1
PF908-03
Micro MINI S1C60N01
4-bit Single Chip Microcomputer
● S1C6200B Core CPU
● Low Voltage and Low Power
● Built-in LCD Driver
● Low Cost Performance
■DESCRIPTION
Micro MINI "S1C60N01" is a single chip microcomputer for battery-driven products with 7-segment LCD display.
It achieves low cost performance, and is suitable for a product added some feature instead of standard IC.
It consists that Seiko Epson's original core CPU S1C6200B, LCD driver (20 segments × 4 commons), 80 words
RAM, 1K words ROM, clock timer and so on.
■CONFIGURATION
The S1C60N01 Series are configured as follows, depending on the supply voltage.
Model Supply Voltage Oscillation Circuits
3.0 V
1.5 V
S1C60N01
S1C60L01 Crystal or CR
Crystal or CR
Supply Voltage Range
1.8–3.6 V
1.2–2.0 V
■FEATURES
● Core CPU........................................................S1C6200B
● Built-in oscillation circuit..................................Crystal or CR oscillation circuit, 32.768 kHz (typ.)
● Instruction set..................................................100 instructions
● ROM capacity .................................................1,024 words × 12 bits
● RAM capacity..................................................80 words × 4 bits
● Input port.........................................................4 bits (Supplementary pull-down resistors may be used)
● Output port ......................................................2 bits (Piezo buzzer and programmable frequency output
can be driven directry by mask option)
● Input/output port..............................................4 bits
● LCD driver.......................................................20 segments × 4, 3 or 2 common duty
● Timer ...............................................................1 system: clock timer
● Interrupts:
External interrupt ..........................................Input port interrupt 1 system
Internal interrupt ...........................................Timer interrupt 1 system
● Supply voltage ................................................1.5 V (1.2–2.0 V) S1C60L01
3.0 V (1.8–3.6 V) S1C60N01
● Current consumption (typ.) .............................1.0 µA (Crystal oscillation CLK = 32.768 kHz, when halted)
2.5 µA (Crystal oscillation CLK = 32.768 kHz, when executing)
● Supply form.....................................................QFP12-48pin (plastic) or chip
Low Voltage
Operation
Products
2
S1C60N01
■BLOCK DIAGRAM
■PIN CONFIGURATION
1
2
3
4
5
6
7
8
9
10
11
12
OSC2
VS1
N.C.
P00
P01
P02
P03
K00
K01
K02
K03
N.C.
No. Pin name 13
14
15
16
17
18
19
20
21
22
23
24
R01
R00
SEG19
SEG18
SEG17
SEG16
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
No. Pin name 25
26
27
28
29
30
31
32
33
34
35
36
TEST
RESET
SEG9
SEG8
SEG7
SEG6
SEG5
SEG4
SEG3
SEG2
SEG1
SEG0
N.C. = No Connection
No. Pin name 37
38
39
40
41
42
43
44
45
46
47
48
COM0
COM1
COM2
COM3
VL3
VL2
VL1
CA
CB
VSS
VDD
OSC1
No. Pin name
2536
13
24
INDEX
121
48
37
S1C60N01
Power
Controller
LCD
Driver
RAM
80 × 4 Interrupt
Generator
I Port
Test Port
I/O Port
O Port
Timer
Core CPU S1C6200B
ROM
1,024 × 12 OSC System
Reset
Control
RESET
OSC1
COM0
|
COM3
SEG0
|
SEG19
V
DD
V
L1
|
V
L3
CA
CB
V
S1
V
SS
K00~K03
TEST
P00~P03
R00, R01
OSC2
FOUT
&
BUZZER
(FOUT/BUZZER)
(BUZZER)
QFP12-48pin
3
S1C60N01
■PIN DESCRIPTION
Pin name
VDD
VSS
VS1
VL1
VL2
VL3
CA, CB
OSC1
OSC2
K00–K03
P00–P03
R00, R01
SEG0–19
COM0–3
RESET
TEST
Function
Power source (+) terminal
Power source (-) terminal
Oscillation and internal logic system regulated
voltage output terminal
LCD system reducer output terminal (VL2 × 1/2)
/ LCD system reducer output terminal (VL3 × 1/3)
LCD system booster output terminal (VL1 × 2)
/ LCD system reducer output terminal (VL3 × 2/3)
LCD system booster output terminal (VL1 × 3)
/ LCD system booster output terminal (VL2 × 3/2)
Booster capacitor connecting terminal
Crystal or CR oscillation input terminal
Crystal or CR oscillation output terminal
Input terminal
I/O terminal
Output terminal
LCD segment output terminal
(convertible to DC output terminal by mask option)
LCD common output terminal
Initial setting input terminal
Test input terminal
Pin No.
