1
PF914-04
Micro MINI S1C60N07
4-bit Single Chip Microcomputer
● S1C6200C Core CPU
● Low Voltage and Low Power
● Built-in LCD Driver
■DESCRIPTION
The S1C60N07 is a microcomputer with a C-MOS 4-bit core CPU S1C6200C as main component, and ROM,
RAM, dot matrix LCD driver, time base counter and other circuits built-in.
■FEATURES
● Oscillation circuit...................................OSC1: 32.768 kHz (Typ.) Crystal or CR oscillation circuit (∗1)
OSC3: 2 MHz (Max.) CR or ceramic oscillation circuit (∗1)
● Instruction set........................................108 types
● Instruction execution time .....................32.768 kHz:152.6 µsec 213.6 µsec 366.2 µsec
1 MHz: 5.0 µsec 7.0 µsec 12.0 µsec
2 MHz: 2.5 µsec 3.5 µsec 6.0 µsec
● ROM capacity .......................................4,096 words × 12 bits
● RAM capacity........................................Data memory: 512 words × 4 bits
Display memory:160 words × 4 bits
● Input port...............................................4 bits (Pull-up resistors may be supplemented ∗1)
● Output port ............................................6 bits (Buzzer and clock outputs are possible ∗1)
● I/O port ..................................................4 bits
● Dot matrix type LCD driver ...................40 segments × 16 or 8 commons (∗2)
● Time base counter ................................Clock timer, stopwatch timer
● Programmable timer .............................8-bit timer × 1 ch., with event counter and clock output functions
● Watchdog timer.....................................Built-in
● Sound generator ...................................8 programmable sounds (8 types of frequency)
with envelope and 1-shot output functions
● External interrupt ..................................Input port interrupt: 1 system
● Internal interrupt....................................Clock timer interrupt: 1 system
Stopwatch timer interrupt: 1 system
Programmable timer interrupt: 1 system
● Power supply voltage............................2.2 V to 5.5 V
(Min. 1.8 V when the OSC3 oscillation circuit is not used)
● Current consumption (Typ.) ..................During HALT: 32.768 kHz (crystal oscillation), 3.0 V 2.5 µA
During operation: 32.768 kHz (crystal oscillation), 3.0 V 6.5 µA
2 MHz (CR oscillation), 3.0 V 1 mA
● Package ................................................QFP15-100pin (plastic) or chip
∗1: Can be selected with mask option ∗2: Can be selected with software
Low Voltage
Operation
Products
2
S1C60N07
■BLOCK DIAGRAM
OSC1
OSC2
OSC3
OSC4
COM0–15
SEG0–39
V
DD
V
L1
–V
L5
CA–CF
V
REF
V
S1
V
SS
R32
R33(PTCLK)
R40(#FOUT)
R41
R42(#BZ/FOUT)
R43(BZ)
K00–K03
#TEST
#RESET
P00–P03
Core CPU S1C6200C
ROM
4,096 words × 12 bits System Reset
Control
Interrupt
Generator
RAM
512 words × 4 bits
OSC
LCD Driver
40 SEG × 16 COM
Power
Controller
Sound
Generator
Output Port
Clock Timer
Watchdog Timer
Stopwatch
Timer
Programmable
Timer/Counter
Input Port
I/O Port
3
S1C60N07
■PIN CONFIGURATION
5175
26
50
INDEX
251
100
76
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
V
L4
V
L5
CF
CE
CD
CC
CB
CA
COM0
COM1
COM2
COM3
COM4
COM5
COM6
COM7
COM8
COM9
COM10
COM11
No. Pin name 41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
SEG25
SEG24
SEG23
SEG22
SEG21
SEG20
SEG19
SEG18
SEG17
SEG16
N.C.
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
SEG9
SEG8
SEG7
No. Pin name
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
COM12
COM13
COM14
COM15
N.C.
N.C.
