Nokia E6 00 Rm 609 Service Manual 34 V1
User Manual: Smartphone Nokia E6-00 RM-609 - Service manuals and Schematics, Disassembly / Assembly. Free.
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Nokia Customer Care Service Manual RM-609 (Nokia E6-00; L3&4) Mobile Terminal Part No: (Issue 1) COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. RM-609 Amendment Record Sheet Amendment Record Sheet Amendment No Issue 1 Page ii Date 04/2011 Inserted By Comments MT COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Copyright Copyright Copyright © 2011 Nokia. All rights reserved. Reproduction, transfer, distribution or storage of part or all of the contents in this document in any form without the prior written permission of Nokia is prohibited. Nokia, Nokia Connecting People, and Nokia X and Y are trademarks or registered trademarks of Nokia Corporation. Other product and company names mentioned herein may be trademarks or tradenames of their respective owners. Nokia operates a policy of continuous development. Nokia reserves the right to make changes and improvements to any of the products described in this document without prior notice. Under no circumstances shall Nokia be responsible for any loss of data or income or any special, incidental, consequential or indirect damages howsoever caused. The contents of this document are provided "as is". Except as required by applicable law, no warranties of any kind, either express or implied, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose, are made in relation to the accuracy, reliability or contents of this document. Nokia reserves the right to revise this document or withdraw it at any time without prior notice. The availability of particular products may vary by region. IMPORTANT This document is intended for use by qualified service personnel only. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page iii RM-609 Warnings and cautions Warnings and cautions Warnings • IF THE DEVICE CAN BE INSTALLED IN A VEHICLE, CARE MUST BE TAKEN ON INSTALLATION IN VEHICLES FITTED WITH ELECTRONIC ENGINE MANAGEMENT SYSTEMS AND ANTI-SKID BRAKING SYSTEMS. UNDER CERTAIN FAULT CONDITIONS, EMITTED RF ENERGY CAN AFFECT THEIR OPERATION. IF NECESSARY, CONSULT THE VEHICLE DEALER/ MANUFACTURER TO DETERMINE THE IMMUNITY OF VEHICLE ELECTRONIC SYSTEMS TO RF ENERGY. • THE PRODUCT MUST NOT BE OPERATED IN AREAS LIKELY TO CONTAIN POTENTIALLY EXPLOSIVE ATMOSPHERES, FOR EXAMPLE, PETROL STATIONS (SERVICE STATIONS), BLASTING AREAS ETC. • OPERATION OF ANY RADIO TRANSMITTING EQUIPMENT, INCLUDING CELLULAR TELEPHONES, MAY INTERFERE WITH THE FUNCTIONALITY OF INADEQUATELY PROTECTED MEDICAL DEVICES. CONSULT A PHYSICIAN OR THE MANUFACTURER OF THE MEDICAL DEVICE IF YOU HAVE ANY QUESTIONS. OTHER ELECTRONIC EQUIPMENT MAY ALSO BE SUBJECT TO INTERFERENCE. • BEFORE MAKING ANY TEST CONNECTIONS, MAKE SURE YOU HAVE SWITCHED OFF ALL EQUIPMENT. Cautions • Servicing and alignment must be undertaken by qualified personnel only. • Ensure all work is carried out at an anti-static workstation and that an anti-static wrist strap is worn. • Ensure solder, wire, or foreign matter does not enter the telephone as damage may result. • Use only approved components as specified in the parts list. • Ensure all components, modules, screws and insulators are correctly re-fitted after servicing and alignment. • Ensure all cables and wires are repositioned correctly. • Never test a mobile phone WCDMA transmitter with full Tx power, if there is no possibility to perform the measurements in a good performance RF-shielded room. Even low power WCDMA transmitters may disturb nearby WCDMA networks and cause problems to 3G cellular phone communication in a wide area. • During testing never activate the GSM or WCDMA transmitter without a proper antenna load, otherwise GSM or WCDMA PA may be damaged. Page iv COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 For your safety For your safety QUALIFIED SERVICE Only qualified personnel may install or repair phone equipment. ACCESSORIES AND BATTERIES Use only approved accessories and batteries. Do not connect incompatible products. CONNECTING TO OTHER DEVICES When connecting to any other device, read its user’s guide for detailed safety instructions. Do not connect incompatible products. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page v RM-609 ESD protection ESD protection Nokia requires that service points have sufficient ESD protection (against static electricity) when servicing the phone. Any product of which the covers are removed must be handled with ESD protection. The SIM card can be replaced without ESD protection if the product is otherwise ready for use. To replace the covers ESD protection must be applied. All electronic parts of the product are susceptible to ESD. Resistors, too, can be damaged by static electricity discharge. All ESD sensitive parts must be packed in metallized protective bags during shipping and handling outside any ESD Protected Area (EPA). Every repair action involving opening the product or handling the product components must be done under ESD protection. ESD protected spare part packages MUST NOT be opened/closed out of an ESD Protected Area. For more information and local requirements about ESD protection and ESD Protected Area, contact your local Nokia After Market Services representative. Page vi COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Care and maintenance Care and maintenance This product is of superior design and craftsmanship and should be treated with care. The suggestions below will help you to fulfil any warranty obligations and to enjoy this product for many years. • Keep the phone and all its parts and accessories out of the reach of small children. • Keep the phone dry. Precipitation, humidity and all types of liquids or moisture can contain minerals that will corrode electronic circuits. • Do not use or store the phone in dusty, dirty areas. Its moving parts can be damaged. • Do not store the phone in hot areas. High temperatures can shorten the life of electronic devices, damage batteries, and warp or melt certain plastics. • Do not store the phone in cold areas. When it warms up (to its normal temperature), moisture can form inside, which may damage electronic circuit boards. • Do not drop, knock or shake the phone. Rough handling can break internal circuit boards. • Do not use harsh chemicals, cleaning solvents, or strong detergents to clean the phone. • Do not paint the phone. Paint can clog the moving parts and prevent proper operation. • Use only the supplied or an approved replacement antenna. Unauthorised antennas, modifications or attachments could damage the phone and may violate regulations governing radio devices. All of the above suggestions apply equally to the product, battery, charger or any accessory. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page vii RM-609 Company policy Company policy Our policy is of continuous development; details of all technical modifications will be included with service bulletins. While every endeavour has been made to ensure the accuracy of this document, some errors may exist. If any errors are found by the reader, NOKIA MOBILE PHONES Business Group should be notified in writing/email. Please state: • Title of the Document + Issue Number/Date of publication • Latest Amendment Number (if applicable) • Page(s) and/or Figure(s) in error Please send to: NOKIA CORPORATION Nokia Mobile Phones Business Group Nokia Customer Care PO Box 86 FIN-24101 SALO Finland E-mail: Service.Manuals@nokia.com Page viii COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Battery information Battery information Note: A new battery's full performance is achieved only after two or three complete charge and discharge cycles! The battery can be charged and discharged hundreds of times but it will eventually wear out. When the operating time (talk-time and standby time) is noticeably shorter than normal, it is time to buy a new battery. Use only batteries approved by the phone manufacturer and recharge the battery only with the chargers approved by the manufacturer. Unplug the charger when not in use. Do not leave the battery connected to a charger for longer than a week, since overcharging may shorten its lifetime. If left unused a fully charged battery will discharge itself over time. Temperature extremes can affect the ability of your battery to charge. For good operation times with Li-Pol batteries, discharge the battery from time to time by leaving the product switched on until it turns itself off (or by using the battery discharge facility of any approved accessory available for the product). Do not attempt to discharge the battery by any other means. Use the battery only for its intended purpose. Never use any charger or battery which is damaged. Do not short-circuit the battery. Accidental short-circuiting can occur when a metallic object (coin, clip or pen) causes direct connection of the + and - terminals of the battery (metal strips on the battery) for example when you carry a spare battery in your pocket or purse. Short-circuiting the terminals may damage the battery or the connecting object. Leaving the battery in hot or cold places, such as in a closed car in summer or winter conditions, will reduce the capacity and lifetime of the battery. Always try to keep the battery between 15°C and 25°C (59°F and 77° F). A phone with a hot or cold battery may temporarily not work, even when the battery is fully charged. Batteries' performance is particularly limited in temperatures well below freezing. Do not dispose of batteries in a fire! Dispose of batteries according to local regulations (e.g. recycling). Do not dispose as household waste. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page ix RM-609 Battery information (This page left intentionally blank.) Page x COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Nokia E6-00; L3&4 Service Manual Structure Nokia E6-00; L3&4 Service Manual Structure 1 General Information 2 Service Tools and Service Concepts 3 BB Troubleshooting and Manual Tuning Guide 4 Cellular RF troubleshooting 5 Camera Module Troubleshooting 6 System Module Glossary Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page xi RM-609 Nokia E6-00; L3&4 Service Manual Structure (This page left intentionally blank.) Page xii COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 Nokia Customer Care 1 — General Information Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 1 – 1 RM-609 General Information (This page left intentionally blank.) Page 1 – 2 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 General Information Table of Contents Product selection................................................................................................................................................... 1–5 Product features and sales package.................................................................................................................... 1–6 Product and module list ....................................................................................................................................... 1–9 Mobile enhancements........................................................................................................................................... 1–9 Technical specifications ..................................................................................................................................... 1–11 Transceiver general specifications .............................................................................................................. 1–11 Main RF characteristics for GSM850/900/1800/1900 and WCDMA VIII/V/IV/II/I phones ........................ 1–11 Battery endurance......................................................................................................................................... 1–13 Environmental conditions ............................................................................................................................ 1–13 List of Tables Table 1 Audio ......................................................................................................................................................... 1–9 Table 2 Car........................................................................................................................................................... 1–10 Table 3 Data ........................................................................................................................................................ 1–11 Table 4 Messaging .............................................................................................................................................. 1–11 Table 5 Power ..................................................................................................................................................... 1–11 List of Figures Figure 1 View of RM-609....................................................................................................................................... 1–5 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 1 – 3 RM-609 General Information (This page left intentionally blank.) Page 1 – 4 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 General Information Product selection RM-609 is a GSM/HSDPA/WCDMA tri-mode handportable monoblock multimedia computer with a capacitive touch UI, integrated GPS (A-GPS OMA SUPL), WLAN and a TV-out connection. It supports EGSM 850/900/1800/1900 and WCDMA 850/900/1700/1900/2100 bands, and CSD/HSCSD, GPRS/EGPRS and WCDMA/ HSDPA data bearers. For WCDMA the maximum bit rate is up to 384 kbit/s for downlink and 384 kbit/s for uplink with simultaneous CS speech or CS video (max. 64 kbit/s). The HSDPA peak is 3.6 Mbit/s downlink (with limited use cases). In PS/CS mode, RM-609 supports DTM Class with multi slot class 11 (max. 4 RX + 3TX, sum 5). With EGPRS this means maximum download speed of up to 236.8 kbit/s simultaneously with speech. With GPRS this means maximum download speed of up to 64.2 kbit/s simultaneously with speech. In PS only mode, RM-609 supports MSC 33 (max. 5 Rx + 4 TX, sum 6) timeslots resulting in maximum download speed of up to 296 kbit/s with EGPRS, and up to 107 kbit/s with GPRS. RM-609 has a 2.46” TFT LCD (640 x 480 pixels) color display with 16 million colors. It also has an 8 megapixel full focus (EDOF) camera with 4 x digital zoom and an integrated dual LED flash. The device supports twoway video calls with two integrated cameras, one on the front and one on the back. The MMS implementation follows the OMA MMS standard release 1.3. The browser is a highly advanced Internet browser also capable of viewing operator domain XHTML Mobile Profile (MP) content. The device also supports Bluetooth 2.1 EDR standard. RM-609 uses Symbian 9.2 operating system, S60 (release 3.2) UI, and supports the full Web Browser for S60, which brings desktop-like Web browsing experience to mobile devices. It also supports MIDP Java 2.1 , providing a good platform for compelling 3rd party applications. Figure 1 View of RM-609 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 1 – 5 RM-609 General Information Product features and sales package Imaging Main camera: • Sensor: 8 megapixel EDOF (Extended Depth Of Field) • F number/Aperture: F2.8 • Digital zoom: 4x • Focal length: 28 mm • Focus range: 5 cm ~ infinity • Flash: Integrated dual LED flash Secondary camera: • Sensor: VGA (640 x 480 pixels) • F number/Aperture: F2.8 • Focal length: 1.39 mm • Focus range: 10 cm ~ infinity Video: • Video resolution: nHD or VGA at 30fps • Audio recording: AAC (AMR for MMS) • Video stabilization • Video clip length: Max. 90 min • Video file format: .mp4 (default), .3gp (for MMS) • White balance: automatic, sunny, cloudy, incandescent, fluorescent • Scene: Auto, Night • Colour tone: normal, sepia, B&W, vivid, negative • Zoom (digital): up to 4x • Video recording indicator Photo: • Aspect ratio: 16:9 • View finder: Full screen view finder • Still image resolutions: up to 8 megapixel: 3280 x 2464 • Still image file format: JPEG/EXIF • Auto exposure: center weighted AE • Image orientation: automatic • Exposure compensation: +2 ~ -2EV at 0.5 step • White balance: automatic, sunny, cloudy, incandescent, fluorescent • Scene: auto, sports, portrait, close-up, landscape, night, user defined • Colour tone: normal, sepia, B&W, vivid, negative • Zoom (digital): up to 4x Edit • On device Photo editor and Video editor (manual & automatic) Page 1 – 6 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 General Information View • 2.46" TFT LCD, (640 x 480 pixels) color display, up to 16M colors, 16:9 aspect ratio • Digital Ambient Light Sensor (ALS) – used to optimize display/key brightness and power consumption • Slideshow from Gallery Share • Nokia XpressShare - share effortlessly from Gallery or after capture via Email, Bluetooth or MMS • Direct connection to TV via cable or WLAN (UPnP) • Video call and video sharing support (WCDMA services) • Online Album: Image/Video uploading from Gallery Print • Nokia XpressPrint – direct printing via USB (PictBridge), Bluetooth (BPP), and WLAN (UPnP), from memory card or via online printing Store • 8 GB internal user memory • Nokia XpressTransfer – easy to transfer and organize photos and video between your device and a compatible PC • Nokia Lifeblog (mobile & PC) Music • Digital music player: supports MP3/ AAC/ eAAC/ eAAC+/ WMA/ AMR-NB/ AMR-WB with playlists, equalizer and album art • Synchronise music with Microsoft Windows Media Player 10 & 11 • One click CD ripping, converting and transferring music to your device using Nokia Music Manager • Stereo FM radio (87.5-108 MHz /76-90 MHz) with Visual Radio™ support • Bluetooth speakers • Integrated handsfree speaker • Nokia Music Headset (WH-207), inbox Media • Full-screen video playback to view downloaded, streamed or recorded video clips • Supported video formats: MPEG-4 , H.264/AVC, H.263/3GPP, VC-1, Real Video 10, ON2 VP6, Flash video Productivity Context management: • OMA DRM version 2.0 • OTA provisioning & over the air SW update (FOTA) • Ovi Suite • Web Browser (OSS), Java ™ MIDP 2.1, XHTML browsing over TCP/IP Messaging: • E-mail (SMTP, IMAP4, POP3), MMS, SMS, unified editor Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 1 – 7 RM-609 General Information • IM client Office applications: • Viewing of email attachments – .doc, .xls, .ppt, .pdf, .zip • Mail for Exchange PIM: • Contacts, calendar, to-do, notes, recorder, calculator, clock, converter Synchronization: • Local/Remote (using SyncML) • Data: Calendar, Contacts, To-do, Notes, E-mail • PC Applications: Microsoft Outlook (98, 2000, 2002, 2003), Outlook Express, Lotus Organizer (5.0, 6.0), Lotus Notes (5.0, 6.0) Call management: • Call logs, speed dial, voice dialling (with SIND) and voice commands • Nokia Push to Talk (PoC) Connectivity • Integrated GPS (A-GPS OMA SUPL) • Nokia Maps 3.0, including Friend Finder • WLAN - IEEE802.11 g/b/n with UPnP support • Micro USB interface with USB 2.0 high speed • Bluetooth wireless technology 2.1 + EDR + A2DP • MicroSD memory card - support up to 32 GB • Nokia 3.5 mm AV connector • 2.0 mm DC connector Add-on software framework • Symbian 9.2 OS • Nokia Series 60, 5th edition, feature pack 2 • Java: MIDP2.1 • C++ and Java SDKs • Flash Lite 4.0 Additional technical specifications • Vibrating alert • 3GPP Rel 5/6 WCDMA , Rel 4 EGSM compliant • Speech codecs supported: AMR, NB AMR, WB AMR, FR, EFR • GPRS/EGPRS Class B, Multi slot class 33 • Dual Transfer Mode (DTM) class A, multi slot class 11 • WCDMA DL 384 kbit/s, UL 384 kbit/s • HSDPA up to 10.2 Mbps, HSUPA 2 Mbps Sales package • Transceiver RM-609 Page 1 – 8 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 General Information • Charger (AC-15) • Battery (BP-4L) • Music headset (WH-207) • Connectivity cable (CA-179) Product and module list Module name Type code System/RF module PWB 3DJ UI flex module 3DH Flash flex module 3DQ Notes Mobile enhancements Table 1 Audio Enhancement Type Music headset WH-207 Nokia Wireless Stereo Gateway AD-42W Mini speakers MD-8 MD-9 Hearing aids HDA-12 LPS-5 Wired headsets WH-205 WH-502 WH-700 WH-701 WH-800 WH-900 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 1 – 9 RM-609 General Information Enhancement Bluetooth headsets Type BH-103 BH-214 BH-215 BH-500 BH-501 BH-503 BH-504 BH-505 BH-606 BH-607 BH-702 BH-704 BH-804 BH-805 BH-900 BH-902 BH-904 BH-905 Bluetooth speakers MD-5W MD-7W Table 2 Car Enhancement Type Nokia Universal Mobile Holder CR-99 Speakerphone HF-310 HF-510 Car kit CK-100 Display car kit CK-600 Mobile charger DC-9 DC-10 DC-11 Page 1 – 10 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 General Information Table 3 Data Enhancement Type Connectivity cable CA-179 MicroSD card MU-43, 8GB MU-44, 16GB MU-45 32GB Table 4 Messaging Enhancement Type Other multimedia peripherals SU-33W Stylus STYLUS PEN ASSY Table 5 Power Enhancement Type Battery 1500 mAh Li-Polymer BP-4L Travel charger AC-6 AC-8 AC-10 AC-15 Technical specifications Transceiver general specifications Unit Transceiver with BP-4L 1500 mAh Li-Polymer battery pack Dimensions (L x W x T) (mm) 115.5 x 59.2 x 11.7 Weight (g) 129 Volume (cm3) 66 Main RF characteristics for GSM850/900/1800/1900 and WCDMA VIII/V/IV/II/I phones Parameter Cellular system Issue 1 Unit GSM850, EGSM900, GSM1800/1900, WCDMA VIII (900), WCDMA V (850), WCDMA IV (1700/2100), WCDMA II (1900) and WCDMA I (2100) COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 1 – 11 RM-609 General Information Parameter Rx frequency band Unit GSM850: 869 - 894MHz EGSM900: 925 - 960 MHz GSM1800: 1805 - 1880 MHz GSM1900: 1930 - 1990 MHz WCDMA VIII (900): 925 - 960 MHz WCDMA V (850): 869 - 894 MHz WCDMA IV (1700/2100): 2110 - 2155 MHz WCDMA II (1900): 1930 - 1990 MHz WCDMA I (2100): 2110 - 2170 MHz Tx frequency band GSM850: 824 - 849 MHz EGSM900: 880 - 915 MHz GSM1800: 1710 - 1785 MHz GSM1900: 1850 - 1910 MHz WCDMA VIII (900): 880 - 915 MHz WCDMA V (850): 824 - 849 MHz WCDMA IV (1700/2100): 1710 - 1755 MHz WCDMA II (1900): 1850 - 1910 MHz WCDMA I (2100): 1920 - 1980 MHz Output power GSM850: +5 ...+33 dBm/3.2 mW ... 2 W GSM900: +5 … +33 dBm/3.2 mW … 2 W GSM1800: +0 … +30 dBm/1.0 mW … 1 W GSM1900: +0 … +30 dBm/1.0 mW … 1 W WCDMA VIII (900): -50 ... +24 dBm/0.01 μW ... 251 mW WCDMA V (850): -50 ... +24 dBm/0.01 μW ... 251 mW WCDMA IV (1700/2100): -50 ... +24 dBm/0.01 μW ... 251 mW WCDMA II (1900): -50 ... +21 dBm/0.01 μW ... 126 mW WCDMA I (2100): -50 ... +24 dBm/0.01 μW ... 251 mW EDGE output power EDGE850: +5 … +27 dBm/3.2 mW … 501 mW EDGE900: +5 … +27 dBm/3.2 mW … 501 mW EDGE1800: +0 … +26 dBm/1.0 mW … 398 mW EDGE1900:+0 … +26 dBm/1.0 mW … 398 mW Page 1 – 12 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 General Information Parameter Unit Number of RF channels GSM850: 124 GSM900: 174 GSM1800: 374 GSM1900: 299 WCDMA VIII (900): 152 WCDMA V (850): 108 WCDMA IV (1700/2100): 211 WCDMA II (1900): 289 WCDMA I (2100): 277 Channel spacing 200 kHz (WCDMA II, IV and V 100/200 kHz) Number of Tx power levels GSM850: 15 GSM900: 15 GSM1800: 16 GSM1900: 16 WCDMA VIII (900): 75 WCDMA V (850): 75 WCDMA IV (1700/2100): 75 WCDMA II (1900): 75 WCDMA I (2100): 75 Battery endurance Battery BP-4L Capacity (mAh) 1500 Talk time Stand-by Music playback Video playback H.264 720p 30fps Up to 9.7 h (GSM) Up to 792 h (GSM) Up to 6.1 h (WCDMA) Up to 684 h (WCDMA) 75 h 8.8 h Environmental conditions Temperature conditions Environmental condition Ambient temperature Notes (Operational for short periods only) Normal operation -15oC...+55oC Specifications fulfilled Reduced performance -25oC...-15oC Operational for shorts periods only +55oC...+70oC Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 1 – 13 RM-609 General Information Environmental condition Ambient temperature Intermittent operation -40oC...-15oC +70oC...+85 oC Notes (Operational for short periods only) Operation not guaranteed but an attempt to operate does not damage the phone. No operation or storage <-40oC...>+85oC No storage or operation: an attempt may damage the phone. Charging allowed -10oC...+60oC BTemp measurement range for charging. Long term storage conditions 0oC...