47
46
2
43
42
41
44, 45
48
1
8–11
4–7
14, 13
36–27
24–15
37–40
26
25
In/Out
(I)
(I)
O
O
O
O
–
I
O
I
I/O
O
O
O
I
I
■OPTION LIST
1. DEVICE TYPE AND LCD VOLTAGE
■■ 1. E0C6001 (Normal Type <S1C60N01>) LCD 3 V
■■ 2. E0C6001 (Normal Type <S1C60N01>) LCD 4.5 V
■■ 3. E0C60L01 (Low Power Type <S1C60L01>) LCD 3 V
■■ 4. E0C60L01 (Low Power Type <S1C60L01>) LCD 4.5 V
2. MULTIPLE KEY ENTRY RESET
• COMBINATION................■■ 1. Not Use
■■ 2. Use K00, K01
■■ 3. Use K00, K01, K02
■■ 4. Use K00, K01, K02, K03
3. INTERRUPT NOISE REJECTOR
• K00–K03 .......................... ■■ 1. Use ■■ 2. Not Use
4. 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
5. R00 SPECIFICATION
• OUTPUT TYPE ................ ■■ 1. DC Output
■■ 2. Buzzer Inverted Output (R00 Control)
■■ 3. Buzzer Inverted Output (R01 Control)
■■ 4. FOUT Output
• FOUT OUTPUT SPACIFICATION
F1 ............................ ■■ 1. 256[Hz]
■■ 2. 512[Hz]
■■ 3. 1,024[Hz]
■■ 4. 2,048[Hz]
■■ 5. 4,096[Hz]
F2 ............................ ■■ 1. 512[Hz]
■■ 2. 1,024[Hz]
■■ 3. 2,048[Hz]
■■ 4. 4,096[Hz]
■■ 5. 8,192[Hz]
4
S1C60N01
F3 ................................. ■■ 1. 1,024[Hz]
■■ 2. 2,048[Hz]
■■ 3. 4,096[Hz]
■■ 4. 8,192[Hz]
■■ 5. 16,384[Hz]
F4............................ ■■ 1. 2,048[Hz]
■■ 2. 4,096[Hz]
■■ 3. 8,192[Hz]
■■ 4. 16,384[Hz]
■■ 5. 32,768[Hz]
• OUTPUT SPECIFICATION... ■■ 1. Complementary ■■ 2. Pch-Open Drain
6. R01 SPECIFICATION
• OUTPUT TYPE ..................... ■■ 1. DC Output ■■ 2. Buzzer Output
• OUTPUT SPECIFICATION... ■■ 1. Complementary ■■ 2. Pch-Open Drain
7. I/O PORT SPECIFICATION
• P00 ........................................ ■■ 1. Complementary ■■ 2. Pch-Open Drain
• P01 ........................................ ■■ 1. Complementary ■■ 2. Pch-Open Drain
• P02 ........................................ ■■ 1. Complementary ■■ 2. Pch-Open Drain
• P03 ........................................ ■■ 1. Complementary ■■ 2. Pch-Open Drain
8. LCD COMMON DUTY AND BIAS
■■ 1. 1/4 Duty 1/3 Bias
■■ 2. 1/3 Duty 1/3 Bias
■■ 3. 1/2 Duty 1/3 Bias
■■ 4. 1/4 Duty 1/2 Bias
■■ 5. 1/3 Duty 1/2 Bias
■■ 6. 1/2 Duty 1/2 Bias
9. OSC1 SYSTEM CLOCK ■■ 1. Crystal
■■ 2. CR
■ELECTRICAL CHARACTERISTICS
●Absolute Maximum Ratings
Rating
Power voltage
Input voltage (1)
Input voltage (2)
Permissible total output current *
1
Operating temperature
Storage temperature
Soldering temperature / Time
Allowable 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 (QFP12-48pin).