SEG39
SEG38
SEG37
SEG36
SEG35
SEG34
SEG33
SEG32
SEG31
SEG30
SEG29
SEG28
SEG27
SEG26
No. Pin name 61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
SEG6
SEG5
SEG4
SEG3
SEG2
SEG1
SEG0
K03
K02
K01
K00
P03
P02
P01
P00
N.C.
N.C.
N.C.
R43
R42
N.C. = No Connection
No. Pin name 81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
R41
R40
R33
R32
#RESET
#TEST
V
SS
OSC4
OSC3
V
S1
OSC2
OSC1
V
DD
V
REF
V
L1
V
L2
V
L3
N.C.
N.C.
N.C.
No. Pin name
S1C60N07
QFP15-100pin
■PIN DESCRIPTION
Pin name
VDD
VSS
VS1
VL1–VL5
VREF
CA–CF
OSC1
OSC2
OSC3
OSC4
COM0–COM15
SEG0–SEG39
K00–K03
P00–P03
R32
R33
R40
R41
R42
R43
#RESET
#TEST
Function
Power supply (+)
Power supply (-)
Internal logic system/oscillation system regulated voltage output
LCD system power supply
1/4 bias generated internally, 1/5 bias generated externally ∗1
LCD system power test pin ∗2
LCD system voltage booster condenser connecting pin
Crystal or CR oscillator input ∗1
Crystal or CR oscillator output ∗1, CD buiil-in
CR or ceramic oscillator input ∗1
CR or ceramic oscillator output ∗1
LCD common output (1/8 duty or 1/16 duty is selected on software)
LCD segment output
Input port (pull up resistor is available by mask option) ∗1
I/O port
Output port
Output port or PTCLK output
Output port or #FOUT output ∗1
Output port
Output port, #BZ output or FOUT output ∗1
Output port or BZ output ∗1
Initial reset input terminal
Testing input terminal ∗3
Pin No.
93
87
90
95–97, 1, 2
94
8–3
92
91
89
88
9–24
67–52, 50–27
71–68
75–72
84
83
82
81
80
79
85
86
I/O
–
–
–
–
O
–
I
O
I
O
O
O
I
I/O
O
O
O
O
O
O
I
I
Complementary output
or Nch open drain
output ∗1
∗1:
∗2:
∗3:
Selected by mask option
Leave the VREF pin unconnected (N.C.).
The #TEST pin is used when the IC load is being detected. During ordinary operation be certain to connect this pin to VDD.
4
S1C60N07
■OPTION LIST
1. OSC1 OSCILLATOR ■■ 1. Crystal ■■ 2. CR
2. OSC3 OSCILLATOR ■■ 1. CR ■■ 2. Ceramic
3. MULTIPLE KEY ENTRY RESET
■■ 1. Not Use
■■ 2. Use K00, K01
■■ 3. Use K00, K01, K02
■■ 4. Use K00, K01, K02, K03
4. INPUT PORTS PULL UP RESISTOR
• K00 ........................................ ■■ 1. With Resistor ■■ 2. Gate Direct
• K01 ........................................ ■■ 1. With Resistor ■■ 2. Gate Direct
• K02 ........................................ ■■ 1. With Resistor ■■ 2. Gate Direct
• K03 ........................................ ■■ 1. With Resistor ■■ 2. Gate Direct
5. OUTPUT PORT OUTPUT SPECIFICATION
• R32........................................ ■■ 1. Complementary ■■ 2. Nch-OpenDrain
6. OUTPUT PORT OUTPUT SPECIFICATION
• R33........................................ ■■ 1. Complementary ■■ 2. Nch-OpenDrain
7. R40 OUTPUT PORT SPECIFICATION
• OUTPUT SPECIFICATION... ■■ 1. Complementary ■■ 2. Nch-OpenDrain
• OUTPUT TYPE ..................... ■■ 1. DC Output
■■ 2. /FOUT
8. R41 OUTPUT PORT SPECIFICATION
