weather receiver allows use on all wrrent and future NCAA weather bureau channels plus Canadian and international channels. The unit incorporates micropm controlled PLL circuitry tor precise tuning and increased function. Receiver noise and interference can now be largely eliminated by the new ESPZ‘“ noise reduction system. Also included is a bacirlighted Liquid Crystai Display (LCD) digital information center that out— dates 05’s with LED readouts How to install your Midland mobile CB This transceiver may be installed in any 12 volt neg-five ground- system car or truck. Almost all current us. and foreign vehicles use a negativesystem,butsomeoidermodeisandsomenewerlagetmcksmay have a positive ground. Check the requirements for your vehicle before you begin installation. Generally, you have a hogan-ground system tithe minus ( ») battery terminal is connected to the motor block Contact your dealer in the event you are unable to determine your vehicle’s polarity system. Installation and operating accessories iumished with your Midland CB: Easy remcwal mounting bracket system. Microphone bracket system. All main-unit and microphone mounting hardware needed tor normal installation. Plug—in microphone with ooil cord. FCC part 95. Subpari D. Owner’s Manual. P’Nr‘ Q9!“ Where to locate your CB transceiver. Your new Midland CE is designed to be mailed under the dash or vertically on a console of your vehicle. Safety and convenience are the primary considerations in deciding exactly where to locate your radio. Caution: Be sure that the unit is located sothat it does not interferewith the driver or impair access to any controls. Conneding ables must be routed andseouredinsuchamannerasnottoimafemufimmeoperaionoflhe brake. accelerator or other controls Interference from either the unit or connecting ablee may contribute to the low of control of the vehicle. Mechanical mounting Note: Extreme care should be exerdsed when drillirg into dab to avoid damage to under-dash electronic ignition. cruise control, insrument and I or accessory wiring. Your unit must be mounted so as not to interfere with air bag (SRS) operation. Step 1: Heeding the caution, use the mounting bracket as a templae for marking the Iowtionofscrewholeeunderthemh. Useanawl, nail or other sharp pointed object to mark the metal. Step 2: Drill a 1/8" hole for each screw hole in the mounting bracket. Attach the bracket to the dash with the are" Phillips machine wens provided. Step 3: Locate and secure the radio into the mounting bracket allowing working space for later panel“ conneflions. Power wiring (negative ground only). Step 1: If you have not determined whether your vehicle has a negative or positive ground, do so now. Then disconnect the negative lead from the battery to prevent short circuits that can occur during wiring. step 3: With negative ground, connect the red wire (the one with in-line fuse holder) to either the ( a ) fuse block radio circuit (filtered), ( b ) cigarette lighter (unfiltered for noise), or ( c ) directly to the positive post on your battery. (Usually. the fuse block is the most convenient conneding point. It is also possible to connect to the my terminal on the fuse block, so that your CB automatimlly goes off when the ignition goes off, preventing accidental battery drainage.) Note: In many new vehicles the only circuit in: has noise filtering is the radio circuit. Then tightly connect the black wire directly to the vehicle's metal frame. Agood direct metal »to— metal groundisaaential torqximum perfonmnoe. installations using the cigarette lighter socket for power require an extra ground wire from the radio chaosisto the vehicle ifthe radio is not feflened to a grounded part of the vehicle, seeps: Plug- in the pcmeroordtothe receptacle provided onthe backof the transceiver. Mounting the main unit. Step 1: Position the main unit between the bracket am in line with the retention knobs. Set the angle tor optimum operating comfort and wonky. Step 2: Tighten lhe retentlon Knobs. Installation of microphone hanger. Mounting holes are provided on the microphone hanger bracket. The bracket can be attached to the vehicle dam, or other convenient location. Antenna: How to select, position install and tune the right one for you. Basically. you have two types of mobile CB antennas - tull~length whip and loaded whip - and a variety at types of mounts (depending on where you locate your antenna) to choose from. Midland niarke‘ls a broad line of high-performance antennas The deder who sold you your Midland CB an advise which type is best tor you. Where you locate your antenna does make a difference. Some general rules for antenna location that won aid CB performance: 1. Put your antenna mount as high on the vehicle as possible. 