E0C6S46D 参数 Datasheet PDF下载

E0C6S46

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ELECTRICAL CHARACTERISTICS

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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"

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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