+85oC Humidity Relative humidity range is 5...95%. The HW module is not protected against water. Condensed or splashed water might cause malfunction. Any submersion of the phone will cause permanent damage. Long-term high humidity, with condensation, will cause permanent damage because of corrosion. Vibration The module should withstand the following vibrations: • 5 - 10 Hz; +10dB / octave • 10 - 50 Hz; 5.58 m2 / s3 (0.0558 g2/ Hz) • 50 - 300 Hz; - 10 dB / octave ESD strength Conducted discharge is 8 kV (>10 discharges) and air contact 15 kV ( >10 discharges ). The standard for electrostatic discharge is IEC 61000-4-2, and this device fulfils level 4 requirements. RoHS This device uses RoHS compliant components and lead-free soldering process. Page 1 – 14 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 Nokia Customer Care 2 — Service Tools and Service Concepts Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 1 RM-609 Service Tools and Service Concepts (This page left intentionally blank.) Page 2 – 2 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts Table of Contents Service tools........................................................................................................................................................... 2–5 Product specific tools....................................................................................................................................... 2–5 MJ-300 .......................................................................................................................................................... 2–5 SS-227........................................................................................................................................................... 2–5 General tools..................................................................................................................................................... 2–6 AC-35............................................................................................................................................................. 2–6 ACF-8 ............................................................................................................................................................. 2–6 CU-4............................................................................................................................................................... 2–7 FLS-5 ............................................................................................................................................................. 2–8 FPS-21........................................................................................................................................................... 2–8 JXS-1.............................................................................................................................................................. 2–9 PK-1............................................................................................................................................................... 2–9 SB-6............................................................................................................................................................... 2–9 SB-7............................................................................................................................................................... 2–9 SD-77 ......................................................................................................................................................... 2–10 SRT-6.......................................................................................................................................................... 2–10 SS-210........................................................................................................................................................ 2–10 SS-93 .......................................................................................................................................................... 2–10 SX-4............................................................................................................................................................ 2–10 Removing a camera with the removal tool SS-210 .............................................................................. 2–11 Cables.............................................................................................................................................................. 2–12 CA-101 ....................................................................................................................................................... 2–13 CA-128RS ................................................................................................................................................... 2–13 CA-31D ....................................................................................................................................................... 2–13 CA-89DS ..................................................................................................................................................... 2–14 CA-99PS...................................................................................................................................................... 2–14 PCS-1 .......................................................................................................................................................... 2–14 XRS-6.......................................................................................................................................................... 2–15 Service concepts ................................................................................................................................................. 2–15 POS (Point of Sale) flash concept ................................................................................................................. 2–15 BB5 USB only – Basic flash concept L3......................................................................................................... 2–16 Level 3 concept for flashing, certificate restore and product code change option 3............................. 2–17 BB5 MJ-300 universal module jig concept .................................................................................................. 2–18 BB5 Extended MJ-300 universal module jig concept ................................................................................. 2–19 Bluetooth testing concept with SB-6 .......................................................................................................... 2–21 WLAN functionality testing concept with SB-7 .......................................................................................... 2–22 List of Figures Figure 2 POS flash concept ................................................................................................................................ Figure 3 BB5 USB only – Basic flash concept L3............................................................................................... Figure 4 Level 3 concept for flashing, certificate restore and product code change .................................. Figure 5 BB5 MJ-300 universal module jig concept ........................................................................................ Figure 6 BB5 Extended MJ-300 universal module jig concept ....................................................................... Figure 7 Bluetooth testing concept with SB-6 ................................................................................................ Figure 8 WLAN functionality testing concept with SB-7................................................................................. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. 2–15 2–16 2–17 2–18 2–19 2–21 2–22 Page 2 – 3 RM-609 Service Tools and Service Concepts (This page left intentionally blank.) Page 2 – 4 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts Service tools Product specific tools The table below gives a short overview of service devices that can be used for testing, error analysis, and repair of product RM-609. For the correct use of the service devices, and the best effort of workbench setup, please refer to various concepts. MJ-300 Module jig Module jig MJ-300 is designed for regional Central Services for engine testing. It can be used for flashing via USB and RF, battery and system testing. The main functions are: • Powering with external power • CU-4 interface adapter to phone (requires SS-227) • WLAN/BT/GPS RF-interfaces with probes • GSM/WCDMA RF-interfaces with probes • BSI mode selector (Tabby and Lynx interface, selected with battery cable) • VBATT interface (Tabby and Lynx interface, selected with battery cable) • CA-128RS cable is used together with this jig for RF testing VBATT functions can be performed in the CU-4 (requires SS-227). Calibration voltages and currents e.g. are protected and monitored by the CU-4 interface software (protection for over-current, overvoltage and reverse voltage). VBATT can be powered through MJ-300 (SS-227 not required) with external power. MJ-300 provides the VBATT with SMPS regulation to 3.9V/2A and regulation bypass with overvoltage protection (trip point ~4.4VDC). The VBATT external supply is provided with overvoltage protection (trip point ~16.5VDC), polarity protection and over-current protection (fuse 2.5A slow). SS-227 Interface for CU-4 control unit SS-227 is designed for regional Central Services to be able to use CU-4 with MJ-300 module jig. With SS-227, CU-4 can be used for battery testing. The main functions of SS-227 are: • CU-4 interface adapter to MJ-300 • BSI mode selector (Lynx and Tabby mode selection) • VBATT interface All functions are performed in the CU-4. Calibration voltages and currents e.g. are protected and monitored by the CU-4 interface software (protection for over-current, overvoltage and reverse voltage). Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 5 RM-609 Service Tools and Service Concepts General tools The table below gives a short overview of service devices that can be used for testing, error analysis, and repair of product RM-609. For the correct use of the service devices, and the best effort of workbench setup, please refer to various concepts. AC-35 Power supply Universal power supply for FPS-21; included in the FPS-21 sales package. Input 100V…230V 50Hz…60Hz, output voltage of 12 V and output current up to 3 A. ACF-8 Universal power supply The ACF-8 universal power supply is used to power FLS-5. Page 2 – 6 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts CU-4 Control unit CU-4 is a general service tool used with a module jig and/or a flash adapter. It requires an external 12 V power supply. The unit has the following features: • software controlled via USB • EM calibration function • Forwards FBUS/Flashbus traffic to/from terminal • Forwards USB traffic to/from terminal • software controlled BSI values • regulated VBATT voltage • 2 x USB2.0 connector (Hub) • FBUS and USB connections supported When using CU-4, note the special order of connecting cables and other service equipment: Instructions 1 Connect a service tool (jig, flash adapter) to CU-4. 2 Connect CU-4 to your PC with a USB cable. 3 Connect supply voltage (12 V) 4 Connect an FBUS cable (if necessary). 5 Start Phoenix service software. Note: Phoenix enables CU-4 regulators via USB when it is started. Reconnecting the power supply requires a Phoenix restart. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 7 RM-609 Service Tools and Service Concepts FLS-5 Flash device FLS-5 is a dongle and flash device incorporated into one package, developed specifically for POS use. Note: FLS-5 can be used as an alternative to PK-1. FPS-21 Flash prommer FPS-21 sales package: • FPS-21 prommer • AC-35 power supply • CA-31D USB cable FPS-21 interfaces: Front • Service cable connector Provides Flashbus, USB and VBAT connections to a mobile device. • SmartCard socket A SmartCard is needed to allow DCT-4 generation mobile device programming. Rear • DC power input For connecting the external power supply (AC-35). • Two USB A type ports (USB1/USB3) Can be used, for example, for connecting external storage memory devices or mobile devices • One USB B type device connector (USB2) For connecting a PC. • Phone connector Service cable connection for connecting Flashbus/FLA. • Ethernet RJ45 type socket (LAN) For connecting the FPS-21 to LAN. Inside • Four SD card memory slots For internal storage memory. Note: In order to access the SD memory card slots inside FPS-21, the prommer needs to be opened by removing the front panel, rear panel and heatsink from the prommer body. Page 2 – 8 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts JXS-1 RF shield box Because the WCDMA network disturbs the RX side testing of the WCDMA phone and the Tx signal of the WCDMA phone can severely disturb the WCDMA network, a shield box is needed in all testing, tuning and fault finding which requires WCDMA RF signal. The shield box is not an active device, it contains only passive filtering components for RF attenuation. PK-1 Software protection key PK-1 is a hardware protection key with a USB interface. It has the same functionality as the PKD-1 series dongle. PK-1 is meant for use with a PC that does not have a series interface. To use this USB dongle for security service functions please register the dongle in the same way as the PKD-1 series dongle. SB-6 Bluetooth test and interface box (sales package) The SB-6 test box is a generic service device used to perform Bluetooth bit error rate (BER) testing, and establishing cordless FBUS connection via Bluetooth. An ACP-8x charger is needed for BER testing and an AXS-4 cable in case of cordless interface usage testing . Sales package includes: • SB-6 test box • Installation and warranty information SB-7 WLAN test box WLAN test requires defined position for the device. Place the phone on coordinates "E-1" for testing. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 9 RM-609 Service Tools and Service Concepts SD-77 Dummy battery SD-77 is designed to support mass SW flashing which enables local mode while connecting the phone. This dummy battery can be used with Nokia battery types BL-5K, BV-4D, BL-4D, BP-4L. SRT-6 Opening tool SRT-6 is used to open phone covers. Note: The SRT-6 is included in the Nokia Standard Toolkit. SS-210 Camera removal tool The camera removal tool SS-210 is used to remove/attach the camera module from/to the socket. SS-93 Opening tool SS-93 is used for opening JAE connectors. Note: The SS-93 is included in Nokia Standard Toolkit. SX-4 Smart card SX-4 is a BB5 security device used to protect critical features in tuning and testing. SX-4 is also needed together with FPS-21 when DCT-4 phones are flashed. Page 2 – 10 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts Removing a camera with the removal tool SS-210 Steps 1. Insert the camera tool on top of the camera, do not press the metal sheets down. 2. Press the camera down a little bit with the camera tool black plastic part. 3. Press the metal sheets down. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 11 RM-609 Service Tools and Service Concepts 4. Press the metal plates from the sides to tighten them to the camera. 5. Pull out the camera. Cables The table below gives a short overview of service devices that can be used for testing, error analysis, and repair of product RM-609. For the correct use of the service devices, and the best effort of workbench setup, please refer to various concepts. Page 2 – 12 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts CA-101 Micro USB cable The CA-101 is a USB-to-microUSB data cable that allows connections between the PC and the phone. CA-128RS RF tuning cable Product-specific adapter cable for RF tuning. CA-31D USB cable The CA-31D USB cable is used to connect FPS-21 to a PC. It is included in the FPS-21 sales package. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 13 RM-609 Service Tools and Service Concepts CA-89DS Cable Provides VBAT and Flashbus connections to mobile device programming adapters. CA-99PS Adapter CA-99PS adapter, 3.5 jack to 5.5 plug. PCS-1 Power cable The PCS-1 power cable (DC) is used with a docking station, a module jig or a control unit to supply a controlled voltage. Page 2 – 14 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts XRS-6 RF cable The RF cable is used to connect, for example, a module repair jig to the RF measurement equipment. SMA to N-Connector approximately 610 mm. Attenuation for: • GSM850/900: 0.3+-0.1 dB • GSM1800/1900: 0.5+-0.1 dB • WCDMA/WLAN: 0.6+-0.1dB Service concepts POS (Point of Sale) flash concept Figure 2 POS flash concept Type Description Product specific tools SD-77 Issue 1 Care dummy battery COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 15 RM-609 Service Tools and Service Concepts Type Description Other tools FLS-5 POS flash dongle PC with Phoenix service software Cables CA-101 Micro USB cable BB5 USB only – Basic flash concept L3 Figure 3 BB5 USB only – Basic flash concept L3 Type Description Product specific devices SD-77 Care dummy battery Other devices PK-1 Page 2 – 16 SW security device COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts Type Description PC with Phoenix service software Cables CA-101 Micro USB cable Level 3 concept for flashing, certificate restore and product code change option 3 Figure 4 Level 3 concept for flashing, certificate restore and product code change Type Description Product specific devices SD-77 Care dummy battery Other devices CA-146C Power conversion adapter FPS-21 Flash prommer box AC-35 Power supply PK-1 SW security device SX-4 Smart card (for DCT-4 generation mobile device programming) PC with Phoenix service software Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 17 RM-609 Service Tools and Service Concepts Type Description Cables CA-101 Micro USB cable CA-89DS Service cable BB5 MJ-300 universal module jig concept Figure 5 BB5 MJ-300 universal module jig concept Type Description Product specific tools MJ-300 Module jig Other tools FPS-21 Flash prommer box PK-1 SW security device SX-4 Smart card Page 2 – 18 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts Type Description PC with service software Cables CA-101 Micro USB cable CA-89DS Service cable CA-99PS Adapter PCS-1 Power cable USB cable BB5 Extended MJ-300 universal module jig concept Figure 6 BB5 Extended MJ-300 universal module jig concept Type Description Phone specific devices MJ-300 Module jig Other devices Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 19 RM-609 Service Tools and Service Concepts Type Description CU-4 Control unit SS-227 CU-4 interface part FPS-21 Flash prommer box PK-1 SW security device SX-4 Smart card PC with service software Measurement equipment Cables CA-101 Micro USB cable PCS-1 DC power cable XRS-6 RF cable USB cable GPIB control cable CA-128RS Page 2 – 20 Product specific RF adapter cable COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Service Tools and Service Concepts Bluetooth testing concept with SB-6 Figure 7 Bluetooth testing concept with SB-6 Type Description Product specific devices BP-4L Battery Other devices PK-1 SW security device SX-4 Smart card SB-6 Bluetooth test and interface box Smart card reader PC with Phoenix service software Cables CA-101 Issue 1 Micro USB cable COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 2 – 21 RM-609 Service Tools and Service Concepts WLAN functionality testing concept with SB-7 Figure 8 WLAN functionality testing concept with SB-7 Type Description Product specific tools BP-4L Battery Other tools SX-4 Smart card PK-1 SW Security device Note: PK-1 can be used instead of PKD-1. Cables CA-101 Page 2 – 22 Micro USB cable COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 Nokia Customer Care 3 — BB Troubleshooting and Manual Tuning Guide Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 1 RM-609 BB Troubleshooting and Manual Tuning Guide (This page left intentionally blank.) Page 3 – 2 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Table of Contents Baseband main troubleshooting ......................................................................................................................... 3–5 Power and charging troubleshooting................................................................................................................. 3–9 Backup battery troubleshooting..................................................................................................................... 3–9 Battery current measuring fault troubleshooting ..................................................................................... 3–10 General power checking troubleshooting .................................................................................................. 3–11 Dead or jammed device troubleshooting ................................................................................................... 3–11 Dynamo charging troubleshooting ............................................................................................................. 3–13 Clocking troubleshooting ............................................................................................................................. 3–14 USB charging troubleshooting..................................................................................................................... 3–15 Interface troubleshooting ................................................................................................................................. 3–16 USB data interface troubleshooting ............................................................................................................ 3–16 SIM card troubleshooting ............................................................................................................................. 3–17 MicroSD card troubleshooting...................................................................................................................... 3–19 IVE troubleshooting ........................................................................................................................................... 3–19 Introduction to IVE troubleshooting ........................................................................................................... 3–19 IVE troubleshooting ...................................................................................................................................... 3–21 TV out troubleshooting...................................................................................................................................... 3–22 Introduction to SDTV troubleshooting........................................................................................................ 3–22 SDTV out troubleshooting ............................................................................................................................ 3–23 Display module troubleshooting ...................................................................................................................... 3–25 General instructions for display troubleshooting...................................................................................... 3–25 Introduction to display troubleshooting .................................................................................................... 3–26 Display fault troubleshooting ...................................................................................................................... 3–27 Touch panel troubleshooting....................................................................................................................... 3–27 Illumination troubleshooting ...................................................................................................................... 3–29 Charging illumination troubleshooting ................................................................................................. 3–29 Menu key backlight troubleshooting ..................................................................................................... 3–29 Keyboard troubleshooting ................................................................................................................................ 3–31 Keys troubleshooting.................................................................................................................................... 3–31 Power key troubleshooting.......................................................................................................................... 3–31 Sensors troubleshooting ................................................................................................................................... 3–32 Accelerometer troubleshooting................................................................................................................... 