Motorola Astro Digitalport Saber Detailed 68p81076c10 A Manual
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9-6 Standard Bias TableTable 3, below, outlines some standard supply voltages and system clocks which should be present under normal operation. These should be checked as a first step to any troubleshooting procedure. Table 2 . Standard Operating Bias Signal Name Nominal Value Tolerance Source UNSW_B+7.5Vdc6.0-9.0VdcJ401 SW_B+ 7.5Vdc 6.0-9.0Vdc Q207 +5V +5VA5.0Vdc 5.0Vdc±10% ±10%U409 U410 RESET 5.0Vdc +0.7, - 1.0Vdc U407 POR*5.0Vdc+0.7, - 1.0VdcU206 DSP_RST* ADSIC_RST*5.0Vdc 5.0Vdc+0.7, -1.0Vdc +0.7, -1.0VdcU204 U204 DCLK33.0000MHza a. This is number may vary due to the operating mode of the radio when it is measured. The ADSIC contains a divider which may divide the clock by a modulus of 2. Therefore the actual frequency measured may be clock/2n . The most common frequency will be 16.5000MHz nominal. ±500ppMU406 ODC 2.4MHz ±30ppM ABACUS ECLK IRQB*1.8432MHz 8kHzb b. This 8kHz clock will be present only after the MCU has successfully pro- grammed the ADSIC after power-up. This is a good indication that the ADSIC is at least marginally operational. ±500ppM ±500ppMU204 U406 +5V 5.0Vdc ±10% U202 RX_5Vc c. Receive mode only. 5.0Vdc±10%U106
11-1 Troubleshooting Waveforms 11 IntroductionThis section contains images of waveforms which may be useful in verifying operation of certain parts of the circuitry. These waveforms are for reference only; the actual data depicted will vary depending upon operating conditions. Waveforms Figure 14 . Waveform W1 103 Acquisitions Tek stopped: T 1 Ch1T M 200us Ch1 -680mV W1: Switched Regulator Clock Out Trace 1 - (U409)LX measured with radio in standby mode with UNSW_B+ at 7.5VDC. 2.00V MAEPF-24376-O
11-2 Figure 15 . Waveform W2 2893 Acquisitions Tek stopped: T 2 Ch3 Ch1T 1 3 M 20.0us Ch1 2.2 V W2: DSP SSI Port RX mode. Receiving 1KHz tone @ 3KHz deviation, -60dBm. Trace 1 - RFS Trace 2 - RXD Trace 3 - SCKR (2.4/0.600MHz)Ch1 Freq 19.991kHz Low signal amplitude 5.00V 5.00V 1 5.00V Ch2 MAEPF-24377-A Note 1: Typically SCKR is a 2.4 MHz clock. In low power modes, as shown here, SCKR is 600KHz. Figure 16 . Waveform W3 T T 2836 Acquisitions Tek stopped: T 3 Ch1 Ch2 Ch3 2 1 M 5.00us Ch1 2.2 V W3: DSP SSI Port TX mode CSQ. Trace 1 - SC2 Trace 2 - STD Trace 3 - SCK (1.2MHz)Ch1 Freq 47.856kHz Low signal amplitude 5.00V5.00V 5.00V MAEPF-24378-A
11-3 Figure 17 . Waveform W4 T 13 Acquisitions Tek stopped: T 1 Ch1 M 10.0us Ch1 2.2 V W4: ABACUS programming captured during mode change. Trace 1 - (ADSIC) SBIMAEPF-24379-OCh1 Freq 74.610kHz 2.00V Figure 18 . Waveform W5 34513 Acquisitions Tek stopped: T 3 Ch3 1 2 Ch1 Ch2 M 5.00us Ch1 2.2 V Note 2: Since these signals are a differential current loop these voltages are very low.MAEPF-24380-A 2 W5: ABACUS/ADSIC Interface. Receiving 1KHz tone @ 3KHz deviation, -60dbm. Trace 1 -IDC (2.4MHz) Trace 2 - DOUT TRACE 3 - DOUT*Ch1 Freq 2.251920 MHz Low resolution 2.00V 500mV 500mV T
11-4 Figure 19 . Waveform W6 Tek stopped: T 1 Ch1T 18 Acquisitions Tek stopped: T 2 Ch2T 11 13 M 50ns Ch1 2.2 V W6: SPI Bus Programming ADSIC. Trace 1 - ADSIC_SEL* Trace 2 - SPI_SCK Trace 3 - MOSI Note: These waveforms are typical to any device on the SPI bus.Ch1 Freq = Hz No period found Ch1 Ch35.00V 5.00V5.00V MAEPF-24381-A T T T Figure 20 . Waveform W7 103 Acquisitions Tek stopped: T 2 Ch2 1 3 4 M 200us Ch1 2.20 V W7: Receive audio: Receiving 1KHz tone @ 3KHz deviation, -60dBm. Trace 1 - IRQB @ DSP (8KHz) Trace 2 - SD0 @ C404 Trace 3 - SPKR_COMMON Trace 4 - INT_SPKRCh1 Freq 7.9118kHz Low signal amplitude 5.00V 2.00V200mV 2.00V Ch1 Ch3 Note 3: Actual level is dependent upon volume setting.MAEPF-24382-A Ch4 3 T T T
