ETC E0C63455Q8

PF1038-02
E0C63455
4-bit Single Chip Microcomputer
● 4-bit E0C63000 Core CPU
● Built-in Dot-matrix LCD Driver
● High Speed Instruction Cycle (2-6CPI)
■ DESCRIPTION
The E0C63455 is a CMOS 4-bit microcomputer composed of a CMOS 4-bit core CPU, ROM, RAM, dot-matrix
type LCD driver, serial interface and counters. And the E0C63455 can be operated with high speed and spend
little current.
■ FEATURES
● CMOS LSI 4-bit parallel processing ..... E0C63000 core CPU
● Main clock ............................................. 32.768kHz (Typ.) crystal / 60kHz (Typ.) CR
● Sub clock .............................................. 1.8MHz (Typ.) CR / 4MHz (Max.) ceramic
● Instruction set ........................................ 46 types (411 instructions with all), 8 typs addressing mode
● Instruction execution time ..................... 32.768kHz
4MHz
: 61µsec,
: 0.5µsec,
● ROM capacity ....................................... Code ROM
Data ROM
: 4,096 words × 13 bits
: 2,048 words × 4 bits
122µsec, 183µsec
1.0µsec, 1.5µsec
● RAM capacity ........................................ Data memory
: 1,024 words × 4 bits
Display memory : 480 bits (120 words × 4 bits)
● I/O port .................................................. I : 4 bits (Pull-up resistors may be supplemented)
O : 4 bits (It is possible to switch the 2 bits to special output)
I/O : 8 bits (It is possible to switch the 4 bits to serial I/F input/output)
● LCD driver ............................................. 60 segments × 8 commons
● Clock timer ............................................ 1 ch.
● Stopwatch timer .................................... 1 ch.
● Programmable timer ............................. 8 bits × 2 ch.
● Watchdog timer ..................................... Built-in
● Serial interface ...................................... 8-bit clock synchronous
● Sound generator ................................... With envelope and 1-shot output functions
● Interrupts ............................................... External : Kye interrupt
Internal : Clock timer interrupt
: Stopwatch timer interrupt
: Programmable timer interrupt
: Serial interface interrupt
1 system
4 systems
2 systems
2 systems
1 system
● Power supply voltage ............................ 2.2 to 6.4V (Min. 1.8V with OSC1 crystal oscillation circuit only)
● Operating temperature range ............... -20°C to 70°C
● Current consumption ............................ 1.0µA (32.768kHz, LCD OFF, 3.0V, HALT)
4.0µA (32.768kHz, LCD ON, 3.0V, RUN)
1,000µA (4MHz, LCD ON, 3.0V, RUN)
● Package ................................................ QFP5-128pin / QFP8-128pin (plastic), Die form
1
E0C63455
■ BLOCK DIAGRAM
ROM
4,096 words × 13 bits
System Reset
Control
RESET
Core CPU E0C63000
OSC1
OSC2
OSC3
OSC4
OSC
Interrupt
Generator
RAM
Stopwatch
Timer
1,024 words × 4 bits
Clock
Timer
Data ROM
2,048 words × 4 bits
Programmable
Timer
COM0–7
SEG0–59
LCD Driver
60 SEG × 8 COM
K00–K03
Input Port
TEST
VDD
VC1, VC2, VC4, VC5
CA–CF
VD1
VSS
VREF
Power
Controller
BZ
Sound
Generator
Serial Interface
I/O Port
P00–P03
P10–P13
Output Port
R00–R03
■ PIN CONFIGURATION
QFP5-128pin
102
65
103
64
E0C63455
INDEX
39
128
1
2
38
No. Pin name No. Pin name No. Pin name No. Pin name
1
SEG12
33
N.C.
65
N.C.
97
SEG41
2
SEG11
34
N.C.
66
N.C.
98
N.C.
3
N.C.
35
N.C.
67
N.C.
99
N.C.
4
N.C.
36
N.C.
68
N.C.
100
N.C.
5
N.C.
37
N.C.
69
VC1
101 SEG40
6
N.C.
38
N.C.
70
VC2
102 SEG39
7
N.C.
39
N.C.
71
VC4
103 SEG38
8
SEG10
40
N.C.