3–32 Magnetometer troubleshooting .................................................................................................................. 3–33 Proximity sensor troubleshooting............................................................................................................... 3–34 Audio troubleshooting....................................................................................................................................... 3–34 Audio troubleshooting test instructions..................................................................................................... 3–34 External earpiece troubleshooting.............................................................................................................. 3–36 External microphone troubleshooting........................................................................................................ 3–37 Internal earpiece troubleshooting .............................................................................................................. 3–37 Internal handsfree (IHF) troubleshooting................................................................................................... 3–40 Internal microphone troubleshooting ........................................................................................................ 3–40 Vibra troubleshooting................................................................................................................................... 3–41 ALS technical description and troubleshooting .............................................................................................. 3–42 Dipro ALS function......................................................................................................................................... 3–42 Re-tuning ALS................................................................................................................................................. 3–43 Bluetooth and FM radio troubleshooting ........................................................................................................ 3–43 Introduction to Bluetooth/FM radio troubleshooting ............................................................................... 3–43 Bluetooth BER test......................................................................................................................................... 3–45 Bluetooth and FM radio self tests in Phoenix............................................................................................. 3–46 Bluetooth troubleshooting .......................................................................................................................... 3–47 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 3 RM-609 BB Troubleshooting and Manual Tuning Guide FM radio troubleshooting............................................................................................................................. FM radio testing............................................................................................................................................. GPS troubleshooting .......................................................................................................................................... GPS layout and basic test points.................................................................................................................. GPS settings for Phoenix............................................................................................................................... Quick Test window................................................................................................................................... GPS control................................................................................................................................................ GPS troubleshooting ..................................................................................................................................... WLAN troubleshooting....................................................................................................................................... WLAN functional description........................................................................................................................ WLAN settings for Phoenix........................................................................................................................... WLAN functional tests................................................................................................................................... WLAN auto tuning ......................................................................................................................................... WLAN troubleshooting ................................................................................................................................. Baseband manual tuning guide........................................................................................................................ Certificate restoring ...................................................................................................................................... Product code change .................................................................................................................................... Energy management calibration ................................................................................................................. 3–47 3–49 3–49 3–49 3–49 3–49 3–50 3–52 3–52 3–52 3–53 3–54 3–57 3–58 3–59 3–59 3–62 3–66 List of Tables Table 6 Display module troubleshooting cases............................................................................................... Table 7 Pixel defects .......................................................................................................................................... Table 8 Defects table.......................................................................................................................................... Table 9 Calibration value limits ........................................................................................................................ 3–25 3–25 3–26 3–67 List of Figures Figure 9 SIM power-on sequence on X2700. Sequence is first done at 1.8V and then changed to 3.0V.... 3–18 Figure 10 Expected Crystal clock input to BCM2727B on Oscilloscope .......................................................... Figure 11 Expected SDTV CVBS PAL signal on Oscilloscope............................................................................. Figure 12 Expected SDTV CVBS NTSC signal on Oscilloscope........................................................................... Figure 13 Phoenix audio sweep ....................................................................................................................... Figure 14 Earpiece audio signals ...................................................................................................................... Figure 15 VDigiMic audioclk .............................................................................................................................. Figure 16 Vibra drive.......................................................................................................................................... Figure 17 Bluetooth/WLAN antenna ................................................................................................................ Figure 18 Bluetooth and FM radio self tests in Phoenix................................................................................. Figure 19 GPS Quick Test window .................................................................................................................... Figure 20 GPS Control dialogue box ................................................................................................................. 3–21 3–24 3–24 3–38 3–38 3–41 3–42 3–43 3–46 3–50 3–51 Page 3 – 4 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Baseband main troubleshooting Context Always start the troubleshooting procedure by running the Phoenix self tests. If a test fails, please follow the diagrams below. If the phone is dead and you cannot perform the self tests, go to Dead or jammed device troubleshooting. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 5 RM-609 BB Troubleshooting and Manual Tuning Guide Troubleshooting flow — Page 1 of 3 Page 3 – 6 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Troubleshooting flow — Page 2 of 3 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 7 RM-609 BB Troubleshooting and Manual Tuning Guide Troubleshooting flow — Page 3 of 3 Page 3 – 8 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Power and charging troubleshooting Backup battery troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 9 RM-609 BB Troubleshooting and Manual Tuning Guide Battery current measuring fault troubleshooting Troubleshooting flow Page 3 – 10 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide General power checking troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 11 RM-609 BB Troubleshooting and Manual Tuning Guide Dead or jammed device troubleshooting Troubleshooting flow Page 3 – 12 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Dynamo charging troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 13 RM-609 BB Troubleshooting and Manual Tuning Guide Clocking troubleshooting Troubleshooting flow Page 3 – 14 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide USB charging troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 15 RM-609 BB Troubleshooting and Manual Tuning Guide Interface troubleshooting USB data interface troubleshooting Troubleshooting flow Page 3 – 16 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide SIM card troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 17 RM-609 BB Troubleshooting and Manual Tuning Guide Figure 9 SIM power-on sequence on X2700. Sequence is first done at 1.8V and then changed to 3.0V. Page 3 – 18 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide MicroSD card troubleshooting Troubleshooting flow IVE troubleshooting Introduction to IVE troubleshooting The IVE engine is a next generation imaging and video engine based on BCM2727B. The BCM2727B acts as imaging, video, display, and HDTV and SDTV hardware accelerator. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 19 RM-609 BB Troubleshooting and Manual Tuning Guide The following references on the PWB help in the effective debugging and troubleshooting of IVE. Sr. No Reference Description 1 B1400 19.2MHz Crystal 2 D1400 IVE/BCM2727B IC The following test points on the PWB help in the effective debugging and troubleshooting. Sr. No Signal name Measuring point Description 1 VIVE_2V5_FILT C1417 2.5V supply to BCM2727B 2 VIVE_2V8_FILT C1414 2.8V supply to BCM2727B 3 VIVE_1V8_FILT C1406 1.8V supply to BCM2727B 4 VBAT L1407 VBAT supply to BCM2727B 5 RUN J1413 Enable signal to IVE. This needs to be High for IVE to be Up. 6 XIN C1448 19.2MHz clock to IVE Page 3 – 20 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide IVE troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 21 RM-609 BB Troubleshooting and Manual Tuning Guide Figure 10 Expected Crystal clock input to BCM2727B on Oscilloscope TV out troubleshooting Introduction to SDTV troubleshooting SDTV The phone has SDTV capability. The phone can be connected to an analog TV through a TV Out cable. The following references on the PWB help in the effective debugging and troubleshooting of SDTV Out. Sr. No Reference Description 1 R1419 DAC termination resistor. Resistor value 15 OHMS. 2 D1400 BCM2727B IC 3 N2001 Analog switch 4 L2001 Ferrite bead on the CVBS signal 5 Gold pads E2002 through E2007 AV connector The following test points on the PWB help in the effective debugging and troubleshooting. Sr No 1 Page 3 – 22 Signal name CVBS Measuring point Gold pad E2003 Description SDTV signal COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide SDTV out troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 23 RM-609 BB Troubleshooting and Manual Tuning Guide Figure 11 Expected SDTV CVBS PAL signal on Oscilloscope Figure 12 Expected SDTV CVBS NTSC signal on Oscilloscope Page 3 – 24 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Display module troubleshooting General instructions for display troubleshooting The first step is to verify with a working display that the fault is not on the display module itself. The display module cannot be repaired. The second step is to check that the engine is working normally. This can be done by connecting the phone to a docking station and starting Phoenix service software. With the help of Phoenix read the phone information to check that also the application engine is functioning normally (you should be able to read the APE ID). After these checks proceed to the display troubleshooting flowcharts. Use the Display Test tool in Phoenix to find the detailed fault mode. Pixel defects Table 6 Display module troubleshooting cases Display blank There is no image on the display. The display looks the same when the phone is on as it does when the phone is off. The backlight can be on in some cases. Image on the display not correct Image on the display can be corrupted or a part of the image can be missing. If a part of the image is missing, change the display module. If the image is otherwise corrupted, follow the appropriate troubleshooting diagram. Backlight dim or not working at all Backlight LED components are inside the display module. Backlight failure can also be in the connector or in the backlight power source in the main engine of the phone. Backlight is also controlled automatically by the ambient light sensor. This means that in case the display is working (image OK), the backlight is faulty. Visual defects (pixel) Pixel defects can be checked by controlling the display with Phoenix. Use both colours, black and white, on a full screen. The display may have some random pixel defects that are acceptable for this type of display. The criteria when pixel defects are regarded as a display failure, resulting in a replacement of the display, are presented the following table. Table 7 Pixel defects Bright sub-pixels Issue 1 (sometimes called on-pixels or stuck-on) are characterized by the appearance of bright/colored pixels in, for example, black full screen picture. COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 25 RM-609 BB Troubleshooting and Manual Tuning Guide Dark sub-pixels (sometimes called off-pixels, stuck-off, or black pixels) are characterized by the appearance of dark pixels in white, red, green, or blue full-screen picture. Combined sub-pixel defects are characterized by at least two sub-pixels defects (bright or dim) being closer than 5 mm to each other. Temporal sub-pixels (sometimes called blinking defects) exhibit temporal variations not related to any steady-state video input. Temporal sub-pixel defects may be intermittent, exhibit a sudden change of state, or be flickering. Table 8 Defects table Item Bright dot (subpixel) defect 1 Defect counts Not allowed 2 Combined subpixel defect Not allowed 3 Temporal subpixel defect Not allowed Dark dot (subpixel) defect Total Note: Blinking pixels are not allowed in normal operating temperatures and light conditions. Introduction to display troubleshooting The display module is a 640 X 480 VGA colour LCD known as 'Batura.' It connects to the main engine by a multi-way ZIF connector. The locking lever mechanism on this connector must be carefully lifted up before removing the LCD flexi. The following references on the PWB help in the effective debugging and troubleshooting of the display. Sr No Reference Description 1 X2450 Display connector 2 D1400 BCM2727B IC The following test points on the PWB help in the effective debugging and troubleshooting. Sr. No Signal name Measuring point Description 1 VIO L2473 1.8V supply to display 2 VAUX1 L2472 2.78V supply to display Page 3 – 26 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Display fault troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 27 RM-609 BB Troubleshooting and Manual Tuning Guide Touch panel troubleshooting Troubleshooting flow Page 3 – 28 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Illumination troubleshooting Charging illumination troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 29 RM-609 BB Troubleshooting and Manual Tuning Guide Menu key backlight troubleshooting Troubleshooting flow Page 3 – 30 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Keyboard troubleshooting Keys troubleshooting Troubleshooting flow Power key troubleshooting The power key has a 10K pull-up resistor to VBAT and is normally high. A low level voltage should happen when the key is pressed, and if this is long enough, the phone should turn ON if it is OFF and OFF if it is ON. Check for mechanical damage to the outer button, stuck or misplaced gaskets, broken switch, liquid contamination or broken solder pads or joints. Repair if possible. Electrical tests, measure: Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 31 RM-609 BB Troubleshooting and Manual Tuning Guide • With switch open, you should measure VBAT at both ends of R2400. • With switch closed, you should measure VBAT at top end of R2400 and 0V at switch end of R2400. Component check and consider replacement of: • • • • V2400 for short circuit. R2400 for open circuit. S2401 for short circuit. N2200 main power ASIC may be broken. Sensors troubleshooting Accelerometer troubleshooting Troubleshooting flow Page 3 – 32 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Magnetometer troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 33 RM-609 BB Troubleshooting and Manual Tuning Guide Proximity sensor troubleshooting Troubleshooting flow Audio troubleshooting Audio troubleshooting test instructions Single-ended external earpiece and differential internal earpiece outputs can be measured either with a single-ended or a differential probe. When measuring with a single-ended probe each output is measured against the ground. Internal handsfree output is measured using a current probe, if a special low-pass filter designed for measuring a digital amplifier is not available. Note also that when using a current probe, the input signal frequency must be set to 2 kHz. The input signal for each loop test can be either single-ended or differential. Exception to this is a digital microphone which needs input signal from an external sound source (laptop speaker) to playback, eg. 1 kHz sine wave from 5 cm distance. Page 3 – 34 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Required equipment The following equipment is needed for the tests: • Oscilloscope • Function generator (sine waveform) • Current probe (Internal handsfree DPMA output measurement) • Phoenix service software • Battery voltage 3.7V • Sound source (laptop speaker or B&K type 4231 calibrator) Test procedure Audio can be tested using the Phoenix audio routings option. Three different audio loop paths can be activated: • External headset mic to earpiece • External headset mic to IHF mono • Internal digital microphone to headset Each audio loop sets routing from the specified input to the specified output enabling a quick in-out test. Loop path gains are fixed and they cannot be changed using Phoenix. Correct pins and signals for each test are presented in the following table. Phoenix audio loop tests and test results The results presented in the table apply when no accessory is connected and battery voltage is set to 3.7V. Earpiece, internal microphone and speaker are in place during measurement. Applying a headset accessory during measurement causes a significant drop in measured quantities. The gain values presented in the table apply for a differential output vs. single-ended/differential input. Loop test Input terminal Output terminal Path gain [dB] (fixed) Input voltage [mVp-p] Output DC level [V] Output voltage [mVp-p] External headset mic to earpiece HS_MIC & GND J2101 0 300 1.35 300 External headset mic to IHF mono HS_MIC & GND L2158 10 200 630 Internal digital micropho ne to headset Acoustica l Input, 1kHz sine wave E2006 NA 94 dBSPL 70 Issue 1 J2100 L2159 E2007 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 35 RM-609 BB Troubleshooting and Manual Tuning Guide External earpiece troubleshooting Troubleshooting flow Page 3 – 36 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide External microphone troubleshooting Troubleshooting flow Internal earpiece troubleshooting Check for obvious blocked holes, magnetic filings or debris jamming the earpiece, broken gauze, misplaced gaskets, dirty contacts. Clean, fix or replace if required. Electrical tests using the Phoenix audio sweep, measure: • D.C. voltage plus audio at J2100 • Same D.C. voltage plus inverse audio at J2101 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 37 RM-609 BB Troubleshooting and Manual Tuning Guide Figure 13 Phoenix audio sweep Figure 14 Earpiece audio signals Page 3 – 38 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Component check and consider replacement of: • Earpiece transducer • Gold Pads J2100 and J2101 maybe worn • L2103 maybe open circuit • L2104 maybe open circuit • N2200 audio ASIC may be broken Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 39 RM-609 BB Troubleshooting and Manual Tuning Guide Internal handsfree (IHF) troubleshooting Troubleshooting flow Page 3 – 40 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Internal microphone troubleshooting Check for mechanical contamination in the microphone holes, misplaced gaskets, misplaced gauze, liquid damage. Perform DigiMic Self Test. Electrical tests using audio clip record application, measure: • 1.8V on VDigiMic on C2115 • DigiMicClk on J2856 (There is no test access to DigimicData) Figure 15 VDigiMic audioclk Component check and consider replacement of: • C2115 microphone VDigiMic supply decoupling maybe short • C2850 microphone clock filter maybe short circuit • B2100 main microphone maybe broken (no audio or intermittant audio) • B2104 noise cancelling microphone maybe broken (poor audio or strange fault report) • N2200 audio asic • D2800 main BB asic Vibra troubleshooting Check for mechanical jamming by foreign object, sticky vibra shaft or obvious damage. Electrical tests using normal touchscreen haptics screenpress operation, ensure the option is activated and measure: Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 41 RM-609 BB Troubleshooting and Manual Tuning Guide • Drive signals on + and - side of vibra • Drive signals on other side of L2105, L2106 Figure 16 Vibra drive Component check and consider replacement of: • • • • • • • M2100 vibra motor C2108 maybe short C2109 maybe short C2110 maybe short L2105 maybe short L2106 maybe short N2200 audio asic Tip: Dilbert vibra drive signals are generated in N2200, so there is no point replacing D2800 to try to fix a vibra fault. ALS technical description and troubleshooting Dipro ALS function The automatic light sensor and proximity sensor functions are combined in N1100, "Dipro". The ALS is used to change the brightness of the display and LED lighting. The proximity sensor picks up reflected short pulses of infra-red light from LED V1100 and is used to turn the display off when in-call to save power. Check for the display changing brightness in different lighting, with the phone user setting adjusted appropriately. Perform Dipro Self Test. Page 3 – 42 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Check for misplaced gaskets, mechanical contamination, obvious window problems. Electrical tests, measure: • VBAT at C1100 • VAUX2 2.8V at C1101 • ALS related I2C traffic when light level changes at R2850 and R2851 • VIO on supply side of R2850 and R2851 Component check and consider replacement of: • C1100 VAUX2 decoupler maybe short • N1100 Dipro device Tip: You can check for IR LED stuck "ON" by viewing the IR LED with a normal phone digital camera. Re-tuning ALS There is no need to re-tune ALS, since ALS default value will be written the first time the phone boots up. Bluetooth and FM radio troubleshooting Introduction to Bluetooth/FM radio troubleshooting Bluetooth/WLAN antenna The BT RF signal is routed from BTFMRDS2.2 through the WLAN module to the shared WLAN/BT antenna in the phone's B-cover. Check the antenna pin contacts with Bluetooth/WLAN antenna. Figure 17 Bluetooth/WLAN antenna Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 43 RM-609 BB