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LM258, LM358, LM358A,
LM2904, LM2904A,
LM2904V, NCV2904,
NCV2904V
Single Supply Dual
Operational Amplifiers

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Utilizing the circuit designs perfected for Quad Operational
Amplifiers, these dual operational amplifiers feature low power drain,
a common mode input voltage range extending to ground/VEE, and
single supply or split supply operation. The LM358 series is
equivalent to one−half of an LM324.
These amplifiers have several distinct advantages over standard
operational amplifier types in single supply applications. They can
operate at supply voltages as low as 3.0 V or as high as 32 V, with
quiescent currents about one−fifth of those associated with the
MC1741 (on a per amplifier basis). The common mode input range
includes the negative supply, thereby eliminating the necessity for
external biasing components in many applications. The output voltage
range also includes the negative power supply voltage.
Features

•
•
•
•
•
•
•
•
•
•

Short Circuit Protected Outputs
True Differential Input Stage
Single Supply Operation: 3.0 V to 32 V
Low Input Bias Currents
Internally Compensated
Common Mode Range Extends to Negative Supply
Single and Split Supply Operation
ESD Clamps on the Inputs Increase Ruggedness of the Device
without Affecting Operation
NCV Prefix for Automotive and Other Applications Requiring
Unique Site and Control Change Requirements; AEC−Q100
Qualified and PPAP Capable
These Devices are Pb−Free, Halogen Free/BFR Free and are RoHS
Compliant

PDIP−8
N, AN, VN SUFFIX
CASE 626

8
1

SOIC−8
D, VD SUFFIX
CASE 751

8
1

Micro8]
DMR2 SUFFIX
CASE 846A

8
1

PIN CONNECTIONS
Output A
Inputs A
VEE/Gnd

1

8

2

7

4

−
+ 5

−
+
3

VCC
Output B

6

Inputs B

(Top View)

ORDERING INFORMATION
See detailed ordering and shipping information in the package
dimensions section on page 10 of this data sheet.

DEVICE MARKING INFORMATION
See general marking information in the device marking
section on page 11 of this data sheet.

© Semiconductor Components Industries, LLC, 2013

October, 2013 − Rev. 27

1

Publication Order Number:
LM358/D

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
3.0 V to VCC(max)

VCC

VCC

1

1

2

2

1.5 V to VCC(max)

1.5 V to VEE(max)
VEE

VEE/Gnd

Single Supply

Split Supplies
Figure 1.

Output

Bias Circuitry
Common to Both
Amplifiers
VCC

Q15
Q16

Q22

Q14
Q13
40 k

Q19
5.0 pF

Q12

Q24
25

Q23

Q20

Q18
Inputs

Q11
Q9
Q21

Q17

Q6
Q2

Q25

Q7

Q5

Q1
Q8

Q3

Q4

Q10

Q26

2.4 k

2.0 k
VEE/Gnd

Figure 2. Representative Schematic Diagram
(One−Half of Circuit Shown)

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2

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
MAXIMUM RATINGS (TA = +25°C, unless otherwise noted.)
Symbol

Value

VCC
VCC, VEE

32
±16

Input Differential Voltage Range (Note 1)

VIDR

±32

Vdc

Input Common Mode Voltage Range (Note 2)

VICR

−0.3 to 32

Vdc

Output Short Circuit Duration

tSC

Continuous

Junction Temperature

TJ

150

°C

RJA

238
212
161

°C/W

Storage Temperature Range

Tstg

−65 to +150

°C

ESD Protection at any Pin
Human Body Model
Machine Model

Vesd

Rating
Power Supply Voltages
Single Supply
Split Supplies

Thermal Resistance, Junction−to−Air (Note 3)

Unit
Vdc

Case 846A
Case 751
Case 626

Operating Ambient Temperature Range
LM258
LM358, LM358A
LM2904/LM2904A
LM2904V, NCV2904 (Note 4)
NCV2904V (Note 4)

TA

V
2000
200
−25 to +85
0 to +70
−40 to +105
−40 to +125
−40 to +150

°C

Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the
Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect
device reliability.
1. Split Power Supplies.
2. For supply voltages less than 32 V the absolute maximum input voltage is equal to the supply voltage.
3. All RJA measurements made on evaluation board with 1 oz. copper traces of minimum pad size. All device outputs were active.
4. NCV2904 and NCV2904V are qualified for automotive use.