11-5 Figure 21 . Waveform W8 507 Acquisitions Tek stopped: T 1 Ch4 T 2 3 4 M 200us Ch1 1.5 V W8: Transmit Audio. 1KHz Tone which provides 3KHz deviation. Trace 1 - IRQB @ DSP (8KHz) Trace 2 - MODIN Trace 3 - EXT MIC @ node C484/R408 Trace 4 - MAI @ node R492/U401 MICAMPOUTCh1 Freq 7.9872kHz Low signal amplitude 5.00V 20.0mV MAEPF-24383-A 500mV 500mV Ch1 Ch3Ch2 T T Figure 22 . Waveform W9 1 Acquisitions Tek stopped: T 1 Ch1T 2 M1.00ms Ch1 4.52 V W9: Power Down Reset. Trace 1 - +5V @ U407 (VDD) Trace 2 - Reset @ U407 (OUT) 2.00V Ch2 MAEPF-24384-O 2.00V T
11-6 Figure 23 . Waveform W10 493 Acquisitions Tek stopped: MAEPF-24385-OT 1 Ch1T M 200ns Ch1 1.64 V W10 ADSIC 2.4 MHz Reference Trace 1 - IDC @ U406Ch1 Freq 2.4038MHz 2.00V
12-1 Troubleshooting Diagrams 12 Introduction to This Section This section contains troubleshooting diagrams necessary to isolate a problem to the component level. Use these diagrams in conjunction with the theory of operation, troubleshooting procedures, charts, and waveforms. Table 3 . J201 VOCON Board to Universal Connector J201 Pin #Description To/FromUC Pin # 1Removed 2n/c 3n/c 4LH DATA/BOOT DATA OUT U208-1 3 5EXT MICU411-64 6SB9600 BUSY U204-J3 6 7OPT SEL 1U206-G3 (EXT PTT) Q2107 8RS232 DATA IN U206-B2 12 9OPT SEL2 (KEYLOAD*)U206-C610 10KEYFAIL*/RTSIN* U206-J8 J801-159 11SPKR COMMONU401-A3 U204-B3 J701-141 12EXT SPKR U401-A5 U204-C42 13OPTB+/BOOT SEL/VPP*CR201/Q218 14CTSOUT* U206-B6 5 15RS232 DATA OUT/BOOT DATA INU206-A511
12-2
Table 4 . J601
VOCON Board to Display Board
J601 Pin # DescriptionTo /
From
1MOSIU204-J6
J801-8
J401-9
2SPI SCK U204-G5
J801-9
J401-10
3SW B+J401-17
4 DISP EN*/
LATCH SEL*U206-G8
5DISP RST*U204-F5
6 BL EN U206-E7
7+5VU409-12
8 n/c
9+5VU709-9
Table 5 . J701
VOCON Board to Keypad
J701 Pin # Description To/From
1ROW 5/5V-EN*U206-F8
2 GROUND/MIC
RETURN
3ROW 2/SPK ENU206-G4
4 INT MIC U411-2
5COL2U206-D5
6 COL3/MOB IRQ* U206-B4
7GROUND
8 n/c
9ROW4/TXPA EN*U206-G9
10 COL1 U206-A7
11ROW3/BUSY OUTU206-K8
12 ROW6/MIC EN U206-G7
13ROW1U206-J3
14 SPKR COMMON U401-A3
J201-11
U401-A3
U204-B3
15INT SPKRU401-B2
Table 6 . J1/J401
Transceiver Board to VOCON Board
J1/
J401
Pin
#DescriptionTransceievr
BoardVOCON
Board
1DOUT*U401-4U406-H3
2 DOUT U401-5 U406-K3
3GROUND
4 SBI U401-6 U406-J3
5GROUND
6 POR*RSSI U305-5
U503-19U407-1
7DA SEL* DA
CEU503-16U204-H5
8 ODC 2.4MHz U401-7 U406-F3
9MOSI DATAU503-18
U302-2
U304-25
10 SPI SCK* U503-17
U302-3
U304-22
(CLOCK)U204-G5
11ROSC/PSC CE*U304-24
(REF OSC
EN)U204-F6
12 GROUND
13LOCK DET*U302-41
CR502U206-K2
14 SYN SEL* U302-4
(SYN CE)U204-H7
15MOD INU302-5U406-B2
16 GROUND
17SW B+U305-8U409,
J801-1,
Q206
18 GROUND
19UNSW B+J3-1
U105-5
U502-6
(RAW B+)U409-1
20 UNSW B+ J3-1
U105-5
U502-6
(RAW B+)
J801-20U409-1
Q207
12-3 Table 7 . J801 VOCON Board to Encryption Board J801 Pin # Description To/From 1SW B+J401-17 2 SW B+ J401-17 3EMC RXOU405-B7 4 EMC TXO U405-A7 5n/c 6 GROUND 7MISOU204-H6 8 MOSI U204-J6 J601-1 9SPI SCKU204-G5 J601-2 10 EMC EN* U206-D6 11EMC REQ*U206-H3 12 EMC MAKEUP* U206-K7 13n/c 14 n/c 15KEYFAIL*/RTSIN*U206-J8 16 n/c 17n/c 18 n/c 19n/c 20 UNSW B+ J401-19 21GROUND 22 GROUND 23n/c 24 n/c 25n/c Table 8 . J901 VOCON Board to Control Top Flex J901 Pin # Description To/From 1UNSW B+J401-19 2 TG1/PROG SWITCH U204-D3 3VOLU204-C3 4 EMERG U204-A3 5+5VU409-12 6 INT PTT* U204-H2 7RTA3U206-H1 8 GRN LED DRIVER U206-E8 9TG2 A/B SWITCH*U204-A2 10 B+ SENSE 11RTA0U206-F3 12 RED LED DRIVER U206-H9 13RTA1U206-F4 14 GROUND 15RTA2*U206-F2 16 n/c 17n/c 18 n/c 19n/c 20 UNSW B+ J401-19 21GROUND 22 GROUND 23n/c 24 n/c 25n/c