Troubleshooting and Manual Tuning Guide Introduction to Bluetooth/FM radio troubleshooting The Bluetooth and FM radio are combined in the same ASIC, so both features are checked when troubleshooting. The following problems can occur with the Bluetooth and FM radio hardware: Symptom Problem Repair solution Unable to switch on Bluetooth on phone user interface Open circuit solder joints or component failure of BTH/FM ASIC/module BB ASICs or SMD components Replacement of Bluetooth/ FM ASIC/module Able to send data file to another Bluetooth device, but unable to hear audio through functional Bluetooth headset Open circuit solder joints or component failure of BTH/FM ASIC/module BB ASICs Replacement of Bluetooth/ FM ASIC/module Able to switch on Bluetooth on phone user interface, but unable to detect other Bluetooth devices Open circuit solder joints or antenna pins not making contact with Bluetooth/WLAN antenna Repair or replace Bluetooth/ WLAN antenna Able to turn on FM radio and Bluetooth on phone user interface, but unable to detect local FM radio stations with Nokia headset inserted Open circuit solder joints or detached component in FM antenna circuit Repair components or replace Bluetooth/WLAN antenna module Able to perform scans to detect local FM radio stations with functional Nokia headset inserted, but unable to hear FM audio through headset Open circuit solder joints or detached component in FM audio path between Bluetooth/ FM ASIC and headset Check antenna pin contacts with Bluetooth/WLAN antenna Repair of FM audio circuit Users may experience the following problems resulting in functional phones being returned to the repair centre: Symptom Problem Repair solution Bluetooth feature does not operate as desired with another Bluetooth device Bluetooth Profile implemented in Bluetooth accessory not supported in Nokia phone Use Bluetooth accessory with Bluetooth profiles supported by phone Poor FM radio reception (unable to detect many radio stations) Nokia headset not being used Use Nokia headset Test coverage The tests listed in the table below should be performed to verify whether the Bluetooth and FM receiver and transmitter are functional. The use of Self Tests are described in section BT and FM Self Tests in Phoenix Page 3 – 44 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Test Test Coverage Repair solution Blueooth Self Test: ST_LPRF_IF_TEST Bluetooth-FM ASIC UART interface (controls Bluetooth and FM receiver and transmitter) Replacement of Bluetooth/FM ASIC (or repair of phone BB) Bluetooth Self Test: ST_BT_WAKEUP_TEST Bluetooth ASIC interrupt control interface Replacement of Bluetooth/FM ASIC (or repair of phone BB) Bluetooth Self Test: ST_LPRF_AUDIO_LINES_TEST Bluetooth ASIC PCM interface Replacement of Bluetooth/FM ASIC (or repair of phone BB) Bluetooth Functional Test: BER test with BT-Box or functional test with other Bluetooth device Bluetooth antenna circuit Repair of Bluetooth antenna circuit (including RF filter or WLAN switch if fitted) FM Radio Self Test: ST_RADIO_TEST FM Radio I2C interface Replacement of Bluetooth/FM ASIC (or repair of phone BB) FM Radio Functional Test: Perform scan for local radio stations and check station list displayed on phone FM receiver antenna circuit Repair of FM antenna circuit (between BTHFM ASIC and headset connector) FM Radio Functional Test: Listen to local radio station FM receiver audio circuit Repair of FM receiver audio circuit (between BTHFM ASIC and headset connector) The self tests run from Phoenix software are used for fault diagnosis. If Phoenix software is not available the functional tests with phone accessories are sufficient to verify the functionality Bluetooth and FM radio receiver and transmitter. Bluetooth/FM radio component layout and test points The Bluetooth antenna is product specific (antenna integrated into phone B cover). On phones with WLAN, the Bluetooth RF signal is routed through a WLAN front-end module and a shared Bluetooth / WLAN antenna is used. The FM RF signal is routed through a product specific FM antenna matching circuit to the phone headset connector. The FM radio audio signal is routed to the headset connector through the BB ASIC shared by the phone audio functions. Bluetooth BER test Prerequisites JBT-9, or SB-6 Bluetooth test box (BT-box) is required to perform a BER test. If a BT-box not available Bluetooth functionality can be checked by transferring a file to another Bluetooth phone. Steps 1. Connect data cable to phone. 2. Start Phoenix service software. 3. Choose File → Scan Product. 4. Choose Testing → Bluetooth LOCALS . 5. Locate the BT-box serial number (12 digits) found in the type label on the back of the JBT-9, or SB-6 Bluetooth test box. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 45 RM-609 BB Troubleshooting and Manual Tuning Guide 6. In the Bluetooth LOCALS window, write the 12-digit serial number on the Counterpart BT Device Address line. 7. Place the BT-box near (within 10 cm) of the phone and click Start BER Test. Bluetooth and FM radio self tests in Phoenix Prerequisites A flash adapter (or phone data cable) connected to a PC with Phoenix service software is required. Steps 1. Place the phone in the flash adapter or connect data cable to phone. 2. Start Phoenix service software. 3. Choose File → Scan Product. 4. From the Mode drop-down menu, set mode to Local. 5. Choose Testing → Self Tests. 6. In the Self Tests window check the following Bluetooth and FM radio related tests: • ST_LPRF_IF_TEST • ST_LPRF_AUDIO_LINES_TEST • ST_BT_WAKEUP_TEST • ST_RADIO_TEST 7. To run the tests, click Start. Figure 18 Bluetooth and FM radio self tests in Phoenix Page 3 – 46 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Bluetooth troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 47 RM-609 BB Troubleshooting and Manual Tuning Guide FM radio troubleshooting Troubleshooting flow Page 3 – 48 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide FM radio testing Steps 1. Set signal generator parameters: • FM modulation on • Frequency 100MHz • FM deviation 22kHz • Modulation frequency 1kHz • RF level should be varied during the test to obtain good audio signal quality • Connect suitable antenna to signal generator Note: You may alternatively use a known good FM radio broadcast as a test signal. 2. Attach the Nokia headset to the phone’s AV connector. 3. Use Scroll button to autotune to the radio frequency. 4. Set volume to suitable level. 5. Check audio quality with a headset. GPS troubleshooting GPS layout and basic test points The GPS components are located on the bottom side of the PWB. The GPS chip and associated components are in a can which does not have a removable lid. Satellite signals are picked up by the GPS antenna in the B-cover. The signal is then routed through a diplexer and then a filter before being processed by the GPS5350 receiver ASIC. GPS settings for Phoenix Quick Test window This test will perform 3 tests in one: Self test, Oscillator Test and CW Test and will provide a Pass/Fail Response for each. The HW Self Test confirms basic communication with the GPS ASIC. The oscillator test confirms the frequency accuracy of the GPS TCXO against the Ref_Clk. The CW Test confirms end-to-end connectivity between the GPS antenna and the GPS ASIC. It also contains a receive button. Before this test is performed a known good phone should be tested in order to calibrate the setup. The signal level of the Signal Generator should be adjusted so a reading of SNR 35 dB is achieved with the reference unit. A good starting point is to set up the signal generator to -50 dBm. These checks are part of GPS failure troubleshooting. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 49 RM-609 BB Troubleshooting and Manual Tuning Guide Figure 19 GPS Quick Test window GPS control Prerequisites A flash adapter with RF coupler connected to a PC with Phoenix service software is required. The GPS signal should be connected to the RF coupler. Calibrate the signal level with a known good phone. Signal level will be high (approx -45dBm) because it is a leakage connection. Context Use the following to test GPS using Phoenix. Steps 1. Place phone to Flash Adaptor. 2. Start Phoenix service software. 3. From the File menu, select Scan Product and check that the correct product version is displayed. Page 3 – 50 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide 4. From the Testing menu, select GPS Control. This opens up GPS Control dialogue box, as shown in the figure below, and enables the GPS. Figure 20 GPS Control dialogue box Select Idle to confirm the GPS is enabled and is in idle mode; at this point all clocks should be present, GPS_En_Reset & SleepX should be high, and Vdd_Dig, Vcc_TCXO & Vcc_PLL/VCO will be present. Receiver On turns on all RF sections of the ASIC and so all LDOs will be on. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 51 RM-609 BB Troubleshooting and Manual Tuning Guide GPS troubleshooting Troubleshooting flow WLAN troubleshooting WLAN functional description The Bob 1.0 module is a combined device with WLAN and Bluetooth functionality. It has a single antenna connection and uses the CWS antenna through a diplexer. The Bob software is downloaded from the host engine when the phone is powered on through the dedicated SPI interface. The Bob 38.4MHz clock is supplied from the Linko engine. Page 3 – 52 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide WLAN settings for Phoenix Use the following to test WLAN using Phoenix: 1 Set phone into Local Mode . 2 From the File menu, select Scan Product and check that the correct product version is displayed 3 From the Testing menu, select Self Test. This opens up a Self Test dialogue box, as shown below. Select the ST_WLAN_TEST check box as shown and then select Start button. The test turns on the WLAN, sets up the SPI interface and then downloads the WLAN firmware into the WLAN module. During the download the WLAN acknowledges the data blocks and so the self test is a good way to confirm that the WLAN module is communicating with the Host. The result column will change to Passed after a few seconds if operating properly. In addition, a test of the Bluetooth interface can be done by selecting the ST_BT_WAKEUP_TEST. This test verifies the interface to Bluetooth. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 53 RM-609 BB Troubleshooting and Manual Tuning Guide In summary these two Self tests provide a simple means of ensuring the Host engine is able to communicate with the WLAN module and check the interface to BTH. More detailed WLAN performance test is covered in WLAN functional test section. WLAN functional tests On/Off test Prerequisites A flash adapter connected to a PC with Phoenix service software is required. From the testing toolbar select WLAN Configuration option. This opens the WLAN configuration dialogue box below. Selecting the Power state option button (as indicated), the WLAN can be turned ON and OFF: 1 With Power State set to OFF, measure the dc power supply current consumption of the flash adaptor. 2 Next return the Power state to ON and re-measure the dc power supply current of the flash adaptor. The difference between the currents in (1) and (2) should be between 190 to 220mA. When WLAN is ON, the firmware has been downloaded and the WLAN module is in the receive state. When OFF WLAN is powered down. Page 3 – 54 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide TX tests Prerequisites From the testing toolbar select WLAN Tx Test option shown below. This test can be used to verify TX configuration and functionality. The default settings are sufficient for testing the TX operation, although other channels and data rates are equally suitable. To start the test, select the Start option button: 1 Monitor the WLAN TX spectrum on a Spectrum analyser. (When making a radiated test ensure that other WLAN devices are not transmitting as these may be detected as well, confusing the result). A typical 11MBPS TX spectrum is shown in figure below. 2 To finish the test select the Finish option button. The difference between the two readings should be approximately 150mA and measures the transmit current in 11MBPS, 802.11b mode of operation. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 55 RM-609 BB Troubleshooting and Manual Tuning Guide RX Tests Prerequisites There are different options available for testing the Rx path. The simplest is to use the WLAN to report Rx packets when operating in an area where there is an active WLAN network. Simply starting an Rx test will show the number of packets detected by the WLAN module as it monitors the network. However, it does require a properly configured WLAN network. From the testing toolbar select WLAN Rx Test option shown below. This test can be used to verify Rx configuration and functionality. Page 3 – 56 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide To start the test, select the Start option button. As the WLAN monitors an active WLAN network, the Rx test results window will update and show the number of Frames received, as well as the Packer error rate. Monitoring the detected frames is a simple method to verify the WLAN antenna and receiver path is working properly. WLAN auto tuning In case of WLAN ASIC change, RF power auto tuning is needed. Connect WLAN RF test connector to CMU200 input using proper RF cable. Start Phoenix WLAN autotune window. Check the settings and verify your PC communicates with CMU200 via GBIP. Auto tuning procedure 1 Open the Tuning → WLAN_TX_TUNING menu and click Start Power Calibration. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 57 RM-609 BB Troubleshooting and Manual Tuning Guide 2 To save the tune data, open the Extended Tuning menu and click Write. WLAN troubleshooting Troubleshooting flow Page 3 – 58 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide Baseband manual tuning guide Certificate restoring Context This procedure is performed when the device certificate is corrupted for some reason. All tunings (RF & Baseband, UI) must be done after performing the certificate restoring procedure. Required equipment and setup: • Latest Phoenix service software. • “Tucson add on” package if one has been released between complete Phoenix releases • FPS-10 or 21 Flash prommer updated with latest flash update package. • Latest product specific data package, supporting for the variants you want to change the phones to. Certificate restoring without flashing does not require data packages to be installed • SX-4 or SX-4T Smart Card, which has been registered for Tucson use in Nokia Online Security Device Master, and for which local Nokia Care has granted Tucson user rights • BB 5.0 models:SS-46 with phone specific flash adapter connected to flash prommer • DCT-4 models:JBV-1 with phone specific flash adapter connected to flash prommer • Active online connection to internet, please refer to Technical Bulletins for IP addresses Connection to Tucson online server: • All requests are handled online. That means a permanent Internet connection is required. Previously used e-mail based system is no longer in use. • Phoenix, when contacting Tucson server, is using IP address, 147.243.3.169 port 443 Terms in Tucson: • When certificate restoring for BB 5 products or IMEI rebuild for DCT-4 products is performed, existing data from Nokia System is programmed in the phone. The phone will be in the same condition as it was when it left the factory for the first time. • If “Product Code Change” has been SUCCESSFULLY performed with Tucson after the phone left the factory, it will be restored back to the variant it was made into during Product Code change event. • It is recommended to perform “Restore” function without selecting “Flash Product” – option to avoid possible SW downgrade which causes the phone to die. The procedure for certificate restoring is the following: Steps 1. Connect phone and scan product, read phone information to check communication with phone. 2. Open Tools ->Menu. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 59 RM-609 BB Troubleshooting and Manual Tuning Guide 3. Provide Tucson password and PIN code which have been delivered to you by email. Please note that characters are case sensitive. 4. Select OK, Phoenix will read product information from phone. 5. Product code shown on the UI does not matter, because during restoring it will be replaced by the product code which is the latest one stored in Nokia system. 6. It is recommended to perform "Restore"-function without selecting "Flash Product"-option to avoid possible SW downgrade which causes the phone to die. Page 3 – 60 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide 7. Information from phone and Smart Card are read and connection to Tucson server is established. 8. Information from Nokia system is retreived and programmed in the phone. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 61 RM-609 BB Troubleshooting and Manual Tuning Guide 9. After programming, confirmation about successful event is sent to Nokia system. Next actions After a successful rewrite, you must retune the phone completely by using Phoenix tuning functions. Important: Perform all tunings: RF, BB, and UI. Product code change Context • When Product Code change with Tucson is successfully performed, phone variant will be changed. Data for the new variant is extracted from Nokia System, and programmed in the phone. • After successful change, phone specific information in Nokia systems will match the new variant, and it can be used for e.g. certificate restoring. If you perform several product code changes, Nokia system will always be up to date with the latest successful event. • Failed / incomplete actions will not change the phone specific information in Nokia systems. • This function can be performed with or without flashing the phone with correct software, selection can be made by checking / unchecking the tick box on Phoenix UI. The procedure for product code change is the following: Steps 1. Connect phone and scan product, read phone information to check communication with phone 2. Open Tools ->Product Code Change. Page 3 – 62 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide 3. Provide Tucson password and PIN code which have been delivered to you by email. Please note that characters are case sensitive. 4. Select product code of new variant from list. If the product code you want is not shown, please install correct data package including the variant. 5. Select “OK” and “SWAP”. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 63 RM-609 BB Troubleshooting and Manual Tuning Guide 6. Information from phone is read and connection to Tucson server is established. 7. If “Flash Product” – option was selected, phone SW is programmed. Page 3 – 64 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide 8. New data retrieved from Nokia system is programmed in the phone. 9. Confirmation about successful event is sent to Nokia system. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 65 RM-609 BB Troubleshooting and Manual Tuning Guide 10. Phone has now been changed to another variant. If there is need to restore the data, this information will be sent back to phone. Warranty information in NOL will show the current information in about 24 hours. Energy management calibration Prerequisites Energy Management (EM) calibration is performed to calibrate the setting (gain and offset) of AD converters in several channels (that is, battery voltage, BSI, battery current) to get an accurate AD conversion result. Hardware setup: Page 3 – 66 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 BB Troubleshooting and Manual Tuning Guide • An external power supply is needed. • Supply 12V DC from an external power supply to CU-4 to power up the phone. • The phone must be connected to a CU-4 control unit with a product-specific flash adapter. Steps 1. Place the phone to the docking station adapter (CU-4 is connected to the adapter). 2. Start Phoenix service software. 3. Choose File → Scan Product. 4. Choose Tuning → Energy Management Calibration. 5. To show the current values in the phone memory, click Read, and check that communication between the phone and CU-4 works. 6. Check that the CU-4 used check box is checked. 7. Select the item(s) to be calibrated. Note: ADC calibration has to be performed before other item(s). However, if all calibrations are selected at the same time, there is no need to perform the ADC calibration first. 8. Click Calibrate. The calibration of the selected item(s) is carried out automatically. The candidates for the new calibration values are shown in the Calculated values column. If the new calibration values seem to be acceptable (please refer to the following "Calibration value limits" table), click Write to store the new calibration values to the phone permanent memory. Table 9 Calibration value limits Parameter 9. Min. Max. ADC Offset -30 +40 ADC Gain 12000 14000 BSI Gain 1100 1350 VBAT Offset 2635 2755 VBAT Gain 14900 15900 VCHAR Gain N/A N/A IBAT (ICal) Gain 7750 12250 Click Read, and confirm that the new calibration values are stored in the phone memory correctly. If the values are not stored to the phone memory, click Write and/or repeat the procedure again. 10. To end the procedure, close the Energy Management Calibration window. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 3 – 67 RM-609 BB Troubleshooting and Manual Tuning Guide (This page left intentionally blank.) Page 3 – 68 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 Nokia Customer Care 4 — Cellular RF troubleshooting Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 1 RM-609 Cellular RF troubleshooting (This page left intentionally blank.) Page 4 – 2 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Table of Contents General instructions for cellular RF troubleshooting......................................................................................... 4–5 Cellular RF key components.................................................................................................................................. 4–6 Cellular RF main troubleshooting ........................................................................................................................ 4–7 Cellular RF main troubleshooting ................................................................................................................... 4–7 Self test troubleshooting.............................................................................................................................. 4–10 Troubleshooting with RF Self tests......................................................................................................... 4–10 RF-BB interface self test troubleshooting.............................................................................................. 4–11 RF supply self test troubleshooting........................................................................................................ 4–12 VBAT level.................................................................................................................................................. 4–13 VXO level.................................................................................................................................................... 4–15 VIO level..................................................................................................................................................... 4–15 VREF level .................................................................................................................................................. 4–16 VHIA (Vhi) level ......................................................................................................................................... 4–17 VDCDCA (Vlow) level ................................................................................................................................. 4–18 VPA level.................................................................................................................................................... 4–18 RF tuning and testing ........................................................................................................................................ 4–20 RF auto tuning and testing with Nokia Care Suite..................................................................................... 4–20 RF auto tuning procedure ............................................................................................................................ 