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3

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
ELECTRICAL CHARACTERISTICS (VCC = 5.0 V, VEE = GND, TA = 25°C, unless otherwise noted.)
LM258
Characteristic
Input Offset Voltage
VCC = 5.0 V to 30 V, VIC = 0 V to VCC −1.7 V,
VO ] 1.4 V, RS = 0 
TA = 25°C
TA = Thigh (Note 5)
TA = Tlow (Note 5)

Symbol

Min

Typ

LM358
Max

Min

Typ

LM358A
Max

Min

Typ

Max

VIO

Unit
mV

−
−
−

2.0
−
−

5.0
7.0
7.0

−
−
−

2.0
−
−

7.0
9.0
9.0

−
−
−

2.0
−
−

3.0
5.0
5.0

VIO/T

−

7.0

−

−

7.0

−

−

7.0

−

V/°C

IIO

−
−
−
−

3.0
−
−45
−50

30
100
−150
−300

−
−
−
−

5.0
−
−45
−50

50
150
−250
−500

−
−
−
−

5.0
−
−45
−50

30
75
−100
−200

nA

IIO/T

−

10

−

−

10

−

−

10

−

pA/°C

Input Common Mode Voltage Range (Note 6),
VCC = 30 V
VCC = 30 V, TA = Thigh to Tlow

VICR

0

−

28.3

0

−

28.3

0

−

28.5

V

0

−

28

0

−

28

0

−

28

Differential Input Voltage Range

VIDR

−

−

VCC

−

−

VCC

−

−

VCC

Large Signal Open Loop Voltage Gain
RL = 2.0 k, VCC = 15 V, For Large VO Swing,
TA = Thigh to Tlow (Note 5)

AVOL

50
25

100
−

−
−

25
15

100
−

−
−

25
15

100
−

−
−

CS

−

−120

−

−

−120

−

−

−120

−

dB

Common Mode Rejection
RS ≤ 10 k

CMR

70

85

−

65

70

−

65

70

−

dB

Power Supply Rejection

PSR

65

100

−

65

100

−

65

100

−

dB

Output Voltage−High Limit
TA = Thigh to Tlow (Note 5)
VCC = 5.0 V, RL = 2.0 k, TA = 25°C
VCC = 30 V, RL = 2.0 k
VCC = 30 V, RL = 10 k

VOH

Output Voltage−Low Limit
VCC = 5.0 V, RL = 10 k,
TA = Thigh to Tlow (Note 5)

VOL

Output Source Current
VID = +1.0 V, VCC = 15 V
TA = Thigh to Tlow (LM358A Only)

IO+

Output Sink Current
VID = −1.0 V, VCC = 15 V
TA = Thigh to Tlow (LM358A Only)
VID = −1.0 V, VO = 200 mV

IO−

Output Short Circuit to Ground (Note 7)

ISC

Power Supply Current (Total Device)
TA = Thigh to Tlow (Note 5)
VCC = 30 V, VO = 0 V, RL = ∞
VCC = 5 V, VO = 0 V, RL = ∞

ICC

Average Temperature Coefficient of Input Offset
Voltage
TA = Thigh to Tlow (Note 5)
Input Offset Current
TA = Thigh to Tlow (Note 5)
Input Bias Current
TA = Thigh to Tlow (Note 5)
Average Temperature Coefficient of Input Offset
Current
TA = Thigh to Tlow (Note 5)

Channel Separation
1.0 kHz ≤ f ≤ 20 kHz, Input Referenced

IIB

V
V/mV

V
3.3
26
27

3.5
−
28

−
−
−

3.3
26
27

3.5
−
28

−
−
−

3.3
26
27

3.5
−
28

−
−
−

−

5.0

20

−

5.0

20

−

5.0

20

20

40

−

20

40

−

20
10

40
−

−
−

10

20

−

10

20

−

12

50

−

12

50

−

10
5.0
12

20
−
50

−
−
−

mA
mA
A

−

40

60

−

40

60

−

40

60

mA

mV

mA

mA
−
−

1.5
0.7

3.0
1.2

−
−

1.5
0.7

3.0
1.2

−
−

1.5
0.7

2.0
1.2

5. LM258: Tlow = −25°C, Thigh = +85°C
LM358, LM358A: Tlow = 0°C, Thigh = +70°C
LM2904V & NCV2904: Tlow = −40°C, Thigh = +125°C
LM2904/LM2904A: Tlow = −40°C, Thigh = +105°C
NCV2904 and NCV2904V are qualified for automotive use. NCV2904V: Tlow = −40°C, Thigh = +150°C
6. The input common mode voltage or 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 VCC − 1.7 V.
7. Short circuits from the output to VCC can cause excessive heating and eventual destruction. Destructive dissipation can result from
simultaneous shorts on all amplifiers.

