1
PF993-02
Micro MINI S1C60N09
4-bit Single Chip Microcomputer
S1C6200B Core CPU
Low Voltage and Low Power
Built-in LCD Driver
Low Cost Performance
DESCRIPTION
The S1C60N09 Series single-chip microcomputer features an S1C6200B CMOS 4-bit CPU as the core. It
contains a 1,536 (words) × 12 (bits) ROM, 144 (words) × 4 (bits) RAM, LCD driver, 4-bit input port (K00–K03), 4-
bit output port (R00–R03), 8-bit I/O port (P00–P03, P10–P13) and timers.
The S1C60N09 Series is configured as follows, depending on the supply voltage.
S1C60N09: 3.0 V (2.6 to 3.6 V)
S1C60L09: 1.5 V (1.2 to 1.8 V)
FEATURES
Core CPU...................................................S1C6200B
Built-in oscillation circuit.............................Crystal 32.768 kHz (Typ.) or CR oscillation circuit 65 kHz (Typ.)
Instruction set.............................................100 instructions
ROM capacity ............................................1,536 words × 12 bits
RAM capacity.............................................144 words × 4 bits
Input port....................................................4 bits (pull-down resistors are available by mask option)
Output port .................................................4 bits (clock and buzzer outputs are selectable by mask option)
I/O port .......................................................8 bits
LCD driver..................................................38 segments × 4, 3 or 2 commons
(1/4, 1/3 or 1/2 duty are selectable by mask option)
Time base counter .....................................2 systems (clock timer and stopwatch timer) built-in
Interrupt......................................................External: Input port interrupt 1 system
Internal: Timer interrupt 2 systems
Supply voltage ...........................................1.5 V (1.2 to 1.8 V) S1C60L09
3.0 V (2.6 to 3.6 V) S1C60N09
Current consumption (Typ.) .......................During HALT: 1.0 µA (32 kHz crystal oscillation)
During execution: 3.0 µA (32 kHz crystal oscillation)
Supply form................................................Die form only
Low Voltage
Operation
Products
2
S1C60N09
BLOCK DIAGRAM
COM03
SEG037
VDD
VL1VL3
CA, CB
VS1
VSS
K00K03
TEST
RESET
OSC1
OSC2
R00, R03 (BZ, BZ)1
R01
R02 (FOUT)1
1: Terminal specifications can be selected by mask option.
P00P03
P10P13
Core CPU S1C6200B
ROM
1,536 words × 12 bits System Reset
Control
Interrupt
Generator
RAM
144 words × 4 bits
Stopwatch
Timer
LCD Driver
38 SEG × 4 COM
Power
Controller
OSC
I/O Port
Clock
Timer
Input Port
Output Port
PAD LAYOUT
Pad Layout Diagram
X
(0, 0)
Y
2.87mm
2.90mm
151015
35
Die No.
40 45 50
55
60
65
70
20
25
30
Chip thickness: 400µm
Pad opening: 95µm
Pad Coordinates (Unit: µm)
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
32
33
34
35
Pad name
SEG37
K03
K02
K01
K00
P13
P12
P11
P10
P03
P02
P01
P00
R02
R01
R00
R03
VSS
RESET
VS1
OSC2
OSC1
VDD
VL3
VL2
VL1
CB
CA
COM3
COM2
COM1
COM0
SEG0
SEG1
SEG2
X
1,020
861
731
601
471
297
167
37
-93
-246
-376
-507
-637
-835
-969
-1,102
-1,236
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,284
-1,237
-1,107
Y
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
1,268
965
835
705
575
445
286
156
26
-104
-234
-364
-494
-624
-754
-884
-1,014
-1,268
-1,268
No.
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
63
64
65
66
67
68
69
70
Pad name
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
SEG19
TEST
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
X
-977
-795
-665
-535
-405
-275
-145
-15
115
245
375
505
635
765
895
1,025
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
1,284
Y
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,268
-1,196
-1,037
-879
-749
-619
-489
-359
-229
-99
32
162
292
422
552
682
812
942
1,072
1,202
3
S1C60N09
PAD DESCRIPTION
Pad name
VDD
VSS
VS1
VL13
CA, CB
OSC1
OSC2
K00–03
P00–03
P10–13
R00
R03
R01
R02
SEG0–37
COM0–3
RESET
TEST
Function
Power supply terminal (+)
Power supply terminal (-)
Constant voltage output terminal
Power source for LCD
Booster capacitor connecting terminal
Crystal or CR oscillation input terminal
Crystal or CR oscillation output terminal
Input port terminal
I/O port terminal
I/O port terminal
Output port terminal (BZ output is selectable )
Output port terminal (BZ output is selectable )
Output port terminal
Output port terminal (FOUT output is selectable )
LCD segment output (DC output is selectable )
LCD common output terminal (1/4, 1/3 or 1/2 duty are selectable )
Initial reset input terminal
Test input terminal
Pad No.