• OUTPUT SPECIFICATION... ■■ 1. Complementary ■■ 2. Nch-OpenDrain
9. R42 OUTPUT PORT SPECIFICATION
• OUTPUT SPECIFICATION... ■■ 1. Complementary ■■ 2. Nch-OpenDrain
• OUTPUT TYPE ..................... ■■ 1. DC Output
■■ 2. FOUT
■■ 3. Buzzer Inverted Output (R43 Control)
10. R43 OUTPUT PORT SPECIFICATION
• OUTPUT SPECIFICATION... ■■ 1. Complementary ■■ 2. Nch-OpenDrain
• OUTPUT TYPE ..................... ■■ 1. DC Output ■■ 2. Buzzer Output
11. FOUT FREQUENCY ■■ 1. Don't Use
■■ 2. FOUT (OSC3)
■■ 3. FOUT (32k)
■■ 4. FOUT (16k)
■■ 5. FOUT ( 8k)
■■ 6. FOUT ( 4k)
■■ 7. FOUT ( 2k)
■■ 8. FOUT ( 1k)
■■ 9. FOUT (512)
■■ 10. FOUT (256)
12. I/O PORTS OUTPUT SPECIFICATION
• P00–P03 ............................... ■■ 1. Complementary ■■ 2. Nch-OpenDrain
13. LCD POWER VOLTAGE MODE
■■ 1. Internal Voltage ■■ 2. External Voltage
5
S1C60N07
■ELECTRICAL CHARACTERISTICS
●Absolute Maximum Ratings
Rating
Supply voltage
Input voltage (1)
Input voltage (2)
Permissible total output current *1
Operating temperature
Storage temperature
Soldering temperature / Time
Permissible dissipation *2
∗1:
∗2:
The permissible total output current is the sum total of the current (average current) that simultaneously flows from the output pins (or is draw in).
In case of plastic package (QFP15-100pin).
Symbol
VSS
VI
VIOSC
ΣIVSS
Topr
Tstg
Tsol
PD
Value
-7.0 to 0.5
VSS - 0.3 to 0.5
VS1 - 0.3 to 0.5
10
-20 to 70
-65 to 150
260°C, 10sec (lead section)
250
Unit
V
V
V
mA
°C
°C
–
mW
(VDD=0V)
●Recommended Operating Conditions
Condition
Supply voltage
Oscillation frequency (1)
Oscillation frequency (2)
Oscillation frequency (3)
Voltage booster capacitor (1)
Voltage booster capacitor (2)
Voltage booster capacitor (3)
Capacitor between VDD and VL1
Capacitor between VDD and VL2
Capacitor between VDD and VL4
Capacitor between VDD and VL5
Capacitor between VDD and VS1
Symbol
VSS
fOSC1
fOSC3
fOSC3
C1
C2
C3
C4
C5
C6
C7
C8
Remark
VDD=0V
VSC="1"
VSC="2"
Unit
V
V
V
kHz
kHz
kHz
µF
µF
µF
µF
µF
µF
µF
µF
(Ta=-20 to 70°C)
Max.
-1.8
-2.2
-3.5
50
1,200
2,300
Typ.
-3.0
-3.0
-5.0
32.768
1,000
2,000
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
Min.
-3.8
-5.5
-5.5
20
50
50
VSC="0"
VSC="1"
VSC="2"
●DC Characteristics
Characteristic
High-level input voltage (1)
Low-level input voltage (1)
High-level input voltage (2)
Low-level input voltage (2)
High-level input current
Low-level input current (1)
Low-level input current (2)
High-level output current (1)
Low-level output current (1)
High-level output current (2)
Low-level output current (2)
Common output current
Segment output current
(Unless otherwise specified:
V
DD
=0V, V
SS
=-3.0V, V
L1
=-1.0V, V
L2
=-2.0V, V
L4
=-3.0V, V
L5
=-4.0V,
f
OSC1
=32.768kHz, f
OSC3
=1MHz, Ta=25°C, C
1
–C
8
=0.047µF)
Symbol
V
IH1
V
IL1
V
IH2
V
IL2
I
IH
I
IL1
I
IL2
I
OH1
I
OL1
I
OH2
I
OL2
I
OH3
I
OL3
I
OH4
I
OL4
Unit
V
V
V
V
µA
µA
µA
mA
mA
mA
mA
µA
µA
µA
µA
Max.