2. The higher the proportion of antenna length that is above the root, the better, 3. it possible, mount the antenna in the center of whatever surface you choose. 4. Keep antenna tables away from noise sources, such as the ignition system, gauges, electric iuel pumps, etc. 5. Make sure you have a solid meta - to - metal ground. 6. Exercise are to prevent cable damage. Essentially, you have live location choices the roof, gutter, rear deck, front cowl or rear bumpere Where you decide to locate your antenna will determine the type of antenna you install. Again consult your Midland CB deder for advice and guidance, and measure your needs against the attributes of the various Midland antenna models he carriee Antenna installation. Follow the manufacturer’s installation instructions carefully. Warning: Never operate your CB radio without attaching an antenna or with a broken antenna me. This can result in damage to transmitter circuitry. Tuning your antenna. Some antenms are factory tuned. However, perfomnanoe can usually be improved by slightty lengthening or shortening its length, using 3 Standing Wave Radio (SWR) meter. For the exact procedures to be used refer to the antenna narufaeturer‘s installation manual. You can buy an SWR meter separately or have your anienm checked by your Midland CB Dedsn’s sewice depanmavt or a My comm shop. 77-1 20 ESP FUNCTION AND LOCATION OF CONTROLS l 0 10 11 12 13 1‘ 15 fl I7 1'l [O a FRONT PANEL CONTROLS 1. MICROPHONE CONNECTOR: Plug in the supplied microphone to this connector. The collar ring has a screw on locking ring. Push me ring onto the units miller and screwon until it is tight. 2. ONIOFF VOLUME: In the arr position your transceivers power is on. Tum this control clockwise to switch on the unit and adjust the volume. 3. Illlc GAIN: Rotating this control fully dockwise will result in the greatest microphone output. [rotating the control owntemlockwise reduces the microphone output, improving the sound in high noise environments. Thls control can also be used to control optional power microphone output. 4. SQUELCH CONTROL: Mjufl this control until background noise jun disappears. If the control is adjusted too far clockwise it may muse muting of weaker signals. 5. RF GAIN CONTROL: This oontrol adjuas the receiver. sensitivity. Adjust the control for best reception of distant or local stations. Begin with control fully clockwise. To reduce reception of unwanted distant stations, tum control counter-clockwise urltil only dearer! stations are heard. 5. ROTARY CHANNEL SELECTOR: This easy to operate oorltrol allows changing of weather or CB channel, either up or down. This control will not operate when emergency channel 9 has been selected by using the “GHQ" button orwhen the channel “LOCK” function has been activated. 1. SPEAKER: a. CHANNEL DISPLAY: LCD (liquid crystal display) lead-m or selected ea or weather chalnel. 9. FREQUENCY DISPLAY. Displays clunnel frequency in MHz and kHz when the “FRO” switch is on. 10. TX INDICATOR: LCD indicator for showing the unit is transmitting. 11 . WK INDICATOR: When this indicdor is illuminated it indicates your unit is in the weahel‘ receive mode. Weather channels are displayed. 12. ESP. INDICATOR: Indians the ESPZ'"l “Noise Killer“ circuit has been activated. 13. SIRF DISPLAY: LCD read-out of received signal strength and relative trmsmitter power output 14. cannot: This button names your unit to change modes between NOAA weather bureau receiver and CB operation. 15. CH.9 SWITCH: Pres this for quick selection or emergency channel 9. All other chainels are locked out when channel 9 Is activated by using the "CH9' snitch. Switch off ‘CHQ" switch to lawn to normal CB operation. 16. ESP: Pressing this button controls the ESPZ‘" audio system. Channel noises are reduced and voices enhanced when ESPZ'" is active. 11. FRQ: This snitch selects Frequency in MHz display instead of cl'artnel numbers. BACK PANEL ANTENNA CONNECTOR: Connect a sands"! 50-ohm CB antenna to this connector. S—HETER JACK: A DC voltmeter may be connected to this jack for precision monitoring of received signal strength. EXT SPEAKER JACK: wmn a speaker is oumeded to this jack the intemal speaker is try-passed. All received signals will be heard through the external speaker when it is connected. The speaker connected to the “EXT'jackshouldberaledatBohmsand5mttsormore. HOW TO OPERATE YOUR TRANSCEIVER FOR CB USE You should become lamilia with the controls and complete the preceding installation instructions before attempting operation of your CB. 1. Adjust the squelch control fully counterclockwise 2. Rotate the onloff volume control clockwise to turn the unit on. Adjust the volume for a normal listening level. 