Sharp ER-A770 Manual page 44

2-7. MB62H149
1) Outline
The MB62H149 is a semi-custom LSI chip for the peripheral circuits
in the SRN (SHARP Retail Network), its main function is to communi-
cate data with the host CPU and control the peripheral circuits and
transmission control circuits of the Sub CPU (Z-80). Fig. 2. shows the
general configuration of the functions:
SUB-CPU
DMAC
(Z-80)
HOST CPU
DATA HAND
PERIPHERAL
SHAKING
CIRCUIT
CIRCUIT
Fig. 2
2) Internal functions
(1) Data handshaking circuit
Is used because data processing speeds vary and the timing of the
HOST CPU and SUB CPU do not synchronize, the MB62H149 is
used for data handshaking. When the data handshaking portion is
broken down, the system consists of a Write Signal from the HOST
CPU to the MB62H149, Read Signal from the MB62H149 of the SUB
CPU, Write Signal from the SUB CPU to the MB62H149 and Read
Signal from the MB62H149 of the HOST CPU, all of which from two
blocks as shown.
Write Read
MB62H149
HOST CPU
Read Write
HOST CPU MB62H149
Fig. 3
HOST CPU
write register
HOST CPU
(SUB CPU
DATA BUS
read register)
(8bit)
SUB CPU
write register
(HOST CPU
read register)
HOST CPU address HOST CPU
and RD, WR address
decode
Fig. 4
(2) Peripheral circuit
The peripheral circuit consists of an I/O address generation unit on
the SUB CPU, block dividing circuit, and the wait signal control unit.
SUB CPU address
SUB CPU address
& RD, WR
decoding unit
CPU & DMAC wait
signal control unit
Clock dividing
CLK (16 MHz)
circuit
Fig. 5
Line
TIMER
ADLC
COUNTER
TRANS-
MISSION
CONTROL
CIRCUIT
MB62H149
SUB CPU (HOST CPU TO SUB CPU)
SUB CPU (FROM SUB CPU TO HOST CPU)
SUB CPU
DATA BUS
(8bit)
HOST CPU
write & SUB
CPU read
control unit
(DMA & CPU
access)
HOST CPU · SUB CPU
& DMAC control
SUB CPU
write & HOST
CPU read control
unit (DMA &
CPU access)
I/O address
Wait signal
System clock
(4 MHz)
(a) I/O address generation circuit
A total of 11 I/O addresses are generated by A0, A1, A4, A5 and
RD and WR signals.
(b) CPU and DMAC wait signal control unit
Clocks into the CPU (Z-80), SUB CPU and its peripheral LSI,
DMAC and CTC are operated respectively on 4 MHz.
While, the ADLC (MC68B54) (Advanced Data Link Control) is
operated by the E (Enable clock) of 2 MHz according to restric-
tions in terms of the hardware of the LSI.
It is necessary to synchronize the timing of the write and read in
the ADLC.
To control synchronization, timing, and input, the wait signal goes
into the CPU for CPU access and into the DMAC for DMA access.
This block is a circuit to generate such wait signal.
(c) Clock dividing circuit
This block divides the blocks according to the CLK supplied from
outside to generate the clock for CPU, DMAC and CTC and the E
and transmission clock rate (480 KBPS or 1 MBPS selectable) for
the ADLC.
(3) Transmission control circuit
The transmission control circuit is divided into the modem unit, carrier
detect unit, collision detect unit.
ADLC TDY
MODEM unit
ADLC RDX
Collision detect Collision
detect unit
Carrier detect 1
(for data)
Carrier
detect unit
Carrier detect 2
(for resronse)
Fig. 6
(a) Modem circuit
The transmission data input from the ADLC are PE modulated
(phase encoding modulation), the circuit to be output to the trans-
mission driver and the reception data input from the transmission
receiver are demodulated and produced at the ADLC.
(b) Collision detect circuit
The data transmitted from the home station is received and de-
tects a collision on the transmission line by means of an exclusive
OR gate.
(c) Carrier detect circuit
This circuit detects whether data is flowing on the transmission
line. It consists of a circuit which immediately senses a no data
status on the line. When data is not on the line the circuit functions
to sense an elapse of the fixed time rate. The immediate sensing
circuit is used for response testing and the delayed sensing circuit
is used for data testing.
The fixed time rate is selectable according to the transmission
speed as shown below via SRV-mode programming. Job #922.
Transmission speed
1 MBPS 1.6m sec, 3.2m sec, 4.8m sec, 6.4m sec.
480 KBPS 3.2m sec, 6.4m sec, 9.6m sec, 12.8m sec.
To transmission driver
From transmission receiver
Delay time