72
VC5
104 SEG37
9
SEG9
41
OSC3
73
CF
105 SEG36
10
SEG8
42
OSC4
74
CE
106 SEG35
11
SEG7
43
VDD
75
CD
107 SEG34
12
SEG6
44
RESET
76
CC
108 SEG33
13
SEG5
45
TEST
77
CB
109 SEG32
14
SEG4
46
VREF
78
CA
110 SEG31
15
SEG3
47
R03
79
SEG59 111 SEG30
16
SEG2
48
R02
80
SEG58 112 SEG29
17
SEG1
49
R01
81
SEG57 113 SEG28
18
SEG0
50
R00
82
SEG56 114 SEG27
19
COM7
51
P13
83
SEG55 115 SEG26
20
COM6
52
P12
84
SEG54 116 SEG25
21
COM5
53
P11
85
SEG53 117 SEG24
22
COM4
54
P10
86
SEG52 118 SEG23
23
COM3
55
P03
87
SEG51 119 SEG22
24
COM2
56
P02
88
SEG50 120 SEG21
25
COM1
57
P01
89
SEG49 121 SEG20
26
COM0
58
P00
90
SEG48 122 SEG19
27
BZ
59
K03
91
SEG47 123 SEG18
28
VSS
60
K02
92
SEG46 124 SEG17
29
OSC1
61
K01
93
SEG45 125 SEG16
30
OSC2
62
K00
94
SEG44 126 SEG15
31
VD1
63
N.C.
95
SEG43 127 SEG14
32
N.C.
64
N.C.
96
SEG42 128 SEG13
N.C. : No Connection
E0C63455
QFP8-128pin
96
65
64
97
E0C63455
INDEX
33
128
1
32
No. Pin name No. Pin name No. Pin name No. Pin name
1
N.C.
33
65
97
N.C.
N.C.
N.C.
2
N.C.
34
66
98
SEG40
VC1
N.C.
3
N.C.
35
67
99
VC2
SEG39
N.C.
4
N.C.
36
68
100 SEG38
VC4
N.C.
5
SEG10
37
69
101 SEG37
VC5
N.C.
6
SEG9
38
70
102 SEG36
CF
OSC3
7
SEG8
39
71
103 SEG35
CE
OSC4
8
SEG7
40
72
104 SEG34
CD
VDD
9
SEG6
41
73
105 SEG33
CC
RESET
10
SEG5
42
74
106 SEG32
CB
TEST
11
SEG4
43
75
107 SEG31
CA
VREF
12
SEG3
44
76
SEG59 108 SEG30
R03
13
SEG2
45
77
SEG58 109 SEG29
R02
14
SEG1
46
78
SEG57 110 SEG28
R01
15
SEG0
47
79
SEG56 111 SEG27
R00
16
COM7
48
80
SEG55 112 SEG26
P13
17
COM6
49
81
SEG54 113 SEG25
P12
18
COM5
50
82
SEG53 114 SEG24
P11
19
COM4
51
83
SEG52 115 SEG23
P10
20
COM3
52
84
SEG51 116 SEG22
P03
21
COM2
53
85
SEG50 117 SEG21
P02
22
COM1
54
86
SEG49 118 SEG20
P01
23
COM0
55
87
SEG48 119 SEG19
P00
24
BZ
56
88
SEG47 120 SEG18
K03
25
VSS
57
89
SEG46 121 SEG17
K02
26
58
90
SEG45 122 SEG16
K01
OSC1
27
59
91
SEG44 123 SEG15
K00
OSC2
28
60
92
SEG43 124 SEG14
N.C.
VD1
29
61
93
SEG42 125 SEG13
N.C.
N.C.
30
62
94
SEG41 126 SEG12
N.C.
N.C.
31
63
95
127 SEG11
N.C.
N.C.
N.C.
32
64
96
128
N.C.
N.C.
N.C.
N.C.
N.C. : No Connection
■ PIN DESCRIPTION
Pin name
VDD
VSS
VD1
VC1, VC2,
VC4, VC5
VREF
CA–CF
OSC1
Pin No.
