FAIRCHILD LM258AMX

www.fairchildsemi.com
LM2904,LM358/LM358A,LM258/
LM258A
Dual Operational Amplifier
Features
Description
• Internally Frequency Compensated for Unity Gain
• Large DC Voltage Gain: 100dB
• Wide Power Supply Range:
LM258/LM258A, LM358/LM358A: 3V~32V (or ±1.5V
~ 16V)
LM2904 : 3V~26V (or ±1.5V ~ 13V)
• Input Common Mode Voltage Range Includes Ground
• Large Output Voltage Swing: 0V DC to Vcc -1.5V DC
• Power Drain Suitable for Battery Operation.
The LM2904,LM358/LM358A, LM258/LM258A consist of
two independent, high gain, internally frequency
compensated operational amplifiers which were designed
specifically to operate from a single power supply over a
wide range of voltage. Operation from split power supplies
is also possible and the low power supply current drain is
independent of the magnitude of the power supply voltage.
Application areas include transducer amplifier, DC gain
blocks and all the conventional OP-AMP circuits which now
can be easily implemented in single power supply systems.
8-DIP
1
8-SOP
1
Internal Block Diagram
OUT1
1
IN1 (-)
2
IN1 (+)
3
GND
4
8
VCC
7
OUT2
-
6
IN2 (-)
+
5
IN2 (+)
+
Rev. 1.0.3
©2010 Fairchild Semiconductor Corporation
LM2904,LM358/LM358A,LM258/LM258A
Schematic Diagram
(One section only)
VCC
Q5
Q12
Q6
Q17
Q19
Q20
Q2
Q3
R1
C1
Q4
IN(-)
Q18
Q1
R2
IN(+)
Q11
OUTPUT
Q21
Q15
Q10
Q7
Q13
Q8
Q14
Q9
Q16
GND
Absolute Maximum Ratings
Parameter
Symbol
LM258/LM258A
LM358/LM358A
LM2904
Unit
VCC
±16 or 32
±16 or 32
±13 or 26
V
VI(DIFF)
32
32
26
V
Input Voltage
VI
-0.3 to +32
-0.3 to +32
-0.3 to +26
V
Output Short Circuit to GND
VCC≤15V, TA = 25°C(One Amp)
-
Continuous
Continuous
Continuous
-
Operating Temperature Range
TOPR
-25 ~ +85
0 ~ +70
-40 ~ +85
°C
Maximun Junction Temperature
TJ(MAX)
+150
+150
+150
°C
TSTG
-65 ~ +150
-65 ~ +150
-65 ~ +150
°C
Supply Voltage
Differential Input Voltage
Storage Temperature Range
2
LM2904,LM358/LM358A,LM258/LM258A
Electrical Characteristics
(VCC = 5.0V, VEE = GND, TA = 25°C, unless otherwise specified)
Parameter
Symbol
Input Offset
Voltage
VIO
Input Offset
Current
IIO
Input Bias
Current
Input Voltage
Range
Conditions
VCM = 0V to VCC
-1.5V
VO(P) = 1.4V,
RS = 0Ω
LM258
LM358
LM2904
Min. Typ. Max. Min. Typ. Max. Min. Typ. Max.