Symbol
V
SS
V
I
V
IOSC
ΣI
VSS
Topr
Tstg
Tsol
P
D
Value
-5.0 to 0.5
V
SS
- 0.3 to 0.5
V
SS
- 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
(V
DD
=0V)
●Recommended Operating Conditions
S1C60N01
Condition
Power voltage
Oscillation frequency
Booster capacitor
Capacitor between V
DD
and V
L1
Capacitor between V
DD
and V
L2
Capacitor between V
DD
and V
L3
Capacitor between V
DD
and V
S1
Symbol
V
SS
f
OSC1
f
OSC2
C1
C2
C3
C4
C5
Remark
V
DD
=0V
Crystal oscillation
CR oscillation, R=470kΩ
Unit
V
kHz
kHz
µF
µF
µF
µF
µF
(Ta=-20 to 70°C)
Max.
-1.8
80
Typ.
-3.0
32.768
65
Min.
-3.6
50
0.1
0.1
0.1
0.1
0.1
5
S1C60N01
S1C60L01
Condition
Power voltage
Oscillation frequency
Booster capacitor
Capacitor between V
DD
and V
L1
Capacitor between V
DD
and V
L2
Capacitor between V
DD
and V
L3
Capacitor between V
DD
and V
S1
Symbol
V
SS
f
OSC1
f
OSC2
C1
C2
C3
C4
C5
Remark
V
DD
=0V
Crystal oscillation
CR oscillation, R=470kΩ
Unit
V
kHz
kHz
µF
µF
µF
µF
µF
(Ta=-20 to 70°C)
Max.
-1.2
80
Typ.
-1.5
32.768
65
Min.
-2.0
50
0.1
0.1
0.1
0.1
0.1
●DC Characteristics
S1C60N01
Unit
V
V
V
V
µA
µA
µA
µA
mA
mA
mA
mA
µA
µA
µA
µA
µA
µA
(Unless otherwise specified: VDD=0V, VSS=-3.0V, fOSC=32.768kHz, Ta=25°C, VS1/VL1–VL3
are internal voltage
, C1–C5=0.1µF)
Max.
0
0
0.8•VSS
0.85•VSS
0.5
40
100
0
-1.0
-1.0
-3
-3
-300
Typ.Min.
0.2•VSS
0.15•VSS
VSS
VSS
0
10
30
-0.5
3.0
3.0
3
3
300
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)
Symbol
VIH1
VIH2
VIL1
VIL2
IIH1
IIH2
IIH3
IIL
IOH1
IOH2
IOL1
IOL2
IOH3
IOL3
IOH4
IOL4
IOH5
IOL5
VIH1=0V, No pull down resistor
VIH2=0V, With pull down resistor
VIH3=0V, With pull down resistor
VIL=VSS
VOH1=0.1•VSS
VOH2=0.1•VSS
(built-in protection resistance)
VOL1=0.9•VSS
VOL2=0.9•VSS
(built-in protection resistance)
VOH3=-0.05V
VOL3=VL3+0.05V
VOH4=-0.05V
VOL4=VL3+0.05V
VOH5=0.1•VSS
VOL5=0.9•VSS
Condition K00–K03, P00–P03
RESET
K00–K03, P00–P03
RESET
K00–K03, P00–P03
K00–K03
P00–P03
RESET
K00–K03, P00–P03
RESET, TEST
P00–P03
R00, R01
P00–P03
R00, R01
COM0–COM3
SEG0–SEG19
SEG0–SEG19
S1C60L01
Unit
V
V
V
V
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
µA
(Unless otherwise specified: VDD=0V, VSS=-1.5V, fOSC=32.768kHz, Ta=25°C, VS1/VL1–VL3
are internal voltage
, C1–C5=0.1µF)
Max.
0
0
0.8•VSS
0.85•VSS
0.5
20
100
0
-200
-200
-3
-3
-100
Typ.Min.
