Icom IC-V82, Руководство по обслуживанию

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4 - 6
Linear
CODEC
Buffer
IC253B
Buffer
IC251A
Buffer
IC251B
IC50
IC151
Q305, Q306
IC351
-"232C_RX" signal
to the J301, pin 25
-"232C_TX" signal
to the J301, pin 26
-"TXD_2" signal to
the J301, pin 16
-"RXD_2" signal to
the J301, pin 17
"DAFOUT" signal to
the J301, pin 22
"DMOD" signal
to the J301, pin 3
"FMDET" signal
from the J301, pin 23
"AMODIN" signal
from the J301, pin 4
IC204 IC252
DSP
CODEC
CPU
CODEC
Modem
RS-232C
Level
converter
• UT-118 BLOCK DIAGRAM
4-7 UT-118 CIRCUIT DESCRIPTION
4-7-1 RECEIVER CIRCUIT
The detected digital signals “FMDET” from the connected
transceiver via the J301 (pin 22) are amplified at the buffer
amplifier (IC251, pin 2). The amplified signals are applied
to the GMSK modem circuit (IC252, pin 11), and are then
applied to the CPU (IC204) as clock synchronizer digital
signal. The digital signals from the CPU are applied to the
AMBE voice CODEC IC (IC151) to press code extension,
and are then applied to the linear CODEC IC (IC50) as
32 bits digital voice data. The applied digital signals are
converted to the analog AF signals at the D/A converter
section (IC50), and are then applied to the connected
transceiver via the J301 (pin 21) as “DAFOUT” signal.
4-7-2 TRANSMITTER CIRCUIT
The analog AF signals “AMODIN” from the connected
transceiver via the J301 (pin 4) are amplified at the buffer
amplifier (IC251, pin 6). The amplified signals are applied
to the linear CODEC IC (IC50, pin 5) to convert 32 bits
digital voice data at the A/D converter section via the “ADIN”
line. The digital signals are applied to the AMBE voice
CODEC IC (IC151) to process code compression, and are
then applied to the CPU (IC204). The digital signals from
the CPU convert to the GMSK base band signal at the
GMSK modem (IC252), and are then amplified at the buffer
amplifier (IC253, pin 5). The amplified signals are applied to
the connected transceiver via the J301 (pin 3).
4-7-3 RESET CIRCUIT
The UT-118 has the reset IC (IC203). The reset IC outputs
"RES" signal to the CPU (IC204, pin 7) when more than 2.8 V
of voltage is applied to the “VDD” port (pin 2).
4-7-4 RS-232C CIRCUIT
IC351 is a RS-232C compatible serial interface IC which
converts data between the CPU and the external equipment
(ex. Personal Computer).
4-7-5 LEVEL CONVERTER CIRCUIT
The level converter circuit (Q305 and Q306) converts
communication data level between the CPU (IC204) and the
connected transceiver’s CPU.
Q301, Q302 and Q303 convert control signals level between
the UT-118 and the IC-V82.
4-8 UT-118 POWER SUPPLY CIRCUITS
4-8-1 VOLTAGE LINES
4-9 UT-118 PORT ALLOCATIONS
4-9-1 MODEM IC (IC252)
LINE DESCRIPTION
5V
5 V from the connected transceiver via the J301 (pin
29). The 5V line is controlled by the +5 V control
circuit (Q50 and Q51). The circuit is controlled by
the “PSAVE” signal from the CPU (IC204, pin 58
and 59).
3.3V
Common 3.3 V converted from the 5V line by the
3.3V regulator circuit (IC1). One of the 3.3 V line is
controlled by the +3V control circuit (Q400 and
Q401). The circuit is controlled by the “PSAVE”
signal from the CPU (IC204, pin 58 and 59).
3.2V
Common 3.2 V converted from the 4.5–8 V line
by the 3.2V regulator circuit (IC2). The circuit is
controlled by the “APWR” signal from the CPU
(IC204, pin 16).
PIN
NUMBER
PORT
NAME
DESCRIPTION
2 MCLK
Outputs 2.4576 MHz clock signal to
the CPU (IC151, pin 39).
7 ACQ
Outputs the PLL bandwidth control
signal while receiving.
19 TXDT
Outputs transmitting data signal to
the CPU (IC204, pin 54).
20 RXDT
Input port for receiving data signal
from the CPU (IC204, pin 53).
21 RXCK
Input port for receive clock signal
from the CPU (IC204, pin 52).
22 TXCK
Outputs transmit clock signal to the
CPU (IC204, pin 51).