Specifications – Epson SED 1520 Series User Manual

SED1520 Series

2–20

EPSON

SPECIFICATIONS

Absolute Maximum Ratings

Parameter

Symbol

Rating

Unit

Supply voltage (1)

V

SS

–8.0 to +0.3

V

Supply voltage (2)

V

5

–16.5 to +0.3

V

Supply voltage (3)

V

1

, V

4

, V

2

, V

3

V5 to +0.3

V

Input voltage

V

IN

V

SS

–0.3 to +0.3

V

Output voltage

V

O

V

SS

–0.3 to +0.3

V

Power dissipation

P

D

250

mW

Operating temperature

T

opr

–40 to +85

deg. C

Storage temperature

T

stg

–65 to +150

deg. C

Soldering temperature time at lead

T

sol

260, 10

deg. C, sec

Notes: 1. All voltages are specified relative to V

DD

= 0 V.

2. The following relation must be always hold

V

DD

≥

V

1

≥

V

2

≥

V

3

≥

V

4

≥

V

5

3. Exceeding the absolute maximum ratings may cause permanent damage to the device. Functional

operation under these conditions is not implied.

4. Moisture resistance of flat packages can be reduced by the soldering process, so care should be taken to

avoid thermally stressing the package during board assembly.

Electrical Specifications

DC Characteristics

Ta = –20 to 75 deg. C, V

DD

= 0 V unless stated otherwise

Rating

Parameter

Symbol

Condition

Unit

Applicable Pin

Min.

Typ.

Max.

Operating

Recommended

–5.5

–5.0

–4.5

voltage (1)

V

SS

V

V

SS

See note 1. Allowable

–7.0

—

–2.4

Recommended

–13.0

—

–3.5

V

5

V

5

V

Operating

Allowable

–13.0

—

—

See note 10.

voltage (2) Allowable

V

1

, V

2

0.6

×

V

5

—

V

DD

V

V

1

, V

2

Allowable

V

3

, V

4

V

5

—

0.4

×

V

5

V

V

3

, V

4

V

IHT

V

SS

+2.0

—

V

DD

See note 2 & 3.

V

IHC

0.2

×

V

SS

—

V

DD

High-level input voltage

V

IHT

V

SS

= –3 V

0.2

×

V

SS

—

V

DD

See note 2 & 3.

V

IHC

V

SS

= –3 V

0.2

×

V

SS

—

V

DD

V

V

ILT

V

SS

V

SS

+0.8

See note 2 & 3.

V

ILC

V

SS

0.8

×

V

SS

Low-level input voltage

V

ILT

V

SS

= –3 V

V

SS

0.85

×

V

SS

See note 2 & 3.

V

ILC

V

SS

= –3 V

V

SS

0.8

×

V

SS

V

OHT

I

OH

= –3.0 mA

V

SS

+2.4

—

—

OSC2

V

OHC1

I

OH

= –2.0 mA

V

SS

+2.4

—

—

V

See note 4 & 5.

V

OHC2

I

OH

= –120

µ

A

0.2

×

V

SS

—

—

High-level output voltage

V

OHT

V

SS

= –3 V

I

OH

= –2 mA 0.2

×

V

SS

See note 4 & 5.

V

OHC1

V

SS

= –3 V

I

OH

= –2 mA 0.2

×

V

SS

V

OSC2

V

OHC2

V

SS

= –3 V

I

OH

= –50

µ

A 0.2

×

V

SS

(continued)