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LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
ELECTRICAL CHARACTERISTICS (VCC = 5.0 V, VEE = Gnd, TA = 25°C, unless otherwise noted.)
LM2904
Characteristic
Input Offset Voltage
VCC = 5.0 V to 30 V, VIC = 0 V to VCC −1.7 V,
VO ] 1.4 V, RS = 0 
TA = 25°C
TA = Thigh (Note 8)
TA = Tlow (Note 8)

Symbol

Min

Typ

LM2904V, NCV2904
NCV2904V

LM2904A
Max

Min

Typ

Max

Min

Typ

Max

VIO

Unit
mV

−
−
−

2.0
−
−

7.0
10
10

−
−
−

2.0
−
−

7.0
10
10

−
−
−

−
−
−

7.0
13
10

VIO/T

−

7.0

−

−

7.0

−

−

7.0

−

V/°C

IIO

−
−
−
−

5.0
45
−45
−50

50
200
−250
−500

−
−
−
−

5.0
45
−45
−50

50
200
−100
−250

−
−
−
−

5.0
45
−45
−50

50
200
−250
−500

nA

IIO/T

−

10

−

−

10

−

−

10

−

pA/°C

Input Common Mode Voltage Range (Note 9),
VCC = 30 V
VCC = 30 V, TA = Thigh to Tlow

VICR

0

−

28.3

0

−

28.3

0

−

28.3

V

0

−

28

0

−

28

0

−

28

Differential Input Voltage Range

VIDR

−

−

VCC

−

−

VCC

−

−

VCC

Large Signal Open Loop Voltage Gain
RL = 2.0 k, VCC = 15 V, For Large VO Swing,
TA = Thigh to Tlow (Note 8)

AVOL

25
15

100
−

−
−

25
15

100
−

−
−

25
15

100
−

−
−

CS

−

−120

−

−

−120

−

−

−120

−

dB

Common Mode Rejection
RS ≤ 10 k

CMR

50

70

−

50

70

−

50

70

−

dB

Power Supply Rejection

PSR

50

100

−

50

100

−

50

100

−

dB

Output Voltage−High Limit
TA = Thigh to Tlow (Note 8)
VCC = 5.0 V, RL = 2.0 k, TA = 25°C
VCC = 30 V, RL = 2.0 k
VCC = 30 V, RL = 10 k

VOH

Output Voltage−Low Limit
VCC = 5.0 V, RL = 10 k,
TA = Thigh to Tlow (Note 8)

Average Temperature Coefficient of Input Offset
Voltage
TA = Thigh to Tlow (Note 8)
Input Offset Current
TA = Thigh to Tlow (Note 8)
Input Bias Current
TA = Thigh to Tlow (Note 8)
Average Temperature Coefficient of Input Offset
Current
TA = Thigh to Tlow (Note 8)

Channel Separation
1.0 kHz ≤ f ≤ 20 kHz, Input Referenced

IIB

V
V/mV

V
3.3
26
27

3.5
−
28

−
−
−

3.3
26
27

3.5
−
28

−
−
−

3.3
26
27

3.5
−
28

−
−
−

VOL

−

5.0

20

−

5.0

20

−

5.0

20

mV

Output Source Current
VID = +1.0 V, VCC = 15 V

IO+

20

40

−

20

40

−

20

40

−

mA

Output Sink Current
VID = −1.0 V, VCC = 15 V
VID = −1.0 V, VO = 200 mV

IO−

10
−

20
−

−
−

10
−

20
−

−
−

10
−

20
−

−
−

mA
A

−

40

60

−

40

60

−

40

60

mA

Output Short Circuit to Ground (Note 10)

