E0C6S46
s
ELECTRICAL CHARACTERISTICS
q
Absolute Maximum Ratings
Rating
Symbol
Supply voltage
V
SS
(1)
Input voltage
V
I
Input voltage (2)
V
IOSC
Permissible total output current
∗
1
ΣI
VSS
Operating temperature
Topr
Storage temperature
Tstg
Soldering temperature / time
Tsol
∗
2
Permissible dissipation
P
D
Electrostatic proof pressure
V
E
Value
-7.0 to 0.5
V
SS
- 0.3 to 0.5
V
S1
- 0.3 to 0.5
10
-20 to 70
-65 to 150
260°C, 10sec (lead section)
250
EIAJ test method (C=200pF) 150V or more
MIL test method (C=100pF, R=1.5kΩ) 900V or more
∗1:
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).
∗2:
In case of plastic package.
(V
DD
=0V)
Unit
V
V
V
mA
°C
°C
–
mW
V
q
Recommended Operating Conditions
Condition
Supply voltage
Symbol
V
SS
V
DD
=0V
Remark
VSC="0"
VSC="1"
VSC="2"
Min.
-3.8
-5.5
-5.5
20
50
50
(Ta=-20 to 70°C)
Typ.
Max. Unit
-3.0
-1.8
V
-3.0
-2.2
V
-5.0
-3.5
V
32.768
50
kHz
1,000 1,200 kHz
2,000 2,300 kHz
0.1
µF
0.1
µF
0.1
µF
0.1
µF
0.1
µF
0.1
µF
0.1
µF
0.1
µF
Oscillation frequency (1)
Oscillation frequency (2)
Oscillation frequency (3)
Voltage booster capacitor (1)
Voltage booster capacitor (2)
Voltage 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
f
OSC1
f
OSC3
f
OSC3
C
1
C
2
C
3
C
4
C
5
C
6
C
7
C
8
VSC="1"
VSC="2"
q
DC Characteristics
(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)
Characteristic
Symbol
Condition
Min.
Typ.
Max.
Unit
High level input voltage
V
HIN
V
SS
=-2.2 to -5.5V
K00–03•10–13, P00–03•10–13 0.2•V
SS
0
V
Low level input voltage
V
LIN
Ta=25°C
P20–P23•30–33, SIN, SCLK
V
SS
0.8•V
SS
V
High level input voltage
V
HIN
V
SS
=-2.2 to -5.5V
RESET
-0.2
0
V
Low level input voltage
V
LIN
Ta=25°C
V
SS
V
SS
+0.2
V
High level input current
I
IH
V
SS
=-3.0V
K00–03•10–13, P00–03•10–13
0
0.5
µA
V
IH
=0V
P20–P23•30–33, SIN, SCLK
RESET
Low level input current (1)
I
IL1
V
SS
=-3.0V
K00–03•10–13, P00–03•10–13
-45
-15
µA
V
IL1
=V
SS
P20–P23•30–33, SIN, SCLK
With pull-up resistor
RESET
I
IL2
V
SS
=-3.0V
Low level input current (2)
K00–03•10–13, P00–03•10–13
-0.5
0
µA
V
IL2
=V
SS
P20–P23•30–33, SIN, SCLK
No pull-up resistor
RESET
High level output current (1) I
OH1
V
SS
=-2.2V
P00–03•10–13•20–23•30–33
-1.0
mA
V
OH1
=-0.5V
R00–03•10–13•20–23•30–33
R40•41, SOUT, SCLK
I
OL1
Low level output current (1)
V
SS
=-2.2V
P00–03•10–13•20–23•30–33
2.0
mA
V
OL1
=V
SS
+0.5V
R00–03•10–13•20–23•30–33
R40•41, SOUT, SCLK
High level output current (2) I
OH2
V
SS
=-2.2V
R42•43
-2.0
mA
V
OH2
=-0.5V
Low level output current (2)
I
OL2
V
SS
=-2.2V
R42•43
4.0
mA
V
OL1
=V
SS
+0.5V
Common output current
I
OH3
V
OH3
=-0.05V
COM0–15
-30
µA
I
OL3
V
OL3
=V
L5
+0.05V
30
µA
Segment output current
I
OH4
V
OH4
=-0.05V
SEG0–39
-10
µA
I
OL4
V
OL4
=V
L5
+0.05V
10
µA
4