Sony CXP82440A, CXP82432A Datasheet

CXP82432A/82440A

CMOS 8-bit Single Chip Microcomputer

Description

The CXP82432A/82440A is a CMOS 8-bit single
chip microcomputer integrating on a single chip an
A/D converter, serial interface, timer/counter, time
base timer, capture timer counter, fluorescent display
tube controller/driver, remote control reception circuit,
CTL duty detection circuit, 14-bit PWM output and
high-speed output circuit besides the basic
configurations of 8-bit CPU, ROM, RAM, and I/O
port.

The CXP82432A/82440A also provides sleep/stop
function that enables lower power consumption.

Features

• Wide-range instruction system (213 instructions) to cover various types of data

—16-bit arithmetic/multiplication and division/boolean bit operation instructions

• Minimum instruction cycle 400ns at 10MHz operation

(122µs at 32kHz operation)

• Incorporated ROM capacity 32K bytes (CXP82432A)

40K bytes (CXP82440A)

• Incorporated RAM capacity 1120 bytes (including fluorescent display area)

• Peripheral functions

— A/D converter 8-bit, 8-channel, successive approximation method

(Conversion time of 32µs/10MHz)

— Serial interface 8-bit, 8-stage FIFO incorporated

(Auto transfer for 1 to 8 bytes), 1 channel
8-bit clock synchronized type, 1 channel

— Timers 8-bit timer, 8-bit timer/counter, 19-bit time base timer

16-bit capture timer/counter, 32kHz timer/counter

— Fluorescent display tube controller/driver Maximum of 384 segments display possible

1 to 16-digit dynamic display
Dimmer function
High voltage drive output (40V)
Incorporated pull-down resistor (Mask option)
Hardware key scan function
Maximum of 16 x 8 key matrix compatible

— Remote control reception circuit Incorporated noise elimination circuit

8-bit pulse measuring counter, 6-stage FIFO
— PWM output circuit 14 bits, 1 channel
— CTL duty detection circuit
— High-speed output circuit Precision of 800ns at 10MHz, 4 outputs

• Interruption 19 factors, 15 vectors, multi-interruption possible

• Standby mode SLEEP/STOP

• Package 100-pin plastic QFP

• Piggyback/evaluation chip CXP82400A 100-pin ceramic QFP

Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by
any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the
operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.

Structure

Silicon gate CMOS IC

100 pin QFP (Plastic)

– 1 –

E94Z15-PP

CXP82432A/82440A

RST

V

SS

V

DD

XTAL

EXTAL
TX
TEX

PA0 to PA7

8

PB0 to PB6
7

PORT A

PB7

PORT B

CLOCK GEN./

SYSTEM CONTROL

SPC 700

CPU CORE

PC0 to PC7
8

PORT C

RAM

1120 BYTES

ROM

32K/40K BYTES

PD0 to PD7
8

PE0 to PE5
6

PORT D

PE6 to PE7
2

PF0 to PF7
8

PORT E

32kHz

PRESCALER/

PG0 to PG7
8

PORT F

PORT G

TIMER/COUNTER

TIME BASE TIMER

PH0 to PH7
8

PORT H

PULSE

REALTIME

GENERATOR

PI0 to PI7
8

PORT I

4

CH0 CH1

PG3/RTO3

PG0/RTO0 to

PE3/INT3/NMI
PE2/INT2
PE1/EC1/INT1
PE0/EC0/INT0

REF

AV

AV

SS

RAM

A/D CONVERTER

FDP

CONTROLLER/

8

8

PA7/AN7

8

T0 to T7

PA0/AN0 to

T15/S24 to T8/S31

DRIVER

14 BIT PWM GENERATOR

24

FDP

V

PE6/PWM

PD0/S0 to PI7/S23

INTERRUPT CONTROLLER

2
2 2

FIFOREMOCON

CTL DUTY DET

FIFO

UNIT 0

SERIAL

INTERFACE

PE5/CTL

PE7/DDO

PE4/RMC

PB3/SI0

PB1/CS0

PB4/SO0

PB2/SCK0

2

2

8 BIT TIMER/COUNTER 0

SERIAL INTERFACE UNIT 1

PB6/SI1

PB7/SO1

PB5/SCK1

2

8 BIT TIMER 1

16 BIT CAPTURE

TIMER/COUNTER 2

PE7/TO

PB0/CINT

PE0/INT0/EC0

PE7/ADJ

PE1/INT2/EC1

Block Diagram

– 2 –

Pin Assignment (Top View)

