Nokia NPD-4 Series Troubleshooting - Bb
Transceivers
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Also See for NPD-4 Series:
- Technical documentation manual (62 pages) ,
- Troubleshooting - gps (28 pages) ,
- Troubleshooting - antennas (12 pages)
Related Manuals for Nokia NPD-4 Series
Summary of Contents for Nokia NPD-4 Series
- Page 1 CCS Technical Documentation NPD-4 Series Transceivers Troubleshooting — BB Nokia Corporation Issue 1 02/2003 Confidential...
- Page 2 NPD-4 Troubleshooting — BB CCS Technical Documentation Nokia Corporation Page 2 Confidential Issue 1 02/2003...
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Page 3: Table Of Contents
Power doesn’t stay on or the phone is jammed ............31 Charger ........................33 Audio faults .......................34 Earpiece........................34 Microphone ......................35 MIDI........................36 Vibra........................37 Display faults ......................38 Keypad faults ......................40 Power key........................ 40 UI modules ......................41 Nokia Corporation Issue 1 02/2003 Confidential Page 3... - Page 4 NPD-4 Troubleshooting — BB CCS Technical Documentation Nokia Corporation Page 4 Confidential Issue 1 02/2003...
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Page 5: Troubleshooting Overview
32 kHz clock supply. The period of the sleep/wake up cycle (slotted cycle) is 1.28N seconds, where N= 0, 1, 2, depending on the slot cycle index. NPD-4 supports standard Nokia two-wire and three-wire chargers (ACP-x and LCH-9). However, the three-wire chargers are treated as two-wire chargers. The PWM control signal for controlling the three-wire charger is ignored. -
Page 6: Flash Programming
FBUSRX, MBUS, and BSI connections for the connection to the baseband. The connection is through the UEM — which means that the logic levels correspond to 2.7V. Power is supplied using the battery contacts. Nokia Corporation Page 6 Confidential Issue 1 02/2003... -
Page 7: Baseband Power Up
"1" and then uses FBUSRX for writing and MBUS for clocking. The prommer will indicate to UEM that flash programming will take place by writing 8-bit password (*0xC9") to UEM after BSI is set to high. After the Nokia Corporation Issue 1 02/2003 Confidential... - Page 8 MCU will indicate to prommer that it has been noticed, by using FBUSTX signal. After this, it reports UPP type ID and is ready to receive secondary boot code to its internal SRAM. (See the following figure.) Nokia Corporation Page 8 Confidential...
- Page 9 This boot code asks MCU to report prommer phone’s configuration information, including flash device type. Now prommer can select and send algorithm code to MCU SRAM (and SRAM/Flash self-tests can be executed). (See the following figure.) Nokia Corporation Issue 1 02/2003 Confidential Page 9...
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Page 10: Power Up And Reset
Vflahs2 is used for active cover. The UEM internal watchdogs are running during the UEM reset state, with the longest watchdog time selected. If the watchdog expires, the UEM returns to power off state. The UEM watchdogs are internally Nokia Corporation Page 10 Confidential... - Page 11 Reference signal PwrOnX Charger Detection UEMRSTX VFlash1 VCORE VANA 19.2MHz Clk PURX 32kHz XTAL t1 = 20ms t3 = 500us t2 = 200ms t4 = 20ms Figure 5: Power on sequence and timing Nokia Corporation Issue 1 02/2003 Confidential Page 11...