23
18
20
26–24
28, 27
22
21
5–2
13–10
9–6
16
17
15
14
33–52, 54–70, 1
32–29
19
53
I/O
(I)
(I)
I
O
I
I/O
I/O
O
O
O
O
O
O
I
I
Can be selected by mask option
OPTION LIST
1. DEVICE TYPE 1. E0C6009 (S1C60N09) LCD 3 V
2. E0C6009 (S1C60N09) LCD 4.5 V
3. E0C60L09 (S1C60L09) LCD 3 V
4. E0C60L09 (S1C60L09) LCD 4.5 V
2. OSC1 SYSTEM CLOCK 1. Crystal
2. CR
3. MULTIPLE KEY ENTRY RESET
• KEY COMBINATION ................... 1. Not Use
2. Use K00, K01
3. Use K00, K01, K02
4. Use K00, K01, K02, K03
4. INTERRUPT NOISE REJECTOR K00–K03
1. Use
2. Not Use
5. INPUT PORT PULL DOWN 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
6. R00 SPECIFICATION
• R00 OUTPUT SPECIFICATION.. 1. Complementary 2. Pch-OpenDrain
• R00 OUTPUT TYPE .................... 1. DC Output 2. Buzzer Output
7. R01 SPECIFICATION
• R01 OUTPUT SPECIFICATION.. 1. Complementary 2. Pch-OpenDrain
4
S1C60N09
8. R02 SPECIFICATION
R02 OUTPUT SPECIFICATION.. 1. Complementary 2. Pch-OpenDrain
R02 OUTPUT TYPE .................... 1. DC Output
2. FOSC1
3. FOSC1/2
4. FOSC1/4
5. FOSC1/8
6. FOSC1/16
7. FOSC1/32
8. FOSC1/64
9. FOSC1/128
9. R03 SPECIFICATION
R03 OUTPUT SPECIFICATION.. 1. Complementary 2. Pch-OpenDrain
R03 OUTPUT TYPE .................... 1. DC Output
2. Buzzer Output (R00 control)
3. Buzzer Output (R03 control)
10. I/O PORT SPECIFICATION
P00 .............................................. 1. Complementary 2. Pch-OpenDrain
P01 .............................................. 1. Complementary 2. Pch-OpenDrain
P02 .............................................. 1. Complementary 2. Pch-OpenDrain
P03 .............................................. 1. Complementary 2. Pch-OpenDrain
P10 .............................................. 1. Complementary 2. Pch-OpenDrain
P11 .............................................. 1. Complementary 2. Pch-OpenDrain
P12 .............................................. 1. Complementary 2. Pch-OpenDrain
P13 .............................................. 1. Complementary 2. Pch-OpenDrain
11. I/O PORT PULL DOWN RESISTOR
P00 .............................................. 1. With Resistor 2. Gate Direct
P01 .............................................. 1. With Resistor 2. Gate Direct
P02 .............................................. 1. With Resistor 2. Gate Direct
P03 .............................................. 1. With Resistor 2. Gate Direct
P10 .............................................. 1. With Resistor 2. Gate Direct
P11 .............................................. 1. With Resistor 2. Gate Direct
P12 .............................................. 1. With Resistor 2. Gate Direct
P13 .............................................. 1. With Resistor 2. Gate Direct
12. I/O PORT FUNCTION
P00 .............................................. 1. I/O Port 2. Output Port
P01 .............................................. 1. I/O Port 2. Output Port