0
0.8·V
SS
0
V
SS
+0.2
0.5
-15
0
-1.0
-2.0
-30
-10
Typ.Min.
0.2·V
SS
V
SS
-0.2
V
SS
0
-45
-0.5
4.0
8.0
30
10
Condition
K00–03, P00–03
#RESET
K00–03, P00–03, #RESET
P00–03, R32, R33, R40, R41
R42, R43
COM0–15
SEG0–39
V
SS
=-2.2 to -5.5V
Ta=25°C
V
SS
=-2.2 to -5.5V
Ta=25°C
V
SS
=-3.0V, V
IH
=0V
V
SS
=-3.0V, V
IL1
=V
SS
With Pull-up resistor
V
SS
=-3.0V, V
IL2
=V
SS
No Pull-up resistor
V
SS
=-2.2V
V
OH1
=-0.5V
V
SS
=-2.2V,
V
OL1
=V
SS
+0.5V
V
SS
=-2.2V
V
OH2
=-0.5V
V
SS
=-2.2V,
V
OL2
=V
SS
+0.5V
V
OH3
=-0.05V
V
OL3
=V
L5
+0.05V
V
OH4
=-0.05V
V
OL4
=V
L5
+0.05V
6
S1C60N07
●Analog Circuit Characteristics and Current Consumption
Characteristic
LCD drive voltage
(Normal mode)
LCD drive voltage
(Heavy load protection mode)
Current consumption
∗1
(OSC1/crystal oscillation)
Current consumption
∗1
(OSC1/CR oscillation)
∗1:
Symbol
V
L1
V
L2
V
L4
V
L5
V
L1
V
L2
V
L4
V
L5
I
hlt
I
EX1
I
EX2
I
EX3
I
hlt
I
EX1
I
EX2
I
EX3
Unit
V
V
V
V
V
V
V
V
µA
µA
µA
µA
µA
µA
µA
µA
Max.
1/2·V
L2
×0.95
Typ.
×0.88
3/2·V
L2
×0.95
2·V
L2
×0.95
Typ.
×0.88
2·V
L1
×0.90
3·V
L1
×0.90
4·V
L1
×0.90
5.0
9.0
600
1,500
70
80
600
1,500
Typ.
-2.06
-2.11
-2.17
-2.22
-2.27
-2.32
-2.38
-2.43
-2.48
-2.53
-2.59
-2.64
-2.69
-2.74
-2.80
-2.85
-1.05
-1.08
-1.11
-1.13
-1.16
-1.19
-1.21
-1.24
-1.26
-1.29
-1.32
-1.34
-1.37
-1.40
-1.42
-1.45
2.5
6.5
400
1,000
20
25
420
1,000
Min.
1/2·V
L2
-0.1
Typ.
×1.12
3/2·V
L2
2·V
L2
Typ.
×1.12
2·V
L1
3·V
L1
4·V
L1
No panel loard.
