Datasheet CXP750097, CXP750096, CXP750011, CXP750010 Datasheet (Sony)

Description

The CXP750096/750010, CXP750097/750011 are the
CMOS 8-bit single chip microcomputer integrating on a
single chip an A/D converter, serial interface, timer/
counter, time-base timer, on-screen display function, I

2

C
bus interface, PWM output, remote control reception
circuit, HSYNC counter, watchdog timer, 32kHz timer/
counter besides the basic configurations of 8-bit CPU,
ROM, RAM, I/O ports.

The CXP750096/750010, CXP750097/750011 also
provide a sleep function that enables to lower the power
consumption.

Features

• A wide instruction set (213 instructions) which covers

various types of data

– 16-bit operation/multiplication and division/

Boolean bit operation instructions

• Minimum instruction cycle 167ns at 24MHz operation

122µs at 32kHz operation

• Incorporated ROM 96K bytes (CXP750096/750097)

120K bytes (CXP750010/750011)

• Incorporated RAM 2496 bytes

(Excludes VRAM for on-screen display)

• Peripheral functions

– A/D converter 8-bit 6-channel successive approximation method

(Conversion time of 3.25µs at 16MHz)
– Serial interface 8-bit clock sync type, 1 channel
– Timer 8-bit timer

8-bit timer/counter

19-bit time-base timer

32 kHz timer/counter
– On-screen display (OSD) function 24

× 32 dots, 512 character types,
15 character colors, 2 lines × 32 characters,
frame background 8 colors/ half blanking,
background on full screen 15 colors/ half blanking
edging/ shadowing/ rounding for every line,
background with shadow for every character, double scanning,
sprite OSD,
24 × 32 dots, 1 screen, 8 colors for every dot

– I

2

C bus interface

– PWM output 8 bits, 8 channels

14 bits, 1 channel

– Remote control reception circuit 8-bit pulse measurement counter, 6-stage FIFO
– HSYNC counter 2 channels
– Watchdog timer

• Interruption 13 factors, 13 vectors, multi-interruption possible

• Standby mode Sleep

• Package 64-pin plastic SDIP/QFP, 52-pin plastic SDIP

• Piggyback/evaluator CXP750000 64-pin ceramic PQFP/PSDIP (Supports custom font)

Perchase of Sony's I2C components conveys a licence under the Philips I2C Patent Rights to use these components
in an I2C system, provided that the system conforms to the I2C Standard Specifications as defined by Philips.

CXP750096/750010

CXP750097/750011

CMOS 8-bit Single Chip Microcomputer

– 1 –

E98767-PS

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.

64 pin SDIP (Plastic) 64 pin QFP (Plastic)

52 pin SDIP (Plastic)

Structure

Silicon gate CMOS IC

– 2 –

CXP750096/750010, CXP750097/750011

A/D CONVERTER

6CH

FIFOREMOCON

SERIAL INTERFACE

UNIT

8-BIT TIMER 1

8-BIT TIMER/

COUNTER 0

ON SCREEN

DISPLAY

HSYNC COUNTER 0

HSYNC COUNTER 1

I

2

C BUS

INTERFACE UNIT

8 BITS PWM 8CH (6CH) 14 BITS PWM 1CH

PRESCALER/

TIME-BASE TIMER

WATCHDOG TIMER

32kHz

TIMER/COUNTER

ROM

96K/120K BYTES

RAM

2496 BYTES

SPC700 CPU CORE

CLOCK GENERATOR

/SYSTEM CONTROL

INTERRUPT CONTROLLER

PORT APORT BPORT CPORT DPORT EPORT FPORT G

PG3 to PG6

∗

, PG7

PWM

5

PF0 to PF7
8

PE4 to PE63PE2, PE3

2

PE0, PE1
2

PD0 to PD7
8

PC6, PC7

∗

2

PC0 to PC5

∗

6

PB0 to PB7
8

PA0 to PA7
8

PWM0 to PWM7

ADJ

SCL1
SCL0

SDA1
SDA0

HS1

HS0

VSYNC

HSYNC

YM

YS

I

B

G

R

EXLC

XLC

TO

EC

SCK

SO

SI

RMC

AN0 to AN5

6

2

2

2

INT0

INT1

INT2

TEX

TX

EXTAL

XTAL

V

DD

V

SS

RST

8 (6)

Block Diagram

Asterisks indicate pins missing from 52-pin

models.Parentheses indicate configurations

for 52-pin models.