3. Select the desired channel by the rotary channel selector. Rotate the squelch control until the background noise Is just quieted. You are now in the rweive mode. NOTE: If the channel will not chaise, check that the “CH9 switch is not on. In this case switch the ‘CHQ' snitch off to deactivate this fundion 4. To tra'tsmit pm the FIT bar on the side of the microphone. Had the microphone 2 to 3 inches from your lips and speak in a normal voloe. 5. To receive simply release the PTI' bar. TO OPERATE YOUR TRANSCEIVER FOR WEATHER RECEIVE 1. Follow seps1 and 2 above. 2. Press the “WX‘ button. 3. Using the rotary channel selector select the actlve channel ln your area. How ESP?“ works to make your CB sound better. The ESPZT“ noise reduction system constantly monitors the signal strength andthetypeofnoisepresent. Whenthesignal strength istoolowforgood reception. the receiver sound is automatically adjum to dramsltnlly reduce the noise that comes through the speaker. While the noise is decreased the actual sounds you need to hear are increawd. Skip interference can cause whistles and howling sounds. Electrical interference from power lines, ignition systems or other sauces can produce low humming and buzzing noise. These high and low sounds are not needed for communications. ESPZ‘“ can determine the difference between undesired noises and sounds you want to hear and filter the noises out. These results ESPz'" wn awomplish wllhoul decreasing receiver range (it usually increases range). Most importantly, ESPZ'“ works by itself and does not need to be listening to other ESPZT“ equipped CB‘s to be 100% effective. The end result of ESPN is that you can lower or oornpletely stop using your squelch control. You will hear weak signals that cause other 08's to hear only noise. With this new patented sound control swam you will find yourseif using your CB more Iheieby increasing your saler and eniuymerfl. TECHNICAL SPECIFICATIONS GENERAL RECEIVER ( CB. mmznos MHz ) SemiMyuomsm Squeiunrmge Aminmmpm Dismal moan-v WWW 2400Hz “awakens-pains! II‘456Khz Spuriwsrespwue mfluusdb TRANSMITTER RFDllpuIM" OW Frequency Tolerance . Hummic Supine-aim Mm SPECIFICATION - WEATHER RECEIVER CHANELS um w 91—1555!) 95...“ 02 1 Am 07 I62.525 m 1&415 m ]g Q3) 04 1gg5 Q 151,715 M 10 IN is 20 db Audio Pot” 3.0 W 10 LlIlITED WARRANTY. mum-mammlmrumanmmmmawmwu msflm,wlullmmmmmmlfihmwamh mumhbmhmynlmmmmumm. memmmmwwngm,m,wwmmmm mupfltduiwmmmmmmmmcflfimhmu‘mmfllfim duepmdminawhicleorothemmmm. mamwyfimummmnwmmmwmmimm mum mmmm,mmmdwmmwmmwm MW‘SMMTm.mmmy,m641mummy‘m Mawwmsemwmrawumdwu-ewammmy wmlmmmmmammmmwmmwm: mybemmnymwwwwmmwmsqmw Thiswanyghesywspeaficwam.mdymmdwmaharumsm vuryfran “datum Now: mmmwmmummmhhmmsasdm uwdmmamumus. "inhuman. meiymugenn mummmmmmwmnmmmmm pniuuoraskywrdedar. SERVICE wnmmwmmmmwm Pwkmemitinisaiyndbuxwpwu’rn. lwpningmmindm-gedurlng mmhumsrsovwmwmwm4mmmmmmyww wmmaflhafllng). Imamdascfipfimdmypvmmfluepurweflunnm, memmdmmmmmymmsammmmm)mm mummwmm, nmmaummdmulasaeummdmmmmmmorm Thi mmuimmmmmme-hemmm Ammdusmwlmlompa'smmedwm. Mahmoud.“ mums-dumwumm. MIDLAND oousuuen mo 1879 N. Tuppirq KB“ City, ”0, 64120 Phone 516-241-8500Fux816-2416713 E-mail: MW Printed In China ll FCC ID: MMA77120ESP APPENDIX 6 ALIGNMENT INSTRUCTIONS SEVEN (7) PAGES OF ADJUSTMENT PROCEDURES FOLLOW ALIGNMENT INSTRUCTIONS FCC ID: NMA77120ESP APPENDIX 6 DocumentNumber RevisionNumber : 0 Issue Date : 9 October, 1998. Page : Page 1 of6 A. PLL SECTION 1. Test Equipment Required 3. Frequency Counter b, DC Voltmeter (about 100K ohm) a DC Power Supply (13.8V, 2.5Amp.) NOTE : Figure 1 provides test point and all alignment location information. 2. Test Set—Up PIN No.1 OF IC1 FREQUENCY CEIUNTER FEVER CURB DocumentNumber RevisionNumber : 0 Issue Date : 9 October, 1998. Page : Page 2 of6 3. Alignment Procedure (VCO) CONTROL SETTING OUTPUT INDICATOR ADJUSTFOR CONNECTION Alignment of Ref. Osc. Mic :Receive Connect frequency coun» Adjust for 4.500 POWER :On ter [0 PIN No.1 of IC1 MHZ t ZDHZ VOLUME :Optional (Figure 2) indication on SQUELCH :Oplional frequency counter Channel Selector : optional Alignment of VCO MIC :Tx or Rx Connect DC voltmeter to Adjust for 3.8V indlca- POWER :On hot point of CBS. mm on DC voltmeter. VOLUME :Oplional (Figure 3) (Before adjust T7 must SQUELCH :Optional select high VCO voll- Channel Selector : age mode.) Channel 40 MlC :Tx or Rx Same asstepz. Check the indication on DC POWER :On vollmeter (must be over 2.0V). If VOLUME :Optional DC voltmeter under 2.0V, read- SOUELCH:OplionaI just T7 and retum to step 2. Channel Selector : Channel 1 DocumentNumber RevisionNumber : 0 Issue Date : 9 October, 1998. Page : Page 3 of 6 B. TRANSMITTER SECTION 1. Test Equipment Required 3. RF Power Meter b. 50 ohm dummy w/ attenuator c. RF Voltmeter d. DC Power Supply (13.8V, 2.5Amp) NOTE : Figure 1 provides test point and all alignment location information. 