PG5

PG6

PG7

PE0/EC0/INT0

PG3/RTO3

PG4

PG0/RTO0

PG1/RTO1

PG2/RTO2

Vss

NC

DD

V

FDP

V

T0

T1

T2

T3

T4

CXP82432A/82440A

T6

T5

PE1/EC1/INT1

PE2/INT2

PE3/INT3/NMI

PE4/RMC

PE5/CTL

PE6/PWM

PE7/TO/DDO/ADJ

PB0/CINT

PB1/CS0

PB2/SCK0

PB3/SI0

PB4/SO0

PB5/SCK1

PB6/SI1
PB7/SO1
PC0/KR0
PC1/KR1
PC2/KR2
PC3/KR3
PC4/KR4
PC5/KR5
PC6/KR6
PC7/KR7

PH0
PH1
PH2
PH3
PH4
PH5
PH6

10
11
12
13
14
15
16
17
18
19

20
21
22

23
24
25
26
27
28

29

30

34

96

35

95

36

99

31

32

98

97

33

100

1

2
3
4

5
6
7
8
9

94

37

38

93

39

92

40

91

90

41

89

42

88

43

44

87

45

86

46

85

84

47

83

48

82

49

81

50

80

75
74
73
72

65

62
61

79
78
77
76

71
70
69
68
67
66

64
63

60
59
58
57
56
55
54
53
52
51

T7
T8/S31
T9/S30
T10/S29
T11/S28
T12/S27
T13/S26
T14/S25
T15/S24
PI7/S23
PI6/S22
PI5/S21
PI4/S20
PI3/S19
PI2/S18
PI1/S17
PI0/S16
PF7/S15
PF6/S14
PF5/S13
PF4/S12
PF3/S11
PF2/S10
PF1/S9
PF0/S8
PD7/S7
PD6/S6
PD5/S5
PD4/S4
PD3/S3

PH7

PA1/AN1

PA0/AN0

PA3/AN3

PA2/AN2

PA5/AN5

PA4/AN4

RST

XTAL

EXTAL

Vss

TEX

PA6/AN6

TX

Note) 1. NC (Pin 90) must be connected to VDD.

2. Vss (Pins 41 and 91) must be connected to GND.

– 3 –

REF

AV

PA7/AN7

AVss

PD1/S1

PD0/S0

PD2/S2

Pin Description

Pin code I/O Functions

(Port A)

PA0/AN0

to

PA7/AN7

I/O/
Analog input

8-bit I/O port. I/O can
be set in single bit
units.

Analog inputs to A/D converter. (8 pins)

(8pins)

CXP82432A/82440A

PB0/CINT
PB1/CS0
PB2/SCK0
PB3/SI0
PB4/SO0
PB5/SCK1
PB6/SI1
PB7/SO1

PC0/KR0

to

PC7/KR7

PD0/S0

to

PD7/S7
PE0/INT0/

EC0
PE1/INT1/

EC1
PE2/INT2
PE3/INT3/

NMI
PE4/RMC
PE5/CTL

I/O/Input
I/O/Input
I/O/I/O
I/O/Input
I/O/Output
I/O/I/O
I/O/Input
Output/Output

I/O/Input

Output/Output

Input/Input/Input

Input/Input/Input
Input/Input
Input/Input/Input
Input/Input

Input/Input

(Port B)
8-bit I/O port. I/O for
lower 7 bits can be set
in a unit of single bits.
Uppermost bit (PB7) is
for output only.
(8 pins)

(Port C)
8-bit I/O port. I/O can
be set in a unit of single
bits. Capable of driving
12mA sync current.

(Port D)
8-bit output port.
(8 pins)

(Port E)
8-bit port. Lower 6 bits
are for inputs; upper
2 bits are for outputs.
(8 pins)

Capture input to 16-bit timer/counter.
Chip select input for serial interface (CH0).
Serial clock I/O (CH0).
Serial data input (CH0).
Serial data output (CH0).
Serial clock I/O (CH1).
Serial data input (CH1).
Serial data output (CH1).

Serves as key return inputs when operating
key scan with FDP segment signal.