– 3 –

CXP750096/750010, CXP750097/750011

40
39
38

37

36

35
34

33

41

42

43

44

45

46

47

48

49

50

51

52

53

54

55

56

57

58

59

60

63

64

61

62

31
32

2
3
4
5
6
7
8
9

10
11
12
13
14
15
16
17
18
19
20
21
22
23

24
25
26
27
28
29
30

1

V

SS

VDD
NC
EXLC
XLC
PE4/YM
PE5/YS
PE6/I
B
G
R
PB0
PB1
PB2
PG3
PG4

PC4
PC5
PC6/PWM6
PC7/PWM7
PF0/PWM0
PF1/PWM1
PF2/PWM2
PF3/PWM3
PF4/SCL0
PF5/SCL1/PWM4
PF6/SDA0
PF7/SDA1/PWM5
PE0/TO/ADJ
PE1/PWM
PE2/TEX/INT0
PE3/TX

HS0/PD4

PC3
PC2
PC1
PC0

EC/PD7

RMC/PD6

HS1/PD5

SI/PD3

SO/PD2

SCK/PD1

INT2/PD0

HSYNC/PA7

VSYNC/PA6

RST

V

SS

PA0/AN0

XTAL

EXTAL
PA5/AN5
PA4/AN4
PA3/AN3
PA2/AN2
PA1/AN1

PB7
PB6
PB5
PB4
PB3

INT1/PG7

PG6
PG5

Pin Assignment (Top View) 64-pin SDIP

Note)

1. NC (Pin 46) is left open.

2. Vss (Pins 16 and 48) are both connected to GND.

– 4 –

CXP750096/750010, CXP750097/750011

VSS
VDD
NC
EXLC
XLC
PE4/YM
PE5/YS
PE6/I
B
G

PE1/PWM

PE2/TEX/INT0

PE3/TX

PF3/PWM3
PF4/SCL0
PF5/SCL1/PWM4
PF6/SDA0
PF7/SDA1/PWM5

PE0/TO/ADJ

40
39
38
37

36
35
34
33

41

42

43

44

45

46

47

48

49

50

51

PF2/PWM2

PF1/PWM1

PF0/PWM0

PC7/PWM7

PC6/PWM6

PC5

PC4

PC3

PC2

PC1

PC0

PD7/EC

PD6/RMC

52

53

54

55

56

57

58

59

60

63

64

61

62

R

PB0

PB1

PB2

PG3

PG4

PG5

PG6

INT1/PG7

PB3

PB4

PB5

PB6

31

32

20

21

22

23

24

25

26

27 28

29

30

HS0/PD4

HS1/PD5

SI/PD3

SO/PD2

SCK/PD1

INT2/PD0

HSYNC/PA7

VSYNC/PA6

RST

V

SS

PA0/AN0

XTAL

EXTAL
PA5/AN5
PA4/AN4
PA3/AN3
PA2/AN2
PA1/AN1

PB7

2
3
4
5
6
7
8
9

10

11
12
13
14
15
16

17

18
19

1

Pin Assignment (Top View) 64-pin QFP

Note)

1. NC (Pin 40) is left open.

2. Vss (Pins 10 and 42) are both connected to GND.

– 5 –

CXP750096/750010, CXP750097/750011

40

39

38
37
36
35

34

33

41

42

43

44

45

46

47

48

49

50

51

52

31

32

27

28

29

30

2
3
4

5
6
7
8
9

10
11
12
13
14
15
16
17
18
19

20
21
22
23

24
25
26

1

HS0/PD4

EC/PD7

RMC/PD6

HS1/PD5

SI/PD3

SO/PD2
SCK/PD1
INT2/PD0

HSYNC/PA7
VSYNC/PA6

RST

V

SS

PA0/AN0

XTAL

EXTAL
PA5/AN5
PA4/AN4
PA3/AN3
PA2/AN2
PA1/AN1

PB7
PB6
PB5
PB4
PB3

INT1/PG7

VSS
VDD
NC
EXLC
XLC

PE4/YM

PE5/YS
PE6/I
B
G
R
PB0
PB1
PB2

PF0/PWM0
PF1/PWM1
PF2/PWM2
PF3/PWM3
PF4/SCL0
PF5/SCL1/PWM4
PF6/SDA0
PF7/SDA1/PWM5

PE0/TO/ADJ
PE1/PWM
PE2/TEX/INT0

PE3/TX

Pin Assignment (Top View) 52-pin SDIP

Note)

1. NC (Pin 38) is left open.

2. Vss (Pins 12 and 40) are both connected to GND.

– 6 –

CXP750096/750010, CXP750097/750011

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

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

(Port C)
Lower 6 bits are I/O ports; I/O can be set in a unit of single bits. Upper
2 bits are output port and large current (12mA) N-channel open drain
output. Upper 2 bits are medium drive voltage (12V); lower 6 bits are
5V drive.
(8 pins)

(Port D)
8-bit I/O port. I/O
can be set in a
unit of single bits.
Can drive 12mA
synk current.
(8 pins)

