LM358N 参数 Datasheet PDF下载

LM158-LM258-LM358

Table 3.

Electrical characteristics

Electrical characteristics for V

CC

+

= +5V, V

CC

-

= Ground, V

o

= 1.4V, T

amb

= +25°C (unless

otherwise specified)

Parameter

LM158A-LM258A

LM358A

Min.

Output voltage swing (R

L

= 2 kΩ)

T

amb

= +25° C

T

min

≤

T

amb

≤

T

max

High level output voltage (V

CC+

= 30 V )

T

amb

= +25° C, R

L

= 2 kΩ

T

min

≤

T

amb

≤

T

max

T

amb

= +25° C, R

L

= 10 kΩ

T

min

≤

T

amb

≤

T

max

Low level output voltage (R

L

= 10 kΩ)

T

amb

= +25° C

T

min

≤

T

amb

≤

T

max

Slew rate

V

CC

= 15V, V

i

= 0.5 to 3V, R

L

= 2kΩ

,

C

L

= 100pF, unity Gain

Gain bandwidth product

V

CC

= 30 V, f = 100 kHz,V

in

= 10 mV,

R

L

= 2 kΩ C

L

= 100 pF

,

Total harmonic distortion

f = 1 kHz, A

v

= 20 dB, R

L

= 2 kΩ, V

o

= 2 V

pp

,

C

L

= 100 pF, V

O

= 2 Vpp

Equivalent input noise voltage

f = 1 kHz, R

s

= 100

Ω,

V

CC

= 30 V

Input offset voltage drift

Input offset current drift

Channel separation

(4)

1kHz

≤

f

≤

20 kHZ

Typ.

Max.

V

CC+

-1.5

V

CC+

-2

27

28

LM158-LM258

LM358

Min.

Typ.

Max.

V

CC+

-1.5

V

CC+

-2

27

V

28

Unit

Symbol

V

OPP

0

0

26

26

27

27

0

0

26

26

27

27

V

OH

V

OL

5

20

20

5

20

20

mV

SR

V/µs

0.3

0.6

0.3

0.6

GBP

0.7

1.1

0.7

1.1

MHz

THD

0.02

55

7

10

120

15

200

0.02

55

7

10

120

30

300

%

e

n

DV

io

DI

io

V

o1

/V

o2

nV

-----------

-

Hz

µV/°C

pA/°C

dB

1. V

o

= 1.4 V, R

s

= 0

Ω,

5 V < V

CC+

< 30 V, 0 < V

ic

< V

CC+

- 1.5 V

2. The direction of the input current is out of the IC. This current is essentially constant, independent of the state of the output

so there is no change in the load on the input lines.

3. The input common-mode voltage of either input signal voltage should not be allowed to go negative by more than 0.3 V.

The upper end of the common-mode voltage range is V

CC+

- 1.5 V, but either or both inputs can go to +32 V without

damage.

4. Due to the proximity of external components, ensure that stray capacitance between these external parts does not cause

coupling. Typically, this can be detected because this type of capacitance increases at higher frequencies.

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