0.2•VSS
0.15•VSS
VSS
VSS
0
5.0
9.0
-0.5
700
700
3
3
130
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)
Symbol
VIH1
VIH2
VIL1
VIL2
IIH1
IIH2
IIH3
IIL
IOH1
IOH2
IOL1
IOL2
IOH3
IOL3
IOH4
IOL4
IOH5
IOL5
VIH1=0V, No pull down resistor
VIH2=0V, With pull down resistor
VIH3=0V, With pull down resistor
VIL=VSS
VOH1=0.1•VSS
VOH2=0.1•VSS
(built-in protection resistance)
VOL1=0.9•VSS
VOL2=0.9•VSS
(built-in protection resistance)
VOH3=-0.05V
VOL3=VL3+0.05V
VOH4=-0.05V
VOL4=VL3+0.05V
VOH5=0.1•VSS
VOL5=0.9•VSS
Condition K00–K03, P00–P03
RESET
K00–K03, P00–P03
RESET
K00–K03, P00–P03
K00–K03
P00–P03
RESET
K00–K03, P00–P03
RESET, TEST
P00–P03
R00, R01
P00–P03
R00, R01
COM0–COM3
SEG0–SEG19
SEG0–SEG19
6
S1C60N01
●Analog Circuit Characteristics and Current Consumption
S1C60N01 (Normal Operating Mode)
Unit
V
V
V
µA
µA
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=32.768kHz (crystal oscillation), Ta=25°C, C
G
=25pF,
V
S1
/V
L1
–V
L3
are internal voltage, C
1
–C
5
=0.1µF)
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
Characteristic
Internal voltage
Power current consumption
Symbol
V
L1
V
L2
V
L3
I
OP
Condition
Connect 1MΩ load resistor between V
DD
and V
L1
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L2
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L3
(without panel load)
During HALT
During execution Without panel load
S1C60N01 (Heavy Load Protection Mode)
Unit
V
V
V
µA
µA
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=32.768kHz (crystal oscillation), Ta=25°C, C
G
=25pF,
V
S1
/V
L1
–V
L3
are internal voltage, C
1
–C
5
=0.1µF)
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
Characteristic
Internal voltage
Power current consumption
Symbol
V
L1
V
L2
V
L3
I
OP
Condition
Connect 1MΩ load resistor between V
DD
and V
L1
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L2
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L3
(without panel load)
During HALT
During execution Without panel load
S1C60L01 (Normal Operating Mode)
Unit
V
V
V
µA
µA
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=32.768kHz (crystal oscillation), Ta=25°C, C
G
=25pF,
V
S1
/V
L1
–V
L3
are internal voltage, C
1
–C
5
=0.1µF)
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
Characteristic
Internal voltage
Power current consumption
Symbol
V
L1
V
L2
V
L3
I
OP
Condition
Connect 1MΩ load resistor between V
DD
and V
L1
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L2
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L3
(without panel load)
During HALT
During execution Without panel load
S1C60L01 (Heavy Load Protection Mode)
Unit
V
V
V
µA
µA
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=32.768kHz (crystal oscillation), Ta=25°C, C
G
=25pF,
V
S1
/V
L1
–V
L3
are internal voltage, C
1
–C
5
=0.1µF)
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
Characteristic
Internal voltage
Power current consumption
Symbol
V
L1
V
L2
V
L3
I
OP
Condition
Connect 1MΩ load resistor between V
DD
and V
L1
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L2
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L3
(without panel load)
During HALT
During execution Without panel load
7
S1C60N01
S1C60N01 (CR, Normal Operating Mode)
Unit
V
V
V
µA
µA
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=65kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
–V
L3
are internal voltage,
C
1
–C
5
=0.1µF, Recommended external resistance for CR oscillation=470kΩ)
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
Characteristic
Internal voltage
Power current consumption
Symbol
V
L1
V
L2
V
L3
I
OP
Condition
Connect 1MΩ load resistor between V
DD
and V
L1
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L2
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L3
(without panel load)
During HALT
During execution Without panel load
S1C60N01 (CR, Heavy Load Protection Mode)