4–20 Automatic RF testing with Nokia Care Suite............................................................................................... 4–25 Troubleshooting with Testing And Tuning Tool ........................................................................................ 4–26 Manual transmitter (TX) testing with Phoenix........................................................................................... 4–29 General instructions for transmitter (TX) activation ............................................................................ 4–29 GSM transmitter activation...................................................................................................................... 4–29 WCDMA transmitter activation................................................................................................................ 4–32 Manual receiver (RX) testing with Phoenix ................................................................................................ 4–33 General instructions for manual receiver testing ................................................................................. 4–33 GSM RX chain activation for manual measurements/GSM RSSI measurement .................................. 4–34 WCDMA RX chain activation for manual measurement ........................................................................ 4–34 WCDMA RSSI measurement ..................................................................................................................... 4–35 Antenna ............................................................................................................................................................... 4–36 Antenna overview ......................................................................................................................................... 4–36 Main antenna functionality .......................................................................................................................... 4–36 Antenna troubleshooting ............................................................................................................................. 4–36 List of Figures Figure 21 Linko shields ......................................................................................................................................... 4–7 Figure 22 Antenna contacts .............................................................................................................................. 4–36 Figure 23 Antennas ............................................................................................................................................ 4–37 Figure 24 B-cover................................................................................................................................................ 4–37 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 3 RM-609 Cellular RF troubleshooting (This page left intentionally blank.) Page 4 – 4 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting General instructions for cellular RF troubleshooting Most RF semiconductors are static sensitive ESD protection must be applied during repair (ground straps and ESD soldering irons). Measuring equipment All measurements should be done using: • An oscilloscope for low frequency and DC measurements. Recommended probe: 10:1, 10 Mohm//8 pF. • Willtek 440x/3100, Rohde & Schwarz CMU-200 or CMW-500 radio communication tester. Note: A mobile phone WCDMA transmitter should never be tested with full TX power (permitted only if measurements and tests are performed in an RF-shielded environment). Even low power WCDMA transmitters may disturb nearby WCDMA networks and cause problems to 3G cellular communication in a wide area. Note: All measurements with an RF coupler should be performed in an RF-shielded environment because nearby base stations can disturb sensitive receiver measurements. If there is no possibility to use an RF-shielded environment, testing at frequencies of nearby base stations should be avoided. Note: All communication test set screen dumps are from CMU-200. Other testers are different. RF auto tune Cellular RF parameters should always be re-tuned by means of Testing and Tuning Tool if one or more of the RF components have been changed or memory (D3000) is corrupted. RF shield cans Once a peel-off type RF shield can is opened, a repair lid (Nokia code 9501325) should always be installed. RF shielding does not work at all if RF shield cans are left open. Level of repair The scope of this guideline is to verify functionality of the cellular RF block as well as possible without removing RF shields. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 5 RM-609 Cellular RF troubleshooting Cellular RF key components Linko RF has the following key components: • Älli N7512 (Transceiver RF ASIC) • Aura N7509 (RF power management ASIC) • UKKO N7510 (Power amplifier, PA) • QuBBE Z7513 (Front end module) Linko RF has separate RF shielding cans for: • Älli N7512 + surroundings (Shield C) • QuBBE Z7513 + Ukko PA N7510 (Shield B) • Aura N7509 + surroundings (Shield A) Page 4 – 6 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Figure 21 Linko shields RF shield A is peel-off type and can be opened for repair purposes. The other two RF shield cans (B and C) are solid and should not be opened in service centers. The maximum height of the shields is 1.70 mm. Cellular RF main troubleshooting Cellular RF main troubleshooting Context Always start the cellular RF related troubleshooting procedure by following the diagram below. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 7 RM-609 Cellular RF troubleshooting Troubleshooting flow — Page 1 of 2 Page 4 – 8 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Troubleshooting flow — Page 2 of 2 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 9 RM-609 Cellular RF troubleshooting Self test troubleshooting Troubleshooting with RF Self tests Context ÄLLI (N7512) RF ASIC contains test structures that can be used to detect certain RF related errors. In order to use these self tests the most efficient way, it is very important that the tests are performed in a certain order, or at least that the error data is analyzed in this order. The tests are designed so that by going through them in this order it is easy to find the problem component without any redundant checks. The flowcharts presented in this document are based on that idea. The testing order recommended and used in this troubleshooting guide is the following: 1 ST_CDSP_RF_BB_IF test (ID hex. 56) • Tests the functionality of the BB/Linko serial interface & reset lines. • If this test fails, it means that there is a problem in programming of the N7512 and all of the following tests cannot give correct data. 2 ST_CDSP_RF_SUPPLY_TEST (ID hex. 53) • Tests the functionality of N7512 bias block, regulators, reference voltage line and supply connections, as well as almost all Aura (N7509) regulator voltages.. • If this test fails, all other N7512 tests can/will fail. 3 ST_CDSP_DIGI_RXTX_IF_TEST (ID hex. 7D) • Test checks that the digital RX and TX lines between BB and N7512 are properly connected. 4 ST_CDSP_STROBE_TEST (ID hex. 7C) • Tests the functionality of the RFStrobe signal.. 5 ST_CDSP_PA_ID_PIN_TEST (ID hex. 7F) • The purpose of this test is to identify the PAs of the different vendors. • Tests also the functionality of the temperature sensor V7502. 6 ST_CDSP_TX_WCDMA_POWER_TEST (ID hex. 4B) • Tests the basic functionality of the WCDMA transmitter. To get the best out of these instructions you need to have the valid schematics at hand. Page 4 – 10 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 11 RM-609 Cellular RF troubleshooting RF-BB interface self test troubleshooting Troubleshooting flow Page 4 – 12 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting RF supply self test troubleshooting Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 13 RM-609 Cellular RF troubleshooting VBAT level Check the VBAT level at the L7504. The level should be the same as the battery voltage and always on. Page 4 – 14 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting VXO level Check the VXO level (2.5V) at C2222. The signal is always on when the phone is in local mode. VIO level Check the VIO level (1.8V) at C2806. The signal is always on when the phone is in local mode. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 15 RM-609 Cellular RF troubleshooting VREF level Check the Vref level (1.2 V) at C7529. The GSM or WCDMA transmitter (or receiver) has to be activated before the Vref supply voltage can be measured. Follow the instructions given in chapter 'Manual transmitter (TX) testing with Phoenix → GSM transmitter activation' or 'WCDMA transmitter activation'. Page 4 – 16 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting VHIA (Vhi) level Check the VHIA level (2.6 V) at L7509. The GSM or WCDMA transmitter (or receiver) has to be activated before the VPA supply voltage can be measured. Follow the instructions given in chapter 'Manual transmitter (TX) testing with Phoenix → GSM transmitter activation' or 'WCDMA transmitter activation'. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 17 RM-609 Cellular RF troubleshooting VDCDCA (Vlow) level Check the VDCDCA level (1.5 V) at C7528. The WCDMA transmitter has to be activated before the VDCDCA supply voltage can be measured. Follow the instructions given in chapter 'Manual transmitter (TX) testing with Phoenix → 'WCDMA transmitter activation'. Note: The VDCDCA signal is continuously on when WCDMA TX is activated. VPA level The GSM or WCDMA transmitter has to be activated before the VPA supply voltage can be measured. Follow the instructions given in chapter 'Manual transmitter (TX) testing with Phoenix → GSM transmitter activation' or 'WCDMA transmitter activation'. Check the VPA voltage level at C7514. Page 4 – 18 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting In WCDMA mode, the voltage levels should be: • 0.4…0.8 V @ Start level 0 dBm • 0.8…1.3 V @ Start level 10 dBm • 3.0…4.2 V @ Start level 24 dBm In GSM mode, the voltage levels should be: • 0.1…0.5 V @ GSM 900 & Tx Power Level 19 • 0.5…1.1 V @ GSM 900 & Tx Power Level 12 • 3.5…4.3 V @ GSM 900 & Tx Power Level 5 Note: The VPA signal is continuously on when WCDMA TX is activated, but has a pulsed nature in GSM TX mode (the signal is on only when a GSM TX burst is transmitted). Note: The VPA signal is not tested by ST_CDSP_RF_SUPPLY_TEST. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 19 RM-609 Cellular RF troubleshooting RF tuning and testing RF auto tuning and testing with Nokia Care Suite Introduction to cellular RF tunings RM-609 cellular RF engine has been tuned correctly in production. There is no reason to do re-calibration unless one or more of the RF components are changed or memory (D3000) is corrupted. RM-609 can be tuned automatically. Auto tuning is designed to align the phone's RF part easily and faster. It performs calibrations, tunings and measurements of RX and TX. The results are displayed and logged in a result file, if initiated. Note: Always perform RF tuning with the help of the module jig MJ-300, never with RF couplers. Using an RF coupler in the tuning phase will cause a complete mistuning of the RF part. Important: After RF component changes, always perform cellular RF auto tuning. Cable and adapter losses RF cables and adapters have some losses. They have to be taken into account when the phone is tuned. As all the RF losses are frequency dependent, the user has to act very carefully and understand the measurement setup. For RF attenuations of the CA-128RS RF cable, please refer to section 'Service Tools and Service Concepts'. Hardware set up For hardware requirements for auto tuning, please refer to BB5 Extended MJ-300 Universal Module Jig concept in section 'Service Tools and Service Concepts'. Nokia Care Suite preparations Install Testing And Tuning Tool add-on application to Nokia Care Suite. Automatic RF testing and tuning is not possible without this application. There is no more support in Phoenix to auto tune RM-609 product. Install the phone specific data package, for example Nokia_firmware_RM-609_EUROPE_10.014_v41.0.exe. This defines phone specific settings. RF auto tuning procedure Note: If RF splitter is in use, skip steps 10, 11 and 12. 1 Make sure the phone (in the module jig) is connected to the PC. 2 Connect the RF cable between the phone (low band antenna connector) and the communication tester. If an RF splitter is in use, connect both low and high band antenna cables. Page 4 – 20 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting 3 Start Nokia Care Suite application. The following window opens: Note: The window appearance may differ depending on the Nokia Care Suite version. Note: Fuse, Multi Software Updater, Product Support Tool For Store and Testing And Tuning Tool are Care Suite add-on applications. The list is different if there are different add-on applications installed. 4 To open the application, double-click Testing And Tuning Tool icon. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 21 RM-609 Cellular RF troubleshooting 5 If the application is able to find a connected phone, the following view will open: 6 Note: The window appearance may differ depending on the Nokia Care Suite and Testing And Tuning Tool versions Click on the RF Tuning button. The following view opens: Note: The window appearance may differ depending on the Nokia Care Suite and Testing And Tuning Tool versions Page 4 – 22 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting 7 Select Cellular RF Tunings and Tests from the drop-down menu. 8 Select the RF cable used (and possible RF splitter / RF shield box) from the drop-down menu. CA-128RS attenuation values are always taken automatically into account when RM-609 product is connected to Nokia Care Suite tool. 9 Click the Run button. Note: The window appearance may differ depending on the Nokia Care Suite and Testing And Tuning Tool versions 10 If no critical errors happen during the low band RF tuning procedure, the following window will pop up: 11 Change the CA-128RS cable to the high band RF connector on the phone PWB. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 23 RM-609 Cellular RF troubleshooting 12 Click OK and RF tunings will automatically be performed for high cellular bands. 13 RF tunings will be ready when all the tunings and measurements are green in the tool window and no errors occur. 14 If errors do happen, failed tuning/testing steps are marked with a red color and more detailed results are shown on the screen. An example fail case is shown below: Page 4 – 24 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Note: The window appearance may differ depending on the Nokia Care Suite and Testing And Tuning Tool versions Automatic RF testing with Nokia Care Suite Testing And Tuning Tool add-on application can be used also for non-signalling RF tests. The automatic RF testing procedure is the same as explained in the chapter RF auto tuning procedure, but RF Testing should be selected in the Testing And Tuning Tool main window instead of RF Tuning . Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 25 RM-609 Cellular RF troubleshooting Note: The window appearance may differ depending on the Nokia Care Suite and Testing And Tuning Tool versions. RF Testing selection does all the same measurements as RF Tuning , but does not perform any tunings. RF Testing is a safe way to check the basic cellular RF performance of the phone. The following test cases will be performed (the complete set of measurements may differ depending on the data package content): • GSM SNR • GSM RSSI • GSM / EDGE TX Power Level • GSM Modulation & Switching spectrum • GSM EDGE EVM • GSM Burst Template • GSM Phase Error • WCDMA RSSI • WCDMA SNR • WCDMA TX Power Range • WCDMA TX Max Output Power • WCDMA ACP • WCDMA EVM Troubleshooting with Testing And Tuning Tool Context If limit fails occur while RF tests are performed with Testing And Tuning Tool, the user has to be very careful to understand the measurement results. Fails may occur because of many reasons: 1 RF attenuation between the phone and the communication tester is something else as expected by the Testing And Tuning Tool. Please check that cable, splitter and shield box selections are correct in the Testing And Tuning Tool main window. 2 Test limits (specified in the product specific data package) are quite tight. Small limit violations do not always mean that the tested product is broken, but the RF performance may not be as good as it should be. 3 RX measurements (RSSI, SNR) may fail because of strong signals from base stations nearby. It is recommended to always perform RF measurements in an RF-shielded environment (in an RF-shield box or room). 4 The phone is really broken and needs more specific troubleshooting. Typical for these cases is that RF Testing gives measurement results which are far from the test limits. Note: Start the more specific troubleshooting always from the chapter Cellular RF main troubleshooting. The troubleshooting flow below may be misleading if followed without upper level instructions. Page 4 – 26 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Troubleshooting flow — Page 1 of 3 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 27 RM-609 Cellular RF troubleshooting Troubleshooting flow — Page 2 of 3 Page 4 – 28 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Troubleshooting flow — Page 3 of 3 Manual transmitter (TX) testing with Phoenix General instructions for transmitter (TX) activation Please note the following before performing transmitter tests: • TX troubleshooting requires TX operation • Do not transmit on frequencies that are in use • The transmitter can be controlled in local mode for diagnostic purposes • The most useful Phoenix tool for GSM transmitter testing is “RF Controls”, in WCDMA transmitter testing the best tool is “TX Control” Note: Never activate the GSM or WCDMA transmitter without a proper antenna load. Always connect a 50 Ω load to the RF connector (antenna, RF measurement equipment or at least a 2 W dummy load), otherwise the power amplifier (PA) may be damaged. GSM transmitter activation Steps 1. Set the phone to local mode. 2. Activate the RF controls tool in Phoenix ( Testing → GSM → RF Controls ). Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 29 RM-609 Cellular RF troubleshooting 3. Make settings as shown in the figure: 4. GSM transmitter is activated when Active Unit is set to “Tx”. Aura (N7509) supply voltages are on for measurement purposes after this step is completed. 5. Optional step (not needed if GSM TX activation only required): Check the basic TX parameters (i.e. power, phase error, modulation and switching spectrum) manually, using a communication analyzer (for example CMU–200). Change power level (in “RF Controls” tool) and make sure the power reading follows accordingly. Page 4 – 30 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 31 RM-609 Cellular RF troubleshooting WCDMA transmitter activation Steps 1. Set the phone to local mode. 2. In Phoenix, select Testing → WCDMA → TX Control . 3. Select Algorithm mode tab. 4. In the TX Control window, make settings as in the figure: 5. Click Send to enable the settings and activate TX. If settings are changed (e.g. new channel or power level), you have to click RF Stop and Send again. Aura (N7509) supply voltages are on for measurement purposes after this step is completed. 6. Optional step (not needed if WCDMA TX activation only required): Check the basic TX parameters using a communication analyzer (for example CMU–200). Note: RM-609 WCDMA TX power classes: WCDMA I, IV, V and VIII class 3 (maximum output power +24 dBm), WCDMA II class 4 (maximum output power +21 dBm). Page 4 – 32 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Manual receiver (RX) testing with Phoenix General instructions for manual receiver testing RX can be tested manually by making a phone call or in local mode. For the local mode testing, use Phoenix service software. The most important RX measurement in local mode is RSSI reading. This test measures the signal strength of the received signal. For GSM RSSI measurements, see chapter GSM RX chain activation for manual measurements/GSM RSSI measurement. For a similar test in WCDMA mode, see chapter WCDMA RSSI measurement. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 33 RM-609 Cellular RF troubleshooting GSM RX chain activation for manual measurements/GSM RSSI measurement Prerequisites Connect a signal generator to a proper RF connector on the phone PWB (note: there are two antenna connectors for cellular RF on the phone PWB, one for low bands and one for high bands). Steps 1. Set the phone to local mode. 2. Activate GSM RSSI reading in Phoenix ( Testing → GSM → RSSI Reading ) 3. Use the following frequrencies and RF levels in RF generator for different GSM bands: Setting GSM850 GSM900 GSM1800 GSM1900 Phoenix: Monitor 190 37 700 661 RF frequency 881.6 MHz 942.4 MHz 1842.8 MHz 1960.0 MHz Signal generator frequency 881.66771 MHz 942.46771 MHz 1842.86771 MHz 1960.06771 MHz Signal generator RF level (CW signal) -60dBm -60dBm -60dBm -60dBm Channel Results The RSSI level reading should reflect the level of the signal generator (- losses) +/- 5 dB. When varying the level in the range of -30 to -102 dBm, the reading should follow within +/-5 dB. WCDMA RX chain activation for manual measurement Steps 1. Set the phone to local mode. 2. Activate RX Control tool in Phoenix (Testing —> WCDMA —> RX Control) . 3. In the RX Control window, make the following settings: Page 4 – 34 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting 4. Click Start to activate the WCDMA RX. If the settings are changed later on (for example, change of channel) you have to click Stop and Start again. Note: Channels for testing: WCDMA I 10700, II 9800, IV 1637, V 4408, VIII 3012. Note: Clicking Stop also disables TX control if it was active. WCDMA RSSI measurement Prerequisites WCDMA RX must be activated before RSSI can be measured. For instructions, please refer to chapter WCDMA RX chain activation for manual measurement. Connect a signal generator to a proper RF connector on the phone PWB (note: there are two antenna connectors for cellular RF on the phone PWB, one for low bands and one for high bands). Steps 1. Use the following frequencies and RF levels in RF generator for different WCDMA bands: Setting WCDMA I WCDMA II WCDMA IV WCDMA V WCDMA VIII Phoenix: Channel 10700 9800 1637 4408 3012 RX frequency 2140.0 MHz 1960.0 MHz 2132.4 MHz 881.6 MHz 942.4 MHz Signal generator frequency 2141.0 MHz 1961.0 MHz 2133.4 MHz 882.6 MHz 943.4 MHz Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 35 RM-609 Cellular RF troubleshooting Setting Signal generator RF level (CW signal) WCDMA I -48 dBm WCDMA II -48 dBm WCDMA IV -48 dBm WCDMA V -48 dBm WCDMA VIII -48 dBm 2. Activate WCDMA RSSI reading in Phoenix (Testing —> WCDMA —> Rx Power Measurement) . 3. In the Rx Power Measurement window, make the following settings: 4. Click Start to perform the measurement. Results The Result reading should reflect the level of the signal generator (- losses) +/- 5 dB. When varying the level in the range of -40 to -100 dB, the reading should follow within +/- 5 dB. Note: In some versions of the Phoenix service tool, the WCDMA Rx Power Measurement tool does not work as it should. In these cases, the result is something really small (for example -8387684.9). Antenna Antenna overview The phone has two antennas on the B-cover, the main antenna and a GPS/WLAN/BT antenna. The main antenna covers the GSM and WCDMA bands and has separate antenna feeds for low and high band. Connection is implemented by C-clips (3pcs). The main antenna is attached to the bottom of the B-cover with adhesive. GPS & BT/WLAN are diplexed to the same antenna. Feeding is made by two C-clips. Main antenna functionality The main antenna is functioning normally when the feeds and GND pads take proper contact to the contact springs on the PWB. The main antenna functionality must also be checked by measuring the transmitted power with RF coupler at GSM900 channel 124. Antenna troubleshooting Antenna contacts, visual check The main cellular antenna has two feeds and one ground pad. Check that all the clips take proper contact to the pads on the PWB. Check that the BT/WLAN and GPS antenna pads take proper contact to the C-clips on the PWB and the C-clips are clearly open. Figure 22 Antenna contacts Page 4 – 36 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Cellular RF troubleshooting Figure 23 Antennas Figure 24 B-cover Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 4 – 37 RM-609 Cellular RF troubleshooting (This page left intentionally blank.) Page 4 – 38 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 Nokia Customer Care 5 — Camera Module Troubleshooting Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 1 RM-609 Camera Module Troubleshooting (This page left intentionally blank.) Page 5 – 2 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Table of Contents Introduction to camera module troubleshooting ............................................................................................. 