ISC

Power Supply Current (Total Device)
TA = Thigh to Tlow (Note 8)
VCC = 30 V, VO = 0 V, RL = ∞
VCC = 5 V, VO = 0 V, RL = ∞

ICC

mA
−
−

1.5
0.7

3.0
1.2

−
−

1.5
0.7

3.0
1.2

−
−

1.5
0.7

3.0
1.2

8. LM258: Tlow = −25°C, Thigh = +85°C
LM358, LM358A: Tlow = 0°C, Thigh = +70°C
LM2904V & NCV2904: Tlow = −40°C, Thigh = +125°C
LM2904/LM2904A: Tlow = −40°C, Thigh = +105°C
NCV2904 and NCV2904V are qualified for automotive use. NCV2904V: Tlow = −40°C, Thigh = +150°C
9. The input common mode voltage or 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 VCC − 1.7 V.
10. Short circuits from the output to VCC can cause excessive heating and eventual destruction. Destructive dissipation can result from
simultaneous shorts on all amplifiers.

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5

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
CIRCUIT DESCRIPTION
The LM358 series is made using two internally
compensated, two−stage operational amplifiers. The first
stage of each consists of differential input devices Q20 and
Q18 with input buffer transistors Q21 and Q17 and the
differential to single ended converter Q3 and Q4. The first
stage performs not only the first stage gain function but also
performs the level shifting and transconductance reduction
functions. By reducing the transconductance, a smaller
compensation capacitor (only 5.0 pF) can be employed, thus
saving chip area. The transconductance reduction is
accomplished by splitting the collectors of Q20 and Q18.
Another feature of this input stage is that the input common
mode range can include the negative supply or ground, in
single supply operation, without saturating either the input
devices or the differential to single−ended converter. The
second stage consists of a standard current source load
amplifier stage.
Each amplifier is biased from an internal−voltage
regulator which has a low temperature coefficient thus
giving each amplifier good temperature characteristics as
well as excellent power supply rejection.

1.0 V/DIV

VCC = 15 Vdc
RL = 2.0 k
TA = 25°C

5.0 s/DIV

Figure 3. Large Signal Voltage
Follower Response

AVOL, OPEN LOOP VOLTAGE GAIN (dB)

20
VI , INPUT VOLTAGE (V)

18
16
14
12
10

Negative

8.0

Positive

6.0
4.0
2.0
0

120
VCC = 15 V
VEE = Gnd
TA = 25°C

100
80
60
40
20
0
-20

0

2.0

4.0
6.0 8.0
10
12
14 16
VCC/VEE, POWER SUPPLY VOLTAGES (V)

18

1.0

20

10

100

1.0 k

10 k

100 k

1.0 M

f, FREQUENCY (Hz)

Figure 4. Input Voltage Range

Figure 5. Large−Signal Open Loop Voltage Gain

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LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
550
RL = 2.0 k
VCC = 15 V
VEE = Gnd
Gain = -100
RI = 1.0 k
RF = 100 k

12
10
8.0

VO , OUTPUT VOLTAGE (mV)

VOR , OUTPUT VOLTAGE RANGE (V pp )

14

6.0
4.0
2.0

VCC = 30 V
VEE = Gnd
TA = 25°C
CL = 50 pF

500
Input

450
400

Output

350
300
250
200

0
1.0

0
10
100
f, FREQUENCY (kHz)

1000

0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

t, TIME (ms)

Figure 6. Large−Signal Frequency Response

Figure 7. Small Signal Voltage Follower
Pulse Response (Noninverting)

TA = 25°C
RL = R

2.1

I IB , INPUT BIAS CURRENT (nA)

I CC , POWER SUPPLY CURRENT (mA)

2.4

1.8
1.5
1.2
0.9
0.6
0.3
0

0

5.0

10
15
20
25
VCC, POWER SUPPLY VOLTAGE (V)

30

90

80

70

35

0

Figure 8. Power Supply Current versus
Power Supply Voltage

2.0

4.0

6.0 8.0
10
12
14 16
VCC, POWER SUPPLY VOLTAGE (V)

