Panasonic KX-TCD650RUC / KX-TCD650RUF Service Manual ▷ View online
77..11..33.. E
EE
EP
PR
RO
OM
M ((S
SE
EE
E FFiigg.. 1188))
The electrically erasable PROM PQVIT2432WM6 (IC9) is used to store all the temporary operating parameters for the base
(sseeee E
(sseeee E
EE
EP
PR
RO
OM
M LLA
AY
YO
OU
UTT). It uses a two-line serial data interface with the BBIC, with bi-directional data on pin 5 (TP104), and
clock on pin 6 (TP103).
77..11..44.. C
CLLO
OC
CK
K G
GE
EN
NE
ER
RA
ATTIIO
ON
N ((S
SE
EE
E FFiigg.. 1188))
A single clock generator in the BBIC uses an external crystal X1 to derive all clock frequencies used in the base. The crystal
is tuned to the exact frequency of 10.368 MHz during manufacture.
The BBIC provides a reference clock signal S
is tuned to the exact frequency of 10.368 MHz during manufacture.
The BBIC provides a reference clock signal S
SY
YR
RII (pin 21, TP101) which is used to drive the PLL circuitry in the RF module. The
basic data rate for TTX
XD
DA
A (pin 14) and R
RX
XD
DA
A (pin 10) is 1.152 Mbits/s, which is 10.368MHz divided by 9.
77..11..55.. LLO
OC
CA
ATTO
OR
R K
KE
EY
Y ((S
SE
EE
E FFiigg.. 1188))
The Locator (Page) button is connected to pin 51 (TP109) of the IC8. When pressed the base transmits a message to the
handset, which then beeps.
handset, which then beeps.
77..11..66.. FFA
AC
CTTO
OR
RY
Y S
SE
ER
RIIA
ALL P
PO
OR
RTT ((S
SE
EE
E FFiigg.. 1188))
In order to communicate with the base band section during manufacture and servicing (using a PC) a serial data link has been
provided.
Serial data input/output is provided through the SDA terminal (J102). The data is clocked through using the SCL terminal
(J103). A ground terminal is provided by J104.
The serial port terminals J100 to J104 are connected to by means of test probe pads on the ground plane side of the pcb.
provided.
Serial data input/output is provided through the SDA terminal (J102). The data is clocked through using the SCL terminal
(J103). A ground terminal is provided by J104.
The serial port terminals J100 to J104 are connected to by means of test probe pads on the ground plane side of the pcb.
77..11..77.. B
BU
UZZZZE
ER
R C
CIIR
RC
CU
UIITT ((S
SE
EE
E FFiigg.. 1188))
A square-wave signal from IC8 pin 68 is used to sound the buzzer via switching transistor T6 (TP98). Various tones and
cadences are used dependent on function. Buzzer volume is varied by changing the duty cycle of the drive waveform. D16
provides quenching of back-emf generated when T6 turns off.
cadences are used dependent on function. Buzzer volume is varied by changing the duty cycle of the drive waveform. D16
provides quenching of back-emf generated when T6 turns off.
77..11..88.. A
AU
UD
DIIO
O P
PA
ATTH
H--R
RX
X A
AU
UD
DIIO
O--LLIIN
NE
E IIN
NP
PU
UTT ((S
SE
EE
E FFiigg.. 1188))
Audio from the line interface TXAF (TP97) enters the BBIC on pin 40. The audio signal passes through the analogue part of the
BBIC where it is amplified and converted to a digital audio stream signal. The burst mode controller processes this stream
performing encryption and scrambling, adding the various other fields to produce the GAP standard DECT frame, assigning to
a time slot and channel etc. to emerge on pin 14 as TXDA.
BBIC where it is amplified and converted to a digital audio stream signal. The burst mode controller processes this stream
performing encryption and scrambling, adding the various other fields to produce the GAP standard DECT frame, assigning to
a time slot and channel etc. to emerge on pin 14 as TXDA.
77..11..99.. A
AU
UD
DIIO
O P
PA
ATTH
H -- TTX
X A
AU
UD
DIIO
O -- LLIIN
NE
E O
OU
UTTP
PU
UTT ((S
SE
EE
E FFiigg.. 1188))
Audio from the receiver RXDA enters the BBIC on pin 10 as GAP standard DECT frames. It passes through the decoding
section burst mode controller where it separates out the frame information and performs de-encryption and de-scrambling as
required. It then goes to the DSP where it is turned back into analogue audio. This is amplified by the analogue front end and
emerges at pin 38 - i.e. the RXAF signal of the line interface.
section burst mode controller where it separates out the frame information and performs de-encryption and de-scrambling as
required. It then goes to the DSP where it is turned back into analogue audio. This is amplified by the analogue front end and
emerges at pin 38 - i.e. the RXAF signal of the line interface.