5–5 The effect of image taking conditions on image quality .................................................................................. 5–6 Image quality analysis ...................................................................................................................................... 5–10 Possible faults in image quality................................................................................................................... 5–10 Testing for dust in camera module ............................................................................................................. 5–10 Testing camera image sharpness ................................................................................................................ 5–11 Effects of dirty or defective camera lens protection window................................................................... 5–11 Faulty pixels in images ................................................................................................................................. 5–13 Flash photography problems ....................................................................................................................... 5–14 Main (back) camera troubleshooting flowcharts............................................................................................ 5–15 No recognizable viewfinder image ............................................................................................................. 5–15 Bad image quality troubleshooting ............................................................................................................ 5–16 Main camera troubleshooting...................................................................................................................... 5–17 Secondary camera troubleshooting ................................................................................................................. 5–18 Flash troubleshooting........................................................................................................................................ 5–20 List of Figures Figure 25 Blurring caused by shaking hands ..................................................................................................... 5–6 Figure 26 Near objects get skewed when taking images from a moving vehicle.......................................... 5–7 Figure 27 Noisy image taken in +70 degrees Celsius ........................................................................................ 5–7 Figure 28 Image taken against light ................................................................................................................... 5–8 Figure 29 Flicker in an image; object illuminated by strong fluorescent light............................................... 5–8 Figure 30 A lens reflection effect caused by sunshine....................................................................................... 5–9 Figure 31 Good image taken indoors.................................................................................................................. 5–9 Figure 32 Good image taken outdoors ............................................................................................................... 5–9 Figure 33 Effects of dust on optical path ......................................................................................................... 5–10 Figure 34 Image taken with clear protection window .................................................................................. 5–12 Figure 35 Image taken with greasy protection window ............................................................................... 5–12 Figure 36 Image of point light sources taken with a clean protective window.......................................... 5–13 Figure 37 Image of point light sources taken with a dirty (finger print) protective window ................... 5–13 Figure 38 Enlargement of a hot pixel............................................................................................................... 5–14 Figure 39 Light from the flash has reflected on particles in front of the camera ....................................... 5–14 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 3 RM-609 Camera Module Troubleshooting (This page left intentionally blank.) Page 5 – 4 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Introduction to camera module troubleshooting Background, tools and terminology Faults or complaints in camera operation can be roughly categorised into three subgroups: 1 Camera is not functional at all; no image can be taken. 2 Images can be taken but there is nothing recognizable in them. 3 Images can be taken and they are recognizable but for some reason the quality of images is seriously degraded, or customer complains about image quality. Image quality is very hard to measure quantitatively, and even comparative measurements are difficult (comparing two images) to do, if the difference is small. Especially if the user is not satisfied with his/her device's image quality, and tells, for example, that the images are not sharp, it is fairly difficult to accurately test the device and get an exact figure which would tell whether the device is functioning properly. Often subjective evaluation has to be used for finding out if a certain property of the camera is acceptable or not. Some training or experience of a correctly operating reference device may be needed in order to detect what actually is wrong, or is there anything wrong at all. It is easy for the user to take bad images in bad conditions. Therefore the camera operation has to be checked always in constant conditions (lighting, temperature) or by using a second, known-to-be good device as reference. Experience helps significantly in analysing image quality. Terms Digital zoom Digital zoom is done by first cropping the image by the zoom ratio and then upscaling it to the output resolution. This will decrease the image quality especially with high zoom ratios. Dynamic range Camera's ability to capture details in dark and bright areas of the scene simultaneously. Exposure time Camera modules use silicon sensor to collect light and for forming an image. The imaging process roughly corresponds to traditional film photography, in which exposure time means the time during which the film is exposed to light coming through optics. Increasing the time will allow for more light hitting the film and thus results in brighter image. The operation principle is exactly the same with silicon sensor, but the shutter functionality is handled electronically i.e. there is no mechanical moving parts like in film cameras. Flicker Phenomenon, which is caused by pulsating in scene lighting, typically appearing as wide horizontal stripes in an image. Noise Variation of response between pixels with same level of input illumination. Resolution Usually the amount of pixels in the camera sensor. In some occasions the term resolution is used for describing the sharpness of the images. Sensitivity Camera module's sensitivity to light. In equivalent illumination conditions, a less sensitive camera needs a longer exposure time to gather enough light in forming a good image. Analogous to ISO speed in photographic film. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 5 RM-609 Camera Module Troubleshooting Sharpness Good quality images are 'sharp' or 'crisp', meaning that image details are well visible in the picture. However, certain issues, such as non-idealities in optics, cause image blurring, making objects in picture to appear 'soft'. Each camera type typically has its own level of performance. The effect of image taking conditions on image quality There are some factors, which may cause poor image quality, if not taken into account by the end user when shooting images, and thus may result in complaints. The items listed are normal to camera operation and are not a reason for changing the camera module. The amount of light available In dim conditions camera runs out of sensitivity. The exposure time is long (especially in the night mode) and the risk of getting shaken (= blurred) images increases. In addition, image noise level grows. The maximum exposure time in the night mode is ¼ seconds. Therefore, images need to be taken with extreme care and by supporting the phone when the amount of light reflected from the target is low. Because of the longer exposure time and larger gain value, noise level increases in low light conditions. Sometimes blurring may even occur in daytime, if the image is taken very carelessly. See the figure below for an example. This is normal; do not change the camera module. Figure 25 Blurring caused by shaking hands Movement in bright light If an image is taken of moving objects or if the device is used in a moving vehicle, object 'skewing' or 'tilting' may occur. This phenomenon is fundamental to most CMOS camera types, and may happen when using the electronic shutter. The movement of camera or object sometimes cause blurring indoors or in dim lighting conditions because of long exposure time. This is normal; do not change the camera module. Page 5 – 6 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Figure 26 Near objects get skewed when taking images from a moving vehicle Temperature High temperatures inside the mobile phone cause more noise to appear in images. For example, in +70 degrees (Celsius), the noise level may be very high, and it further grows if the conditions are dim. If the phone processor has been heavily loaded for a long time before taking an image, the phone might have considerably higher temperature inside than in the surrounding environment. This is also normal to camera operation; do not change the camera module. Figure 27 Noisy image taken in +70 degrees Celsius Phone display If the display contrast is set too dark, the image quality degrades: the images may be very dark depending on the setting. If the display contrast is set too bright, image contrast appears bad and "faint". This problem is solved by setting the display contrast correctly. This is normal behaviour; do not change the camera module. Basic rules of photography (especially shooting against light) Because of dynamic range limitations, taking images against bright light might cause either saturated image or the actual target appear too dark. In practice, this means that when taking an image indoors and having, for example, a window behind the object, the result is usually poor. This is normal behaviour; do not change the camera module. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 7 RM-609 Camera Module Troubleshooting Figure 28 Image taken against light Flicker In some occasions a bright fluorescent light may cause flicker in the viewfinder and captured image. This phenomenon may also be a result, if images are taken indoors under the mismatch of 50/60 Hz electricity network frequency. The electricity frequency used is automatically detected by the camera module. In some very few countries, both 50 and 60 Hz networks are present and thus probability for the phenomenon increases. Flickering occurs also under high artificial illumination level. Flickering only occurs when the rolling shutter is used. This is normal behaviour; do not change the camera module. Figure 29 Flicker in an image; object illuminated by strong fluorescent light Bright light outside of image view Especially the sun can cause clearly visible lens glare phenomenon and poor contrast in images. This happens because of undesired reflections inside the camera optics. Generally this kind of reflections are common in all optical systems. This is normal behaviour; do not change the camera module. Page 5 – 8 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Figure 30 A lens reflection effect caused by sunshine Examples of good quality images Figure 31 Good image taken indoors Figure 32 Good image taken outdoors Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 9 RM-609 Camera Module Troubleshooting Image quality analysis Possible faults in image quality When checking for possible errors in camera functionality, knowing what error is suspected significantly helps the testing by narrowing down the amount of test cases. The following types of image quality problems may be expected to appear: • Dust (black spots) • Lack of sharpness • Bit errors In addition, there are many other kinds of possibilities for bad image quality, but those are ruled out from the scope of this document since the probability of their appearance is small. Testing for dust in camera module Symptoms and diagnosis For detecting these kinds of problems, take an image of a uniform white surface and analyse it in full resolution. A good quality PC monitor is preferred for analysis. Search carefully, since finding these defects is not always easy. Figure "Effects of dust on optical path" is an example image containing easily detectable dust problems. When taking a white image, use uniformly lightened white paper or white wall. One possibility is to use uniform light but in this case make sure that the camera image is not flickering when taking the test image. In case flickering happens, try to reduce illumination level. Use JPEG image format for analysing, and set the image quality parameter to ‘High Quality’. Black spots in an image are caused by dirt particles trapped inside the optical system. Clearly visible and sharp edged black dots in an image are typically dust particles on the image sensor. These spots are searched for in the manufacturing phase, but it is possible that the camera body cavity contains a particle, which may move onto the image sensor active surface, for example, when the phone is dropped. Thus it is also possible that the problem will disappear before the phone is brought to service. The camera should be replaced if the problem is present when the service technician analyses the phone. If a dust particle is lying on the infrared filter surface on either side, they are hard to locate because they are out of focus, and appear in the image as large, grayish and fading-edge 'blobs'. Sometimes they are invisible to the eye, and thus the user probably does not notice them at all. However, it is possible that a larger particle disturbs the user, causing need for service. Figure 33 Effects of dust on optical path Page 5 – 10 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting If large dust particles get trapped on top of the lens surface in the cavity between camera window and lens, they will cause image blurring and poor contrast. The dust gasket between the window and lens should prevent any particles from getting into the cavity after the manufacturing phase. If dust particles are found on the sensor, this is classified as a manufacturing error of the module and the camera should be replaced. Any particles inside the cavity between the protection window and lens have most probably been trapped there in the assembly phase at a Nokia factory. Unauthorized disassembling of the product can also be the root of the problem. However, in most cases it should be possible to remove the particle(s) by using clean compressed air. Never wipe the lens surface before trying compressed air; the possibility of damaging the lens is substantial. Always check the image sharpness after removing dust. Testing camera image sharpness Symptoms and diagnosis If pictures taken with a device are claimed to be blurry, there are four possible sources for the problem: 1 The protection window is fingerprinted, soiled, dirty, visibly scratched or broken. 2 User has tried to take pictures in too dark conditions and images are blurred due to handshake or movement. This is not a cause to replace camera module. 3 There is dirt between the protection window and the camera lens. 4 The protection window is defective. This can be either a manufacturing failure or caused by the user. The window should be changed. A quantitative analysis of sharpness is very difficult to conduct in any other environment than optics laboratory. Therefore, subjective analysis should be used. If no visible defects (items 1-4) are found, a couple of test images should be taken. Generally, a wellilluminated typical indoor scene, such as the one in Figure "Good image taken indoors", can be used as a target. The main considerations are: • The protection window has to be clean. • The amount of light (300 – 600 lux (bright office lighting)) is sufficient. • The scene should contain, for example, small objects for checking sharpness. Their distance should be 1 – 2 meters. • If possible, compare the image to another image of the same scene, taken with a different device. Note that the reference device has to be a similar Nokia phone. The taken images should be analysed on PC screen at 100% scaling simultaneously with a reference image. Pay attention to the computer display settings; at least 65000 colors (16 bit) have to be used. 256 (8-bit) color setting is not sufficient; true color (24 bit, 16 million colors) or 32 bit (full color) setting is recommended. If the differences are noticeable at a glance and also if the one under investigation is significantly inferior, the module might have a faulty lens. In this case, the module should be changed. Always re-check the resolution after changing the camera module. If a different module produces a clearly noticeable quality gap, the fault is probably in the camera window. Check the window by looking carefully through it when replacing the module. As references Figure "Good image taken indoors" and Figure "Good image taken outdoors" can be used. Another possibility is to use a service point comparison phone, if available. Effects of dirty or defective camera lens protection window The following series of images demonstrates the effects of fingerprints on the camera protection window. Note: The effects of any dirt in images can vary very much; it may be difficult to judge if the window has been dirty when some image has been taken or if something else has been wrong. That is why the cleanness of the protection window should always be checked and the window should be wiped clean with a suitable cloth. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 11 RM-609 Camera Module Troubleshooting Figure 34 Image taken with clear protection window Figure 35 Image taken with greasy protection window Bright point light sources might cause images that have flares around the light source if the protection window is dirty. A smeared fingerprint may be hard to see on the protective window but if will affect the image quality. These flares can be avoided by cleaning the window with a suitable cloth. Page 5 – 12 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Figure 36 Image of point light sources taken with a clean protective window Figure 37 Image of point light sources taken with a dirty (finger print) protective window Faulty pixels in images Faulty pixels are pixels that do not respond to light in the same way as the pixels around them. There are three main types of faulty pixels, dead, stuck and hot pixels. Dead pixels are always black or significantly darker than their surrounding. Dead pixels appear as black spots in all lightning conditions. Camera modules producing images with dead pixels that are clearly noticeable should be replaced. If the pixel remains always saturated to its maximum value it is stuck. Stuck pixels may appear as red, green, blue or white spots in all lightning conditions. Camera modules producing images with one or more stuck pixels should be replaced. Hot pixels are pixels that easily saturate in dim light conditions. It is normal to get a lot of noise and hot pixels in night conditions or otherwise dark conditions. The hot pixels should disappear when the ambient light is increased, but may still appear in darker areas of an otherwise well illuminated scene. When examining an image for defect pixels, test images should be viewed as 100% enlargements on a PC monitor. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 13 RM-609 Camera Module Troubleshooting Figure 38 Enlargement of a hot pixel Flash photography problems Use of flash device may affect the image in many ways. • White balance errors. The image may get a wrong tone due to mixing of flash colour temperature and ambient lightning. This is unwanted but normal feature. • Dust reflections. Dust or water drops in front of the flash unit may reflect strongly to the camera sensor. See the following figure. Figure 39 Light from the flash has reflected on particles in front of the camera Page 5 – 14 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Main (back) camera troubleshooting flowcharts No recognizable viewfinder image Troubleshooting flow Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 15 RM-609 Camera Module Troubleshooting Bad image quality troubleshooting Troubleshooting flow Page 5 – 16 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Main camera troubleshooting Context The following references on the PWB help in the effective debugging and troubleshooting of the main/ primary camera. Sr. No Reference Description 1 X1400 Primary camera socket 2 R1477, R1478 Pull-up resistors on primary camera I2C lines. Resistor value 4.7 KOHMS. 3 D1400 BCM2727B IC 4 N1515 VCAM_1V8 regulator 5 N1517 VCAM_2V8 regulator The following test points on the PWB help in the effective debugging and troubleshooting. Sr. No Signal name Measuring point Description 1 VCAM_1V8 L1515/C1516 1.8V supply to primary camera 2 VCAM_2V8 C1520 2.8V supply to primary camera 3 VDIG_ENABLE J1515 Enable signal for VCAM_1V8 regulator. This signal needs to be High for the regulator to be On. 4 VANA_ENABLE J1516 Enable signal for VCAM_2V8 regulator. This signal needs to be High for the regulator to be On. 5 PRI_CAM_CLK R1430/C1471 External clock signal to primary camera 6 PRI_CAM_I2C(1:0) R1477, R1478 I2C signals for primary camera Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 17 RM-609 Camera Module Troubleshooting Troubleshooting flow Secondary camera troubleshooting Context The following references on the PWB help in the effective debugging and troubleshooting of the secondary camera. Sr. No Reference Description 1 H1450 Secondary camera on UI flex 2 R1487, R1488 Pull-up resistors on the secondary camera I2C lines. Resistor value 4.7 KOHMS. Page 5 – 18 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Sr. No Reference Description 3 D1400 BCM2727B IC 4 N1515 VCAM_1V8 regulator 5 N1517 VCAM_2V8 regulator The following test points on the PWB help in the effective debugging and troubleshooting. Sr. No Signal name Measuring point Description 1 VCAM_1V8 L1515/C1516 1.8V supply to secondary camera 2 VCAM_2V8 C1520 2.8V supply to secondary camera 3 VDIG_ENABLE J1515 Enable signal for VCAM_1V8 regulator. This signal needs to be High for the regulator to be On. 4 VANA_ENABLE J1516 Enable signal for VCAM_2V8 regulator. This signal needs to be High for the regulator to be On. 5 SEC_CAM_CLK R1429/C1470 External clock signal to secondary camera 6 SEC_CAM_I2C(1:0) R1487, R1488 I2C signals for secondary camera Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 19 RM-609 Camera Module Troubleshooting Troubleshooting flow Flash troubleshooting Context The following references on the PWB help in the effective debugging and troubleshooting of the flash. Page 5 – 20 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Camera Module Troubleshooting Sr. No Reference Description 1 N1400 Flash driver 2 X1412/X1411 Two pogo pins for flash PWB 3 D1400 BCM2727B IC The following test points on the PWB help in the effective debugging and troubleshooting of the flash. Sr. No Signal name Measuring point Description 1 VBAT L1408/L1409 VBAT supply to flash driver 2 FLASH_TRIGGER J1425 Flash trigger signal 3 FLASH_ENABLE J1499 Flash enable signal 4 TORCH_EN J1498 Torch mode enable signal Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 5 – 21 RM-609 Camera Module Troubleshooting Troubleshooting flow Page 5 – 22 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 Nokia Customer Care 6 — System Module Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 1 RM-609 System Module (This page left intentionally blank.) Page 6 – 2 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Table of Contents Introduction........................................................................................................................................................... 