QFP5-128pin
QFP8-128pin
43
40
28
25
31
28
69, 70,
66, 67,
71, 72
68, 69
46
43
78–73
75–70
29
26
In/Out
–
–
–
–
O
O
Power (+) supply pin
Power (–) supply pin
Oscillation/internal logic system regulated voltage output pin
LCD system power supply pin
1/4 bias generated internally
LCD system power supply testing pin
LCD system boosting/reducing capacitor connecting pin
Crystal or CR oscillation input pin
(selected by mask option)
Crystal or CR oscillation output pin
(selected by mask option)
Ceramic or CR oscillation input pin
(selected by mask option)
Ceramic or CR oscillation output pin
(selected by mask option)
Input port
I/O port
I/O port
(switching to serial I/F input/output is possible by software)
Output port
Output port
Output port
(switching to TOUT signal output is possible by software)
Output port
(switching to FOUT signal output is possible by software)
LCD common output pin
LCD segment output pin
O
I
I
Sound output pin
Initial reset input pin
Testing input pin
O
–
I
OSC2
30
27
O
OSC3
41
38
I
OSC4
42
39
O
62–59
58–55
54–51
59–56
55–52
51–48
I
I/O
I/O
R00
R01
R02
50
49
48
47
46
45
O
O
O
R03
47
44
O
K00–K03
P00–P03
P10–P13
COM0–COM7
SEG0–SEG59
BZ
RESET
TEST
26–19
23–16
18–8, 2–1,
15–5, 127–98,
128–101, 97–79
94–76
27
24
44
41
45
42
Function
3
E0C63455
■ ELECTRICAL CHARACTERISTICS
● Absolute Maximum Ratings
(VSS=0V)
Rating
Value
Symbol
Unit
Supply voltage
-0.5 to 7.0
VDD
V
Input voltage (1)
-0.5 to VDD + 0.3
VI
V
Input voltage (2)
-0.5 to VD1 + 0.3
VIOSC
V
Permissible total output current *1 ΣIVDD
10
mA
-20 to 70
°C
Operating temperature
Topr
-65 to 150
°C
Storage temperature
Tstg
260°C, 10sec (lead section)
–
Soldering temperature / time
Tsol
250
mW
Permissible dissipation *2
PD
∗1: The permissible total output current is the sum total of the current (average current) that simultaneously flows from the output pin (or is drawn in).
∗2: In case of plastic package.
● Recommended Operating Conditions
Condition
Supply voltage
Oscillation frequency
Symbol
VDD
VSS=0V
fOSC1 Crystal oscillation
CR oscillation
fOSC3 CR oscillation
Ceramic oscillation
Remark
OSC3 oscillation OFF
OSC1 CR oscillation
OSC3 oscillation ON
Min.
1.8
2.2
2.2
–
40
(Ta=-20 to 70°C)
Typ.
Max. Unit
3.0
6.4
V
3.0
6.4
V
3.0
6.4
V
32.768
–
kHz
60
80
kHz
1,800
kHz
4,100 kHz
● DC Characteristics
(Unless otherwise specified: VDD=3.0V, VSS=0V, fOSC1=32.768kHz, Ta=25°C, VD1/VC1/VC2/VC4/VC5 are internal voltage, C1–C8=0.2µF)
Min.
Typ.
Condition
Characteristic
Max. Unit
Symbol
0.8·VDD
K00–03,P00–03, P10–13
High level input voltage (1)
VDD
V
VIH1
RESET, TEST, P10–13
VIH2
0.9·VDD
VDD
High level input voltage (2)
V
VIL1
K00–03,P00–03, P10–13
0
0.2·VDD V
Low level input voltage (1)
VIL2
0.1·VDD V
RESET, TEST, P10–13
0
Low level input voltage (2)
IIH
K00–03, P00–03, P10–13
0.5
VIH=3.0V
0
High level input current
µA
RESET, TEST
IIL1
K00–03, P00–03, P10–13
VIL1=VSS
0
-0.5
Low level input current (1)
µA
No Pull-up
RESET, TEST
IIL2
K00–03, P00–03, P10–13
VIL2=VSS
-7
-5
-12
Low level input current (2)
µA
With Pull-up
RESET, TEST
IOH1 VOH1=0.9·VDD
R00–03, P00–03, P10–13
-2
High level output current (1)
mA
IOH2 VOH2=0.9·VDD
BZ
-2
High level output current (2)
mA
IOL1 VOL1=0.1·VDD
R00–03, P00–03, P10–13
3
Low level output current (1)
mA
IOL2 VOL2=0.1·VDD
BZ
3
Low level output current (2)
mA
IOH3 VOH3=VC5-0.05V
COM0–7
-25
Common output current
µA
IOL3 VOL3=VSS+0.05V
25
µA
IOH4 VOH4=VC5-0.05V
SEG0–59
-10
Segment output current
µA
IOL4 VOL4=VSS+0.05V
10
µA
(Unless otherwise specified: VDD=5.0V, VSS=0V, fOSC1=32.768kHz, Ta=25°C, VD1/VC1/VC2/VC4/VC5 are internal voltage, C1–C8=0.2µF)
Min.
