E0C6247F 参数 Datasheet PDF下载

E0C6247

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ELECTRICAL CHARACTERISTICS

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Absolute Maximum Ratings

(V

SS

=0V)

Rating

Symbol

Value

Unit

V

DD

-0.5 to 7.0

V

Supply voltage

V

I

-0.5 to V

DD

+ 0.3

V

Input voltage (1)

V

IOSC

-0.5 to V

D1

+ 0.3

V

Input voltage (2)

ΣI

VDD

10

mA

Permissible total output current

*

1

Operating temperature

Topr

-20 to 70

°C

Storage temperature

Tstg

-65 to 150

°C

Soldering temperature / Time

Tsol

260°C, 10sec (lead section)

–

2

Allowable dissipation

*

P

D

250

mW

∗1

The permissible total output current is the sum total of the current (average current) that simultaneously flows from the output pins

(or is drawn in).

∗2

In case of plastic package (QFP8-160pin).

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Recommended Operating Conditions

Condition

Supply voltage

Symbol

V

DD

V

SS

=0V

Remark

Boost mode

Boost mode

Normal mode

Normal mode

Reduce mode

(OSC3: OFF)

(OSC3: ON

*

1

)

(OSC3: OFF)

(OSC3: ON

*

2

)

(OSC3: OFF)

Oscillation frequency (1)

f

OSC1

Any one is selected

Oscillation frequency (2)

Either one is selected

Duty 50±5%

∗1

1MHz oscillation cannot be performed.

∗2

200kHz or 1MHz oscillation can be performed.

f

OSC3

VDC0, 1 = "1"

VDC0, 1 = "2" or "3"

Min.

0.9

0.9

1.25

2.2

2.6

–

–

–

–

50

50

Typ.

1.1

1.5

3.0

3.0

3.0

32.768

38.400

50.000

76.800

200

1,000

Max.

1.25

2.2

3.6

3.6

3.6

–

–

–

–

260

1,200

Unit

V

V

V

V

V

kHz

kHz

kHz

kHz

kHz

kHz

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DC Characteristics

(Unless otherwise specified, the values listed below are standard values under the following conditions:

V

DD

=1.5/3.0V, V

SS

=0V, f

OSC1

=32.768kHz, Ta=25°C, V

D1

/V

C1

/V

C2

/V

C4

/V

C5

are internal voltage, C1–C8=0.2µF, C9–C10=0.4µF)

Min.

Characteristic

Symbol

Condition

Typ.

Max.

Unit

0.8•V

DD

K00–03•10–13, P00–03•10–13

V

High level input voltage (1) V

IH1

V

DD

P20–23•30–33•40–43

RESET, TEST

0.9•V

DD

V

DD

V

High level input voltage (2) V

IH2

K00–03•10–13, P00–03•10–13

0

0.2•V

DD

V

Low level input voltage (1) V

IL1

P20–23•30–33•40–43

0.1•V

DD

RESET, TEST

0

V

Low level input voltage (2) V

IL2

I

IH

0.5

K00–03•10–13, P00–03•10–13

0

V

IH

=1.5V, 3.0V

µA

High level input current

P20–23•30–33•40–43

RESET, TEST

V

IL1

=V

SS

0

K00–03•10–13, P00–03•10–13

-0.5

µA

Low level input current (1) I

IL1

Without

P20–23•30–33•40–43

pull up resistor

RESET, TEST

V

IL2

=V

SS

K00–03•10–13, P00–03•10–13 V

DD

=

Low level input current (2) I

IL2

1.5V

With

-3

P20–23•30–33•40–43

-8

µA

-5

3.0V

pull up resistor

-6

RESET, TEST

-16

µA

-10

I

OH1

V

OH1

=0.9•V

DD

R00–03•10–13•20–23•30–33 V

DD

=

High level output current

0.3

R40–43, P00–03•10–13•20–23 1.5V

mA

3.0V

-1.5

P30–33•40–43

mA

I

OL1

V

OL1

=0.1•V

DD

R00–03•10–13•20–23•30–33 V

DD

=

Low level output current

R40–43, P00–03•10–13•20–23 1.5V

0.7

mA

3.0V

P30–33•40–43

6

mA

I

OH2

V

OH2

=V

C5

-0.05V

-30

COM0–15

µA

Common output current

I

OL2

V

OL2

=V

SS

+0.05V

30

µA

I

OH3

V

OH3

=V

C5

-0.05V

-10

SEG0–63

µA

Segment output current

I

OL3

V

OL3

=V

SS

+0.05V

10

µA

4