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Page 12: Power Up With Pwr Key
START_UP charge circuitry. Connecting a charger forces VCHAR input to rise above charger detection threshold, VCH . By detection, start-up charging is DET+ started. UEM generates 100 mA constant output current from the connected charger’s Nokia Corporation Page 12 Confidential Issue 1 02/2003... -
Page 13: Rtc Alarm Power Up
In sleep mode, VCTCXO is shut down and 32 kHz sleep clock oscillator is used as refer- ence clock for the baseband. Nokia Corporation Issue 1 02/2003 Confidential Page 13... -
Page 14: Power Distribution
VCORE is supplied by a DC/DC switching supply, which provides nominal voltages and currents (See Table 1.) UEM supplies also voltages VR1A, VR1B, VR2, VR3, VR4, VR5, VR6, and VR7 for RF. (See Table 2). Nokia Corporation Page 14 Confidential Issue 1 02/2003... -
Page 15: Clock Distribution
The main clock signal for the baseband is generated from the voltage and temperature controlled crystal oscillator VCTCXO (G501). This 19.2 MHz sine wave clock signal is fed to RFCLK pin of UPP. (See Figure 7 for the waveform.) Nokia Corporation Issue 1 02/2003 Confidential... -
Page 16: Rfconvclk (19.2 Mhz Digital)
The UPP distributes the 19.2MHz internal clock to the DSP and MCU, where SW multi- plies this clock by seven for the DSP and by two for the MCU. (See the following figure.) Figure 8: RF CovClk waveform Nokia Corporation Page 16 Confidential... -
Page 17: Cbusclk Interface
DBUSClk Interface A 9.6 MHz clock signal is used for DBUS, which is used by the DSP to transfer data between UEM and UPP. (See following figure.) Figure 10: Dbus data transfer Nokia Corporation Issue 1 02/2003 Confidential Page 17... -
Page 18: Sleepclk (Digital)
When the system enters sleep mode or power off mode, the external 32KHz crystal pro- vides a reference to the UEM RTC circuit to turn on the phone during power off or sleep mode. (See next figure.) Nokia Corporation Page 18 Confidential... -
Page 19: Charging Operation
BSI and BTEMP pins of battery connector. Phone has 100 kΩ pull-up resis- tors for these lines so that they can be read by A/D inputs in the phone. 4(GND) 3(BTEMP) 2(BSI) 1 (+) Figure 13: BLC-2 battery pack pin order Nokia Corporation Issue 1 02/2003 Confidential Page 19... -
Page 20: Charging Circuitry
2 V (VCHdet+ threshold) by UEM charging starts. VCHARDET signal is generated to indicate the presence of the charger for the SW. The charger identification/acceptance is controlled by EM SW. Nokia Corporation Page 20 Confidential... -
Page 21: Charge Control
MIC1, MIC,2 and MIC3. MIC1 input is used for the phone's internal microphone; MIC2 input is used for headsets (HDB-4, BHF-1, and CARK-142), and Loopset (LPS-4). MIC3 input is used for third-party accessories (2.5mm Jack). Every Nokia Corporation Issue 1 02/2003 Confidential... -
Page 22: Display And Keyboard
D/C bit set during each transmitted byte by MCU SW. The following figure is the waveform for LCD interface. Figure 17: LCD Interface Accessory Differential-ended external audio accessory connection is supported. Headset and data Nokia Corporation Page 22 Confidential Issue 1 02/2003... -
Page 23: Test Points
MIDI audio amplifier. It is AC-coupled to the cover input. Test Points BB test points, regulators, and BB ASICs diagrams follow. Figure 18: 3585i Test Points - Top Nokia Corporation Issue 1 02/2003 Confidential Page 23... -
Page 24: Troubleshooting/Flowcharts
4 Flash programming doesn‘t work 5 Display is not working 6 Audio fault 7 Charging fault First, carry out a thorough visual check of the module. Ensure in particular that: • there is no mechanical damage Nokia Corporation Page 24 Confidential Issue 1 02/2003... - Page 25 NPD-4 CCS Technical Documentation Troubleshooting — BB • soldered joints are OK • ASIC orientations are OK Nokia Corporation Issue 1 02/2003 Confidential Page 25...
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Page 26: Top Troubleshooting Map
NPD-4 Troubleshooting — BB CCS Technical Documentation Top troubleshooting map Phone dead Flash faults Phone is jammed Charger Top 2 Nokia Corporation Page 26 Confidential Issue 1 02/2003... - Page 27 NPD-4 CCS Technical Documentation Troubleshooting — BB Top 2 Audio faults Display faults Keypad faults Nokia Corporation Issue 1 02/2003 Confidential Page 27...