2a Test Set—Up BASE OF 025 50 IN! Ml —— LIN] W ATTEMJMHR ml m Figure5 DocumentNumber RevisionNumber : 0 Issue Date : 9 October, 19984 Page : Page 4 of 6 2b. Test Set-up SPECTRUM ANALYZER 50 [H1 MW LEM! HI ”THUMB? DE PM XlPPLV HIC SSH SPEETHH ANALYZER -—-|@ St) [101 MY LEAD W ATTMATUR Mel DC FEVER SPPLY DommentNumber RevisionNumber : 0 Issue Date : 9 October, 1998. Page : Page 5 of 6 3. ALIGNMENT PROCEDURE (TX) CONTROLSETI'ING OUTPUTINDICATOR ADJUST ADJUDTFOR CONNECTION n Set channel selector to channel 19 Disconnect R134. 4, Be sure that the level difference among all channels are within 30mV on RF voltmeter. Be sure that the levels on all channels are above 650mv an RF voltmeter. If the level difference is over 3DmV or the level is below 650mV, repeat step 3 as necessary to obtain maximum output. Alignment of Pre-driver stage Connect RF voltmeter to base of 025, (Figure 4) Adjust for maximum T8, 1-9 indication on RF voltmeter. Re-connect R134. B Set Channel selector to channel 19. 7. Alignment of driver and final stage. Alignment of RF output Power. Connect frequency counter and oscilloscope through 50 ohm dummy wfattenuator to RF power meter. conned RF power-meterto ANT, Jack on the unit. (Figure 5) T10,T11 Adjust for maximum L4 indication on RF power meter. R134 Choose the value combi- nation of R134 to obtain 3.6W ~ 3.9W RF output power. Check that the RF output power difference among channels a. each band is below 0.2W on RF output Power Meter. If the level difference is above 0.2W, repeat step 7 as neces- sary to obtain maximum output. 10. same 65 step 7. Check that RF output power is 3.6 to 3.9W on all channels & each hand. If it is not within the above rangego back to steps 3 through Band read just. DocumentNumber Revision Number : 0 Issue Date : 9 October, 1998. Page :Page 6 of 6 AlignmentofTransmitterFrequency Set tochannel 19. Same as step 7 Make sure that the tmnsmit~ ter frequency is 27.185MHz t1DOHz on frequency counter if not. readjust Tc1. —heck to —purious Check suppression of harmonic fre- quency level (2nd,4th..,to1000MHz). Compared to fundamental : must be better than -62dB Connect spectmm analyzer through 500hm dummy wI attenuator to RF power meter. Connect RF power meter to ANT. Jack on the unit. (Figure 6) Checkta occupied bandwidth Connector Audio Generator Connector Spectrum ( 250on ) and sew Analyzer through so Check “if Pelqwf'equmy level through capacitor 1 uF to ohm dummy w/ whether-nus W'lh‘mhchcsP“ Microphone connector Pin attenuator to RF power H5“ 3. meter. ”Om Disconnector condenser Connect RF power microphone. (FigJ) meter to ANT. Jack on Adjust audio signal level to the unit. 50% modulation 4-20dE. (Fig. 7). H6173US (77-120ESP) ALIGNMEMT POSITION m3! 0 ‘ g, ' (a u 050 (3 +8 e_c ‘cx 9 3-599 3 “EM 043an 31:3 O o 000 31-9 f° 9 KB FCC ID: MMA77120ESP APPENDIX 7 CIRCUITS AND DEVICES TO STABILIZE FREQUENCY A11 40 channels of transmitting, and receiving, frequencies are provided by PLL (Phase Locked Loop) (101) circuitry. The purpose of the PLL is to provide a multiple number of frequencies from a VCO (Voltage Controlled oscillator) with quartz crystal accuracy and stability locked to crystal oscillator reference frequency. The reference crystal oscillator frequency is 4.5 MHz. CIRCUITS AND DEVICES TO STABILIZE FREQUENCY FCC ID: MMA77120ESP APPENDIX 7 FCC ID: MMA77120ESP APPENDIX B u t F o 0 u d' The tuning circuit between the final amp and antenna jack JK402 stage “PI" network C110, C112, L4, C113, L5, 0114, 0115, L6 and 0117 in the 027 output circuit serve to sup— press radiation. This Network serves to impedance match Q27 to the antenna and to reduce the spurious content to an acceptable level. In—band spurious is reduced to acceptable levels by filtering and layout in the frequency synthesizer. t' o i The mic input is fed to the mic amp Icz (1/2) and then to the audio power amp 103 which feeds the signal to the modu- lation transformer T6. The audio output at the tap of T6 is fed in series with the B+ voltage through diode 06 to the collector of Q26 and the final 027 to collector modulate at both stages. A portion of the modulation voltage is fed to Q13 and Q14 and turn on and at the same time, 014 attenuates the mic, in put to the mic amp IC2 (1/2). The resulting feedback loop keeps the modulation from exceeding loot for input approximately 40 dB greater than that required to produce 50% modulation. The attack time is about 18 ms and the release time is about 350 ms. "EII'iEr During factory alignment, the series base resistor R134 of Q2? is selected to limit the available power to slightly less than 4 watts. The