Typ.
Condition
Characteristic
Max. Unit
Symbol
0.8·VDD
K00–03,P00–03, P10–13
High level input voltage (1)
VDD
V
VIH1
RESET, TEST, P10–13
VIH2
0.9·VDD
VDD
High level input voltage (2)
V
VIL1
K00–03,P00–03, P10–13
0
0.2·VDD V
Low level input voltage (1)
VIL2
0.1·VDD V
RESET, TEST, P10–13
0
Low level input voltage (2)
IIH
K00–03, P00–03, P10–13
0.5
VIH=5.0V
0
High level input current
µA
RESET, TEST
IIL1
K00–03, P00–03, P10–13
VIL1=VSS
0
-0.5
Low level input current (1)
µA
No Pull-up
RESET, TEST
IIL2
K00–03, P00–03, P10–13
VIL2=VSS
-12
-9
-20
Low level input current (2)
µA
With Pull-up
RESET, TEST
IOH1 VOH1=0.9·VDD
R00–03, P00–03, P10–13
-5
High level output current (1)
mA
IOH2 VOH2=0.9·VDD
BZ
-5
High level output current (2)
mA
IOL1 VOL1=0.1·VDD
R00–03, P00–03, P10–13
7.5
Low level output current (1)
mA
IOL2 VOL2=0.1·VDD
BZ
7.5
Low level output current (2)
mA
IOH3 VOH3=VC5-0.05V
COM0–7
-25
Common output current
µA
IOL3 VOL3=VSS+0.05V
25
µA
IOH4 VOH4=VC5-0.05V
SEG0–59
-10
Segment output current
µA
IOL4 VOL4=VSS+0.05V
10
µA
4
E0C63455
● Analog Circuit Characteristics and Current Consumption
(Unless otherwise specified: VDD=3.0V, VSS=0V, fOSC1=32.768kHz, CG=25pF, RCR1=600kΩ, RCR2=47kΩ,
Ta=25°C, VD1/VC1/VC2/VC4/VC5 are internal voltage, C1–C8=0.2µF)
Characteristic
Symbol
Condition
Min.
Typ.
Max. Unit
LCD drive voltage
VC1 Connect 1MΩ load resistor between VSS and VC1
LC0–3="0"
0.975
V
(when VC1 standard is selected)
(without panel load)
LC0–3="1"
0.990
LC0–3="2"
1.005
LC0–3="3"
1.020
LC0–3="4"
1.035
LC0–3="5"
1.050
LC0–3="6"
1.065
LC0–3="7"
Typ.
1.080
Typ.
LC0–3="8" ×0.88 1.095 ×1.12
LC0–3="9"
1.110
LC0–3="10"
1.125
LC0–3="11"
1.140
LC0–3="12"
1.155
LC0–3="13"
1.170
LC0–3="14"
1.185
LC0–3="15"
1.200
VC2 Connect 1MΩ load resistor between VSS and VC2
2·VC1
2·VC1
V
(without panel load)
×0.9
V
VC4 Connect 1MΩ load resistor between VSS and VC4
3·VC1
3·VC1
(without panel load)
×0.9
V
VC5 Connect 1MΩ load resistor between VSS and VC5
4·VC1
4·VC1
(without panel load)
×0.9
LCD drive voltage
VC1 Connect 1MΩ load resistor between VSS and VC1
1/2·VC2
1/2·VC2 V
(when VC2 standard is selected)
(without panel load)
×0.95
+0.1
1.95
V
VC2 Connect 1MΩ load resistor between VSS and VC2
LC0–3="0"
1.98
(without panel load)
LC0–3="1"
2.01
LC0–3="2"
2.04
LC0–3="3"
2.07
LC0–3="4"
2.10
LC0–3="5"
2.13
LC0–3="6"
2.16
LC0–3="7"
Typ.