6–5 Phone description ............................................................................................................................................ 6–5 Energy management.......................................................................................................................................... 6–11 Battery and charging .................................................................................................................................... 6–11 Normal and extreme voltages ..................................................................................................................... 6–11 Power key and system power up ................................................................................................................ 6–12 Modes of operation ....................................................................................................................................... 6–12 Power distribution ........................................................................................................................................ 6–13 Clocking scheme ............................................................................................................................................ 6–13 SIM interface ....................................................................................................................................................... 6–15 Device memory ................................................................................................................................................... 6–16 BOB1.0M-b module............................................................................................................................................. 6–16 GPS interface ....................................................................................................................................................... 6–18 USB ....................................................................................................................................................................... 6–19 USB interface.................................................................................................................................................. 6–19 MicroUSB connector ...................................................................................................................................... 6–19 Charger interface ................................................................................................................................................ 6–20 User interface...................................................................................................................................................... 6–20 Touch module................................................................................................................................................ 6–20 Proximity sensor and ambient light sensor ............................................................................................... 6–20 Imaging and video ........................................................................................................................................ 6–21 Multimedia application processor .......................................................................................................... 6–21 Display module......................................................................................................................................... 6–22 TV-out interface........................................................................................................................................ 6–22 Cameras..................................................................................................................................................... 6–23 Illumination ................................................................................................................................................... 6–24 Keyboard interface........................................................................................................................................ 6–25 Accelerometer................................................................................................................................................ 6–26 Magnetometer ............................................................................................................................................... 6–26 Audio concept ..................................................................................................................................................... 6–27 Audio HW architecture.................................................................................................................................. 6–27 Internal earpiece ........................................................................................................................................... 6–29 Internal handsfree (IHF) speakers ............................................................................................................... 6–29 Internal microphones ................................................................................................................................... 6–29 External earpiece and microphone ............................................................................................................. 6–30 Vibra ............................................................................................................................................................... 6–30 AV connector.................................................................................................................................................. 6–30 Cellular RF technical description ....................................................................................................................... 6–31 RF block .......................................................................................................................................................... 6–31 QuBBE ............................................................................................................................................................. 6–31 Receiver (RX) .................................................................................................................................................. 6–32 Synthesizer..................................................................................................................................................... 6–32 Transmitter (TX) ............................................................................................................................................ 6–32 Frequency mappings.......................................................................................................................................... 6–34 GSM850 frequencies ...................................................................................................................................... 6–34 EGSM900 frequencies .................................................................................................................................... 6–34 GSM1800 frequencies.................................................................................................................................... 6–35 GSM1900 frequencies.................................................................................................................................... 6–37 WCDMA I (2100) Rx frequencies ................................................................................................................... 6–38 WCDMA I (2100) Tx frequencies ................................................................................................................... 6–39 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 3 RM-609 System Module WCDMA II (1900) frequencies ....................................................................................................................... WCDMA IV (1700/2100) frequencies ............................................................................................................ WCDMA V (850) frequencies ......................................................................................................................... WCDMA VIII (900) frequencies...................................................................................................................... 6–40 6–41 6–42 6–43 List of Tables Table 10 Nominal voltages................................................................................................................................ 6–11 List of Figures Figure 40 Battery pin order ............................................................................................................................... Figure 41 Blade battery connector ................................................................................................................... Figure 42 SIM interface ...................................................................................................................................... Figure 43 Puzzle SIM connector circuitry ........................................................................................................ Figure 44 BOB1.0M-b module block diagram and application circuit........................................................... Figure 45 BOB1.0M-b interface ......................................................................................................................... Figure 46 GPS interface...................................................................................................................................... Figure 47 USB interface...................................................................................................................................... Figure 48 MicroUSB connector .......................................................................................................................... Figure 49 Charger interface............................................................................................................................... Figure 50 Touch module interface.................................................................................................................... Figure 51 Proximity sensor and ALS ................................................................................................................. Figure 52 BCM2727B block diagram ................................................................................................................. Figure 53 Primary camera interface ................................................................................................................. Figure 54 Secondary camera interface............................................................................................................. Figure 55 Keyboard interface............................................................................................................................ Figure 56 Accelerometer interface ................................................................................................................... Figure 57 Magnetometer interface................................................................................................................... Figure 58 Audio block diagram......................................................................................................................... Figure 59 Internal earpiece ............................................................................................................................... Figure 60 Internal handsfree (IHF) speaker diagram ..................................................................................... Figure 61 Internal microphones diagram........................................................................................................ Figure 62 Vibra diagram .................................................................................................................................... Figure 63 AV connector...................................................................................................................................... Figure 64 Linko RF block diagram .................................................................................................................... Page 6 – 4 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. 6–11 6–11 6–15 6–16 6–17 6–18 6–18 6–19 6–19 6–20 6–20 6–21 6–22 6–23 6–24 6–25 6–26 6–27 6–28 6–29 6–29 6–30 6–30 6–31 6–31 Issue 1 RM-609 System Module Introduction Phone description RAPUYAMA is the main digital baseband ASIC in the phone. It contains functionality for both WCDMA and GSM EDGE. The hardware accelerator is used for imaging and video. GAZOO/PEARL (N2200) is the main audio and energy management controller for the phone. Key components Function Description Item ref Main PWB 3DJ UI flexi module (chassis) 3DH Flash module 3DQ Baseband ASIC EM ASIC GAZOO/PEARL N2200 RF ASIC LINKO N7512 Processor RAPUYAMA D2800 GSM/WCDMA PA GSM850/900/1800/1900 N7510 WCDMA850/900/1700/1900/2100 Oscillators VCTCXO TCXO 16.368 MHZ Crystal 32.768KHZ Crystal 38.4 MHZ Crystal 19.2 MHZ G6200 B2200 B7500 B1400 CMT memory Combo POP4 2Gb DDR + 8Gb M3 NAND (stacked with RAPU) D3000 Back-up capacitor RTC back-up capacitor G2200 WLAN/ Bluetooth/ FM radio/ FM transmitter BOB 1.0M-b module N6300 GPS GPSCost4.1 N6200 Battery BP-4L Battery connector Tabby blade interface X2070 UI flex connector Board-to board connector for UI flex module X2400 Display connector Board-to-board connector X2450 ISP1707 HS USB transceiver D3300 RF connectors USB transceiver MicroSD connector eMMC X3200 8GB internal mass memory Touch module connector IVE D3200 X2403 Imaging processor D1400 AV connector Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 5 RM-609 System Module Function Description Item ref Charging SMPS BQ24153 for USB charging N3301 Charging SMPS BQ21456 for Dynamo charging N3323 Earpiece Petra Microphone Knopfler B2100 B2104 IHF Mean Vibra SMD type vibra M2100 Accelerometer 3-axis accelerometer Ahti N1102 Magnetometer 3-axis magnetic sensor N1103 Combined Proximity Sensor and Ambient Light Sensor DiPro N1100 Page 6 – 6 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Key component placement Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 7 RM-609 System Module Page 6 – 8 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module System module block diagram Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 9 RM-609 System Module Board and module connections Page 6 – 10 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Energy management Battery and charging BP-4L battery The phone is powered by a 3-pole BP-4L battery 1500 mAh. The three poles are named VBAT, BSI and GND where the BSI line is used to recognize the battery capacity. This is done by means of an internal battery pull down resistor. Figure 40 Battery pin order The battery temperature is estimated by measuring separate temperature NTC resistor via the BTEMP line of EM ASIC N2200. This is located on the main PWB, near the battery connector. Battery connector The battery connector is a blade connector. It has three blades: • BSI (Battery size indicator) • GND (Ground) • VBAT (Battery voltage) Figure 41 Blade battery connector Charging The phone is charged through the 2 mm Nokia standard interface charger plug. Charging is controlled by dynamo charging IC BQ24156 (N3323). Dynamo charger detection is handled by EM ASIC (N2200) and external components are needed to protect the baseband module against EMC, reverse polarity and transient frequency deviation. For charger detection, a pulse of duration 15ms is sent to EM ASIC via V3370 MOSFET. Normal and extreme voltages Energy management is mainly carried out in the EM ASIC (N2200). that contains a number of regulators. In addition there are also some external regulators. In the table below normal and extreme voltages are shown when a BP-4L battery is used. Table 10 Nominal voltages Voltage Voltage [V] Condition General Conditions Nominal voltage Issue 1 3.700 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 11 RM-609 System Module Voltage Voltage [V] Lower extreme voltage 3.5 Condition Higher extreme voltage (fast charging) 4.1 HW Shutdown Voltages Vmstr+ 2.1 ± 0.1 Off to on Vmstr- 1.9 ± 0.1 On to off SW Shutdown Voltages Sw shutdown 3.1 In call Sw shutdown 3.2 In idle Min Operating Voltage Vcoff+ 2.9 ± 0.1 Off to on Vcoff- 2.7 ± 0.1 On to off Power key and system power up When the battery is placed in the phone, the power key circuits are energized. When the power key is pressed, the system boots up (if an adequate battery voltage is present). Power down can be initiated by pressing the power key again and the system is powered down with the aid of SW. The power key is connected to EM ASIC (N2200) via the PWRONX signal. The PWRONX line cannot be detected when SW hangs. For that reason, the user has to remove the battery. Modes of operation Mode Description NO_SUPPLY (Dead) mode means that the main battery is not present or its voltage is too low (below N2200 master reset threshold) and that the back-up battery voltage is too low. BACK_UP The main battery is not present or its voltage is too low but back-up battery is adequate and the 32 kHz oscillator is running. PWR_OFF In this mode (warm), the main battery is present and its voltage is over N2200 master reset threshold. All regulators are disabled, PURX is on low state, the RTC is on and the oscillator is on. PWR_OFF (cold) mode is almost the same as PWR_OFF (warm), but the RTC and the oscillator are off. RESET RESET mode is a synonym for start-up sequence. RESET mode uses 32 kHz clock to count the RESET mode delay (typically 16ms). SLEEP SLEEP mode is entered only from PWR_ON mode with the aid of SW when the system’s activity is low. FLASHING FLASHING mode is for SW downloading. Page 6 – 12 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Power distribution Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 13 RM-609 System Module Clocking scheme Page 6 – 14 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module SIM interface The phone has a SIM (Subscriber Identification Module) interface including a SIM connector. The SIM interface consists of an internal interface between RAPU and EM ASIC (N2200), and an external interface between EM ASIC and SIM contacts. Figure 42 SIM interface As the phone does not have a traditional battery cover due to semi-fixed battery concept, the SIM card can be removed and inserted without removing the battery. For safe SIM card functionality, a new Puzzle pushpush SIM reader with card detection and removal pre-warning switches is used. Pre-warning and card detect signals are connected together in the Puzzle layout symbol, so there is only one switch connection in the schematics symbol. The combined switch signal is connected through an inverter to Gazoo/Pearl SimDetX input. The following figure shows the principle of SIM circuitry with the Puzzle. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 15 RM-609 System Module Figure 43 Puzzle SIM connector circuitry The SIM interface supports both 1.8V and 3.0V SIM cards. The SIM interface voltage is first 1.8 V when the SIM card is inserted, and if the card does not response to the ATR (Answer to Request), 3V interface voltage is used. Device memory The memory components of the device are internal COMBO POP4 2Gb DDR + 8Gb M3 (NAND), a card reader for MicroSD, and 8GB eMMC memory which is non-removable and internal to the phone. The MicroSD is used as a user’s data storage memory. The µSD card is connected to RAPU via EM ASIC which has an internal level shifter with an ESD protection filter. The μSD card door state is detected by a detect switch connected to RAPU Genio25. When the door is open, the uSD card is powered off. Hot swap is supported, which means that the card may be plugged in/out at any time, without removing the battery. The device uses 8GB eMMC (D3200) external memory. The eMMC interface is a 6-wire serial/parallel data bus which includes a clock (CLK), 4 data signals (DAT), and command (CMD) wires. The eMMC interface is completely formed of the GENIOs of RAPU. The eMMC consists of an internal NAND controller and an MMC controller for I/ O interface. It is a dual supply device which requires VCC of 2.9V for the NAND core and VCCQ of 1.8V for the MMC I/O interface. BOB1.0M-b module The BOB1.0M-b module provides full 802.11b,g & n WLAN, BT 2.1 + EDR, FM RDS and FM TX connectivity. Page 6 – 16 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module BOB is the name given to a generic technology release that combines WLAN, Bluetooth, FM Rx and FM TX radio on a single monolithic IC. The phone uses BOB1.0M-b module that consists of a single chip transceiver WL1271, plus a separate RF front end (FE) device. The BOB1.0M-b release operates in the 2.4GHz (ISM) and the 76-108MHz FM bands. Figure 44 BOB1.0M-b module block diagram and application circuit From a troubleshooting point of view, WLAN is tested separately, but BTH, FMRX and FMTX are checked in parallel. REFOUT_EXT1 single ended 38.4 MHz analog clock from Linko RF is provided to BOB1.0M-b. The clock request for the reference clock in the BOB1.0M-b module is shared between WLAN and BTHFM blocks. When either system requires a clock, this signal will be active. The CLK_REQ is connected to ExtSysClkReq pin of RAPU. The SLEEPCLK input of 32.768 KHz clock from EM ASIC is used for power management and for FM in low power mode. The internal SMPS supplies the whole BOB1.0M-b solution from the phone battery supply, VBAT, apart from VIO, which is needed for interface signal reference levels. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 17 RM-609 System Module Figure 45 BOB1.0M-b interface GPS interface The phone includes an inbuilt single chip GPS receiver GPSCost4.1D, comprising both RF and BB blocks integrated in a single digital die. GPSCost4.1D is connected to RAPU ASIC via I2C_1 and some GENIOs. GPSCost4.1 D operates in Multi-master mode and the REF clock is requested via AGPS_CLK_REQ signal connected to RAPU genio46. REFOUT_EXT2 single ended 38.4 MHz analog clock from Linko RF is provided to GPSCost4.1D. Figure 46 GPS interface Page 6 – 18 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module USB USB interface The phone has an interface for USB (Universal Serial Bus). USB is a differential serial bus that provides a wired connectivity between a PC and peripheral devices, as in this case a mobile phone. Figure 47 USB interface The phone supports USB 2.0 with High-Speed (480 Mbps). Hot swap is supported, which means that USB devices may be plugged in and out at any time. MicroUSB connector This phone is provided with a specific connector for microUSB. Figure 48 MicroUSB connector Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 19 RM-609 System Module Charger interface The charger interface is a 2 mm Dynamo charger plug. Older chargers with a 3.5 mm plug are supported via the charger adapter cable CA-44. Charging is controlled by EM ASIC. Additional external components are needed for EMC purposes, reverse polarity and transient protection of the input to the baseband module. Figure 49 Charger interface User interface Touch module This phone uses Atmel capacitive touch solution. The Atmel touch module is interfaced to I2C0 bus of RAPU. RAPU’s GenIO123 is used for Touch INT. The Atmel touch module uses VAUX1 for its analogue supply and VIO for its digital supply. Communication with RAPU is via Symbian I2C bus. Whenever the user touches the touch screen, the controller raises an interrupt to RAPU which initiates I2C transactions to identify the locations the user touches on the display. Figure 50 Touch module interface Proximity sensor and ambient light sensor This phone uses a combined proximity and ambient light sensor called DiPro. The proximity part of the device uses an external IR LED supplied by VBAT. The current this LED consumes is controlled by DiPro and set using software. The interrupt output of DiPro changes state when the infra red light from the LED is reflected back by a suitable reflective surface. The ambient light sensor detects the level of ambient light and adjusts the display and key brightness accordingly whenever the display is active. Covering this sensor results in dimmed display and key lights. Page 6 – 20 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Figure 51 Proximity sensor and ALS Imaging and video Multimedia application processor Multimedia application processor, BCM2727B, is used as a HW accelerator for imaging and video graphics. The key features of BCM2727B are: • 8MPIx primary camera • Secondary camera • Dual LED flash • nHD OLED DSI display • NTSC/PAL analog TV-out MeSSI-16 and CCP2-Tx are the key interfaces between RapuYama and BCM2727B. BCM2727B has in-build 256Mb stacked SDRAM. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 21 RM-609 System Module Figure 52 BCM2727B block diagram Display module This phone uses a 2.46’’ TFT type VGA Batura display with 16 million colors. The display module supports the display format of 480 rows x 640 columns . The dimension of the display module is 54.9 mm x 47.4 mm x 1.9 mm. The module interfaces to the phone via FPC with a 20 pins board to board connector. The primary display is controlled by BCM2727B over CDP interface. The CDP interface is used for data transfer and control. Other display signals, RESET and TE, are interfaced to BCM2727B. TV-out interface The phone has Analog PAL/NTSC TV-Out capability. For the Analog TV-out, video data is passed from the host to the BCM2727B over MeSSI-16 interface and BCM2727B sends it to the AV connector. Audio is routed separately by the host to the AV connector. Page 6 – 22 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Cameras This phone has two cameras, an 8 MPix resolution main camera and a VGA resolution secondary camera. A dual LED flash is used for the main camera. Primary camera (Gambino) The primary camera is an 8 Megapixel EDOF (Enhanced Depth of Field) camera module. The module size is 8.5 mm x 8.5 mm x 6.1 mm and it fits into the 20-pin camera socket on the phone. The camera module is SMIA profile 2 compliant and is configured by the BCM2727B using I2C control bus. Image data is transferred to the BCM2727B for furher processing over CSI-2 (PRI_CAM_CSI). Figure 53 Primary camera interface Secondary camera (VGA Acme mini) The secondary camera is a VGA fixed focus camera module. It is SMIA compliant and is configured by the BCM2727B using I2C control bus. Image data is transferred to the BCM2727B for further processing over a CCP based bus (SEC_CAM_CCP). Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 23 RM-609 System Module Figure 54 Secondary camera interface Flash (dual LED) The dual LED flash consists of two high power white LEDs for use as a camera flash, torch mode and video light. The torch and video light have significantly reduced power compared to the image capture flash. A red indicator light is also present for privacy reasons to indicate when an image is being captured or a video recorded. Illumination Key illumination Navi (Breathing) key, E-series keys, Qwerty keys, Volume up/down keys and Mute key illumination is supported by LED driver NJOY9. Charging illumination A single white LED is used for charging indication. The LED is connected to EM ASIC “ChInd” pin and blinks only during dead battery USB charging in intervals of 1.5s. When under SW control, this LED provides a fixed light level. Page 6 – 24 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Keyboard interface All the keys with the exception of the power key are on a key matrix connected through a small type IO Expander (25 bump) to RAPU. Figure 55 Keyboard interface Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 25 RM-609 System Module Accelerometer Accelerometer is a geometric type component which can be configured either to generate an inertial wakeup interrupt signal when a programmable acceleration threshold is exceeded along one of the three axes (x, y, and z), or to detect a free-fall event. Each axe has its own sensor and those can measure positive and negative directions. The 3D accelerometer (N1102) Ahti_A sensor is connected to RAPU via two GENIOs ie Genio12 and Genio44 and I2C_0 bus. Power supply voltage is provided from VIO & VAUX2 output of EM ASIC. It has the following features: • 2.16V to 3.6V supply voltage • 1.8V compatible IOs • Low power consumption • ±2g/±8g dynamically selectable scale • I2C/SPI digital output interface • Embedded self test • 10000g high shock survivability • Pb free/RoHS compliancy Figure 56 Accelerometer interface Magnetometer 3D magnetometer sensor (N1103) is connected to RAPU via two GENIOs ie Genio40 and Genio41 and I2C_0 bus. Power supply voltage is provided from VIO & VAUX1 output of EM ASIC. The magnetometer is used as a city compass sensor. It detects the earth magnetic field density and composes bearing information for navigation applications. The magnetometer has the following features: • 3-axis magnetometer device suitable for compass application • Built-in A to D converter for magnetometer data out • Self test function • I2C bus interface • Power modes: OFF mode, stand-by mode and active mode • DRDY function for measurement data ready • INT function to inform exceeding magnetic field strength threshold. The operating temperature is -20°C to +85°C. The operating supply voltages are: • Analogue supply +2.4V to +3.6V • Digital interface supply +1.70V to analogue supply voltage. Page 6 – 26 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Figure 57 Magnetometer interface Audio concept Audio HW architecture TPA6140 (N2000), BoostMono (N2150) along with mixed-signal ASIC Gazoo/Pearl provides the analogue audio output interfaces and RAPU provides the digital audio output interface support. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 27 RM-609 System Module Figure 58 Audio block diagram Page 6 – 28 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Internal earpiece The internal earpiece used is Petra (8X12) and is connected to EM ASIC EARP and EARN lines. Figure 59 Internal earpiece Internal handsfree (IHF) speakers IHF speakers used are Donau and are connected to BoostMono Vallu N2150. Vallu is a mono D-class speaker amplifier with an integrated inductive boost converter. Vallu’s differential audio inputs are connected to EM ASIC Gazoo/Pearl XEarL, XEarLC and it can be enabled/disabled by Genout105 from Rapu. Figure 60 Internal handsfree (IHF) speaker diagram Internal microphones Digital microphones used are Knopfler and are connected to Rapu. DigiMic CLK is connected to RAPU Genio72 and DigiMic DATA is connected to Rapu Genio39. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 29 RM-609 System Module Figure 61 Internal microphones diagram External earpiece and microphone The AV headset earpiece is connected to TPA6140 audio amplifier which is used for high quality audio output and to guarantee long playback time for accessory use. TPA6140 is connected to Gazoo/Pearl XEarL, XEarLC, XEarR, XEarRC lines for audio and is controlled via I2C_2 bus by RAPU. The AV headset microphone line is connected to EM ASIC Gazoo/Pearl Mic2 line via AV switch N2001. Vibra Vibra is connected to VibraN and VibraP lines of EM ASIC Gazoo/Pearl. Figure 62 Vibra diagram AV connector The AV connector handles both audio and video signals output. It has audio left and right signals separately (pins 4 and 5) and the microphone signal wired to pin 3. Page 6 – 30 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Figure 63 AV connector The AVVideoControl signal handles microphone usage of the AV connector. The plug detection signal handles the AV connector plug detection with HeadDet signal from EM ASIC. Cellular RF technical description RF block Linko RF consists of the following key components: • Älli (Transceiver RF Asic) • Aura (RF power management Asic) • Ukko PA • QuBBE (Front end module) Figure 64 Linko RF block diagram The RF block uses RF ASIC N7512 that performs the RF back-end functions of receive and transmit function of the cellular transceiver. QuBBE The front end module called QuBBE contains the needed front end filters and the switches. QuBBE contains: • 3 duplexers (Band II, V, VIII) • 1 triplexer (Band I, IV) Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 31 RM-609 System Module • 12 switches with the control • Low and high band GSM TX low bass filters • 50 ohms low and high and antenna interface The control signals for the switches come from Älli. Receiver (RX) Linko RF has higher integration level compared to previous RF generations and especially more digital design blocks have been integrated to Älli, RF Asic. Älli contains the receiver chain from LNAs to digital base band interface. Digital RX baseband interface contains four data and one clk signals. The data rate and clock frequency depend on the use case. The main blocks in Älli are: • LNAs: Balanced inputs for 850, 900, 1800, 1900, 2100 bands • Passive mixer • Analog baseband: Programmable for different modes • ADC: Programmable Sigma Delta Modulator topology ADC • RX Digital Front End (RXDFE): Contains for example digital filtering, DC offset compensation, wide/ narrowband power measurement blocks There is integrated external LNA matching on the bands 900, 1800, 1900 and 2100. On 850 band, there is an integrated matching. Synthesizer The synthesizer has separate highly integrated 4GHz VCOs for RX and TX. The integrator capacitors of the loop filter are outside of the IC. The PLLs are fractional type of dividers. The reference oscillator is an on-chip 38.4 MHz digitally controlled oscillator. The 38.4 MHz crystal is outside of Älli. DCXO delivers the internal clock to Älli, differential clock signal to BB, and two single mode clock signals to NCW modules. Älli delivers a clk signal to diversity RX. The oscillator is controlled via RFBus with AFC signal. Temperature compensation of the oscillator is running by the SW in Älli. The temperature sensor itself is outside of Älli. Transmitter (TX) The main features of Linko1 transmitter are: • Common PA for GSM and WCDMA • High and low band signal paths • Low band: 824 - 915 MHz • High band: 1710 - 1980 MHz • Two operation modes in PA • Saturation mode in GMSK usage • Linear mode in Edge and WCDMA usage • No TX filter between PA and Älli • Common regulators for GSM and WCDMA • Boost and SMPS regulators in Aura • Feeding the supply voltage to PA • Operation frequency varies depending on the used system Page 6 – 32 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Frequency SMPS Boost DCDC WCDMA 3.0 MHz (typ) 4.5 MHz (typ) 1.3 MHz (typ) GSM 9.5 MHz 7.5 MHz 2.7 MHz • Digital interface to baseband • WCDMA mode • Digital IQ interface • 3 data and 1 clk signals • GSM mode • GSM TX data bits are sourced from baseband via RFBus to Älli In GMSK mode, the output level of Älli is kept high with all power levels, and the output power is adjusted by altering the collector voltage of PA. In practice, the output level of Älli is also slightly changed (optimized) in the highest power level to keep the PA compression level more constant, which results in better overall efficiency and performance. In WCDMA and EDGE mode, the output power is tuned by output level of Älli. The supply voltage in WCDMA mode is adjusted in power levels to optimize the current consumption. Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 33 RM-609 System Module Frequency mappings GSM850 frequencies Page 6 – 34 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module EGSM900 frequencies Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 35 RM-609 System Module GSM1800 frequencies Page 6 – 36 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module GSM1900 frequencies Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 37 RM-609 System Module WCDMA I (2100) Rx frequencies Page 6 – 38 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module WCDMA I (2100) Tx frequencies Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 39 RM-609 System Module WCDMA II (1900) frequencies Page 6 – 40 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module WCDMA IV (1700/2100) frequencies Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 41 RM-609 System Module WCDMA V (850) frequencies Page 6 – 42 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module WCDMA VIII (900) frequencies Uplink CH (TX) Freq (MHz) VCO (MHz) Downlink CH (RX) Freq (MHz) VCO (MHz) 2712 882,4 3529,6 2937 927,4 3709,6 2713 882,6 3530,4 2938 927,6 3710,4 2714 882,8 3531,2 2939 927,8 3711,2 2715 883 3532 2940 928 3712 2716 883,2 3532,8 2941 928,2 3712,8 2717 883,4 3533,6 2942 928,4 3713,6 2718 883,6 3534,4 2943 928,6 3714,4 2719 883,8 3535,2 2944 928,8 3715,2 2720 884 3536 2945 929 3716 2721 884,2 3536,8 2946 929,2 3716,8 2722 884,4 3537,6 2947 929,4 3717,6 2723 884,6 3538,4 2948 929,6 3718,4 2724 884,8 3539,2 2949 929,8 3719,2 2725 885 3540 2950 930 3720 2726 885,2 3540,8 2951 930,2 3720,8 2727 885,4 3541,6 2952 930,4 3721,6 2728 885,6 3542,4 2953 930,6 3722,4 2729 885,8 3543,2 2954 930,8 3723,2 2730 886 3544 2955 931 3724 2731 886,2 3544,8 2956 931,2 3724,8 2732 886,4 3545,6 2957 931,4 3725,6 2733 886,6 3546,4 2958 931,6 3726,4 2734 886,8 3547,2 2959 931,8 3727,2 2735 887 3548 2960 932 3728 2736 887,2 3548,8 2961 932,2 3728,8 2737 887,4 3549,6 2962 932,4 3729,6 2738 887,6 3550,4 2963 932,6 3730,4 2739 887,8 3551,2 2964 932,8 3731,2 2740 888 3552 2965 933 3732 2741 888,2 3552,8 2966 933,2 3732,8 2742 888,4 3553,6 2967 933,4 3733,6 2743 888,6 3554,4 2968 933,6 3734,4 2744 888,8 3555,2 2969 933,8 3735,2 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 43 RM-609 System Module Uplink CH (TX) Freq (MHz) VCO (MHz) Downlink CH (RX) Freq (MHz) VCO (MHz) 2745 889 3556 2970 934 3736 2746 889,2 3556,8 2971 934,2 3736,8 2747 889,4 3557,6 2972 934,4 3737,6 2748 889,6 3558,4 2973 934,6 3738,4 2749 889,8 3559,2 2974 934,8 3739,2 2750 890 3560 2975 935 3740 2751 890,2 3560,8 2976 935,2 3740,8 2752 890,4 3561,6 2977 935,4 3741,6 2753 890,6 3562,4 2978 935,6 3742,4 2754 890,8 3563,2 2979 935,8 3743,2 2755 891 3564 2980 936 3744 2756 891,2 3564,8 2981 936,2 3744,8 2757 891,4 3565,6 2982 936,4 3745,6 2758 891,6 3566,4 2983 936,6 3746,4 2759 891,8 3567,2 2984 936,8 3747,2 2760 892 3568 2985 937 3748 2761 892,2 3568,8 2986 937,2 3748,8 2762 892,4 3569,6 2987 937,4 3749,6 2763 892,6 3570,4 2988 937,6 3750,4 2764 892,8 3571,2 2989 937,8 3751,2 2765 893 3572 2990 938 3752 2766 893,2 3572,8 2991 938,2 3752,8 2767 893,4 3573,6 2992 938,4 3753,6 2768 893,6 3574,4 2993 938,6 3754,4 2769 893,8 3575,2 2994 938,8 3755,2 2770 894 3576 2995 939 3756 2771 894,2 3576,8 2996 939,2 3756,8 2772 894,4 3577,6 2997 939,4 3757,6 2773 894,6 3578,4 2998 939,6 3758,4 2774 894,8 3579,2 2999 939,8 3759,2 2775 895 3580 3000 940 3760 2776 895,2 3580,8 3001 940,2 3760,8 2777 895,4 3581,6 3002 940,4 3761,6 2778 895,6 3582,4 3003 940,6 3762,4 2779 895,8 3583,2 3004 940,8 3763,2 Page 6 – 44 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Uplink CH (TX) Freq (MHz) VCO (MHz) Downlink CH (RX) Freq (MHz) VCO (MHz) 2780 896 3584 3005 941 3764 2781 896,2 3584,8 3006 941,2 3764,8 2782 896,4 3585,6 3007 941,4 3765,6 2783 896,6 3586,4 3008 941,6 3766,4 2784 896,8 3587,2 3009 941,8 3767,2 2785 897 3588 3010 942 3768 2786 897,2 3588,8 3011 942,2 3768,8 2787 897,4 3589,6 3012 942,4 3769,6 2788 897,6 3590,4 3013 942,6 3770,4 2789 897,8 3591,2 3014 942,8 3771,2 2790 898 3592 3015 943 3772 2791 898,2 3592,8 3016 943,2 3772,8 2792 898,4 3593,6 3017 943,4 3773,6 2793 898,6 3594,4 3018 943,6 3774,4 2794 898,8 3595,2 3019 943,8 3775,2 2795 899 3596 3020 944 3776 2796 899,2 3596,8 3021 944,2 3776,8 2797 899,4 3597,6 3022 944,4 3777,6 2798 899,6 3598,4 3023 944,6 3778,4 2799 899,8 3599,2 3024 944,8 3779,2 2800 900 3600 3025 945 3780 2801 900,2 3600,8 3026 945,2 3780,8 2802 900,4 3601,6 3027 945,4 3781,6 2803 900,6 3602,4 3028 945,6 3782,4 2804 900,8 3603,2 3029 945,8 3783,2 2805 901 3604 3030 946 3784 2806 901,2 3604,8 3031 946,2 3784,8 2807 901,4 3605,6 3032 946,4 3785,6 2808 901,6 3606,4 3033 946,6 3786,4 2809 901,8 3607,2 3034 946,8 3787,2 2810 902 3608 3035 947 3788 2811 902,2 3608,8 3036 947,2 3788,8 2812 902,4 3609,6 3037 947,4 3789,6 2813 902,6 3610,4 3038 947,6 3790,4 2814 902,8 3611,2 3039 947,8 3791,2 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 45 RM-609 System Module Uplink CH (TX) Freq (MHz) VCO (MHz) Downlink CH (RX) Freq (MHz) VCO (MHz) 2815 903 3612 3040 948 3792 2816 903,2 3612,8 3041 948,2 3792,8 2817 903,4 3613,6 3042 948,4 3793,6 2818 903,6 3614,4 3043 948,6 3794,4 2819 903,8 3615,2 3044 948,8 3795,2 2820 904 3616 3045 949 3796 2821 904,2 3616,8 3046 949,2 3796,8 2822 904,4 3617,6 3047 949,4 3797,6 2823 904,6 3618,4 3048 949,6 3798,4 2824 904,8 3619,2 3049 949,8 3799,2 2825 905 3620 3050 950 3800 2826 905,2 3620,8 3051 950,2 3800,8 2827 905,4 3621,6 3052 950,4 3801,6 2828 905,6 3622,4 3053 950,6 3802,4 2829 905,8 3623,2 3054 950,8 3803,2 2830 906 3624 3055 951 3804 2831 906,2 3624,8 3056 951,2 3804,8 2832 906,4 3625,6 3057 951,4 3805,6 2833 906,6 3626,4 3058 951,6 3806,4 2834 906,8 3627,2 3059 951,8 3807,2 2835 907 3628 3060 952 3808 2836 907,2 3628,8 3061 952,2 3808,8 2837 907,4 3629,6 3062 952,4 3809,6 2838 907,6 3630,4 3063 952,6 3810,4 2839 907,8 3631,2 3064 952,8 3811,2 2840 908 3632 3065 953 3812 2841 908,2 3632,8 3066 953,2 3812,8 2842 908,4 3633,6 3067 953,4 3813,6 2843 908,6 3634,4 3068 953,6 3814,4 2844 908,8 3635,2 3069 953,8 3815,2 2845 909 3636 3070 954 3816 2846 909,2 3636,8 3071 954,2 3816,8 2847 909,4 3637,6 3072 954,4 3817,6 2848 909,6 3638,4 3073 954,6 3818,4 2849 909,8 3639,2 3074 954,8 3819,2 Page 6 – 46 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 System Module Uplink CH (TX) Freq (MHz) VCO (MHz) Downlink CH (RX) Freq (MHz) VCO (MHz) 2850 910 3640 3075 955 3820 2851 910,2 3640,8 3076 955,2 3820,8 2852 910,4 3641,6 3077 955,4 3821,6 2853 910,6 3642,4 3078 955,6 3822,4 2854 910,8 3643,2 3079 955,8 3823,2 2855 911 3644 3080 956 3824 2856 911,2 3644,8 3081 956,2 3824,8 2857 911,4 3645,6 3082 956,4 3825,6 2858 911,6 3646,4 3083 956,6 3826,4 2859 911,8 3647,2 3084 956,8 3827,2 2860 912 3648 3085 957 3828 2861 912,2 3648,8 3086 957,2 3828,8 2862 912,4 3649,6 3087 957,4 3829,6 2863 912,6 3650,4 3088 957,6 3830,4 Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page 6 – 47 RM-609 System Module (This page left intentionally blank.) Page 6 – 48 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 Nokia Customer Care Glossary Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page Glossary– 1 RM-609 Glossary (This page left intentionally blank.) Page Glossary– 2 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Glossary A/D-converter Analogue-to-digital converter ACI Accessory Control Interface ADC Analogue-to-digital converter ADSP Application DPS (expected to run high level tasks) AGC Automatic gain control (maintains volume) ALS Ambient light sensor AMSL After Market Service Leader ARM Advanced RISC Machines ARPU Average revenue per user (per month or per year) ASIC Application Specific Integrated Circuit ASIP Application Specific Interface Protector B2B Board to board, connector between PWB and UI board BA Board Assembly BB Baseband BC02 Bluetooth module made by CSR BIQUAD Bi-quadratic (type of filter function) BSI Battery Size Indicator BT Bluetooth CBus MCU controlled serial bus connected to UPP_WD2, UEME and Zocus CCP Compact Camera Port CDMA Code division multiple access CDSP Cellular DSP (expected to run at low levels) CLDC Connected limited device configuration CMOS Complimentary metal-oxide semiconductor circuit (low power consumption) COF Chip on Foil COG Chip on Glass CPU Central Processing Unit CSD Circuit-switched data CSR Cambridge silicon radio CSTN Colour Super Twisted Nematic CTSI Clock Timing Sleep and interrupt block of Tiku CW Continuous wave D/A-converter Digital-to-analogue converter DAC Digital-to-analogue converter DBI Digital Battery Interface DBus DSP controlled serial bus connected between UPP_WD2 and Helgo Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page Glossary– 3 RM-609 Glossary DCT-4 Digital Core Technology DMA Direct memory access DP Data Package DPLL Digital Phase Locked Loop DSP Digital Signal Processor DTM Dual Transfer Mode DtoS Differential to Single ended EDGE Enhanced data rates for global/GSM evolution EGSM Extended GSM EM Energy management EMC Electromagnetic compatibility EMI Electromagnetic interference ESD Electrostatic discharge FCI Functional cover interface FM Frequency Modulation FPS Flash Programming Tool FR Full rate FSTN Film compensated super twisted nematic GMSK Gaussian Minimum Shift Keying GND Ground, conductive mass GPIB General-purpose interface bus GPRS General Packet Radio Service GSM Group Special Mobile/Global System for Mobile communication HSDPA High-speed downlink packet access HF Hands free HFCM Handsfree Common HS Handset HSCSD High speed circuit switched data (data transmission connection faster than GSM) HW Hardware I/O Input/Output IBAT Battery current IC Integrated circuit ICHAR Charger current IF Interface IHF Integrated hands free IMEI International Mobile Equipment Identity Page Glossary– 4 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Glossary IR Infrared IrDA Infrared Data Association ISA Intelligent software architecture JPEG/JPG Joint Photographic Experts Group LCD Liquid Crystal Display LDO Low Drop Out LED Light-emitting diode LPRF Low Power Radio Frequency MCU Micro Controller Unit (microprocessor) MCU Multiport control unit MIC, mic Microphone MIDP Mobile Information Device Profile MIN Mobile identification number MIPS Million instructions per second MMC Multimedia card MMS Multimedia messaging service MP3 Compressed audio file format developed by Moving Picture Experts Group MTP Multipoint-to-point connection NFC Near field communication NTC Negative temperature coefficient, temperature sensitive resistor used as a temperature sensor OMA Object management architecture OMAP Operations, maintenance, and administration part Opamp Operational Amplifier PA Power amplifier PCM Pulse Code Modulation PDA Pocket Data Application PDA Personal digital assistant PDRAM Program/Data RAM (on chip in Tiku) Phoenix Software tool of DCT4.x and BB5 PIM Personal Information Management PLL Phase locked loop PM (Phone) Permanent memory PUP General Purpose IO (PIO), USARTS and Pulse Width Modulators PURX Power-up reset PWB Printed Wiring Board Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page Glossary– 5 RM-609 Glossary PWM Pulse width modulation RC-filter Resistance-Capacitance filter RDS Radio Data Service RF Radio Frequency RF PopPort ™ Reduced function PopPort ™ interface RFBUS Serial control Bus For RF RSK Right Soft Key RS-MMC Reduced size Multimedia Card RSS Web content Syndication Format RSSI Receiving signal strength indicator RST Reset Switch RTC Real Time Clock (provides date and time) RX Radio Receiver SARAM Single Access RAM SAW filter Surface Acoustic Wave filter SDRAM Synchronous Dynamic Random Access Memory SID Security ID SIM Subscriber Identity Module SMPS Switched Mode Power Supply SNR Signal-to-noise ratio SPR Standard Product requirements SRAM Static random access memory STI Serial Trace Interface SW Software SWIM Subscriber/Wallet Identification Module TCP/IP Transmission control protocol/Internet protocol TCXO Temperature controlled Oscillator Tiku Finnish for Chip, Successor of the UPP TX Radio Transmitter UART Universal asynchronous receiver/transmitter UEME Universal Energy Management chip (Enhanced version) UEMEK See UEME UI User Interface UPnP Universal Plug and Play UPP Universal Phone Processor UPP_WD2 Communicator version of DCT4 system ASIC Page Glossary– 6 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1 RM-609 Glossary USB Universal Serial Bus VBAT Battery voltage VCHAR Charger voltage VCO Voltage controlled oscillator VCTCXO Voltage Controlled Temperature Compensated Crystal Oscillator VCXO Voltage Controlled Crystal Oscillator VF View Finder Vp-p Peak-to-peak voltage VSIM SIM voltage WAP Wireless application protocol WCDMA Wideband code division multiple access WD Watchdog WLAN Wireless local area network XHTML Extensible hypertext markup language Zocus Current sensor (used to monitor the current flow to and from the battery) Issue 1 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Page Glossary– 7 RM-609 Glossary (This page left intentionally blank.) Page Glossary– 8 COMPANY CONFIDENTIAL Copyright © 2011 Nokia. All rights reserved. Issue 1
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