Figure 9. Input Bias Current versus
Supply Voltage

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18

20

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
50 k
R1
VCC

VCC

R2

5.0 k

-

10 k

1/2

MC1403
2.5 V

1/2

+

VO = 2.5 V (1 +

1
CR

1/2

fo =

1
V
2 CC

R1
)
R2

R

R

C

For: fo = 1.0 kHz
R = 16 k
C = 0.01 F

C

R

LM358

Hysteresis

R2

VOH

R1

-

a R1

R1

1/2

eo

LM358

+

LM358

Vin

-

1
CR

1/2

+

R
VinH =
eo = C (1 + a + b) (e2 - e1)

H=

Figure 12. High Impedance Differential Amplifier

C1

R2

-

VinL

R2 = R1
TBP

-

100 k

1/2

+

LM358

+

-

R3 = TN R2

1/2

C1 = 10 C

LM358

+

Vref
Bandpass
Output

Vref

1
2 
RC
R1 = QR
fo =

C

C
R

Vref

R1
(VOH - VOL)
R1 + R2

100 k

LM358

VinH

R1
(V - V ) + Vref
R1 + R2 OH ref

R

1/2

R2

VOL

Figure 13. Comparator with Hysteresis

R
Vin

VO

R1
(V - V )+ Vref
VinL =
R1 + R2 OL ref

LM358

e2

VO

+

Vref

1/2

b R1

1
2  RC

Figure 11. Wien Bridge Oscillator

Figure 10. Voltage Reference

+

VO

LM358

+
Vref =

e1

VCC

-

Vref

VO

LM358

For: fo
Q
TBP
TN

Vref

R3

R1
+

Where: TBP = Center Frequency Gain
TN = Passband Notch Gain

Figure 14. Bi−Quad Filter

8

= 1.0 kHz
= 10
=1
=1

Notch Output

LM358

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1
V
2 CC

C1

1/2

Vref

Vref =

R
C
R1
R2
R3

= 160 k
= 0.001 F
= 1.6 M
= 1.6 M
= 1.6 M

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
VCC
C
Vin

R1

R3

C

-

1/2

LM358
+

R2
Vref

Given:

VO
CO
CO = 10 C
1
Vref = 2 VCC

fo = center frequency
A(fo) = gain at center frequency

Choose value fo, C
Vref =
Vref

1
V
2 CC

Triangle Wave
Output
+

300 k
R3

1/2

LM358
-

75 k
R1

100 k

LM358
-

Square
Wave
Output

R1 + RC
4 CRf R1

Q
 fo C

R1 =

R3
2 A(fo)

R2 =

R1 R3
4Q2 R1 -R3

For less than 10% error from operational amplifier.

Qo fo
< 0.1
BW

Where fo and BW are expressed in Hz.

Rf
f =

R3 =

+
1/2

Vref

C

Then:

R2

if, R3 =

R2 R1
R2 + R1

If source impedance varies, filter may be preceded with voltage
follower buffer to stabilize filter parameters.

Figure 16. Multiple Feedback Bandpass Filter

Figure 15. Function Generator

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LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
ORDERING INFORMATION
Device

Operating Temperature Range

Package

LM358ADR2G

2500 / Tape & Reel
SOIC−8
(Pb−Free)

LM358DG
LM358DR2G
LM358DMR2G

Shipping†

98 Units / Rail
2500 / Tape & Reel

0°C to +70°C

Micro8
(Pb−Free)

4000 / Tape & Reel

LM358NG

PDIP−8
(Pb−Free)

50 Units / Rail

LM258DG

SOIC−8
(Pb−Free)

98 Units / Rail

LM258DR2G
LM258DMR2G

2500 / Tape & Reel

Micro8
(Pb−Free)

4000 / Tape & Reel

LM258NG

PDIP−8
(Pb−Free)

50 Units / Rail

LM2904DG

SOIC−8
(Pb−Free)

98 Units / Rail

−25°C to +85°C

LM2904DR2G
LM2904DMR2G

2500 / Tape & Reel

Micro8
(Pb−Free)

2500 / Tape & Reel

PDIP−8
(Pb−Free)

50 Units / Rail

Micro8
(Pb−Free)

4000 / Tape & Reel

LM2904ANG

PDIP−8
(Pb−Free)

50 Units / Rail

LM2904VDG

SOIC−8
(Pb−Free)

