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Very helpfull information and I highly recommend this source for needed information about your products.
More than pleased with my prurchase, very good product for the price.
This is a good quality scan of the service manual which includes an assembly diagram, block diagram, schematic, and parts list. Exactly what is needed to repair my KR-V55R receiver.
Excellent concise manual. All needed information was included. Typeface and diagrams were clear. Very fair price considering what others are charging. Many thanks
Response is a little slow- I had to wait 12 hours to receive download link but it says that it may take up to 24hrs.
Manual is old and was not produced in PDF- scanned copy is exellent.
Overall- value for money- I recommend
s Display Circuit
The CPU (IC511) controls the shift register (IC508) and display LEDs. When the LG line goes high when the transceiver is busy, Q508 turns on and the green LED on D511 lights. In transmit mode, the LR line goes high, Q509 turns on and the red light lights. Backlighting LEDs for the key operation unit (D512~D517) and LCD are provided. When the KBLC line goes high, Q512 turns on, then Q513 turns on, and the key illumination LED lights. A voltage is applied to the LEDA line to turn on the LCD backlight.
KBLC Q512 SW IC508 LG Shift register LR Q508 SW Q509 SW Q513 SW LEDA
The QT, DQT signals are output from LSDO of the CPU (IC511) and go to the D/A converter (IC5) of the TX-RX unit (A/2). The DTMF and single tone signals are output from HSDO of the CPU and goes to the audio processor (IC504). An MSK signal is output from the audio processor according to the data (AFDAT) from the CPU. The signal is summed with a MIC/MSK signal by the audio processor (IC504), and the resulting signal passes through an analog switch (IC506) and goes to the TX-RX unit (A/2) (MO). MO is summed with the external pin DI line by the summing amplifier (IC3) and the resulting signal goes to the D/A converter (IC5). The D/A converter (IC5) adjusts the MO level and the balance between the MO and TO levels. Part of a TO signal is summed with an output signal from pin 3 (MO) of IC5 and the resulting signal goes to the MD pin of the VCO. This signal is applied to a varicap diode in the VCO for direct FM modulation.
TX-RX UNIT (A/2)
D511 D512~517 GRN RED
Fig. 10 Display circuit
LSDO MIC IC511 CPU AFDAT HSDO IC504 Audio processor IC506 Analog SW
TO DI IC3 SUM AMP
s Key Matrix Circuit
The TK-885 front panel has ten keys. Each of them is connected to a cross point of a matrix of the KEY1 to KEY7 ports of the microprocessor. The KEY5 to KEY7 ports are always high, while the KEY1 to KEY4 ports are always low. The microprocessor monitors the status of the KEY1 to KEY7 ports. If the state of one of the ports changes, the microprocessor assumes that the key at the matrix point corresponding to that port has been pressed. Unused points (KEY1 to KEY7) are also used for foot switch (FSW) input.
Fig. 12 Encode
The signal (DEO) detected by the TX-RX unit (A/2) passes through two low-pass filters of IC501, goes to LSDI of the CPU (IC511) to decode QT, DQT. The MSK signal passes through IC504. IC504, includes band-pass filter and MSK decoder, converts the input signal into a square waveform (0 and 5V). This square waveform is then fed to AFRDT line of CPU (IC511).
IC501(2/2) IC501(1/2) LPF LPF LSDI IC511 CPU
FSW VOL UP KEY7 KEY6 KEY5 IC511 CPU KEY4 KEY3 KEY2 KEY1 VOL DOWN A CALL B SYS DOWN Q511 C SYS UP
IC507 DTMF DECO. IC504 AUDIO PROC.
Fig. 11 Key matrix circuit