Condition
Connects a 1MΩ load resistance between V
DD
and V
L1
(No panel load)
Connects a 1MΩ load resistance LC="0"
between V
DD
and V
L2
(No panel load)LC="1"
LC="2"
LC="3"
LC="4"
LC="5"
LC="6"
LC="7"
LC="8"
LC="9"
LC="10"
LC="11"
LC="12"
LC="13"
LC="14"
LC="15"
Connects a 1MΩ load resistance between V
DD
and V
L4
(No panel load)
Connects a 1MΩ load resistance between V
DD
and V
L5
(No panel load)
Connects a 1MΩ load resistance LC="0"
between V
DD
and V
L1
(No panel load)LC="1"
LC="2"
LC="3"
LC="4"
LC="5"
LC="6"
LC="7"
LC="8"
LC="9"
LC="10"
LC="11"
LC="12"
LC="13"
LC="14"
LC="15"
Connects a 1MΩ load resistance between V
DD
and V
L2
(No panel load)
Connects a 1MΩ load resistance between V
DD
and V
L4
(No panel load)
Connects a 1MΩ load resistance between V
DD
and V
L5
(No panel load)
During HALT (VSC="0", OSCC="0")
During operation at 32kHz (VSC="0", OSCC="0")
During operation at 1MHz (VSC="1")
During operation at 2MHz (VSC="2", V
SS
=-5.0V)
During HALT (VSC="0"or"1", OSCC="0")
During operation at f
OSC1
(
VSC="0"or"1", OSCC="0"
)
During operation at 1MHz (VSC="1")
During operation at 2MHz (VSC="2", V
SS
=-5.0V)
(Unless otherwise specified:
V
DD
=0V, V
SS
=-3.0V, V
L1
=-1.0V, V
L2
=-2.0V, V
L4
=-3.0V, V
L5
=-4.0V,
f
OSC1
=32.768kHz, f
OSC3
=1MHz, Ta=25°C, C
1
–C
8
=0.047µF)
●AC Characteristics
#RESET Input
Characteristic
#RESET input time Symbol
tsr Unit
ms
Max.Typ.Min.
2.0
(Unless otherwise specified: VDD=0V, VSS=-3.0V, fOSC1=32.768kHz, Ta=25°C, VIH=0.5VSS, VIL=0.9VSS)
#RESET
tsr
V
IL
V
IH
7
S1C60N07
●Oscillation Characteristics
Oscillation characteristics will vary according to different conditions (elements used, boad pattern). Use the following char-
acteristics are as reference values.
OSC1 Crystal Oscillation
Unit
s
pF
pF
ppm
ppm
ppm
V
MΩ
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, Crystal: Q13MC146, C
GX
=25pF, C
DX
=built-in, Rfx=10MΩ, Ta=25°C, VSC="0")
Max.
5
5
+10
-5.5
Typ.
22
21
45
Min.
-10
35
200
Characteristic
Oscillation start time
Built-in drain capacitance
Frequency/voltage deviation
Frequency/IC deviation
Frequency adjustable range
Harmonic oscillation start voltage
Permitted leak resistance
Symbol
t
sta
C
D
∂f/∂V
∂f/∂IC
∂f/∂C
G
V
hho
R
leak
Condition
V
SS
=-2.2 to -5.5V
Package as assembled
Bare chip
V
SS
=-2.2 to -5.5V
C
G
=5 to 25pF
C
G
=5pF (V
SS
)
Between OSC1 and V
DD,
V
S1
OSC1 CR Oscillation
Unit
kHz
ms
%
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, Ta=25°C, VSC="0" or "1")
Max.
Typ.
×130%
3
+5
Typ.
32
Min.
Typ.
×70%
-5
Characteristic
Oscillation frequency
Oscillation start time
Frequency/voltage deviation
Symbol
f
OSC1
t
sta
∂f/∂V
Condition
R
CR1
=1.6MΩ
V
SS
=-2.2 to -5.5V
V
SS
=-2.2 to -5.5V
OSC3 CR Oscillation 1
Unit
kHz
ms
%
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, Ta=25°C, VSC="1")
Max.
Typ.
×130%
3
+5
Typ.
860
Min.
Typ.
×70%
-5
Characteristic
Oscillation frequency
Oscillation start time
Frequency/voltage deviation
Symbol
f
OSC3
t
sta
∂f/∂V
Condition
R
CR2
=40kΩ
V
SS
=-2.2 to -5.5V
V
SS
=-2.2 to -5.5V
OSC3 CR Oscillation 2
Unit
MHz
ms
%
(Unless otherwise specified: VDD=0V, VSS=-5.0V, Ta=25°C, VSC="2")
Max.
Typ.
×130%
3
+5
Typ.
1.7
Min.
Typ.
×70%
-5
Characteristic
Oscillation frequency
Oscillation start time
Frequency/voltage deviation
Symbol
fOSC3
t
sta
∂f/∂V
Condition
RCR2=20kΩ
VSS=-3.5 to -5.5V
VSS=-3.5 to -5.5V
OSC3 Ceramic Oscillation 1
∗1: Made by Murata Mfg. Co.