(Port E)
Bits 0 and 1 are I/O
port; I/O can be set
in a unit of single.
Bits 2 and 3 are
input port. Bits 4, 5
and 6 are output
port.
(7 pins)

Pin Description

Symbol

PA0/AN0

to

PA5/AN5
PA6/VSYNC
PA7/HSYNC

PB0 to PB7

PC0 to PC5

∗

PC6/PWM6∗ to
PC7/PWM7

∗

PD0/INT2
PD1/SCK

PD2/SO
PD3/SI
PD4/HS0
PD5/HS1
PD6/RMC
PD7/EC

PE0/TO/ADJ
PE1/PWM

PE2/TEX/INT0

PE3/TX

PE4/YM
PE5/YS
PE6/I
B
G
R

I/O/
Analog input

I/O/Input
I/O/Input

I/O

I/O

Output/Output

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

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

Output
I/O/Output

Input/Input/
Input

Input/Output

Output/Output
Output/Output
Output/Output
Output
Output
Output

I/O

Description

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

OSD display vertical sync signal input.
OSD display horizontal sync signal input.

8-bit PWM output.
(2 pins)

External interruption request input. Active at the
falling edge.

Serial clock I/O.
Serial data output.
Serial data input.
HSYNC counter (CH0) input.
HSYNC counter (CH1) input.
Remote control reception circuit input.
External event input for timer/counter.
Rectangular wave output

for 8-bit timer/counter.
14-bit PWM output.

Connects a crystal for
32kHz timer/counter
clock oscillation. When
used as an event
counter, input to TEX pin and leave TX pin open.

TEX oscillation
frequency dividing output.

External interruption
request input. Active at
the falling edge.

OSD display 6-bit output.
(6 pins)

∗

Not incorporated for Pin 52 package.

– 7 –

CXP750096/750010, CXP750097/750011

(Port F)
8-bit output port
and large current
(12mA) N-channel
open drain output.
Lower 4 bits are
medium drive
voltage (12V); upper
4 bits are 5V drive.
(8 pins)

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

Connects a crystal for system clock oscillation. When a clock is
supplied externally, input to EXTAL pin and input a reversed phase
clock to XTAL pin.

System reset; active at Low level.
OSD display clock oscillation I/O. Oscillation frequency is determined

by the external L and C.
No connected.

Positive power supply.
GND. Connect two Vss pins to GND.

8-bit PWM output.
(4 pins)

I2C bus interface transfer clock I/O.
(2 pins)

I2C bus interface transfer data I/O.
(2 pins)

Symbol

PF0/PWM0 to
PF3/PWM3

PF4/SCL0
PF5/SCL1/

PWM4
PF6/SDA0
PF7/SDA1/

PWM5
PG3 to PG6

∗

PG7/INT1

EXTAL
XTAL

RST
EXLC
XLC
NC
VDD
Vss

Output/Output
Output/I/O

Output/I/O/
Output

Output/I/O
Output/I/O/

Output
I/O

I/O/Input

Input
Output
Input

Input
Output

I/O Description

8-bit PWM output.

8-bit PWM output.

External interruption request input.
Active at the falling edge.

∗

Not incorporated for Pin 52 package.

– 8 –

CXP750096/750010, CXP750097/750011

Input/Output Circuit Formats for Pins

Port A

Port A

Port B
Port C

6 pins

2 pins

19 pins

Hi-Z

Hi-Z

Hi-Z

Pin After a resetCircuit format

PA6/VSYNC
PA7/HSYNC

PB0 to PB7
PC0 to PC5

∗2

PG3 to PG6

∗2

PG7/INT1

PA0/AN0

to

PA5/AN5

Port G

Ports C and F data

Ports C and F
function selection

“0” after a reset

“1” after a reset

PWM0 to PWM3
PWM6, PWM7

∗

1

12V drive voltage

Large current 12mA

∗1

RD (Ports C, F)

Internal data bus

Port C

6 pins

PC6/PWM6

∗2

PC7/PWM7

∗2

PF0/PWM0

to

PF3/PWM3

Hi-Z

Port F

∗2

Not incorporated for Pin 52 package.

Port A direction
“0” after a reset

Internal data bus

RD (Port A)

Port A function selection

“0” after a reset

A/D converter

Input multiplexer

Port A direction
“0” after a reset

Internal data bus

RD (Port A)

HSYNC, VSYNC

Port A data

Port A data

Schmitt input

IP

Input
protection
circuit

IP

Input polarity

“0” after a reset

Internal data bus

RD (Ports B, C, G)

INT1

Ports B, C, G data

Ports B, C, G direction

“0” after a reset

PB0 to PB2
Schmitt input only
for PG7

IP

– 9 –

CXP750096/750010, CXP750097/750011

Port D

Port D

Port E

6 pins

2 pins

1 pin

Hi-Z

Hi-Z

High level

H level at ON
resistance of
pull-up
transistor
during a reset

Pin After a resetCircuit format

PD1/SCK
PD2/SO

PE0/TO/ADJ

PD0/INT2
PD3/SI
PD4/HS0
PD5/HS1
PD6/RMC
PD7/EC

( )