tuning is adjusted so that the actual power is from 3.6 to 3.9 watts at 13.8 Vdc power supply, and there are no other controls for adjusting power. DEVICES AND CIRCUITS T0 SUPPRESS SPURIOUS RADIATION? LIMIT MODULATION AND POWER FCC ID: HMA77120ESP APPENDIX 8 FCC ID: MHA77120ESP APPENDIX 8 APPENDIX 9 PLL DATA SHEETS THIRTEEN (13) PAGES FOR LC72322 FOLLOW THIS SHEET COPY OF PLL DATA SHEETS FCC ID: MMA77120ESP APPENDIX 9 7/0; (we? {JQAJ—l (“CU/J " @ WWW/UR). will/AU ZOO/net fig. Luv 27 No. 4797A CMOS LSI LC72322 Single-Chip Microcontroller with PLL and LCD Driver ‘\ Overview - Program runaway can be detected and a sp address set (Programmable watchdog timer) - Voluge detection type reset circuit - One S-hit AID converter - Two 8-bit DIA converters (PWM) - One extemal interrupt - Hold mode for RAM backup . ) Functions - Sense F for hot/cold startup determination ' Stack: Eight levels _ 21561255 1155551], - Fast programmable divider . RAM 1' 3 to 5' 5 V . General-purpose counters: HCTR for frequency ' ' ' measurement and LCTR for frequency or period Package Dimensions measurement . - LCD driver for displays with up to 56 segments “ml: m (1/2 duty, 1/2 bias) 3174-QFP80E - Program memory (ROM): 4k words by 16 bits - Data memory (RAM): 256 4vbit digits “9723221 - All instructions are single-ward instructions ”lili— - Cycle time: “2.67 ps, 1333 in. or 4000 its (option) - Unlock F: 0.55 is detection, 1.1 ps detection - Timer FF: 1 ms, 51115, 251115, lZSms - Inputpom’: One dedicated key input port and one nigh-breakdown voltage port 0 Output pom‘: Two dedicated key output ports, one highbreakdown voltage open-drain port Two CMOS output ports (of which one can be switched to be used as LCD driver outputs) Seven CMOS output ports (mask option switchable to use as LCD ports) - l/O ports‘: One switchable between input and output ' in fourrbit units and one switchable between input and output in onebit unis Note: ‘ Each pen consists of four bits. The LC72322 is a single-chip miaocontroller for use in electronic tuning applications It includes on chip both LCD drivers and a PLL circuit that am operate at up to 150 MHz. It features a large-capacity ROM. a highly ) efficient instruction set, and powerful hardware. tau this [51 can nsliy us. cca that is SANVO': original bus formal. EEIEJ ~ COB is a trademark of SANYO ELECTRIC Oil. LTD. - C05 is SANYO‘: original bus format and all the bus Pin Assignment Dedmled mums LC72322 The input breakawn mug: is 13 v (mudmum wing; irrespecuva nl vm, ® - wan-makawn r® Dan-u h-chlml voltage mpul was man-duh mm mx’mum g) ‘svmm why. Mr fi.SNS,and mww: HOLD: m v ma. MMND‘ , : x I G ‘ a = .. .. . .. .. J . x "$m"‘.?" E! 322=§ks . was. u u 1 n ”A: O m: i ran: _—_1;. ‘ 5 _vn 21s: L "a: 215: 951 I! 5. Jan F: s! - rang/nu z.- ! mun-<2: 257 i M I: I! s. 6) ® L -ruo: 3“ ‘SIwSZanhe .,, :|sm sw‘ncmdwbo wosvo . 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PEZ. r pen _ n v [— v,Ls LCTR (poriod misnrgmenr), vDD' 1 o v v.L7 HOLD 0 v xw 4.0 45 mm. vmz. vml 10 1311 MHz FMIN, vms, v0.31 m 150 MHZ lrvul "mew AMIN (L). vm4, V001 0.5 10 MHz mm (H), vms, le 2.0 40 MHz Hem. v.~s. vm| “4 0.4 12 MHz |.,.7 LCTR (Viewer-q). v.N7. vm| mo 500 kHz “Na LCT'H Umwency). vma. v.Ls, vw1 1 20 x 103 Hz le1 xw 0.50 1.5 Vrvm vmz mm 0.10 15 m7] mum ampmum v,,,3 mm 0.15 15 Vrms w. 5 mm mo |.5 Vrms v.Ns. 7 mm. HCTR mu 1.5 Vrms 1mm mg. mg. I vma ADI a vDD v LC72322 Electrical Characteristics for the Allowable Operating Ranges mums Pmler Syml comma Hyst'nsis vH LCTR (petiod). m, M, PEI, PEI! . [ Fisieded pulse Mam FREJ % Puwemown mm n Manage van mm mm mm mum W. HOLD. mum, SNS. _| "N‘ IMIherefl:V|=5.5V 3.» 11A A.E,andeom:Elndeanswfln » "N2 outpuls all. A pm wan 00 am. v1 = vD0 3,0 “A has XIN: v,=vnu.5.ov u FMIN, mm. Hc’m. um: 'I"‘ v,.vw sov rms Apon.wunmnmv, vac-5.0 v l— _1 WT, mfiEE Alums, ma (ha a poll. . Vss A,E.ameofls:Emeonswln §§§ Ouwlnlgnlwelwmgewnem M0"! W W “in“ umpulsofl. A pun wlh rm RFD. v. x vSS XIN: v." = vs 20 511 is FMIN.AMIN, HGT“. Lem: v, zvss Ln to 1mm Ikmlngvolm v,; Apcrl: war-ma", Pulldmmras'muu RFD TTponflMll-unfipo. vac-5M 75 mo ‘ lama £01,502:v0 Wm om new: a, c. D. E. F. and mm: vo : vm, brrufl HporI:V° uv 00mm! km 1mm: usage cumnl Em. 502: v0 ass B. c. D. E. F.1ndlpcns: v0: vss v0,“ Blndecfls:b-|MA vw—zn vw-u: Vm-°.5 von Eandeorl b=|mA vW-Lo VONJ so 202 Von-1.0 <<<<§i§§35<§§t Ompul high hvel volagt v0.5 mm: b =zoo M vDD- LO Von5 smsmmm—lwnzb-wmm vm-m v 1 vws Dponzbnsmk van-1.0 b v0“? com. coma k: = as "A van - 1s vDD -o.a v Enndeerlszb=50nA 0.5 2.0 v E and F pom: no = 1 m - v EOl.EQz:IQ=500MA 1.0 v 0mm“ Melvollnge XOUT:IQ=200uA 1.0 v S|lo$28u|dlrulpomlo=0JmA m v vmn Dpoflzb=smA 1.0 v veg m1.comz b - 25 M n.3 as 0.75 v vma H pen: 19:5 mA. vw1 (150mm; (4mm 2.» v