Unit
ms
%
(Unless otherwise specified: VDD=0V, VSS=-3.0V, Ta=25°C, VSC="1", Ceramic oscillator: CSB 1000J ∗1 (1MHz), CGC=CDC=100pF, Rfc=1MΩ)
Max.
3
+3
Typ.Min.
-3
Characteristic
Oscillation start time
Frequency/voltage deviation
Symbol
t
sta
∂f/∂V
Condition
V
SS
=-2.2 to -5.5V
V
SS
=-2.2 to -5.5V
OSC3 Ceramic Oscillation 2
∗1: Made by Murata Mfg. Co.
Unit
ms
%
(Unless otherwise specified: VDD=0V, VSS=-5.0V, Ta=25°C, VSC="2", Ceramic oscillator: CSA 2.00MG ∗1 (2MHz), CGC=CDC=100pF, Rfc=1MΩ)
Max.
3
+3
Typ.Min.
-3
Characteristic
Oscillation start time
Frequency/voltage deviation
Symbol
t
sta
∂f/∂V
Condition
V
SS
=-3.5 to -5.5V
V
SS
=-3.5 to -5.5V
8
S1C60N07
• OSC3 CR oscillation frequency - resistance characteristic
10k 20k 50k 100k 200k
200k
100k
500k
5M
1M
2M
30k 40k 500k
Resistance for CR oscillation RCR2 [Ω]
CR oscillation frequency f
OSC3
[Hz]
VDD = 0V
VSS = -3.0V
VSC = "1"
Ta = 25°C
Typ. value
Reference
9
S1C60N07
10k 20k 50k 100k 200k
200k
100k
500k
5M
1M
2M
30k 40k 500k
Resistance for CR oscillation R
CR2
[Ω]
CR oscillation frequency f
OSC3
[Hz]
V
DD
= 0V
V
SS
= -5.0V
VSC = "2"
Ta = 25°C
Typ. value
Reference
10
S1C60N07
■PAD LAYOUT
●Diagram of Pad Layout
●Pad Coordinates
No.
1
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
31
Pad name
SEG39
SEG38
SEG37
SEG36
SEG35
SEG34
SEG33
SEG32
SEG31
SEG30
SEG29
SEG28
SEG27
SEG26
SEG25
SEG24
SEG23
SEG22
SEG21
SEG20
SEG19
SEG18
SEG17
SEG16
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
SEG9
X
1,402
1,272
1,142
1,012
882
752
622
492
362
232
102
-28
-158
-288
-418
-548
-678
-808
-938
-1,068
-1,198
-1,328
-1,458
-1,588
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
Y
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,337
1,207
1,077
947
817
687
557
No.
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
Pad name
SEG8
SEG7
SEG6
SEG5
SEG4
SEG3
SEG2
SEG1
SEG0
K03
K02
K01
K00
P03
P02
P01
P00
R43
R42
R41
R40
R33
R32
#RESET
#TEST
VSS
OSC4
OSC3
VS1
OSC2
OSC1
X
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,283
-1,153
-927
-797
-658
-528
-383
-253
-39
91
221
351
481
611
Y
427
297
167
37
-93
-223
-353
-483
-613
-773
-903
-1,033
-1,163
-1,307
-1,437
-1,568
-1,698
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
-1,768
No.
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
–
–
Pad name
VDD
VREF
VL1
VL2
VL3
VL4
VL5
CF
CE
CD
CC
CB
CA
COM0
COM1
COM2
COM3
COM4
COM5
COM6
COM7
COM8
COM9
COM10
COM11
COM12
COM13
COM14
COM15
–
–
X
741
871
1,034
1,164
1,294
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
1,768
–
–
Y
-1,768
-1,768
-1,768
-1,768
-1,768
-1,476
-1,346
-1,216
-1,086
-956
-826
-696
-566
-436
-306
-176
-46
84
214
344
474
604
734
864
994
1,124
1,254
1,384
1,545
–
–
X
(0, 0)
15101520
25
30
35
40
45
50 55 60 65
70
75
80
85
90
91
Y
3.87 mm
3.87 mm
Die No.