98 Units / Rail

LM2904NG

−40°C to +105°C

LM2904ADMG
LM2904ADMR2G

LM2904VDR2G
LM2904VDMR2G

4000 / Tape & Reel

2500 / Tape & Reel

Micro8
(Pb−Free)

4000 / Tape & Reel

PDIP−8
(Pb−Free)

50 Units / Rail

NCV2904DR2G*

SOIC−8
(Pb−Free)

2500 / Tape & Reel

NCV2904DMR2G*

Micro8
(Pb−Free)

4000 / Tape & Reel

SOIC−8
(Pb−Free)

2500 / Tape & Reel

LM2904VNG

NCV2904VDR2G*

−40°C to +125°C

−40°C to +150°C

†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging
Specifications Brochure, BRD8011/D.
*NCV Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC−Q100 Qualified and PPAP
Capable.

http://onsemi.com
10

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
MARKING DIAGRAMS
PDIP−8
AN SUFFIX
CASE 626

PDIP−8
N SUFFIX
CASE 626
8

8
LMx58N
AWL
YYWWG

1

8
LM2904N
AWL
YYWWG

1

8
LM358
ALYWA
G

2904V
ALYW
G

1

8
x58
AYWG
G

x
A
WL, L
YY, Y
WW, W
G
G

8
2904
ALYW
G

1

8

1
SOIC−8
VD SUFFIX
CASE 751

8

1

LM2904VN
AWL
YYWWG

1
SOIC−8
D SUFFIX
CASE 751

LMx58
ALYW
G

8
LM2904AN
AWL
YYWWG

1

8

PDIP−8
VN SUFFIX
CASE 626

8

*

2904V
ALYWV
G

1
Micro8
DMR2 SUFFIX
CASE 846A
8

2904
AYWG
G
1

SOIC−8
VD SUFFIX
CASE 751

1
NCV2904V

8

904A
AYWG
G
1

= 2 or 3
= Assembly Location
= Wafer Lot
= Year
= Work Week
= Pb−Free Package
= Pb−Free Package − (Note: Microdot may be in either location)

http://onsemi.com
11

904V
AYWG
G

*

1
*This diagram also applies to NCV2904

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
PACKAGE DIMENSIONS
PDIP−8
N, AN, VN SUFFIX
CASE 626−05
ISSUE M
D

A

D1
E
8

5

E1
1

4

NOTE 5

F

c
E2
END VIEW

TOP VIEW

NOTE 3

e/2

A

L
A1

C

SEATING
PLANE

E3

e
8X

SIDE VIEW

b
0.010

M

C A

END VIEW

http://onsemi.com
12

NOTES:
1. DIMENSIONING AND TOLERANCING PER ASME
Y14.5M, 1994.
2. CONTROLLING DIMENSION: INCHES.
3. DIMENSION E IS MEASURED WITH THE LEADS RESTRAINED PARALLEL AT WIDTH E2.
4. DIMENSION E1 DOES NOT INCLUDE MOLD FLASH.
5. ROUNDED CORNERS OPTIONAL.
DIM
A
A1
b
C
D
D1
E
E1
E2
E3
e
L

INCHES
NOM
MAX
−−−− 0.210
−−−−
−−−−
0.018 0.022
0.010 0.014
0.365 0.400
−−−−
−−−−
0.310 0.325
0.250 0.280
0.300 BSC
−−−−
−−−− 0.430
0.100 BSC
0.115 0.130 0.150

MIN
−−−−
0.015
0.014
0.008
0.355
0.005
0.300
0.240

MILLIMETERS
MIN
NOM
MAX
−−−−
−−−−
5.33
0.38
−−−−
−−−−
0.35
0.46
0.56
0.20
0.25
0.36
9.02
9.27 10.02
0.13
−−−−
−−−−
7.62
7.87
8.26
6.10
6.35
7.11
7.62 BSC
−−−−
−−−− 10.92
2.54 BSC
2.92
3.30
3.81

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
PACKAGE DIMENSIONS
SOIC−8 NB
CASE 751−07
ISSUE AK
−X−

NOTES:
1. DIMENSIONING AND TOLERANCING PER
ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
3. DIMENSION A AND B DO NOT INCLUDE
MOLD PROTRUSION.
4. MAXIMUM MOLD PROTRUSION 0.15 (0.006)
PER SIDE.
5. DIMENSION D DOES NOT INCLUDE DAMBAR
PROTRUSION. ALLOWABLE DAMBAR
PROTRUSION SHALL BE 0.127 (0.005) TOTAL
IN EXCESS OF THE D DIMENSION AT
MAXIMUM MATERIAL CONDITION.
6. 751−01 THRU 751−06 ARE OBSOLETE. NEW
STANDARD IS 751−07.