DummieVewo-qe v.41 cw1.comzvm-s.ov. has“ 2 25 10 v ND numeral)?! emzr AD1:VDD| 12 1/2 LSB (091 vm1. l|N2 - 130 Mm Is an m looz Lfibfifflm‘fl‘m” L5 m T = . gamma “W mi mum min loo“ (figlblflfimfif - 4am nu 0.7 m vDD : 5.5 v. mum, supp-173 = 25-0 5 r—M (BACK up mode. figure 2) 1005 VDD = 2.5 y, oscillator Qupped, Ta = 25°C —-I 1 M (BACK up mods, figure 2) LC72322 Test CIrcuIts - ”' WIN AM1N Ti? NEYH HOLD LC'l'Ii . ADI 1ssu,a A PA.P6 Null: PB TDPF. ”Land PI are al‘opanMMvJEumPFieDMnhcud. Anita! K) Figure 1 Inuz (o IDDJ. In HOLD Mode sopF x“ quT Fun 945 Mm 1m NCTH Hal-D . Lem “n “571.2 Anita. Noll: PAbPl.Si NSA,COMI,andCMflreIlopen. f) Flgure 2 lugs 16 BACK up Mode Pin Functions LC72322 Pin Pin up. Funcliors vo drcui! rm Law-threshold typ- amzioa inpul pan 5 9‘s“ “P P“ 35 Thesu plns can a. usod, for mmm In My dam mu‘smon, PM 3‘ Built-in pull»dulm resiswrs can he spanned u no spin Jni: PAZ m opflofl is in l-pin mils, and mm! he spadhd hr indiwdull PM 32 W“- Inpul Waugh mu. pins in cabled in BACK UP mode. 0m" we m no P51 29 Dodicuied mum pens P82 24 Sm mo ouwl “mister imptdanm m ynbahmd P53 17 cmos, mm pins can a. ant-aim, um ht hnaims mm “mimnmm.mupinsgunuummmgn . vcn 2“ impedance mm in BACK MP nude. PC‘ 25 These pins go In m law Invel during a rem, 10..an m Pa: 24 mm is low. Pm as , ACK P pm 22 Micmac output mm 5 u “a“. PD, 2| Trim an normal mos euwus. nus. pins go In ms Bulput Pm 20 high-impedance sum in BACK up nude, flies: pils go in me low level during - reset. i.e.i when m PD“ ‘9 m pin is km. in: m PEI, PES Trim pin- are "new banger: inpul um Wu! 1: lollm: Pga m cm. m Input imwcu'on (IN, TPT. on») is “named. mm P51 n plus iamn In in. lnpul m. Qnm an um inswnim (cu-r, sma. of RPEI} I5 examined, may lald- in nu ouipul mode. P52 ‘5 Trim pins gn to me input mode dul'mg a reset. Le“ mm m P53 ‘5 HE'S'pin Is low. In BACK up mod. these pm 90 in me inpul mode wim inpu A "a“ disabled. . 0mm in . _ m. . 1 SACK up These plus an smiched belween mm and wipui by me ; PFO M We insuuaian. PF! ‘3 The to mm av mi: man In spedfnd inf individual pin; PF! 12 Tim. pins no in me inpm mod. during a row, when me PR; 11 flES pin is law. MBACK up made (hese Pins gninmeinpuimude wiminpul mam disabled. . _ , BACK uF PGU 5 : psi 5 Dediialed inpul pan 1 P62 4 inpui mmugh mesa pins is disabled in BACK up deu. P615 3 mam LC72322 Confirmed [m preceding page, Rn Pin No chflans PHa PHi PHwACi PHWDACZ Dsdiaied nulpul pan since mm pins are highmakm valua- Miami vans‘mor open—dvain mlwu, may can bl oflloively used it iuhciions such as hand mar suppiy swim. Note |ha| PHZ aha PH: also hmm'nfl as me mm and DACZ mums. These pm; 90 m m high impedance Nile during 3 mm, i.e.. when me H_ES pm is m, and in BACK UP m. 01qu V0 dlcuillype BACK UP ADZIIZ Pia/sis as as 37 maimed wrpu: pen . While mesa pins haw a cmos min ciwil smium. may an be swumed in inmim as LCD aims men iunaim is switched by m s and as Inswclkns. Thm pim uni-oi be swiimed individually. The LCD dn'v-i luncflfxi is seiecizd and a seamenI-ofl (lanai is 00quan pow-r is firm applied a: when m is law. mm pins are mld a! m iéw lewd in BACK up mode, Nam lhzl when m mam-purpose pen use opiion “a sptdfied. mes; pins ouipui m mnrtflfi ei ipom’mi LPG is L and me comm n! in generaiwipm nulpul pm LATCH whm ch ix 0. Oumul m BACK up Abziis s: (D 524 53 mdo LCD driwr mmnimwu Atvamelrequ-no/olloonindu1Rdmy. |Rbia=ifive lypemuud. A lequM-o” signni is uulpul when pom Is rim appiica a when mg is law. These pins all be“ AI Ihl low level in BACK UP mode. The use cl mesa pins as gmrai-pmpose mu! pom can be spadfied as u. opiion, mum PACK up ADiiAA T8: LCD driwreommon nulpuls A 1/2 duly. |/2 bias diive my. is used. The wiwimn we: is 7-51 nppiied 01 when nE‘s is'bw is iuenmi In in. min-id upon-lung mod- suwl. These pins am M6 at m. IW me! In BACK UP mode. Ouwu! SACK uP Anzaas FM|N 71 m vco (imi oxdllm') inpm The input mus! ha swim coupled, Tho inpm llequuncy range is 1mm in lo 130 MHz. AMIN AM vco {local nsdliamr} inpm The band supporled by m's pin can he scheme fling the PLL insrmniofl. $5971 (2 In An MHz) —v SW Low/(0.510 10 MHz)—aLWande Inpu| HOLD w PLL STOP Mucus-i AOEAAB Cmiinued m hen mg. LC72322 Continued from paladin; ms. Uriversd mums! input melnpm should be mpaamr coupled. The lnpux hcqusncy tinge ls lmm 0.4 m |2 mm. This human be nrltc'livfly used lo: FM 1F 97 AM IF awning. HC’TR 70 Univ-nil mun!!! lnpul The inpul snwld ho cap-aim coupled lee Iwul frequemss Ir| merange we no lso kHz. Capali’ml muplmq is run required for Input! irlquencles ham 1 m 20 Hz, This inpul an n. anodvely used Ian AM IF mpfil’m, ms pl’n an slso be used as s nomul input purl. MD a PLL STOP Inflmmian LCTR nan: M) asnv-mr lnpul A 1.23 ms mod I: required lnr . stall seqverlnal companion mnvurslrm. The lull m inpul Is (mm) - vngl bar a dam nluo el 3m ref HOLD or FLL STOP msuncficn AflzltY Emmal inlelmpl rmszlnpul An inmrupl ls geneiued when m INTEN flag is m (by in ss lnsmmlon) md : filling edge ls hpuL ms pin lzn slsls be used as a wmsl innm poll. 3! Ace‘s- Relevance lsequenq and wogrammahla divider phase 77 comparison m oulpuls —_ u Charge pump drains in will in. E01 and 502 are m. samc. Input pln used In dsusmm il 3 power mnage has cram-d in 72 BACK up mode haul This pin an also be used as n normal hpul pond hpul p'n ussd m lam me LC72322 m HOLD "Sac rmscmugses mum modem n me HOLDEN nag is .. 