(Unit: µm)
11
S1C60N07
■BASIC EXTERNAL CONNECTION DIAGRAM
∗1 When the load on the liquid crystal system is large, increase the capacitance of the voltage booster capacitors (C1–C3) and the
capacitors between VDD and liquid crystal system power (C4–C7).
Note: The above table is simply an example, and is not guaranteed to work.
+
R32
R33
R40
R41
R42
R43
V
REF
V
SS
#RESET
#TEST
V
DD
P00–P03
K00–K03
OUTPUT
DATA
I/O
DATA
INPUT
DATA
CF
AE
AD
CC
CB
CA
V
L5
V
L4
V
L3
V
L2
V
L1
V
S1
OSC4
OCS3
OSC2
OSC1
Rfx
X'tal
Ceramic
Rfc
C
GX
C
GC
C
DC
C
3
C
2
C
1
C
7
C
6
C
5
C
4
C
8
Buzzer
FOUT
POWER
3–5 V
N.C.
[The potential of the substrate
(back of the chip) is V
DD
.]
LCD PANEL 40 × 16
S1C60N07
SEG0
|
SEG39
COM0
|
COM15
R
CR1
Mask option
R
CR2
X'tal
Rfx
C
GX
(R
CR1
)
Ceramic
Rfc
C
GC
C
DC
(R
CR2
)
Crystal oscillator
Feedback resistor
Trimmer capacitor
Resistor for OSC1
CR oscillation
Ceramic oscillator
Feedback resistor
Gate capacitor
Drain capacitor
Resistor for OSC3
CR oscillation
32.768 kHz, C
I
(Max)=35 kΩ
10 MΩ
5–25 pF
1.6 MΩ (32 kHz Typ.)
500 kHz–2 MHz
1 MΩ
100 pF
100 pF
20 kΩ–100 kΩ (VSC=2)
40 kΩ–100 kΩ (VSC=1)
C
1
C
2
C
3
C
4
C
5
C
6
C
7
C
8
Booster capacitor (1)
Booster capacitor (2)
Booster capacitor (3)
Capacitor between V
DD
and V
L1
Capacitor between V
DD
and V
L2
Capacitor between V
DD
and V
L4
Capacitor between V
DD
and V
L5
Capacitor between V
DD
and V
S1
0.1µF ∗1
0.1µF ∗1
0.1µF ∗1
0.1µF ∗1
0.1µF ∗1
0.1µF ∗1
0.1µF ∗1
0.1µF
S1C60N07
NOTICE:
No part of this material may be reproduced or duplicated in any form or by any means without the written permission of Seiko Epson. Seiko
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
this material is applicable to products requiring high level reliability, such as, medical products. Moreover, no license to any intellectual
property rights is granted by implication or otherwise, and there is no representation or warranty that anything made in accordance with this
material will be free from any patent or copyright infringement of a third party. This material or portions thereof may contain technology or the
subject relating to strategic products under the control of the Foreign Exchange and Foreign Trade Law of Japan and may require an export
license from the Ministry of International Trade and Industry or other approval from another government agency.
© Seiko Epson Corporation 2001 All right reserved.
SEIKO EPSON CORPORATION
ELECTRONIC DEVICES MARKETING DIVISION
IC Marketing & Engineering Group
ED International Marketing Department 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 Asia
421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN
Phone : 042-587-5814 FAX : 042-587-5110
http://www.epson.co.jp/device/
■ EPSON Electronic Devices Website
First issue February, 1998 M
Printed July, 2001 in Japan L
■PACKAGE
14
±0.1
16
±0.4
5175
14
±0.1
16
±0.4
26
50
INDEX
0.18
251
100
76
1.4
±0.1
0.1
1.7max
1
0.5
±0.2
0°
10°
0.125
0.5
+0.1
–0.05
+0.05
–0.025
(Unit: mm)
Plastic QFP15-100pin