Typ.
2.19
LC0–3="8" ×0.88
×1.12
2.22
LC0–3="9"
2.25
LC0–3="10"
2.28
LC0–3="11"
2.31
LC0–3="12"
2.34
LC0–3="13"
2.37
LC0–3="14"
2.40
LC0–3="15"
VC4 Connect 1MΩ load resistor between VSS and VC4
3/2·VC2
3/2·VC2 V
(without panel load)
×0.95
VC5 Connect 1MΩ load resistor between VSS and VC5
2·VC2
V
2·VC2
(without panel load)
×0.95
Current consumption
IOP
During HALT (32kHz crystal), LCD power OFF
*1,*2
1
2
µA
During HALT (32kHz crystal), LCD power ON (VC1 standard)
*1,*2
6
12
µA
During HALT (32kHz crystal), LCD power ON (VC2 standard)
*1,*2
4
8
µA
During HALT (60kHz CR), LCD power OFF
*2
23
45
µA
During HALT (60kHz CR), LCD power ON (VC1 standard)
*2
30
60
µA
During HALT (60kHz CR), LCD power ON (VC2 standard)
*2
26
50
µA
During execution (32kHz crystal), LCD power ON (VC1 standard) *1,*2
10
19
µA
During execution (60kHz CR), LCD power ON (VC1 standard) *2
45
80
µA
During execution (2MHz ceramic), LCD power ON (VC1 standard)
500
700
µA
During execution (4MHz ceramic), LCD power ON (VC1 standard)
1,000 1,200 µA
During execution (1,800kHz CR), LCD power ON (VC1 standard)
700
1,000 µA
∗1: VDC = "0"
∗2: OSCC = "0"
5
E0C63455
■ BASIC EXTERNAL CONNECTION DIAGRAM
I/O
P00–P03
P10 (SIN)
P11 (SOUT)
P12 (SCLK)
P13 (SRDY)
E0C63455
VD1
VREF
[The potential of the substrate
(back of the chip) is VSS.]
OSC1
C1
C2
C3
+
CP
C4
C9
CGX
RCR1
K00–K03
CA
CB
CC
CD
CE
CF
TEST
VDD
X'tal
Output
R00
R01
R02 (TOUT)
R03 (FOUT)
OSC2
∗1
OSC3
CGC
CR
OSC4
Piezo
VSS
∗3
∗1: Crystal oscillation
∗2: CR oscillation
∗3: Ceramic oscillation
Coil
X'tal
CGX
RCR1
CR
CGC
CDC
RCR2
C1–C8
C9
CP
CRES
Crystal oscillator
Trimmer capacitor
Resistor for OSC1 CR oscillation
Ceramic oscillator
Gate capacitor
Drain capacitor
Resistor for OSC3 CR oscillation
Capacitor
Capacitor
Capacitor
RESET terminal capacitor
32.768 kHz, CI (Max.) = 34 kΩ
5–25 pF
520 kΩ (60 kHz)
4 MHz (3.0 V)
30 pF
30 pF
34 kΩ (1.8 MHz)
0.2 µF
0.1 µF
3.3 µF
0.1 µF
Note: The above table is simply an example, and is not guaranteed to work.
6
∗2
CRES
C5
C6
C7
C8
BZ
VC1
VC2
VC4
VC5
RESET
CDC
∗2
RCR2
Input
COM0
|
COM7
SEG0
|
SEG59
LCD panel 60 × 8
(1.8 V)
2.2 V
|
6.4 V
E0C63455
■ PAD LAYOUT
● Diagram of Pad Layout
20
15
10
5
1
25
105
30
Y
X
(0, 0)
95
4.02 mm
35
Die No.