Internal data bus

Internal data bus

INT2, SI, HS0,
HS1, RMC, EC

SCK, SO

SIO output enable

Port D data

Port D direction
“0” after a reset

RD (Port D)

Port D data

Port D direction
“0” after a reset

Schmitt input

Schmitt input
only for PD1

∗

IP

∗

Large current 12mA

∗

IP

SCK only

Port E data

“1” after a reset

ADJ16K

ADJ2K

Port E function selection (Upper)
Port E function selection (Lower)

“00” after a reset

Port E direction
“1” after a reset

Internal data bus

RD (Port E)

RD (Port D)

Internal reset signal

TO

∗

1

∗

1

00

01
10
11

MPX

∗

1

ADJ signals are frequency
dividing outputs for 32kHz
oscillation frequency
adjustment. ADJ2K provides
usage as buzzer output.

∗

2

Pull-up resistors approx. 150kΩ

∗

Large current 12mA

∗2

IP

– 10 –

CXP750096/750010, CXP750097/750011

Port E

Port E

1 pin

2 pins

3 pins

Pin After a resetCircuit format

PE2/TEX/INT0
PE3/TX

High level

Oscillation
halted
Port input

Hi-Z

PE1/PWM

PE4/YM
PE5/YS
PE6/I

YM, YS, I

Output polarity

“0” after a reset

Port E function selection

“1” after a reset

Port E data

Internal data bus

RD (Port E)

Writing data to output polarity
register and port data register
brings output to active.

Port E

Port E function selection

“0” after a reset

Port E data

“1” after a reset

PWM

Internal data bus

PE2/
TEX/
INT0

PE3/
TX

Port E direction

“1” after a reset

RD (Port E)

TEX oscillation circuit control

“1” after a reset

Schmitt input

INT0

Intrenal data bus

RD (Port E)

Internal data bus

RD (Port E)

Schmitt input

IPIP

Clock input

IP

– 11 –

CXP750096/750010, CXP750097/750011

4 pins

3 pins

Pin

After a resetCircuit format

R
G
B

Hi-Z

Hi-Z

I2C bus enable

Port F data

Port F function selection

“0” after a reset

“1” after a reset

PWM4, PWM5

SCL, SDA

SCL, SDA
(I2C bus circuit)

IP

Schmitt input

∗

Large current 12mA

To internal I

2

C pins

(SCL1 for SCL0)

BUS SW

∗

RD (Port F)

Internal data bus

R, G, B

Output polarity

“0” after a reset

Writing data to output
polarity register brings
output to active.

Port F

PF4/SCL0
PF5/SCL1/PWM4
PF6/SDA0
PF7/SDA1/PWM5

EXLC

XLC

IP

Oscillation control

IP

OSD display clock

IP

EXTAL

XTAL

• Diagram shows the
circuit composition
during oscillation.

• Feedback resistor is
removed and XTAL is driven
at "H" level driving stop.
(This device does not enter the
stop mode.)

Schmitt input

Pull-up resistor

OP

Mask option

2 pins

EXLC
XLC

2 pins

EXTAL
XTAL

1 pin

RST

Oscillation
halted

Oscillation

Low level
(during a
reset)

– 12 –

CXP750096/750010, CXP750097/750011

∗1

VIN and VOUT should not exceed VDD + 0.3V.

∗2

The large current output port is Port C (PC6, PC7), Port D (PD) and Port F (PF).

Note) Usage exceeding absolute maximum ratings may permanently impair the LSI. Normal operation should

be conducted under the recommended operating conditions. Exceeding those conditions may
adversely affect the reliability of the LSI.

VDD
VIN
VOUT
VOUTP
IOH
∑IOH

IOL

IOLC
∑IOL

Topr
Tstg

PD

–0.3 to +7.0

–0.3 to +7.0

∗1

–0.3 to +7.0

∗1

–0.3 to +15.0

–5

–50

15

20

130

–20 to +75

–55 to +150

1000

600

V
V
V

V
mA
mA

mA

mA
mA

°C

°C
mW
mW

Total of all output pins
Ports excluding large current output

(value per pin)
Large current output ports

(value per pin∗2)
Total of all output pins

SDIP-64P-01
QFP-64P-L01

Item Symbol Ratings Unit Remarks

Absolute Maximum Ratings (Vss = 0V reference)

Supply voltage
Input voltage
Output voltage
Medium drive output voltage
High level output current
High level total output current