Unit
V
V
V
µA
µA
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, f
OSC
=65kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
–V
L3
are internal voltage,
C
1
–C
5
=0.1µF, Recommended external resistance for CR oscillation=470kΩ)
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
Characteristic
Internal voltage
Power current consumption
Symbol
V
L1
V
L2
V
L3
I
OP
Condition
Connect 1MΩ load resistor between V
DD
and V
L1
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L2
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L3
(without panel load)
During HALT
During execution Without panel load
S1C60L01 (CR, Normal Operating Mode)
Unit
V
V
V
µA
µA
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=65kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
–V
L3
are internal voltage,
C
1
–C
5
=0.1µF, Recommended external resistance for CR oscillation=470kΩ)
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
Characteristic
Internal voltage
Power current consumption
Symbol
V
L1
V
L2
V
L3
I
OP
Condition
Connect 1MΩ load resistor between V
DD
and V
L1
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L2
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L3
(without panel load)
During HALT
During execution Without panel load
S1C60L01 (CR, Heavy Load Protection Mode)
Unit
V
V
V
µA
µA
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, f
OSC
=65kHz, Ta=25°C, C
G
=25pF, V
S1
/V
L1
–V
L3
are internal voltage,
C
1
–C
5
=0.1µF, Recommended external resistance for CR oscillation=470kΩ)
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
Characteristic
Internal voltage
Power current consumption
Symbol
V
L1
V
L2
V
L3
I
OP
Condition
Connect 1MΩ load resistor between V
DD
and V
L1
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L2
(without panel load)
Connect 1MΩ load resistor between V
DD
and V
L3
(without panel load)
During HALT
During execution Without panel load
8
S1C60N01
●Oscillation Characteristics
Oscillation characteristics will vary according to different conditions. Use the following characteristics are as reference
values.
S1C60N01
Unit
V
V
pF
ppm
ppm
ppm
V
MΩ
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, Crystal: Q13MC146, C
G
=25pF, C
D
=built-in, Ta=25°C)
Max.
5
10
-3.6
Typ.
20
Min.
-1.8
-1.8
-10
40
200
Characteristic
Oscillation start voltage
Oscillation stop voltage
Built-in capacitance (drain)
Frequency/voltage deviation
Frequency/IC deviation
Frequency adjustment range
Harmonic oscillation start voltage
Allowable leak resistance
Symbol
Vsta
Vstp
C
D
∂f/∂V
∂f/∂IC
∂f/∂C
G
V
hho
R
leak
Condition
t
sta≤5sec (V
SS
)
t
stp≤10sec (V
SS
)
Including the parasitic capacity inside the IC
V
SS
=-1.8 to -3.6V
C
G
=5 to 25pF
C
G
=5pF (V
SS
)
Between OSC1 and V
DD
S1C60L01
Unit
V
V
pF
ppm
ppm
ppm
V
MΩ
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, Crystal: Q13MC146, C
G
=25pF, C
D
=built-in, Ta=25°C)
Max.
5
10
-2.0
Typ.
20
Min.
-1.2
-1.2
-10
40
200
Characteristic
Oscillation start voltage
Oscillation stop voltage
Built-in capacitance (drain)
Frequency/voltage deviation
Frequency/IC deviation
Frequency adjustment range
Harmonic oscillation start voltage
Allowable leak resistance
Symbol
Vsta
Vstp
C
D
∂f/∂V
∂f/∂IC
∂f/∂C
G
V
hho
R
leak
Condition
t
sta≤5sec (V
SS
)
t
stp≤10sec (V
SS
)
Including the parasitic capacity inside the IC
V
SS
=-1.2 to -2.0V
C
G
=5 to 25pF
C
G
=5pF (V
SS
)
Between OSC1 and V
DD
S1C60N01 (CR)
Unit
%
V
mS
V
(Unless otherwise specified: V
DD
=0V, V
SS
=-3.0V, R
CR
=470kΩ, Ta=25°C)
Max.
20
Typ.
65kHz
3
Min.
-20
-1.8
-1.8
Characteristic
Oscillation frequency dispersion
Oscillation start voltage
Oscillation start time
Oscillation stop voltage
Symbol
f
OSC
Vsta
tsta
Vstp
Condition
V
SS
=-1.8 to -3.6V
S1C60L01 (CR)
Unit
%
V
mS
V
(Unless otherwise specified: V
DD
=0V, V
SS
=-1.5V, R
CR
=470kΩ, Ta=25°C)
Max.
