Sony CXP750000 Cmos 8-bit single chip microcomputer Datasheet

CXP750000
CMOS 8-bit Single Chip Microcomputer
Description
The CXP750000 is a CMOS 8-bit single chip microcomputer of piggyback/evaluator combined type,
which is developed for evaluating the function of the
CXP750096/750010.
Note that the CXP750000 corresponds to the custom
font.
Piggy/evaluation chip
64 pin PQFP (Ceramic)
64 pin PSDIP (Ceramic)
Features
• A wide instruction set (211 instructions) which covers
various types of data
– 16-bit operation/multiplication and division/ Boolean
Structure
bit operation instructions
Silicon gate CMOS IC
• Minimum instruction cycle
167ns at 24MHz operation
250ns at 16MHz operation
122µs at 32kHz operation
• Applicable EPROM
CXP27C702K (Maximum 120K bytes are available.)
• Incorporated RAM
2496 bytes (Excludes VRAM for on-screen display )
• EPROM for custom font
57K bytes
• Peripheral functions
– A/D converter
8 bits, 6 channels, 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
32kHz timer/counter
– On-screen display (OSD) 24 × 32 dots, 512 character types, 15 character colors, 32 characters × 2 lines
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
– I2C bus interface
– PWM output
8 bits, 8 channels
14 bits, 1 channel
– Remote control unit receive 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
CXP750000 64-pin ceramic PQFP/PSDIP (Supports custom font)
Note) Mask option depends on the type of the CXP750000. Refer to the Product List for details.
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.
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.
–1–
E98613-PS
CXP750000
PC4
PC5
PC6/PWM6
PC7/PWM7
PF0/PWM0
PF1/PWM1
58
57 56
55
54
53 52
PF2/PWM2
PC3
61 60 59
PC2
63 62
PC1
PD7/EC
64
PC0
PD6/RMC
CXP750000
Pin Assignment in Piggyback Mode (Top View)
PF4/SCL0
PD3/SI
3
49
PF5/SCL1/PWM4
PD2/SO
4
48
PF6/SDA0
PD1/SCK
5
47
PF7/SDA1/PWM5
PD0/INT2
6
46
PE0/TO/ADJ
45
PE1/PWM
44
PE2/TEX/INT0
PA7/HSYNC
7
4
3
2
1
A13
50
A14
2
VDD
PD4/HS0
NC
PF3/PWM3
A15
51
A12
1
A7
PD5/HS1
32 31 30
A6
5
29
A8
A5
6
28
A9
A4
7
27
A11
PA6/VSYNC
8
RST
9
A3
8
26
NC
43
PE3/TX
VSS
10
A2
9
25
OE
42
VSS
XTAL
11
A1
10
24
A10
41
VDD
A0
11
23
CE
40
NC
NC
12
22
D7
D0
13
21
D6
39
EXLC
38
XLC
EXTAL
12
PA5/AN5
13
PA4/AN4
14
PA3/AN3
15
37
PE4/YM
PA2/AN2
16
36
PE5/YS
PA1/AN1
17
35
PE6/I
PA0/AN0
18
34
B
PB7
19
33
G
R
31 32
PB0
PG3
PB1
PG4
PB2
28 29 30
PG5
D5
27
PG6
D4
25 26
PG/7INT1
D3
24
PB3
A16
22 23
PB4
GND
21
PB5
D2
20
PB6
D1
14 15 16 17 18 19 20
Note) 1. NC (Pin 40) is left open.
2. Vss (Pins 10 and 42) are both connected to GND.
–2–
CXP750000
PC4
PC5
PC6/PWM6
PC7/PWM7
PF0/PWM0
PF1/PWM1
58
57 56
55
54
53 52
PF2/PWM2
PC3
61 60 59
PC2
63 62
PC1
PD7/EC
64
PC0
PD6/RMC
CXP750000
Pin Assignment in Evaluator Mode (Top View)
PF4/SCL0
PD3/SI
3
49
PF5/SCL1/PWM4
PD2/SO
4
48
PF6/SDA0
PD1/SCK
5
47
PF7/SDA1/PWM5
PD0/INT2
6
46
PE0/TO/ADJ
45
PE1/PWM
44
PE2/TEX/INT0
PA7/HSYNC
7
4
3
2
1
A13
50
A14
2
VDD
PD4/HS0
NC
PF3/PWM3
A15
51
A12
1
A7/D7
PD5/HS1
32 31 30
A6/D6
5
29
A8
A5/D5
6
28
A9
A4/D4
7
27
A11
PA6/VSYNC
8
RST
9
A3/D3
8
26
NC
43
PE3/TX
VSS
10
A2/D2
9
25
HALT
42
VSS
XTAL
11
A1/D1
10
24
A10
41
VDD
A0/D0
11
23
E/P
40
NC
NC
12
22
I/T
RD
13
21
MON
39
EXLC
38
XLC
EXTAL
12
PA5/AN5
13
PA4/AN4
14
PA3/AN3
15
37
PE4/YM
PA2/AN2
16
36
PE5/YS
PA1/AN1
17
35
PE6/I
PA0/AN0
18
34
B
PB7
19
33
G
R
31 32
PB0
PG3
PB1
PG4
PB2
28 29 30
PG5
RST
27
PG6
C1
25 26
PG7/INT1
C2
24
PB3
A16
22 23
PB4
GND
21
PB5
SYNC
20
PB6
WR
14 15 16 17 18 19 20
Note) 1. NC (Pin 40) is left open.