Low level output current

Low level total output current
Operating temperature
Storage temperature

Allowable power dissipation

– 13 –

CXP750096/750010, CXP750097/750011

Supply voltage

High level input
voltage

Low level input
voltage

Operating temperature

5.5

5.5

5.5
—

VDD
VDD

VDD + 0.3

0.3VDD

0.2VDD

0.4

+75

V

V
V

V
V
V
V
V
V
V

°C

Item Symbol Min. Max. Unit Remarks

4.5

3.5

2.7
—

0.7VDD

0.8VDD

VDD – 0.4

0
0

–0.3

–20

VIH
VIHS
VIHEX
VIL
VILS
VILEX
Topr

Guaranteed operation range for 1/2 and 1/4
frequency dividing modes

Guaranteed operation range for 1/16 frequency
dividing mode or sleep

Guaranteed operation range for TEX mode
Guaranteed data hold range for stop

∗5
∗1
∗2

EXTAL pin∗3, TEX pin

∗4
∗1
∗2

EXTAL pin∗3, TEX pin

∗4

VDD

∗1

This device does not enter the stop mode.

∗2

PA0 to PA5, PB3 to PB7, PC0 to PC5, PD2, PE0, PE1, PE3, PG3 to PG6, SCL0, SCL1, SDA0, SDA1 pins

∗3

VSYNC, HSYNC, INT2, SCK, SI, HS0, HS1, RMC, EC, INT0, INT1, RST pins

∗4

Specifies only during external clock input.

∗5

Specifies only during external event count input.

Recommended Operating Conditions (Vss = 0V reference)

– 14 –

CXP750096/750010, CXP750097/750011

VDD = 4.5V, IOH = –0.5mA
VDD = 4.5V, IOH = –1.2mA

VDD = 4.5V, IOL = 1.8mA
VDD = 4.5V, IOL = 3.6mA

VDD = 4.5V, IOL = 3.0mA
VDD = 4.5V, IOL = 4.0mA
VDD = 5.5V, VIH = 5.5V

VDD = 5.5V, VIL = 0.4V
VDD = 5.5V, VIH = 5.5V

VDD = 4.5V, IOL = 12.0mA

High level output
voltage

Low level output
voltage

Input current

I/O leakage current

Open drain I/O
leakage current
(in N-ch Tr off state)

Supply current

∗2

4.0

3.5

20

33

2.2

12

——

µA

mA

µA

µA

50
10

120

30

29

45

82

3.8

35

—

mA

µA
µA

Ω

0.4

0.6

1.5

0.4

0.6
40

–40

10

–10

–400

±10

V
V

V
V

V

µA
µA
µA
µA
µA

µA

0.5

–0.5

0.1
–0.1
–1.5

V

V

PA, PB, PC0 to PC5,
PD, PE0 to PE1,
PE4 to PE6, PG, R,
G, B

PA to PD, PE0 to PE1,
PE4 to PE6, PF0 to
PF3, PG, R, G, B

PC6, PC7, PD, PF
PF4 to PF7

(SCL0, SCL1,
SDA0, SDA1)

EXTAL

RST

∗1

PA, PB, PC0 to PC5,PD,
PE, PG, R, G, B, RST

∗1

PC6, PC7, PF0 to PF3
PF4 to PF7

SCL0: SCL1
SDA0: SDA1

VDD = 5.5V, VIL = 0.4V

VDD = 5.5V,
VI = 0, 5.5V

VDD = 5.5V, VOH = 12.0V
VDD = 5.5V, VOH = 5.5V

VDD = 4.5V
VSCL0 = VSCL1 = 2.25V
VSDA0 = VSDA1 = 2.25V

VDD

VDD = 3.3V,
32kHz crystal oscillation
(C1 = C2 = 47pF)

Item Symbol Pins

Conditions Min. Typ. Max. Unit

VOH

VOL

IIZ

ILOH

RBS

IDD1

IDD2

IDDS1

IDDS2

IDDS3

IIHE
IILE
IIHT
IILT
IILR

Electrical Characteristics
DC characteristics (Ta = –20 to +75°C, Vss = 0V reference)

1/2 frequency dividing mode

TEX

VDD = 5.5V,
16MHz crystal oscillation
(C1 = C2 = 15pF)

VDD = 5.5V,
24MHz crystal oscillation

VDD = 3.3V,
32kHz crystal oscillation
(C1 = C2 = 47pF)

Sleep mode

VDD = 5.5V,
24MHz crystal oscillation
(C1 = C2 = 15pF)

Stop mode

∗3

VDD = 5.5V,
termination of 24MHz
and 32kHz oscillation

I2C bus switch
connection impedance
(in output Tr off state)

– 15 –

CXP750096/750010, CXP750097/750011

∗1

For RST pin, specifies the input current when pull-up resistance is selected, and specifies the leakage
current when non-resistor is selected.