Unit
-
2.9
5.0
-
2.9
7.0
-
2.9
7.0
mV
-
-
3
30
-
5
50
-
5
50
nA
IBIAS
-
-
45
150
-
45
250
-
45
250
nA
VI(R)
VCC = 30V
(LM2904, VCC=26V)
0
-
VCC
-1.5
0
-
VCC
-1.5
0
-
VCC
-1.5
V
RL = ∞, VCC = 30V
(LM2904, VCC=26V)
-
0.8
2.0
-
0.8
2.0
-
0.8
2.0
mA
RL = ∞, VCC = 5V
-
0.5
1.2
-
0.5
1.2
-
0.5
1.2
mA
VCC = 15V,
RL= 2kΩ
VO(P) = 1V to 11V
50
100
-
25
100
-
25
100
-
V/mV
-
-
26
-
-
22
-
-
V
28
-
27
28
-
23
24
-
V
5
20
mV
Supply Current
ICC
Large Signal
Voltage Gain
GV
VO(H)
Output Voltage
Swing
VCC=30V RL = 2kΩ 26
(VCC
RL =
=26V for
27
10kΩ
LM2904)
VO(L)
VCC = 5V, RL= 10kΩ
-
5
20
-
5
20
Common-Mode
Rejection Ratio
CMRR
-
70
85
-
65
80
-
50
80
-
dB
Power Supply
Rejection Ratio
PSRR
-
65
100
-
65
100
-
50
100
-
dB
-
120
-
-
120
-
-
120
-
dB
-
40
60
-
40
60
-
40
60
mA
20
30
-
20
30
-
20
30
-
mA
VI(+) = 0V, VI(-) = 1V,
VCC = 15V,
VO(P) = 2V
10
15
-
10
15
-
10
15
-
mA
VI(+) = 0V,VI(-) =1V ,
VCC = 15V,
VO(P) = 200mV
12
100
-
12
100
-
-
-
-
μA
-
-
-
VCC
-
-
VCC
-
-
VCC
V
Channel
Separation
CS
Short Circuit to
GND
ISC
f = 1kHz to 20kHz
(Note1)
-
VI(+) = 1V,
VI(-) = 0V,
ISOURCE
VCC = 15V,
VO(P) = 2V
Output Current
ISINK
Differential
Input Voltage
VI(DIFF)
Note:
1. This parameter, although guaranteed, is not 100% tested in production.
3
LM2904,LM358/LM358A,LM258/LM258A
Electrical Characteristics (Continued)
(VCC= 5.0V, VEE = GND, unless otherwise specified)
The following specification apply over the range of -25°C ≤ TA ≤ +85°C for the LM258; and the 0°C ≤ TA ≤ +70°C
for the LM358; and the -40°C ≤ TA ≤ +85°C for the LM2904
Parameter
Symbol
LM258
LM358
LM2904
Min. Typ. Max. Min. Typ. Max. Min. Typ. Max.
Unit
VCM = 0V to
VCC -1.5V
VO(P) = 1.4V,
RS = 0Ω
-
-
7.0
-
-
9.0
-
-
10.0
mV
RS = 0Ω
-
7.0
-
-
7.0
-
-
7.0
-
μV/°C
-
-
-
100
-
-
150
-
45
200
nA
ΔIIO/ΔT
-
-
10
-
-
10
-
-
10
-
pA/°C
Input Bias
Current
IBIAS
-
-
40
300
-
40
500
-
40
500
nA
Input Voltage
Range
VI(R)
VCC = 30V
(LM2904 , VCC = 26V)
0
-
VCC
-2.0
0
-
VCC
-2.0
0
-
VCC
-2.0
V
Large Signal
Voltage Gain
GV
VCC = 15V,
RL =2.0kΩ
VO(P) = 1V to 11V
25
-
-
15
-
-
15
-
-
V/mV
RL = 2kΩ
26
-
-
26
-
-
22
-
-
V
RL=10kΩ
27
28
-
27
28
-
23
24
-
V
-
5
20
-
5
20
-
5
20
mV
VI(+) = 1V,
VI(-) = 0V,
ISOURCE
VCC = 15V,
VO(P) = 2V
10
30
-
10
30
-
10
30
-
mA
VI(+) = 0V,
VI(-) = 1V,
VCC = 15V,
VO(P) = 2V
5
8
-
5
9
-
5
9
-
mA
-
-
-
VCC
-
-
VCC
-
-
VCC
V
Input Offset
Voltage
VIO
Input Offset
Voltage Drift
ΔVIO/ΔT
Input Offset
Current
IIO
Input Offset
Current Drift
Output Voltage
Swing
Output Current
VO(H)
VCC=30V
(VCC =
26V for
LM2904)
VO(L)
VCC = 5V, RL=10kΩ
ISINK
Differential
Input Voltage
4
Conditions
VI(DIFF)
LM2904,LM358/LM358A,LM258/LM258A
Electrical Characteristics (Continued)
(VCC = 5.0V, VEE = GND, TA = 25°C, unless otherwise specified)
Parameter
Symbol
Input Offset Voltage
VIO
Input Offset Current
IIO
Input Bias Current
IBIAS
Input Voltage Range
VI(R)
Supply Current
ICC
Large Signal Voltage
Gain
GV
Output Voltage Swing
Conditions
LM258A
Min. Typ.