FDP segment signal outputs.

External event inputs for
Inputs for
external

timer/counter.

(2 pins)
interruption
request.
(4 pins)

Non-maskable interruption

request input.
Remote control reception circuit input.
Input for CTL duty direction circuit.

PE6/PWM
PE7/TO/

DDO/ADJ
PF0/S8

to

PF7/S15
PG0/RTO0

to

PG3/RTO3

PG4 to PG7

Output/Output
Output/Output/

Output/Output

Output/Output

I/O/Output

I/O

14-bit PWM output.
Output for the 16-bit timer/counter rectangular

waves, CTU duty detection, and 32kHz
oscillation frequency demultiplication.

(Port F)
8-bit output port.

FDP segment signal outputs.

(8pins)
(Port G)

8-bit I/O port. I/O can
be set in a unit of single
bits. Data for the lower

Outputs for real-time pulse generator (RTG).
Functions as high-precision, real-time pulse
output port.

(4 pins)
4 bits are gated with the
contents of RTO or OR-gate output. (8 pins)

– 4 –

Pin code I/O Functions

(Port H)

I/OPH0 to PH7

8-bit I/O port. I/O can be set in a unit of single bits.
(8 pins)

CXP82432A/82440A

PI0/S16

to

PI7/S23
T8/S31

to

T15/S24
T0 to T7
VFDP

EXTAL
XTAL
TEX
TX

RST
NC
AVREF
AVSS
VDD

Output/Output

Output/Output

Output

Input
Output
Input
Output

Input

Input

(Port I)
8-bit output ports.

FDP segment signal outputs.

(8 pins)

Outputs for FDP timing (digit) signals/segment signals.

FDP timing signal outputs.
FDP voltage supply when incorporated resistor is set by mask option.
Crystal connectors system clock oscillation. When the clock is supplied

externally, input to EXTAL; opposite phase clock should be input to
XTAL.

Crystal connectors for 32kHz timer/counter clock oscillation. Set 32kHz
crystal oscillator between TEX and TX. For usage as event input, attach
clock source to TEX, and open TX.

Low-level active, system reset.
NC. Under normal operation, connect to VDD.
Reference voltage input for A/D converter.
A/D converter GND.
Vcc supply.

VSS

GND.

– 5 –

I/O Circuit Format for Pins

CXP82432A/82440A

Pin

PA0/AN0

to

PA7/AN7

8 pins

Port A

Port B

Data bus

Circuit format

Port A data

Port A direction

“0” when reset

RD (Port A)

Port A input selection

“0” when reset

A/D converter

Port B data

Input protection circuit

Input multiplexer

IP

When reset

Hi-Z

PB0/CINT
PB1/CS0
PB3/SI0
PB6/SI1

4 pins

PB2/SCK0
PB5/SCK1

Port B

Data bus

Port B direction

“0” when reset

Data bus

RD (Port B)

SCK OUT

Output enable

Port B output selection

“0” when reset

Port B data

Port B direction

“0” when reset

CINT

CS0

SI0
SI1

Schmitt input

Schmitt input

IP

Hi-Z

IP

Hi-Z

2 pins

RD (Port B)

SCK in

– 6 –

CXP82432A/82440A

Pin

PB4/SO0

1 pin

PB7/SO1

Port B

Port B output selection

“0” when reset

Port B data

Port B direction

“0” when reset

Data bus

RD (Port B)

Port B

Output enable

Port B output selection

“0” when reset

SO

Ouput enable

SO

Circuit format

Internal reset signal

When reset

Hi-Z

IP

∗

High level

1 pin

PC0/KR0

to

PC7/KR7

8 pins

PE0/EC0/INT0
PE1/EC1/INT1
PE2/INT2
PE3/INT3/NMI
PE4/RMC
PE4/CTL

Data bus

Port C

Data bus

Port E

Port B data

“1” when reset

RD (Port B)

Port C data

Port C direction

“0” when reset

RD (Port C)

Key input signal

Schmitt input

IP

∗

Pull-up transistor approx.

200kΩ

∗

IP

∗

High current drive of 12mA possible

EC0/INT0
EC1/INT1
INT2
INT3/NMI
RMC
CTL

Data bus

Hi-Z

Hi-Z

6 pins

RD (Port E)

– 7 –