P02 .............................................. 1. I/O Port 2. Output Port
P03 .............................................. 1. I/O Port 2. Output Port
P10 .............................................. 1. I/O Port 2. Output Port
P11 .............................................. 1. I/O Port 2. Output Port
P12 .............................................. 1. I/O Port 2. Output Port
P13 .............................................. 1. I/O Port 2. Output Port
13. LCD COMMON DUTY AND BIAS 1. 1/4 Duty, 1/3 Bias (when 4.5 V LCD is selected in Option 1)
2. 1/3 Duty, 1/3 Bias
3. 1/2 Duty, 1/3 Bias
1. 1/4 Duty, 1/2 Bias (when 3 V LCD is selected in Option 1)
2. 1/3 Duty, 1/2 Bias
3. 1/2 Duty, 1/2 Bias
14. SEGMENT MEMORY ADDRESS 1. 40H6FH 2. C0HEFH
5
S1C60N09
ELECTRICAL CHARACTERISTICS
Absolute Maximum Ratings
S1C60N09
Rating
Supply voltage
Input voltage (1)
Input voltage (2)
Operating temperature
Storage temperature
Soldering temperature / time
(V
DD
=0V)
Symbol
V
SS
V
I
V
IOSC
Topr
Tstg
Tsol
Value
-5.5 to 0.5
V
SS
- 0.3 to 0.5
V
S1
- 0.3 to 0.5
-20 to 70
-65 to 150
260°C, 10sec (lead section)
Unit
V
V
V
°C
°C
S1C60L09
Rating
Supply voltage
Input voltage (1)
Input voltage (2)
Operating temperature
Storage temperature
Soldering temperature / time
(V
DD
=0V)
Symbol
V
SS
V
I
V
IOSC
Topr
Tstg
Tsol
Value
-2.0 to 0.5
V
SS
- 0.3 to 0.5
V
S1
- 0.3 to 0.5
-20 to 70
-65 to 150
260°C, 10sec (lead section)
Unit
V
V
V
°C
°C
Recommended Operating Conditions
S1C60N09
Condition
Supply voltage
Oscillation frequency
Booster capacitor
Capacitor between VDD and VS1
1:
(Ta=-20 to 70°C)
Symbol
VSS
fOSC
C1
C3 or C41
Unit
V
kHz
kHz
µF
µF
Max.
-2.6
80
Typ.
-3.0
32.768
65
Min.
-3.6
0.1
0.1
Depends on the LCD specification.
Remark
VDD=0V
Crystal oscillation
CR oscillation, RCR=475k
S1C60L09
Condition
Supply voltage
Oscillation frequency
Booster capacitor
Capacitor between VDD and VS1
1:
(Ta=-20 to 70°C)
Symbol
VSS
fOSC
C1
C3 or C41
Unit
V
kHz
kHz
µF
µF
Max.
-1.2
80
Typ.
-1.5
32.768
65
Min.
-1.8
0.1
0.1
Depends on the LCD specification.
Remark
VDD=0V
Crystal oscillation
CR oscillation, RCR=475k
DC Characteristics
S1C60N09
Characteristic
High level input voltage (1)
High level input voltage (2)
Low level input voltage (1)
Low level input voltage (2)
High level input current (1)
High level input current (2)
High level input current (3)
Low level input current
High level output current (1)
High level output current (2)
Low level output current (1)
Low level output current (2)
Common output current
Segment output current
(during LCD output)
Segment output current
(during DC output)
(Unless otherwise specified: VDD=0V, VSS=-3.0V, fosc=32.768kHz, Ta=25°C, VS1/VL1VL3 are internal voltage, C1C4=0.1µF)
Symbol
VIH1
VIH2
VIL1
VIL2
IIH1
IIH2
IIH3
IIL
IOH1
IOH2
IOL1
IOL2
IOH3
IOL3
IOH4
IOL4
IOH5
IOL5
Unit
V
V
V
V
µA
µA
µA
µA
mA
mA
mA
mA
µA
µA
µA
µA
µA
µA
Max.
0
0
0.8·VSS
0.9·V
SS
0.5
40
200
0
-1.8
-0.9
-3
-3
-200
Typ.Min.