VCM = 0V to VCC -1.5V
VO(P) = 1.4V, RS = 0Ω
LM358A
Max. Min. Typ.
Max.
Unit
-
1.0
3.0
-
2.0
3.0
mV
-
-
2
15
-
5
30
nA
-
-
40
80
-
45
100
nA
VCC = 30V
0
-
VCC
-1.5
0
-
VCC
-1.5
V
RL = ∞,VCC = 30V
-
0.8
2.0
-
0.8
2.0
mA
RL = ∞, VCC = 5V
-
0.5
1.2
-
0.5
1.2
mA
50
100
-
25
100
-
V/mV
RL = 2kΩ
26
-
-
26
-
V
RL =10kΩ
27
28
-
27
28
-
V
-
5
20
-
5
20
mV
VCC = 15V, RL= 2kΩ
VO = 1V to 11V
VOH
VCC = 30V
VO(L)
VCC = 5V, RL=10kΩ
Common-Mode
Rejection Ratio
CMRR
-
70
85
-
65
85
-
dB
Power Supply
Rejection Ratio
PSRR
-
65
100
-
65
100
-
dB
Channel Separation
CS
f = 1kHz to 20kHz (Note1)
-
120
-
-
120
-
dB
Short Circuit to GND
ISC
-
-
40
60
-
40
60
mA
VI(+) = 1V, VI(-) = 0V
VCC = 15V, VO(P) = 2V
20
30
-
20
30
-
mA
VI(+) = 1V, VI(-) = 0V
VCC = 15V, VO(P) = 2V
10
15
-
10
15
-
mA
Vin + = 0V, Vin (-) = 1V
VO(P) = 200mV
12
100
-
12
100
-
μA
-
-
VCC
-
-
VCC
V
ISOURCE
Output Current
ISINK
Differential Input
Voltage
VI(DIFF)
-
Note:
1. This parameter, although guaranteed, is not 100% tested in production.
5
LM2904,LM358/LM358A,LM258/LM258A
Electrical Characteristics (Continued)
(VCC = 5.0V, VEE = GND, unless otherwise specified)
The following specification apply over the range of -25°C ≤ TA ≤ +85°C for the LM258A; and the 0°C ≤ TA ≤ +70°C
for the LM358A
Parameter
Input Offset Voltage
Symbol
VIO
VCM = 0V to VCC -1.5V
VO(P) = 1.4V, RS = 0Ω
LM258A
LM358A
Min. Typ. Max. Min. Typ. Max.