20
Typ.
65kHz
3
Min.
-20
-1.2
-1.2
Characteristic
Oscillation frequency dispersion
Oscillation start voltage
Oscillation start time
Oscillation stop voltage
Symbol
f
OSC
Vsta
t
sta
Vstp
Condition
V
SS
=-1.2 to -2.0V
9
S1C60N01
■ PAD LAYOUT
●Diagram of Pad Layout
●Pad Coordinates
Pad No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
Pad No.
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
Pad name
R01
R00
SEG19
SEG18
SEG17
SEG16
SEG15
SEG14
SEG13
SEG12
SEG11
SEG10
TEST
RESET
SEG9
SEG8
SEG7
SEG6
SEG5
SEG4
SEG3
SEG2
SEG1
Pad name
SEG0
COM0
COM1
COM2
COM3
VL3
VL2
VL1
CA
CB
VSS
VDD
OSC1
OSC2
VS1
P00
P01
P02
P03
K00
K01
K02
K03
X
759
629
401
271
141
11
-119
-249
-379
-509
-639
-769
-1,151
-1,151
-1,151
-1,151
-1,151
-1,151
-1,151
-1,151
-1,151
-1,151
-1,151
X
-1,151
-1,126
-988
-858
-727
-597
-466
-336
-206
-76
570
700
835
987
1,140
1,151
1,151
1,151
1,151
1,151
1,151
1,151
1,151
Y
923
923
923
923
923
923
923
923
923
923
923
923
789
657
526
396
266
136
6
-124
-254
-384
-514
Y
-644
-923
-923
-923
-923
-923
-923
-923
-923
-923
-923
-923
-923
-923
-923
-11
119
249
379
518
648
778
908
Y
X
(0, 0)
1510
15
20
25 30 35
40
45
Die No.
Chip size: 2,640 µm (X) x 2,180 µm (Y)
(Unit: µm)
10
S1C60N01
■BASIC EXTERNAL CONNECTION DIAGRAM
Piezo Buzzer Single Terminal Driving
Note: The above table is simply an example, and is not guaranteed to work.
C
1
C
G
C
5
X'tal
1.5 V
or
3.0 V
Piezo
Buzzer
R01
K00
K03
P00
P03
R00
I
I/O
O
SEG0
SEG19
COM0
COM3
LCD
PANEL
Coil
CA
CB
V
L1
V
L2
V
L3
V
DD
OSC1
OSC2
V
S1
RESET
TEST
V
SS
Cp
Capacitors (C
2
–C
4
) are connected.
Connection depending on power supply
and LCD panel specification.
X'tal
C
G
C
1
–C
5
Cp
Crystal oscillator
Trimmer capacitor
Capacitor
Capacitor
32.768 kHz CI(MAX) = 35 kΩ
5–25 pF
0.1 µF
3.3 µF
11
S1C60N01
Piezo Buzzer Direct Driving
C1
CG
C5
X'tal
I
I/O
SEG0
SEG19
COM0
COM3
LCD
PANEL
CA
CB
V
L1
V
L2
V
L3
V
DD
OSC1
OSC2
V
S1
RESET
TEST
V
SS
Cp
1.5 V
or
3.0 V
Piezo
Buzzer
R01
R00
K00
K03
P00
P03
Capacitors (C
2
–C
4
) are connected.
Connection depending on power supply
and LCD panel specification.
X'tal
C
G
C
1
–C
5
Cp
Crystal oscillator
Trimmer capacitor
Capacitor
Capacitor
32.768 kHz CI(MAX) = 35 kΩ
5–25 pF
0.1 µF
3.3 µF
Note: The above table is simply an example, and is not guaranteed to work.
S1C60N01
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 August, 2001 in Japan L
■PACKAGE
Plastic QFP12-48pin
7±0.1
9±0.4
2536
7±0.1
9±0.4
13
24
INDEX
0.18
121
48
37
1.4±0.1
0.1
1.7
max
1
0.5±0.2
0°
10°
0.125±0.05
0.5 +0.1
–0.05
(Unit: mm)