A
8

5

S

B

0.25 (0.010)

M

Y

M

1
4

−Y−

K

G
C

N

DIM
A
B
C
D
G
H
J
K
M
N
S

X 45 _

SEATING
PLANE

−Z−

0.10 (0.004)
H

D
0.25 (0.010)

M

Z Y

S

X

S

M

J

SOLDERING FOOTPRINT*

1.52
0.060

7.0
0.275

4.0
0.155

0.6
0.024

1.270
0.050
SCALE 6:1

mm Ǔ
ǒinches

*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.

http://onsemi.com
13

MILLIMETERS
MIN
MAX
4.80
5.00
3.80
4.00
1.35
1.75
0.33
0.51
1.27 BSC
0.10
0.25
0.19
0.25
0.40
1.27
0_
8_
0.25
0.50
5.80
6.20

INCHES
MIN
MAX
0.189
0.197
0.150
0.157
0.053
0.069
0.013
0.020
0.050 BSC
0.004
0.010
0.007
0.010
0.016
0.050
0 _
8 _
0.010
0.020
0.228
0.244

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V
PACKAGE DIMENSIONS
Micro8t
CASE 846A−02
ISSUE H
D

HE

PIN 1 ID

−T−

NOTES:
1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
3. DIMENSION A DOES NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE
BURRS. MOLD FLASH, PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED
0.15 (0.006) PER SIDE.
4. DIMENSION B DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSION.
INTERLEAD FLASH OR PROTRUSION SHALL NOT EXCEED 0.25 (0.010) PER SIDE.
5. 846A-01 OBSOLETE, NEW STANDARD 846A-02.

E

e

b 8 PL
0.08 (0.003)

M

T B

S

A

S

SEATING
PLANE

A

0.038 (0.0015)
A1

MILLIMETERS
NOM
MAX
−−
1.10
0.08
0.15
0.33
0.40
0.18
0.23
3.00
3.10
3.00
3.10
0.65 BSC
0.40
0.55
0.70
4.75
4.90
5.05

DIM
A
A1
b
c
D
E
e
L
HE

MIN
−−
0.05
0.25
0.13
2.90
2.90

INCHES
NOM
−−
0.003
0.013
0.007
0.118
0.118
0.026 BSC
0.016
0.021
0.187
0.193
MIN
−−
0.002
0.010
0.005
0.114
0.114

MAX
0.043
0.006
0.016
0.009
0.122
0.122
0.028
0.199

L

c

SOLDERING FOOTPRINT*
8X

1.04
0.041

0.38
0.015

3.20
0.126

6X

8X

4.24
0.167

0.65
0.0256

5.28
0.208

SCALE 8:1

mm Ǔ
ǒinches

*For additional information on our Pb−Free strategy and soldering
details, please download the ON Semiconductor Soldering and
Mounting Techniques Reference Manual, SOLDERRM/D.

Micro8 is a trademark of International Rectifier.
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.
“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights
nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications
intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should
Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,
and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death
associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal
Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.

PUBLICATION ORDERING INFORMATION
LITERATURE FULFILLMENT:
Literature Distribution Center for ON Semiconductor
P.O. Box 5163, Denver, Colorado 80217 USA
Phone: 303−675−2175 or 800−344−3860 Toll Free USA/Canada
Fax: 303−675−2176 or 800−344−3867 Toll Free USA/Canada
Email: orderlit@onsemi.com

N. American Technical Support: 800−282−9855 Toll Free
USA/Canada
Europe, Middle East and Africa Technical Support:
Phone: 421 33 790 2910
Japan Customer Focus Center
Phone: 81−3−5817−1050

http://onsemi.com
14

ON Semiconductor Website: www.onsemi.com
Order Literature: http://www.onsemi.com/orderlit
For additional information, please contact your local
Sales Representative

LM358/D

www.s-manuals.com
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Subject                         : LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904, NCV2904V - Datasheet. www.s-manuals.com.
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