0.2·VSS
0.1·V
SS
VSS
VSS
0
4
50
-0.5
4.0
3.0
3
3
200
Condition
K0003, P0003, P1013
RESET, TEST
K0003, P0003, P1013
RESET, TEST
VIH1=0V, No pull-down K0003, P0003, P1013
VIH2=0V, Pull-down K0003
VIH3=0V, Pull-down P0003, P1013
RESET, TEST
VIL=VSS K0003, P0003, P1013
RESET, TEST
VOH1=0.1·VSS R00, R03
VOH2=0.1·VSS R01, R02,
P0003, P1013
VOL1=0.9·VSS R00, R03
VOL2=0.9·VSS R01, R02,
P0003, P1013
VOH3=-0.05V COM03
VOL3=VL3+0.05V
VOH4=-0.05V SEG037
VOL4=VL3+0.05V
VOH5=0.1·VSS SEG037
VOL5=0.9·VSS
6
S1C60N09
S1C60L09
Characteristic
High level input voltage (1)
High level input voltage (2)
Low level input voltage (1)
Low level input voltage (2)
High level input current (1)
High level input current (2)
High level input current (3)
Low level input current
High level output current (1)
High level output current (2)
Low level output current (1)
Low level output current (2)
Common output current
Segment output current
(during LCD output)
Segment output current
(during DC output)
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, fosc=32.768kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF)
Symbol
V
IH1
V
IH2
V
IL1
V
IL2
I
IH1
I
IH2
I
IH3
I
IL
I
OH1
I
OH2
I
OL1
I
OL2
I
OH3
I
OL3
I
OH4
I
OL4
I
OH5
I
OL5
Unit
V
V
V
V
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
Max.
0
0
0.8·V
SS
0.9·VSS
0.5
16
100
0
-300
-150
-3
-3
-100
Typ.Min.
0.2·V
SS
0.1·VSS
V
SS
V
SS
0
2
25
-0.5
1400
700
3
3
100
Condition
K0003, P0003, P1013
RESET, TEST
K0003, P0003, P1013
RESET, TEST
V
IH1
=0V, No pull-down K0003, P0003, P1013
V
IH2
=0V, Pull-down K0003
V
IH3
=0V, Pull-down P0003, P1013
RESET, TEST
V
IL
=V
SS
K0003, P0003, P1013
RESET, TEST
V
OH1
=0.1·V
SS
R00, R03
V
OH2
=0.1·V
SS
R01, R02,
P0003, P1013
V
OL1
=0.9·V
SS
R00, R03
V
OL2
=0.9·V
SS
R01, R02,
P0003, P1013
V
OH3
=-0.05V COM03
V
OL3
=V
L3
+0.05V
V
OH4
=-0.05V SEG037
V
OL4
=V
L3
+0.05V
V
OH5
=0.1·V
SS
SEG037
V
OL5
=0.9·V
SS
Analog Circuit Characteristics and Current Consumption
S1C60N09 (Crystal Oscillation)
• 4.5 V LCD panel, 1/4, 1/3, 1/2 duty, 1/3 bias (VL2 is shorted to VSS inside the IC)
<Normal mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=32.768kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
1/2·V
L2
×0.9
3/2·V
L2
×0.9
2.5
5.0
Typ.
V
SS
1.0
2.5
Min.
1/2·V
L2
- 0.1
3/2·V
L2
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
<Heavy load protection mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=32.768kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
1/2·V
L2
×0.85
3/2·V
L2
×0.85
5.5
10.0
Typ.
V
SS
2.0
5.5
Min.
1/2·V
L2
- 0.1
3/2·V
L2
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
7
S1C60N09
• 3 V LCD panel, 1/4, 1/3, 1/2 duty, 1/2 bias
(V
L3
is shorted to V
SS
inside the IC and V
L1
is shorted to V
L2
outside the IC)
<Normal mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=32.768kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
3
=0.1µF)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
1/2·V
L3
×0.9
1/2·V
L3
×0.9
2.5
5.0
Typ.
V
SS
1.0
2.5
Min.
1/2·V
L3
- 0.1
1/2·V
L3
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
<Heavy load protection mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=32.768kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
3
=0.1µF)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
1/2·V
L3
×0.85
1/2·V
L3
×0.85
5.5
10.0
Typ.
V
SS
2.0
5.5
Min.
1/2·V
L3
- 0.1
1/2·V
L3
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
S1C60L09 (Crystal Oscillation)
• 4.5 V LCD panel, 1/4, 1/3, 1/2 duty, 1/3 bias (VL1 is shorted to VSS inside the IC)
<Normal mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=32.768kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
2·V
L1
×0.9
3·V
L1
×0.9
2.5
5.0
Typ.
V
SS
1.0
2.5
Min.
2·V
L1
- 0.1
3·V
L1
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
<Heavy load protection mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=32.768kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
2·V
L1
×0.85
3·V
L1
×0.85
5.5
10.0
Typ.