13
KX-TCD650RUC / KX-TCD650RUF
Fig. 18
14
KX-TCD650RUC / KX-TCD650RUF
77..22.. TTH
HE
E LLIIN
NE
E IIN
NTTE
ER
RFFA
AC
CE
E S
SE
EC
CTTIIO
ON
N ((S
SE
EE
E B
BLLO
OC
CK
K D
DIIA
AG
GR
RA
AM
M FFiigg.. 1177))
77..22..11.. IIN
NTTR
RO
OD
DU
UC
CTTIIO
ON
N
This section consists of the telephone line interface, bell detector, change-pulse detector, hook switch, audio circuits, DC mask
& line impedance circuits, power supplies, and battery charger circuits.
& line impedance circuits, power supplies, and battery charger circuits.
77..22..22.. TTE
ELLE
EP
PH
HO
ON
NE
E LLIIN
NE
E IIN
NTTE
ER
RFFA
AC
CE
E ((S
SE
EE
E FFiigg.. 1199))
The telephone line is connected to a bridge rectifier D8. Surge suppressor SA3 protects against excessive line voltages. Test
points are TP40 (A), TP26 (B). Bridge rectifier D8 provides for lines of either polarity. The output of D8 is Line + (TP39) and
Line - which is ground.
points are TP40 (A), TP26 (B). Bridge rectifier D8 provides for lines of either polarity. The output of D8 is Line + (TP39) and
Line - which is ground.
77..22..33.. B
BE
ELLLL D
DE
ETTE
EC
CTTO
OR
R ((S
SE
EE
E FFiigg.. 1199))
The AC ringing signal is detected by phoptocoupler IC6, using its internal diode in conjunction with D7. DC from the line is
blocked by C2. The other components D2, D5, and R3 reduce current and increase the circuit impedance in line with national
requirements. When ringing is detected IC2 will turn on, and the RING line will be dragged to a low voltage.
blocked by C2. The other components D2, D5, and R3 reduce current and increase the circuit impedance in line with national
requirements. When ringing is detected IC2 will turn on, and the RING line will be dragged to a low voltage.
77..22..44.. C
CLLIIP
P C
CIIR
RC
CU
UIITTS
S ((S
SE
EE
E FFiigg.. 1199))
The CLIP signal is detected by IC3 and sent to the BBIC through the //TTX
XA
AFF.
Fig. 19
15
KX-TCD650RUC / KX-TCD650RUF
77..22..55.. H
HO
OO
OK
KS
SW
WIITTC
CH
H ((S
SE
EE
E FFiigg.. 2200))
T8 is the hookswitch, driven by T9. When the phone is off-hook, the H
HO
OO
OK
K control signal from the BBIC will be a high logic level
(+3V), and both transistors will be on, thus T8 will loop the line. The zenner diode D10 protects transistors T11 to T13 against
transient line voltages.
transient line voltages.
77..22..66.. P
PU
ULLS
SE
E D
DIIA
ALLIIN
NG
G ((S
SE
EE
E FFiigg.. 2200))
During pulse dialing the hookswitch (T8, T9) is used to generate the pulses using the H
HO
OO
OK
K control signal, which is set high
during pulses. To force the line impedance low during the pause intervals between dial pulses, the P
PA
AU
US
SE
E--D
DIIA
ALL signal turns
on T11.
77..22..77.. A
AU
UD
DIIO
O C
CIIR
RC
CU
UIITTS
S ((S
SE
EE
E FFiigg.. 2200))
The line output signal from the BBIC R
RX
XA
AFF is amplified by T13. The R
RX
XA
AFF line is DC coupled to T13 thus making it work as
a current limiter (typically < 8mA). The emitter load of T13 is 600
Ω
to achieved the correct frequency response, since the line
load is also 600
Ω
. The line input signal TTX
XA
AFF is taken from the junction of R41 and R70. Phase cancellation of the line output
audio occurs at this point, so that only incoming line audio should be passed to the BBIC on TTX
XA
AFF.
Fig. 20
77..22..88.. P
PO
OW
WE
ER
R S
SU
UP
PP
PLLIIE
ES
S ((S
SE
EE
E FFiigg.. 2211))
The AC adaptor for the KX-TCD650 provides unregulated DC through J2 for the handset charge terminal, the 3.3V regulator
(IC2) and the Relay coil (RL1).
The 3.3V supply from IC2 is used for the RF module, and is further reduced by T7 to 2.65B for the BBIC supply.
R17 provides short circuit/over current protection at the handset charge terminal.
(IC2) and the Relay coil (RL1).
The 3.3V supply from IC2 is used for the RF module, and is further reduced by T7 to 2.65B for the BBIC supply.
R17 provides short circuit/over current protection at the handset charge terminal.
Fig. 21
16
KX-TCD650RUC / KX-TCD650RUF
Click on the first or last page to see other KX-TCD650RUC / KX-TCD650RUF service manuals if exist.