2. Vss (Pins 10 and 42) are both connected to GND.
–3–
CXP750000
CXP750000
Pin Assignment in Piggyback Mode (Top View)
PC5
PC1
3
62
PC6/PWM6
PC0
4
61
PC7/PWM7
PD7/EC
5
60
PF0/PWM0
PD6/RMC
6
59
PF1/PWM1
PD5/HS1
7
58
PF2/PWM2
PD4/HS0
8
57
PF3/PWM3
PD3/SI
9
56
PF4/SCL0
PD2/SO
10
55
PF5/SCL1/PWM4
PD1/SCK
11
54
PF6/SDA0
PD0/INT2
12
53
PF7/SDA1/PWM5
PA7/HSYNC
13
52
PE0/TO/ADJ
PA6/VSYNC
14
51
PE1/PWM
50
PE2/TEX/INT0
RST
15
VSS
16
XTAL
EXTAL
PA5/AN5
17
18
19
4
3
2
A13
63
VDD
2
A14
PC2
NC
PC4
A15
64
A12
1
A7
PC3
1 32 31 30
A6
5
29
A8
A5
6
28
A9
A4
7
27
A11
26
NC
49
PE3/TX
25
OE
48
VSS
47
VDD
46
NC
45
EXLC
A3
8
A2
9
A1
10
24
A10
For programming
A0
11
23
CE
NC
12
22
D7
D0
13
21
D6
PA4/AN4
20
PA3/AN3
21
44
XLC
PA2/AN2
22
43
PE4/YM
PA1/AN1
23
42
PE5/YS
PA0/AN0
24
41
PE6/I
PB7
25
40
B
PB6
26
39
G
PB5
27
38
R
PB4
28
37
PB0
PB3
29
36
PB1
PG7/INT1
30
35
PB2
PG6
31
34
PG3
PG5
32
33
PG4
D5
D4
D3
A16
GND
D2
D1
14 15 16 17 18 19 20
Note) 1. NC (Pin 46) is left open.
2. Vss (Pins 16 and 48) are both connected to GND.
–4–
CXP750000
CXP750000
Pin Assignment in Evaluator Mode (Top View)
PC5
PC1
3
62
PC6/PWM6
PC0
4
61
PC7/PWM7
PD7/EC
5
60
PF0/PWM0
PD6/RMC
6
59
PF1/PWM1
PD5/HS1
7
58
PF2/PWM2
PD4/HS0
8
57
PF3/PWM3
PD3/SI
9
56
PF4/SCL0
PD2/SO
10
55
PF5/SCL1/PWM4
PD1/SCK
11
54
PF6/SDA0
PD0/INT2
12
53
PF7/SDA1/PWM5
52
PE0/TO/ADJ
51
PE1/PWM
50
PE2/TEX/INT0
4
PA7/HSYNC
13
PA6/VSYNC
14
RST
15
A6/D6
3
2
A13
63
A14
2
VDD
PC2
NC
PC4
A12
64
A15
1
A7/D7
PC3
1 32 31 30
5
29
A8
A5/D5
6
28
A9
A4/D4
7
27
A11
A3/D3
8
26
NC
25
HALT
49
PE3/TX
48
VSS
47
VDD
46
NC
45
EXLC
44
XLC
43
PE4/YM
VSS
16
A2/D2
9
XTAL
17
A1/D1
10
24
A10
A0/D0
11
23
E/P
NC
12
22
I/T
RD
13
21
MON
EXTAL
18
PA5/AN5
19
For programming
14 15 16 17 18 19 20
23
42
PE5/YS
PA0/AN0
24
41
PE6/I
PB7
25
40
B
PB6
26
39
G
PB5
27
38
R
PB4
28
37
PB0
PB3
29
36
PB1
PG7/INT1
30
35
PB2
PG6
31
34
PG3
PG5
32
33
PG4
RST
PA1/AN1
C1
22
C2
PA2/AN2
A16
21
GND
PA3/AN3
WR
20
SYNC
PA4/AN4
Note) 1. NC (Pin 46) is left open.