100
40
90
45
85
50
55
60
65
70
75
80
3.77 mm
Chip thickness: 400 µm
Pad opening:
85 µm
● Pad Coordinates
No. Pad name
1
OSC3
2
OSC4
3
VDD
4
RESET
5
TEST
6
VREF
7
R03
8
R02
9
R01
10
R00
11
P13
12
P12
13
P11
14
P10
15
P03
16
P02
17
P01
18
P00
19
K03
20
K02
21
K01
22
K00
23
VC1
24
VC2
25
VC4
26
VC5
27
CF
X
1,507
1,392
1,277
1,162
1,047
932
817
702
587
472
357
242
127
12
-103
-218
-333
-448
-563
-678
Y
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
1,892
No. Pad name
28
CE
29
CD
30
CC
31
CB
32
CA
33
SEG59
34
SEG58
35
SEG57
36
SEG56
37
SEG55
38
SEG54
39
SEG53
40
SEG52
41
SEG51
42
SEG50
43
SEG49
44
SEG48
45
SEG47
46
SEG46
47
SEG45
X
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-1,764
-793
-908
-1,764
1,892
1,892
1,386
48
49
50
SEG44
SEG43
SEG42
-1,764
-1,764
-1,764
-1,764
1,271
1,156
1,041
926
51
52
53
54
SEG41
SEG40
SEG39
SEG38
Y
811
696
581
466
351
236
121
6
-110
-225
-340
-455
-570
-685
-800
-915
-1,030
-1,145
-1,260
-1,375
Unit: µm
Y
-1,721
-1,606
-1,491
-1,376
-1,261
-1,146
-1,031
-916
-801
-686
-571
-456
-341
-226
-111
4
119
234
349
464
No. Pad name
X
Y
55
SEG37 -1,299 -1,891
56
SEG36 -1,184 -1,891
57
SEG35 -1,069 -1,891
58
SEG34
-954 -1,891
59
SEG33
-839 -1,891
60
SEG32
-724 -1,891
61
SEG31
-609 -1,891
62
SEG30
-494 -1,891
63
SEG29
-379 -1,891
64
SEG28
-264 -1,891
65
SEG27
-149 -1,891
66
SEG26
-34 -1,891
67
SEG25
81 -1,891
68
SEG24
196 -1,891
69
SEG23
311 -1,891
70
SEG22
426 -1,891
71
SEG21
541 -1,891
72
SEG20
656 -1,891
73
SEG19
771 -1,891
74
SEG18
886 -1,891
No. Pad name
82
SEG10
83
SEG9
84
SEG8
85
SEG7
86
SEG6
87
SEG5
88
SEG4
89
SEG3
90
SEG2
91
SEG1
92
SEG0
93
COM7
94
COM6
95
COM5
96
COM4
97
COM3
98
COM2
99
COM1
100
COM0
101
BZ
X
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
1,764
-1,764 -1,490
-1,764 -1,605
-1,764 -1,720
75
76
77
SEG17
SEG16
SEG15
1,001 -1,891
1,116 -1,891
1,231 -1,891
102
103
104
1,764
1,764
1,764
579
694
809
-1,764
-1,644
-1,529
-1,414
78
79
80
81
SEG14
SEG13
SEG12
SEG11
1,346
1,461
1,576
1,691
105
1,764
924
-1,835
-1,891
-1,891
-1,891
-1,891
-1,891
-1,891
-1,891
VSS
OSC1
OSC2
VD1
7
E0C63455
■ PACKAGE DIMENSIONS
Plastic QFP8-128pin
23.6±0.4
31.2±0.4
20±0.1
28±0.1
102
65
96
103
97
28±0.1
14±0.1
64
17.6±0.4
64
INDEX
65
31.2±0.4
Plastic QFP5-128pin
INDEX
39
128
38
33
1.8
3.65max
0.15±0.05
0°
10°
0.8±0.2
3.35±0.1
1
0.2±0.05
0.1 2.7±0.1
3max
0.5
0.1
1
128
32
0.8
0.35±0.1
0.15±0.05
0°
10°
0.6±0.2
1.6
Unit: mm
NOTICE:
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Epson reserves the right to make changes to this material without notice. Seiko Epson does not assume any liability of any kind arising out of
any inaccuracies contained in this material or due to its application or use in any product or circuit and, further, there is no representation that
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subject relating to strategic products under the control of the Foreign Exchange and Foreign Trade Law of Japan and may require an export
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© Seiko Epson Corporation 2000 All right reserved.
SEIKO EPSON CORPORATION
ELECTRONIC DEVICES MARKETING DIVISION
IC Marketing & Engineering Group
ED International Marketing Department I (Europe & U.S.A.)
421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN
Phone : 042-587-5812 FAX : 042-587-5564
ED International Marketing Department II (Asia)
421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN
Phone : 042-587-5814 FAX : 042-587-5110
■ EPSON Electronic Devices Website
http://www.epson.co.jp/device/