V
SS
2.0
5.5
Min.
2·V
L1
- 0.1
3·V
L1
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
8
S1C60N09
• 3 V LCD panel, 1/4, 1/3, 1/2 duty, 1/2 bias
(V
L1
is shorted to V
SS
inside the IC and V
L1
is shorted to V
L2
outside the IC)
<Normal mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=32.768kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
3
=0.1µF)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
2·V
L1
×0.9
2.5
5.0
Typ.
V
SS
V
SS
1.0
2.5
Min.
2·V
L1
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
<Heavy load protection mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=32.768kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
3
=0.1µF)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
2·V
L1
×0.85
5.5
10.0
Typ.
V
SS
V
SS
2.0
5.5
Min.
2·V
L1
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
S1C60N09 (CR Oscillation)
• 4.5 V LCD panel, 1/4, 1/3, 1/2 duty, 1/3 bias (VL2 is shorted to VSS inside the IC)
<Normal mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=65kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF, R
CR
=475k)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
1/2·V
L2
×0.9
3/2·V
L2
×0.9
15.0
20.0
Typ.
V
SS
8.0
15.0
Min.
1/2·V
L2
- 0.1
3/2·V
L2
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
<Heavy load protection mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=65kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF, R
CR
=475k)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
1/2·V
L2
×0.85
3/2·V
L2
×0.85
30.0
40.0
Typ.
V
SS
16.0
30.0
Min.
1/2·V
L2
- 0.1
3/2·V
L2
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
9
S1C60N09
• 3 V LCD panel, 1/4, 1/3, 1/2 duty, 1/2 bias
(V
L3
is shorted to V
SS
inside the IC and V
L1
is shorted to V
L2
outside the IC)
<Normal mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=65kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
3
=0.1µF, R
CR
=475k)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
1/2·V
L3
×0.9
1/2·V
L3
×0.9
15.0
20.0
Typ.
V
SS
8.0
15.0
Min.
1/2·V
L3
- 0.1
1/2·V
L3
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
<Heavy load protection mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=65kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
3
=0.1µF, R
CR
=475k)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
1/2·V
L3
×0.85
1/2·V
L3
×0.85
30.0
40.0
Typ.
V
SS
16.0
30.0
Min.
1/2·V
L3
- 0.1
1/2·V
L3
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
S1C60L09 (CR Oscillation)
• 4.5 V LCD panel, 1/4, 1/3, 1/2 duty, 1/3 bias (VL1 is shorted to VSS inside the IC)
<Normal mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=65kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF, R
CR
=475k)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
2·V
L1
×0.9
3·V
L1
×0.9
15.0
20.0
Typ.
V
SS
8.0
15.0
Min.
2·V
L1
- 0.1
3·V
L1
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
<Heavy load protection mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=65kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
4
=0.1µF, R
CR
=475k)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
2·V
L1
×0.85
3·V
L1
×0.85
30.0
40.0
Typ.
V
SS
16.0
30.0
Min.
2·V
L1
- 0.1
3·V
L1
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
10
S1C60N09
• 3 V LCD panel, 1/4, 1/3, 1/2 duty, 1/2 bias
(V
L1
is shorted to V
SS
inside the IC and V
L1
is shorted to V
L2
outside the IC)
<Normal mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=65kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
3
=0.1µF, R
CR
=475k)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
2·V
L1
×0.9
15.0
20.0
Typ.
V
SS
V
SS
8.0
15.0
Min.
2·V
L1
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
<Heavy load protection mode>
Characteristic
LCD drive voltage
Current consumption
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=65kHz, Ta=25°C, V
S1
/V
L1
V
L3
are internal voltage, C
1
C
3
=0.1µF, R
CR
=475k)
Symbol
V
L1
V
L2
V
L3
I
OP
Unit
V
V
V
µA
µA
Max.
2·V
L1
×0.85
30.0
40.0
Typ.
V
SS
V
SS
16.0
30.0
Min.
2·V
L1
- 0.1
Condition
Connect 1 M load resistor between V
DD
and V
L1
(without panel load)
Connect 1 M load resistor between V
DD
and V
L2
(without panel load)
Connect 1 M load resistor between V
DD
and V
L3
(without panel load)
During HALT Without
During execution panel load
Oscillation Characteristics
Oscillation characteristics will vary according to different conditions (elements used, boad pattern). Use the following char-
acteristics are as reference values.