∗2

When all output pins are left open. Specifies only when the OSD oscillation is halted.

∗3

This device does not enter the stop mode.

Input capacitance

10

20

pF

PA, PB,PC0 to PC5,
PD,PE0 to PE3,
PF4 to PF7, PG,
EXTAL, EXLC, RST

Clock 1 MHz
0V other than the
measured pins

Item Symbol Pins

Conditions Min. Typ. Max. Unit

CIN

– 16 –

CXP750096/750010, CXP750097/750011

∗1

Indicates three values according to the contents of the clock control register (CLC: 000FEh) upper 2 bits
(CPU clock selection).

tsys [ns] = 2000/fc (Upper 2 bits = “00”), 4000/fc (Upper 2 bits = “01”), 16000/fc (Upper 2 bits = “11”)

EXTAL

t

XH tXLtCF tCR

0.4V

V

DD – 0.4V

1/fc

A

A

Crystal oscillation
Ceramic oscillation

EXTAL

XTAL

External clock

EXTAL

XTAL

74HC04

C

1 C2

A

32kHz clock applied condition
Crystal oscillation

TEX

TX

C

1 C2

TEX
EC

t

EH tELtEF tER

0.2VDD

0.8VDD

tTH tTLtTF tTR

AC Characteristics
(1) Clock timing

System clock frequency

System clock input pulse width
System clock input rise and fall

times
Event count input clock pulse

width
Event count input clock rise

and fall times

System clock frequency

Event count input clock input
pulse width

Event count input clock rise
and fall times

fC

tXL,
tXH

tCR,
tCF

tEH,
tEL

tER,
tEF

fC

tTL,
tTH

tTR,
tTF

XTAL
EXTAL

EXTAL

EXTAL

EC

EC

TEX
TX

TEX

TEX

MHz

ns

ns

ns

ms

kHz

µs

ms

Item Symbol Pins Conditions Min. Unit

Fig. 1, Fig.2
Fig. 1, Fig.2

External clock drive
Fig. 1, Fig.2

External clock drive
Fig. 3

Fig. 3
VDD = 2.7 to 5.5 V

Fig. 2 (32kHz clock
applied conditions)

Fig. 3

Fig. 3

8

17

4tsys

∗1

10

Typ.

32.768

Max

24

200

20

20

(Ta = –20 to +75°C, VDD = 4.5 to 5.5V, Vss = 0V reference)

Fig.2. Clock applied conditions

Fig. 1. Clock timing

Fig. 3. Event count clock timing

AAA

AA

AA

0.2VDD

0.8VDD

tKL tKH

SO

tKCY

tSIK

tKSI

0.2VDD

0.8VDD

tKSO

0.2VDD

0.8VDD
Output data

Input data

SI

SCK

– 17 –

CXP750096/750010, CXP750097/750011

(2) Serial transfer (Ta = –20 to +75°C, VDD = 4.5 to 5.5V, Vss = 0V reference)

Item

SCK cycle time

tKCY

SCK

Input mode
Output mode
SCK input mode
SCK output mode
SCK input mode
SCK output mode
SCK input mode
SCK output mode
SCK input mode
SCK output mode

1000

8000/fc

400

4000/fc – 50

100
200
200
100

200
100

ns
ns
ns
ns
ns
ns
ns
ns
ns
ns

SCK

SI

SI

SO

tKH
tKL

tSIK

tKSI

tKSO

SCK High and Low level
width

SI input setup time
(for SCK ↑)

SI hold time
(for SCK ↑)

SCK ↓ → SO delay time

Symbol Pins Conditions Min. Max. Unit

Note) The load of SCK output mode and SO output delay time is 50pF + 1TTL.

Fig. 4. Serial transfer timing

– 18 –

CXP750096/750010, CXP750097/750011

Resolution
Linearity error
Zero transition

voltage
Full-scale transition

voltage
Conversion time
Sampling time
Analog input voltage

VZT

∗1

VFT

∗2

tCONV
tSAMP

VIAN

AN0 to AN5

Ta = 25°C
VDD = 5.0V
Vss = 0V

–10

4910

26/fADC

∗3

6/fADC

∗3

0

10

4970

8

±3
70

5030

VDD

Bits

LSB

mV

mV

µs
µs

V

Item Symbol Pins Conditions Min. Typ. Max. Unit

(3) A/D converter (Ta = –20 to +75°C, VDD = 4.5 to 5.5V, Vss = 0V reference)

Linearity error

VZT VFT

Analog input

FFh
FEh

01h
00h

Digital conversion value

Fig. 5. Definitions for A/D converter terms

∗1

VZT: Value at which the digital conversion value changes
from 00h to 01h and vice versa.

∗2

VFT: Value at which the digital conversion value changes
from FEh to FFh and vice versa.