2. Vss (Pins 16 and 48) are both connected to GND.
–5–
CXP750000
EPROM Read Timing
(Ta = –20 to +75°C, VDD = 4.5 to 5.5V, Vss = 0V)
Item
Symbol
Pins
Address → data
input delay time
tACC
A0 to A16
D0 to D7
Address → data
hold time
tIH
A0 to A16
D0 to D7
Min.
Max.
Unit
75
ns
ns
0
0.8VDD
A0 to A16
Address data
0.2VDD
tACC
tIH
0.8VDD
D0 to D7
Input data
0.2VDD
Product List
Products
Optional item
CXP750096
Package
ROM capacity
Reset pin
pull-up resisto
Font data
Piggy/evaluation chip
Mask ROM
CXP750010
CXP750000-U01Q CXP750000-U01S
64-pin
ceramic PQFP
64-pin
plastic SDIP/QFP
96K bytes
120K bytes
64-pin
ceramic PSDIP
EPROM 120K bytes
Existent/Non-existent
Existent
User data
EPROM 57K bytes
–6–
CXP750000
CXP750000
Piggyback mode and evaluator mode can be switched as shown below.
Evaluator mode
Piggyback mode
LCC type EPROM
CPU probe
CXP750000
Pin 1 marking
Pin 1 index
EPROM Pin 1 marking
Note)
Pin 1 index
Note) Evaluation cap should be
connected to the CPU probe.
–7–
CXP750000
Piggy/Evaluation Chip Corresponds to Custom Font
The CXP750000 is a piggy/evaluation chip which corresponds to custom font. This incorporates EPROM of
OSD font data block. This IC is shipped in blank status, and write to EPROM using exclusive write adaptor.
Use exclusive font editor (SFE700II) as for generating font data.
Write mode
Intel method
Write voltage
12.75V
Write pulse width
100µs
Write ROM type
27C020
Starting address for write
20000h
Ending address for write
38BFFh
Write adaptor∗1
SDIP: SEK7500P10-64S (Upper board)
QFP: SEK750000-64Q (Upper board)
Lower board: SEK-32DP-DWN2
∗1 SUNHAYATO Corp. made
OSD Font Data Block Memory Map
20000h
OSD character (lower)
24000h
OSD character (medium)
28000h
OSD character (upper)
2C000h
Unused
30000h
30C00h
34000h
34C00h
38000h
38C00h
∗2
Graphic character (lower)
Unused
∗2
Graphic character (medium)
Unused
Graphic character (upper)
Unused
3FFFFh
∗2 Fill up ROM writer memory with FFh.
–8–
∗2
CXP750000
Package Outline
Unit: mm
64PIN PQFP (CERAMIC)
PIN No. 1 INDEX
18.7 ± 0.5
INDEX
PIN No.1 INDEX
16.3 ± 0.2
64
51
1.0 ± 0.05
1
64
51
1
33
19
14.22
18.12 ± 0.2
12.02
1.05
0.7
0.4 ± 0.08
0.3
6.0
1.27 ± 0.13
4.5
22.3 ± 0.25
32
9.48
0.75
20
1.3 ± 0.3
33
19
32
20
0.6
0.9
11.66
15.58 ± 0.2
PACKAGE STRUCTURE
PACKAGE MATERIAL
+ 0.05
0.15 – 0.02
9.8 MAX
–9–
CERAMIC
SONY CODE
PQFP-64C-L02
LEAD TREATMENT
GOLD PLATING
EIAJ CODE
AQFP064-C-0000-B
LEAD MATERIAL
42 ALLOY
PACKAGE WEIGHT
5.2g
JEDEC CODE
3.57 ± 0.36
24.7 ± 0.5
52
52
CXP750000
Package Outline
Unit: mm
64PIN PSDIP(CERAMIC)
58.90 ± 0.55
18.12 ± 0.2
20.0 ± 0.2
32
1.27 ± 0.13
1.778 ± 0.1
0.9
1.27 ± 0.25
0.46 ± 0.08
3.43 ± 0.38
11.24 MAX
PIN 1 INDEX
PACKAGE STRUCTURE
PACKAGE MATERIAL
CERAMIC
GOLD PLATING
SONY CODE
PSDIP-64C-03
LEAD TREATMENT
EIAJ CODE
ADIP064-C-0750
LEAD MATERIAL
42 ALLOY
PACKAGE MASS
19.2g
JEDEC CODE
– 10 –
19.05 ± 0.25
+ 0.05
0.25 – 0.02
17.5 ± 0.17
1
18.75 ± 0.25
33
15.85 ± 0.2
64
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