51 gel (by an 55 inmcnon) and me Wu) input gm low. lnpul A Ngwbreakdwn some mm is used sa m m inpul can beused in cmjundin» wl'lh me nunnsl pewer swim Anlito Anzszn 915mm reselinpul : This signal should be held law lar 75 ms 211m power 15 mm : _nzs 5a appliid m sllecl a power-w resel. Input aw“ m- min! sunswh-n s low level has um inpul ldr a! new 3 ' six relomm dock cycles Ana: sa c m] oscllalmlzmlwcrims figfi XIN 1 "' ‘ x I N , war so 145 Mm) Ompvl ' Aleedbuk resistorls hufllifl. an 3..._._‘ 1 Aozlzs TE?“ LSI Des! plus These pins must be muscled In vss, _ - TESTZ Power supply , _ LC72322 Mask Options Deseripu'un wa'r {waimdng limef] indusinn Saleem" PnnA pul~dnwn reslslnr induswon seleclim No. Cycle lime selecliofl Developmenl Envlronment - The LC72P32I is used for OTP. - The LC72EV321 is used as the evaluation chip. WDT included Pill-dawn usisws lncfuded No pull-down vesixxnrs 257 as 13.33 y; LCD n In ' LCD W“ A ”mew WW” p“ s’ m" Gmralvpulpuse bum-41pm; - A tolal debugging system is available in which the TB»72£V32 evaluation chip board and the R532 mum-function emulator axe controlled by a personal compulen Aciwv EVAcHxP TARGET BOARD (us-72mm POWER SUPPLY PLL |u USER TARGE'I SYSTEM $WITCHKNG PROM WRITER 5V/5A ZAV '2A REGULATOR PERSONAL chPu'raH MEG-995 IEMVPOVAT NEG-P093 ‘P wan as : nus-Dos RAM 2 51 ZKE (I , g muumn ' [R532] REAL nu: muu'mn ' ’ LC72322 LC72321 Instruction Table Abbreviations: ADDR: Program memory address [12 bits] b: Borrow B: Bank number [2 bils] C: Carry DH: Data memory addrass high (mw address) [2 his] DL: Dara memory address low (column address) [4 bits] I: Immediate data [4 bils] M: Dana memory addn’ss N: Bil position [4 bits] . Pn: Part number [4 his] r: General regisur (one of the locations 00 LO 0m in bank 0) : Conwnls of register or memory ( ) ( )N: Conlems of bit N of regisrer or memory Funuion 09mm msu i: 12 n 3 z | Do Adam." mqu) ADS AddMlor. ' 'k(1)fi(M) the" sklpilcarry skinilcany g Aadewimrzny ro—(1)0(MMC g ACS mMmrwimuny, ln—(I)D[’fl)+c 5: than skip ifcarry skip u any “g Al mm | m M M 4- (M) u g “s Malian M.-(M).| < imn skip it any , skip Hurry Aic Addlmhlwimcarry M—{Mhloc “cs Addl'nMwimun-y. Mc—(M)ol¢c me" skip "any sk‘wilrany su SubtmaM lromr n- m- {M} smmaau imm ., n— (v)-(M} SUS ’ M imn skip ii borrow skip it bum Salim M "rim with -, 55 r M n. m -(M)— b E W . -‘-3 Subtract M lmmlwilh _§_ 535 I M burrow. g men ski borrow 5 s: M Subvacl | (mm M E SIS M ' SublnallmrnM, M.-(M)-i g mmskipnbom skip ii borrow 5mm | lmm Mwim SIB M I Wm M4—(Mj-l—b Subm | Iron-i Mwim A Sias M r borrvw, 15:34‘“ men skipiibum 5 '9' ”W ' ‘v al M ’ ‘ M E’ 550 , M Skipi raqu 5 mm“ .= _ M 8 END"! is wearer ' . . = see r M sklp u m7! bomm E man around In M (v) 2 (M) § M—I E SEQ! M | Skip II M equal to! skip 1! mo E v, M. M -| U scar M | s‘""' " ”3°" skip "mi buncw um nimai ml “4,2' Confirmed on ncxl ruse. LC72322 Confirmed rm... pmuding page. Operand Machinecode mam“: Funcn'on Ogeramm D|5 I4 (3 v2 hsmxvinn Gmup 1098755432'00 5 ANDlemM Mq—(MMI | o a. §§ ORIwimM m-(Mwl 5 5 3°}; ExduséveORMwnhl n-mew) LDaflMln r SmreltsM mu M w dash'nalion M (daring lorin W um um ram: Mi—(fl [DH- R"l " (Ml ane 50mm M lelerrinqluthin Mo—[DH,Rn] mesa-u mw mfxm‘" (DH, nu] .- (DH, DLZ] Mvv-lmM um mama Pu" I’LL“- PLL DATA vegislevs Tm M bus. men skip . "M (N) - nu \. Wallflutpeafpd mm mp MVRS Tvansler lnslmcfinns MVSR E m m 3 Tesl M has men ski p . 2 N H -n bin mam mm“ ‘" °‘ m rm P JMP ADDR Jump 1» me address PC o- ADDR ADDR (12 bits) __,_ CAL ADDR Call subrwfirw Slack «- (PC) + 1 ‘ ADDR (12 bi“) Ralwn 1mm submun‘ne PC > Slack 1 Jump and subroufina call BI: us! |nwuc11ons Rerum Irorvl hump! PC «- snack | Tmu‘merF/F , , E mntkiplhlhu mF’F'Q 1 1 o ,1 o ‘ 1 a a o u n N = g mlbeen set ‘ "“ / = E Teswvmkr/F . ‘ ‘rtf TUL Muskipilkhas "UL F’F'°' N m! m men-mp (sum ruin“ 1) E ss Set sum; regism g N 1- 1 g- R-selslams regisler N52"? ”q's'" " J!" . u (Slams mfisler z) N . g TST N Tm mm: register we a" 1' he" sup g A il (Slams register 2) N - 5, TSF N Test sums vagusmr Ialse all 0_ M" W? BANK B Selecl bank mm mm; lnslnmhns LC72322 Car-rime lmn oreeeoin; page. E Operand 1 Maenineaoda 3 % Mnemonic