∗3

fADC indicates the below values due to the contents of bit
6 (CKS) of the A/D control register (ADC: 000F6h):

fADC = fc (CKS = “0”), fc/2 (CKS = “1”)

– 19 –

CXP750096/750010, CXP750097/750011

External interruption High,
Low level width

Reset input Low level width

INT0
INT1
INT2

RST

1

32/fc

µs

µs

Item Symbol Pins Conditions Min. Max. Unit

tIH
tIL

tRSL

(4) Interruption, reset input (Ta = –20 to +75°C, VDD = 4.5 to 5.5V, Vss = 0V reference)

0.2VDD

0.8VDD

tIH tIL

INT0
INT1
INT2
(falling edge)

Fig. 6. Interruption input timing

tRSL

0.2VDD

RST

Fig. 7. RST input timing

– 20 –

CXP750096/750010, CXP750097/750011

(5) I2C bus timing (Ta = –20 to +75°C, VDD = 4.5 to 5.5V, Vss = 0V reference)

Item
SCL clock frequency
Bus-free time before starting transfer
Hold time for starting transfer
Clock Low level width
Clock High level width
Setup time for repeated transfers
Data hold time
Data setup time
SDA, SCL rise time
SDA, SCL fall time
Setup time for transfer completion

fSLC

tBUF
tHD; STA
tLOW
tHIGH
tSU; STA
tHD; DAT
tSU; DAT
tR
tF
tSU; STO

SCL
SDA, SCL
SDA, SCL
SCL
SCL
SDA, SCL
SDA, SCL
SDA, SCL
SDA, SCL
SDA, SCL
SDA, SCL

0

4.7

4.0

4.7

4.0

4.7
0

∗1

250

4.7

100

1

300

kHz

µs
µs
µs
µs
µs
µs
ns
µs
ns
µs

Symbol Pins Conditions Min. Max. Unit

∗1

The data hold time should be 300ns or more because the SCL rise time (300ns Max.) is not included in it.

Fig. 8. I2C bus transfer timing

PSt

t

SU; STO

tSU; STA

tHD; STA

tSU; DATtHIGHtHD; DAT

tFtR

tLOW

tHD; STA

SP

t

BUF

SDA

SCL

Fig. 9. I2C bus device recommended circuit

I2C bus

device

I2C bus

device

RS RS RS RS RP RP

SDA0
(or SDA1)

SCL0
(or SCL1)

• A pull-up resistor (Rp) must be connected to SDA0 (or SDA1) and SCL0 (or SCL1).

• The SDA0 (or SDA1) and SCL0 (or SCL1) series resistance (Rs = 300Ω or less) can be used to reduce the
spike noise caused by CRT flashover.

L

C

2C1

EXLC XLC

R

∗

3

– 21 –

CXP750096/750010, CXP750097/750011

(6) OSD timing (Ta = –20 to +75°C, VDD = 4.5 to 5.5V, Vss = 0V reference)

Item

OSD clock frequency

HSYNC pulse width
VSYNC pulse width
HSYNC afterwrite rise and fall

times
VSYNC beforewrite rise and fall

times

fOSC

tHWD
tVWD

tHCG

tVCG

EXLC
XLC

HSYNC
VSYNC

HSYNC

VSYNC

Fig. 11
Fig. 10

Fig. 10
Fig. 10

Fig. 10

4

30/fc

1

40.8

200

1.0

MHz

µs

H

∗2

ns

µs

Symbol Pins

Conditions

Unit

Min. Max

Fig. 10. OSD timing

0.8VDD

0.2VDD

tHCG

tHWD

HSYNC

For OSD I/O polarity register

(OPOL: 001FEh)

bit 7 at “0”

0.8VDD

0.2VDD

tVCG

VSYNC

For OSD I/O polarity register

(OPOL: 001FEh)

bit 6 at “0”

tVWD

Fig. 11. LC oscillation circuit connection

∗3

The series resistor for XLC (R = 1kΩ or less) can reduce the frequency of occurrence of the undesired
radiation.

∗1

The maximum value of fosc is specified with the following equation.

fosc [max] ≤ fc × 1.7

∗2

H indicates 1HSYNC period.

– 22 –

CXP750096/750010, CXP750097/750011

Appendix

C2

Rd

A

A

AAAA

EXTAL

XTAL

C

1

(i) Main clock

A

TEX

TX

C

1

C2

Rd

(iii) Sub clock

Rd

A

EXTAL

XTAL

C

1

C2

(ii) Main clock

Reset pin pull-up resistor

Non-existent

Existent

Item Content

Mask Option Table

∗

Models with an astarisk (∗) have the built-in ground capacitance (C1, C2).

∗1

The series resistor for XTAL (Rd = 500Ω or less) can reduce the effect of the noise caused by the

electrostatic discharge.

