Panasonic KX-TCD961EB Service Manual ▷ View online
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KX-TCD961EB
2. THE BASE-BAND SECTION (SEE BLOCK DIAGRAM Fig. 18)
2.1 INTRODUCTION
The base-band section consists of a base-band integrated circuit (BBIC), a Flash PROM, an EEPROM, and an AND
Gate.
2.2 THE BASE-BAND INTEGRATED CIRCUIT (BBIC)
The PQVINSC14424 (IC101) is a CMOS device designed to handle all the audio, signal and data processing needed
in a DECT base unit. It contains a “burst mode controller” microprocessor which takes care of DECT specific physical
layer and radio section control. It also contains two ADPCM transcoders, a low power 14 bit codec (ADC/DAC), vari-
ous other ADC’s, DAC’s and timers, a gaussian filter for the DECT GFSK modulation method, clock and data recovery
circuits, a clock oscillator circuit, a DTMF generator (DSP), an echo suppression circuit (DSP), and a pair of gain
controllable audio amplifiers for line input and line output.
The IC101 interfaces to its external PROM (IC102) via a data/address/control bus. It connects to the EEPROM via a
serial interface, and a second serial interface is used during manufacture and service to connect to an external com-
puter.
2.3 FLASH PROM (SEE Fig. 19)
The 2 Mbit (IC102) Flash PROM contains the operational firmware for the microcontroller. It is interfaced to the
data/address/control bus using address lines A0 to A16, data lines D0 to D7, and chip select (pin 30), output enable
(pin 32), and write (pin 7).
2.4 EEPROM (SEE Fig. 19)
The electrically erasable PROM PQVINM4C32L (IC103) is used to store all the temporary operating parameters for
the base (see EEPROM LAYOUT Page 63). It uses a two-line serial data interface with the BBIC, with bi-directional
data on pin 5, and clock on pin 6.
2.5 CLOCK GENERATION (SEE Fig. 19)
A single clock generator in the BBIC uses an external crystal X101 to derive all clock frequencies used in the base.
The crystal is tuned to the exact frequency of 10.368 MHz during manufacture by feeding a DC voltage from a DAC in
the microcontroller (from pin 14 of IC101) to the varicap diode D104.
The BBIC provide buffered clock signals RFCLK (pin 11) at 10.368 MHZ for the Frequency Synthesizer, which is only
active during the PLL lock period. Other clock is SCLK on pin 1 (3.456MHz). The basic data rate for TRADAT and
RECDAT is 1.152 Mbits/s, which is 10.368 MHs divided by 9. The data rate for the serial interface to the phase-lock-
loop is also 1.152 Mbits/s.
CIRCUIT OPERATION (BASE UNIT)
1. R.F. SECTION (SEE BLOCK DIAGRAM Fig. 17)
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KX-TCD961EB
Fig. 19-1
Circuit Diagram
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2.6 LOCATOR KEY (SEE Fig. 19-1)
The keyboard “Locator (Page)” button is connected to pin 10 of the IC501. When pressed the base transmits a mes-
sage to the handset, which then beeps.
2.7 FACTORY SERIAL PORT (SEE Fig. 19-1)
In order to communicate with the handset during manufacture and servicing (using a PC) a serial data link has been
provided. Serial data input/output is provided on J102 (TP152), and a ground is provided on J103. The bi-directional
serial data line is split into two at IC101 pin 27 (input) and pin 26 (output). Data rate is 9600 baud J103. D105
provides ESD protection, and R117 and C146 provide RF de-coupling.
2.8 BUZZER CIRCUIT (SEE Fig.19-1)
A square-wave signal from IC101 pin 41 (TP103) is used to sound the buzzer via switching transistor T101 (TP101).
Various tones and cadences are used dependent on function.
2.9 AUDIO PATH-RX AUDIO-LINE INPUT (SEE Fig. 19-1)
Audio from the Line Interface TXAF enters the BBIC on pin 58. R111 and C113 are to balance the
(differential) audio input of IC101, and C110 and C112 are for RF de-coupling. In the BBIC audio passes through the
gain-controlled line input amplifier, into the ADC part of the codec, where it is sampled and turned into digital data. The
burst mode controller then processes this raw data (called the B-field) performing encryption and scrambling, adding
the various other fields that go together to produce the GAP standard DECT frame, assigning to a time slot and
channel etc. The data then passes through the gaussian filter to emerge on pin 22 as TRADAT, .
2.10 AUDIO PATH - TX AUDIO - LINE OUTPUT (SEE Fig. 19-1)
Audio from the receiver RECDAT enters the BBIC on pin 20 and passes through the clock recovery circuit. The burst
mode controller separates out the B-field data, and performs de-encryption and de-scrambling as required. It then
goes to the DAC part of the codec where data is turned back into analogue audio. The audio signal is amplified by the
gain-controlled line output amplifier, and balanced audio is output on pin 63, and fed as RXAF to the Line Interface.
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Circuit Diagram
Fig. 19-2
2.11 OFF HOOK LED (SEE Fig. 19-2)
When the Handset is in “Talk” mode, the Off-Hook LED D102 is switched on by transistor T102 (on), using a control
line from pin 32 of IC501.
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