S1C60N09 Crystal Oscillation
Characteristic
Oscillation start voltage
Oscillation stop voltage
Built-in capacitance (drain)
Frequency/voltage deviation
Frequency/IC deviation
Frequency adjustment range
Harmonic oscillation start voltage
Permitted leak resistance
Symbol
Vsta
Vstp
C
D
f/V
f/IC
f/C
G
V
hho
R
leak
Unit
V
V
pF
ppm
ppm
ppm
V
M
Max.
5
10
-3.6
Typ.
20
45
Min.
-2.6
-2.6
-10
35
200
Condition
t
sta5sec (V
SS
)
t
stp10sec (V
SS
)
Including the parasitic capacitance inside the chip
V
SS
=-2.6 to -3.6V
C
G
=5 to 25pF
(V
SS
)
Between OSC1 and V
DD
, V
SS
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=32.768kHz, Crystal: Q13MC146, C
G
=25pF, C
D
=built-in, Ta=25°C)
S1C60L09 Crystal Oscillation
Characteristic
Oscillation start voltage
Oscillation stop voltage
Built-in capacitance (drain)
Frequency/voltage deviation
Frequency/IC deviation
Frequency adjustment range
Harmonic oscillation start voltage
Permitted leak resistance
Symbol
Vsta
Vstp
C
D
f/V
f/IC
f/C
G
V
hho
R
leak
Unit
V
V
pF
ppm
ppm
ppm
V
M
Max.
5
10
-1.8
Typ.
20
45
Min.
-1.2
-1.2
-10
35
200
Condition
t
sta5sec (V
SS
)
t
stp10sec (V
SS
)
Including the parasitic capacitance inside the chip
V
SS
=-1.2 to -1.8V
C
G
=5 to 25pF
(V
SS
)
Between OSC1 and V
DD
, V
SS
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=32.768kHz, Crystal: Q13MC146, C
G
=25pF, C
D
=built-in, Ta=25°C)
S1C60N09 CR Oscillation
Characteristic
Oscillation frequency dispersion
Oscillation start time
Symbol
fOSC
tsta
Unit
kHz
mS
Max.
84.5
3
Typ.
65
Min.
45.5
Condition
VSS=-2.6 to -3.6V
(Unless otherwise specified: VDD=0V, VSS=-3.0V, RCR=475k, Ta=25°C)
S1C60L09 CR Oscillation
Characteristic
Oscillation frequency dispersion
Oscillation start time
Symbol
fOSC
tsta
Unit
kHz
mS
Max.
84.5
3
Typ.
65
Min.
45.5
Condition
VSS=-1.2 to -1.8V
(Unless otherwise specified: VDD=0V, VSS=-1.5V, RCR=475k, Ta=25°C)
11
S1C60N09
BASIC EXTERNAL CONNECTION DIAGRAM
Piezo Buzzer Single Terminal Driving
Note: The above table is simply an example, and is not guaranteed to work.
K00
K01
K02
K03
P00
P01
P02
P03
P10
P11
P12
P13
R02 (FOUT)
R03 (BZ)
R01 SEG0
SEG37
COM0
COM3
R00 (BZ)
CB
CA
V
L1
V
L2
V
L3
V
DD
OSC1
OSC2
V
S1
RESET
TEST
V
SS
+
Lamp Piezo
C
1
C
4
C
P
C
GX
X'tal
Capacitors (C2 and C3) are Connected.
Connection depends on power supply
and LCD panel specification.
S1C60N09
S1C60L09
LCD panel
I/O
O
I
X'tal
C
GX
C
1
C
2
C
3
C
4
C
P
Crystal oscillator
Trimmer capacitor
Capacitor
Capacitor
Capacitor
Capacitor
Capacitor
32.768 kHz, C
I
= 35 k
525 pF
0.1 µF
0.1 µF
0.1 µF
0.1 µF
3.3 µF
R00 (BZ)
R03 (BZ)
R
A2
R
A1
Piezo
S1C60N09/60L09
R
A1
R
A2
Protection resistor
Protection resistor 100
100
Piezo Buzzer Direct Driving
When driving the buzzer, set the IC into the heavy
load protection mode since the supply voltage
changes according to the buzzer frequency.
S1C60N09
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, 1999 M
Printed July, 2001 in Japan L