Funclian Operallan fig lsl 2nd Di5|413121I1098765432'Do ompui 5.er panem LCD [0 LCD my dim LCD (Diem .. M 1 | l o a u 094 DL men Ouipul sogmerl panem LCP M l m LCD 69“ mm" 01 p“ LCD (DIGIT) .. FLA i. M i w M P Imul pen dais in M M i. (Pan (my 5 OUT M P omoul miller-a el M lo pm (For! my ._ M ; sPs P N Seiporl ails (Pen (P)) N ._ l i E RPS P N Rem pen blls (Peri (P); N e o 9 Tear par! bits, upon (Pl) N = all L rvr P N lhen ship I a] ails lhen skip specithd an Inn - Tmpowbils, 1 (Fan (F)) N = III 0. TPF P N lhon slop i a. his men ski; '_ sp‘clied am lain g ucs 50! no Uccm UCCWl 4— l a E " i“: is E ucc I SelllnlJCCWZ UCCW2>t-l 3 E ' 2 N FPOflI/OCOMIOI FPClalchb—N 1h!) [1 0 g cxodrsiep Slapcbckim=n n n o z 5 mo Load M la 01A myslers Ming 4— DAG DATA 0 a o 5 5 MOP _|_ No uperaiion 0 0 fl I No products described or contained herein are intended tor use in surgical implanu. file-support syslems, aerospace equipmenl, nuclear power corllrol systems, vehicles. dis'asler/crimevrevenllon equipmenr and me like, ihe lanure oi which may direcfly orindlreclly cause Injury, deem or propeny lossr l Anyone purchasing any oroeueis described or contained herein lor an sboyemeniionee use shall: a) Aeoepr lull responsibiliry and indemnify and deleno SANYO ELECTRJC co.. rm, iis affiliates. subsidiaries and distribulars and all lheir officers and employees ieiniiy and severally, againsl any and all claims and Iifigavon and all damages, casl and expenses associsrod wiih such use; ® Nor impose any lesponsibilily ior any lauli or negligence whien may be aired in any such claim or iiiigaiion on snuvo ELECTRIC co. LTD., its eifiliales, subsidiaries and disrnhurors or any oi rheir officers and employees joinliy orsevarally I lnlormanon (Including cireuil dagmms and clrcwl paramelersi herein is for example only; ii is nor guaranleecl lcr volume proouorion, SANYO believes inlon'nanon herein is accurate and reliabie, but no guaranlees are made or implied regarding ils use or any inlnngemenis oi inielleerual properly righis er oiher righrs or ihird parties. This caiaiog provides inlormanon as ol March. 1998. Speeiliesiions and iniormalion herein are subjecl is change wilheul noiiee. FCC ID: MMA77120ESP APPENDIX 10 FINAL RF AMPLIFIER DATA SHEETS THREE (3) PAGES FOR ZSC2073 FOLLOW THIS SHEET FINAL RF AMP DATA SHEET FCC ID: HHA77120ESP APPENDIX 10 ws\mid77120 031—232078-04 TRANSIST OR ZSC2078 VENDOR : SANYO ELECTRIC CO. LTD. D DATE ‘ 119-5-93 x” ‘ zumA NPN Epnamaw Planar Schcon Transmor' 27MHz High Frequency Power Amp Applications? QASZD Absolute mum: Ratings at ra=25°c unit 7 Callectcr to Ease Voltage VCBO 50 v 2 Collector to Emittsr Voltage VG“ HBEflSGohm 75 v Emitter to Ease Voltage ”550 5 v . Collector Current 1c 3 A _ Feak Collectnr Current icp N 5 A Collector nxaaxpauon PC 1.2 w Tc=so°L m w ~ Junction Temperature m 150 2c . Storage Temperature Tstg -55 to +150 C f ‘E':- Electrical Characteristics characteristics at Ta=25°0 min typ wax u)“, 5; Collector Cutoff Current 1050 vcaauovJEan w J“ E; Emitter Cutoff Current IEBO VEB=W.IC=0 10 5 fr: 5 DC Current Gain h”: VCE=sv,1&-= .5A 2? 20m 4 ii; Gain Bandwidth Product. rT VCE=1OV, 100 150 9“; Output Capacitance c:ob V - 45 50 1- C-E Saturation Voltage vCE(sat) 16: 0.15 0.6 .___ 5—5 Saturation Voltage vans“) 0.9 1.2 ===== C-B Saturation Voltage “550030 1c. BO 5: (3-5 Saturatian Voltage V(EH)CER nA,aBa=1sonnn 75 g 5-5 Saturation Vcltage VHMEBO Iz=100uA, cao 5 5 [At specified test circuit! 3:5: Output Power Po VccleV,f=2THi-Iz,?i=0.2'fi Au: ”— Power Efficiency T‘. 60 ‘zThe 2502075 1a classified by 0.5.x n”; as follows: 25 a so no c so 60 n 1201 100 E 200 PC - Ta Case Outline 201m (unit:mm) __ u u 1(5.1——-‘|—-1Ar0 1 W T E r 3 a ‘,‘g _\_ a L5 E1 Emitter c CblLacr w "-° a’. a." ’ JEBEC| 10-120» and x sc-4s KOWTKIV’EWSKI/ 22’1'Wfii 110.351 _mv m‘\ m m n. m um I v u s u =a . v. we I i ii, a ma . r v: m m rm w w 11111 qu z. an m w mm. 1.c m v. hm ~ 1c rm fr “a, w m, m a, c > an Ln” wmm m" m T! . on 2 n u m . y i h u n.u w u u L cc 9 a M 19 a; w ii” <5 . H 2226 55228 5.x. $533: 52.655 56 an 1 au.-E:=;.u 253 m . T1 8 w an 7 2 t 55 m. 1 99 c u s m 2.5, 2 .l 1 r r 1. 1 41m C u M...“ v .m ‘cm t . =1 J! xx v W 5 dd 5 E . .. n m m vc vc z A / nu ma. 1! ....... Invs ma P n D ii 3 n _ e m tt a ._ s w 4 u n l .L\4 l u c ,. xc P . mm a v u a r z, w 36 v -r v v . n a u . . V . . a\\ r . P u c 1 C L N \I.. u t 1221 u r |1||\ - u c w 172. a n w .. o 1 z k. . 1 a c H a on An mu m n a u n 2 d h [ Ail ‘L h C 8 1 u . 7 x c 2 L J: m. m. w m n c : T fl ZSC2078 Output Power rn - u Input Power,“ - v ,a~“‘= , . Pm. Lap ' a pl=0.5.0.4'fi 1 ‘1: mu m t g 0.711 1 \ g ‘ 1 firm. m J m ‘ 1 mar » a } E , 5 z ‘ a nu Conaetor El’IchAncy.hn - 1
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