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Page 28: Phone Is Totally Dead
Is phone flash < 30 mA programming OK? Phone current is <= 35 mA Check BSI line X110, Is phone in local R202, R203, C230. Change UEM mode? Are they OK? OK restart Repair Nokia Corporation Page 28 Confidential Issue 1 02/2003... -
Page 29: Flash Programming Doesn't Work
V101. If OK, then bottom connector. change UEM or UPP Does waveform match Figure 2? Change UEM Phone does not set Flashbus TXD line low after the line has been high Flash faults page 2 Nokia Corporation Issue 1 02/2003 Confidential Page 29... -
Page 30: Phone Is Jammed
CCS Technical Documentation Phone is jammed Flash faults page 2 Can you read manufacturer ID and Change Flash device ID? Is phone totally dead? Phone doesn't start up or phone is jammed? Retest Nokia Corporation Page 30 Confidential Issue 1 02/2003... -
Page 31: Power Doesn't Stay On Or The Phone Is Jammed
R510, R512, R520, R521, R522, R517, Measure PURX and R518). If OK, change SleepX at test points G501. TP1 and TP2. Are they high (1.8V)? Change UPP Jammed page 2 Change UEM Nokia Corporation Issue 1 02/2003 Confidential Page 31... - Page 32 Phone shutdown after Has the phone been Flash the phone 32 seconds flashed? Change UPP and re- flash. If problem still exists, change UEM and reflash phone. Read phone info. Is it Re-test Nokia Corporation Page 32 Confidential Issue 1 02/2003...
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Page 33: Charger
Check X100, F100, V100. Is it > 3.0 Vdc? L100, V100, C106 Read BTEMP value. Change UEM Is it -25C (0319)? Remove (fuse) F100 and measure current. Change UEM Is it -350-390 mA? Re-test Nokia Corporation Issue 1 02/2003 Confidential Page 33... -
Page 34: Audio Faults
UEM on EARP and R180. Check bias EARN? voltage on one end of C193 (2.1V). If OK, change the UEM. Check R150, C180, and C181. If OK, then Audio faults 2 change earpiece. Nokia Corporation Page 34 Confidential Issue 1 02/2003... -
Page 35: Microphone
C174 and L122, then L122 and C174? change microphone. Is signal going out of Check signal at R160. UEM at XEAR, pin 10 If OK, change UEM. on bottom connector? Audio faults 3 Re-test Nokia Corporation Issue 1 02/2003 Confidential Page 35... -
Page 36: Midi
MIC1 to HF single-ended output. Also set GenIO(28) high. Check signal at C157. Change UEM Is signal OK? Check signal at MIDI speaker pads. Is Change speaker signal OK? Audio faults 4 Change UEM Nokia Corporation Page 36 Confidential Issue 1 02/2003... -
Page 37: Vibra
DEV_HOST -> DEV_PC -> PN_ACCESSORY -> PN_OBJ_ROUTING_REQ -> PN_OBJ_PC -> UTID_100 -> ACC_VIBRA_CTRL_REQ. Select "ACC_ON" and click "Send" Measure UEM signal on pin 2 of M300. Is Change UEM signal OK? Change vibra Nokia Corporation Issue 1 02/2003 Confidential Page 37... -
Page 38: Display Faults
UTID -> LIGHT_CONTROL_REQ -> LIGHT_CONTROL_TARGER_KBD. Select "LIGHT_STATE_BLINK" and click "Send" Measure UEM signal Change UEM at R306. Is signal OK? Measure voltage at Change LM 2795 LEDs. Is it OK? Display faults 2 Change LEDs Nokia Corporation Page 38 Confidential Issue 1 02/2003... - Page 39 TEST_DISPLAY_SET -> NUM_SB: -> TEST_SB_UI_DISPLAY_PATTERN -> SB_LENGTH. Select "TEST_PATTERN_ALTPIXELS" and click "Send" Check signal at pin 1 ("1"), 2 ("0"), 4 (data), Change UPP and 5 (clock). Are the signals OK? Change display Nokia Corporation Issue 1 02/2003 Confidential Page 39...
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Page 40: Keypad Faults
Measure voltage at Is power key working? R304. If OK, change S300. Is it HIGH? UEM. Measure voltage at S300 when power key Change S300 is pressed. Is it HIGH? Keypad faults 2 Nokia Corporation Page 40 Confidential Issue 1 02/2003... -
Page 41: Ui Modules
Z300. OK, change UPP. Are they -1.8V? Measure ROW0-4 signals between Z300 Change Z300 and keypads. Are they -1.8V? Make sure there are no shorts on Z300. If OK, change UPP Nokia Corporation Issue 1 02/2003 Confidential Page 41... - Page 42 NPD-4 Troubleshooting — BB CCS Technical Documentation Nokia Corporation Page 42 Confidential Issue 1 02/2003...