Unit
-
-
4.0
-
-
5.0
mV
ΔVIO/ΔT
-
-
7.0
15
-
7.0
20
μV/°C
IIO
-
-
-
30
-
-
75
nA
ΔIIO/ΔT
-
-
10
200
-
10
300
pA/°C
Input Bias Current
IBIAS
-
-
40
100
-
40
200
nA
Input Common-Mode
Voltage Range
VI(R)
VCC = 30V
0
-
Vcc
-2.0
0
-
Vcc
-2.0
V
VO(H)
VCC = 30V
RL = 2kΩ
26
-
-
26
-
-
V
RL = 10kΩ
27
28
-
27
28
-
V
VO(L)
VCC = 5V, RL=10kΩ
-
5
20
-
5
20
mV
Input Offset Voltage Drift
Input Offset Current
Input Offset Current Drift
Output Voltage Swing
Large Signal Voltage Gain
GV
VCC = 15V, RL=2.0kΩ
VO(P) = 1V to 11V
25
-
-
15
-
-
V/mV
ISOURCE
VI(+) = 1V, VI(-) = 0V
VCC = 15V, VO(P) = 2V
10
30
-
10
30
-
mA
ISINK
VI(+) = 1V, VI(-) = 0V
VCC = 15V, VO(P) = 2V
5
9
-
5
9
-
mA
-
-
VCC
-
-
VCC
V
Output Current
Differential Input Voltage
6
Conditions
VI(DIFF)
-
LM2904,LM358/LM358A,LM258/LM258A
Typical Performance Characteristics
Figure 1. Supply Current vs Supply Voltage
Figure 2. Voltage Gain vs Supply Voltage
Figure 3. Open Loop Frequency Response
Figure 4. Large Signal Output Swing vs Frequency
Figure 5. Output Characteristics vs Current Sourcing
Figure 6. Output Characteristics vs Current Sinking
7
LM2904,LM358/LM358A,LM258/LM258A
Typical Performance Characteristics (Continued)
Figure 7. Input Voltage Range vs Supply Voltage
Figure 8. Common-Mode Rejection Ratio
Figure 9. Output Current vs Temperature (Current Limiting)
Figure 10. Input Current vs Temperature
Figure 11. Voltage Follower Pulse Response
Figure 12. Voltage Follower Pulse Response
(Small Signal)
8
LM2904,LM358/LM358A,LM258/LM258A
Mechanical Dimensions
Package
Dimensions in millimeters
#4
#5
1.524 ±0.10
0.060 ±0.004
0.46 ±0.10
#8
2.54
0.100
9.60
MAX
0.378
#1
9.20 ±0.20
0.362 ±0.008
(
6.40 ±0.20
0.252 ±0.008
0.018 ±0.004
0.79
)
0.031
8-DIP
5.08
MAX
0.200
7.62
0.300
3.40 ±0.20
0.134 ±0.008
3.30 ±0.30
0.130 ±0.012
0.33
0.013 MIN
+0.10
0.25 –0.05
+0.004
0~15°
0.010 –0.002
9
LM2904,LM358/LM358A,LM258/LM258A
Mechanical Dimensions (Continued)
Package
Dimensions in millimeters
8-SOP
MIN
#5
10
°
0~
8
+0.10
0.15 -0.05
+0.004
0.006 -0.002
3.95 ±0.20
0.156 ±0.008
5.72
0.225
0.50 ±0.20
0.020 ±0.008
1.80
MAX
0.071
MAX0.10
MAX0.004
6.00 ±0.30
0.236 ±0.012
0.41 ±0.10
0.016 ±0.004
#4
1.27
0.050
#8
5.13
MAX
0.202
#1
4.92 ±0.20
0.194 ±0.008
(
0.56
)
0.022
1.55 ±0.20
0.061 ±0.008
0.1~0.25
0.004~0.001
LM2904,LM358/LM358A,LM258/LM258A
Ordering Information
Product Number
LM358N
LM358AN
LM358M
LM358AM
Package
8-DIP
0 ~ +70°C
8-SOP
LM2904N
8-DIP
LM2904M
8-SOP
LM258N
LM258AN
LM258M
LM258AM
Operating Temperature
-40 ~ +85°C
8-DIP
-25 ~ +85°C
8-SOP
11
LM2904,LM358/LM358A,LM258/LM258A
DISCLAIMER
FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY
PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY
LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER
DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES
OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR
CORPORATION. As used herein:
1. Life support devices or systems are devices or systems
which, (a) are intended for surgical implant into the body,
or (b) support or sustain life, and (c) whose failure to
perform when properly used in accordance with
instructions for use provided in the labeling, can be
reasonably expected to result in a significant injury of the
user.
2. A critical component in any component of a life support
device or system whose failure to perform can be
reasonably expected to cause the failure of the life support
device or system, or to affect its safety or effectiveness.
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