Manufacture

RIVER ELETEC
CO., LTD.

MURATA MFG
CO., LTD.

CSA10.0MTZ
CSA12.0MTZ
CSA16.00MXZ040
CSA24.00MXZ040
CST10.0MTW

∗

CST12.0MTW

∗

CST16.00MXW0C1

∗

KINSEKI LTD.

SEIKO
Instruments Inc.

Model

HC-49/U03

HC-49/U (-S)

P3

fc (MHz)

10.0

12.0

16.0

24.0

10.0

12.0

16.0

8.0

12.0

16.0

8.0

12.0

16.0

24.0

30

5

OPEN

30

5
18
12
10
10

5

OPEN

3
30

18

30

5

OPEN

30

5
18
12
10
10

5

OPEN

3
33

18

0

∗1

330

∗1

0

∗1

120k

32.768kHz

(iii)

VTC-200
SP-T

330k

32.768kHz

(iii)

C1 (pF) C2 (pF) Rd (Ω)

Circuit example

Remarks

(i)

(i)

(ii)

CL = 12.5pF

Fig. 12. Recommended oscillation circuit

AA

AA

AAA

– 23 –

CXP750096/750010, CXP750097/750011

Fig. 13. Characteristic curves

3

4 5

6

0.1

1

72

0.01

10

100

100

10

20MHz

24MHz

32MHz

50

100

90807060403020100

1

0.1

0.01

28MHz

16MHz

10

fc = 24MHz
fc = 16MHz
fc = 24MHz
fc = 16MHz
fc = 24MHz
fc = 16MHz

fc = 24MHz
fc = 16MHz

30

15

10

150 5 20

0

25

20

5

2510

36MHz

40MHz

IDD vs. VDD

(Ta = 25°C, Typical)

I

DD

– Supply current [mA]

VDD – Supply voltage [V]

Sleep mode

1/2 dividing mode

1/4 dividing mode

IDD vs. fc

(VDD = 5V, Ta = 25°C, Typical)

1/16 dividing mode

1/2 dividing mode

1/4 dividing mode

1/16 dividing mode

Sleep mode

Parameter curve for OSD oscillator L vs. C

(Analytically calculated value)

L – Inductance [µH]

C1, C2 – Capacitance [pF]

Frequency [MHz]

I

DD

– Supply current [mA]

32kHz operation mode

32kHz sleep mode

– 24 –

CXP750096/750010, CXP750097/750011

Package Outline Unit: mm

PACKAGE STRUCTURE

PACKAGE MATERIAL
LEAD TREATMENT
LEAD MATERIAL
PACKAGE MASS

SONY CODE
EIAJ CODE
JEDEC CODE

SDIP-64P-01

42 ALLOY

SOLDER PLATING

EPOXY RESIN

64PIN SDIP (PLASTIC)

SDIP064-P-0750

57.6 – 0.1

+ 0.4

64

33

1 32

1.778

19.05

17.1 – 0.1

+ 0.3

0° to 15°

0.25 – 0.05

+ 0.1

0.5 MIN

4.75 – 0.1

+ 0.4

3.0 MIN

0.5 ± 0.1

0.9 ± 0.15

8.6g

SONY CODE
EIAJ CODE
JEDEC CODE

23.9 ± 0.4

20.0 – 0.1

0.4 – 0.1

+ 0.15

14.0 – 0.1

1

19

20

32

33

51

52

64

0.15 – 0.05

+ 0.1

2.75 – 0.15

16.3

0.1 – 0.05

+ 0.2

0.8 ± 0.2

M

0.2

0.15

+ 0.4

17.9 ± 0.4

+ 0.4

+ 0.35

64PIN QFP(PLASTIC)

QFP-64P-L01

QFP064-P-1420

PACKAGE MATERIAL

LEAD TREATMENT

LEAD MATERIAL

PACKAGE MASS

EPOXY RESIN
SOLDER/PALLADIUM

42/COPPER ALLOY

PACKAGE STRUCTURE

PLATING

1.5g

1.0
0° to10°

– 25 –

CXP750096/750010, CXP750097/750011

PACKAGE STRUCTURE

PACKAGE MATERIAL

LEAD TREATMENT

LEAD MATERIAL

PACKAGE MASS

EPOXY RESIN

COPPER ALLOY

47.0 – 0.1

+ 0.4

1.778

15.24

13.5 – 0.1

+ 0.3

0° to 15°

0.25 – 0.05

+ 0.1

0.5 ± 0.1

0.9 – 0.05

+ 0.1

2.8 MIN

0.51 MIN

5.0 MIN

SDIP-52P-01
SDIP052-P-0600

52PIN SDIP (PLASTIC)

52

1

26

27

SONY CODE
EIAJ CODE

JEDEC CODE

PLATING

SOLDER/PALLADIUM

5.6g