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LM358  
LINEAR INTEGRATED CIRCUIT  
DUAL OPERATIONAL AMPLIFIER  
DESCRIPTION  
The LM358 consists of two independent high gain,  
internally frequency compensated operational amplifier. It can  
be operated from a single power supply and also split power  
supplies.  
SOP-8  
FEATURES  
*Internally frequency compensated for unity gain.  
*Wide power supply range 3V - 32V.  
*Input common-mode voltage range include ground.  
*Large DC voltage gain.  
APPLICATIONS  
*General purpose amplifier.  
*Transducer amplifier.  
DIP-8  
PIN CONFIGURATIONS  
OUTPUT 1  
INPUT1(-)  
INPUT1(+)  
VEE / GND  
Vcc  
1
2
3
4
8
7
6
5
OUTPUT2  
INPUT2(-)  
INPUT2(+)  
1
LM358  
LINEAR INTEGRATED CIRCUIT  
BLOCK DIAGRAM  
For one channel  
Vcc  
T21  
T20  
T18  
T17  
T16  
R1  
T15 R2  
T2 T4  
T3  
INPUT (-)  
INPUT (+)  
T1  
C1  
T9  
T12  
T11  
OUTPUT  
T14  
T7  
T8  
T13  
T5  
T6  
T10  
Vee  
ABSOLUTE MAXIMUM RATINGS  
PARAMETER  
SYMBOL  
VALUE  
UNIT  
Supply Voltage  
Vcc  
VI(DIFF)  
VI  
+-16 or 32  
32  
V
Differential Input Voltage  
Input Voltage  
V
V
-0.3 ~ +32  
Continuous  
0 ~ +70  
Output Short to Ground  
Operating Temperature  
Range  
TOPR  
TSTG  
°C  
°C  
Storage Temperature Range  
-65 ~ +150  
2
LM358  
LINEAR INTEGRATED CIRCUIT  
ELECTRICAL CHARACTERISTICS(Vcc=5.0V,VEE=GND,TA=25°C, unless otherwise specified  
?
UNIT  
mV  
PARAMETER  
SYMBOL  
TEST CONDITION  
VCM=0V toVCC-1.5V  
VO(P)=1.4V,RS=0W  
MIN  
TYP  
MAX  
Input Offset Voltage  
VIO  
2.9  
7.0  
Input Offset Current  
IIO  
IBIAS  
VI(R)  
ICC  
5
50  
250  
nA  
nA  
V
Input Bias Current  
45  
Input Common Mode Voltage  
Power Supply Current  
VCC=30V  
RL=μ,VCC=30V  
0
VCC-1.5  
2.0  
0.8  
0.5  
mA  
mA  
RL=μ,Full Temperature  
Range  
1.2  
Large Signal Voltage Gain  
Output Voltage Swing  
GV  
VCC=15V,RL>=2KW  
VO(P)=1V to 11V  
VCC=30V,RL=2KW  
VCC=30V,RL=10KW  
VCC=5V,RL>=10KW  
25  
100  
V/mV  
VO(H)  
26  
27  
V
V
28  
5
VO(L)  
20  
60  
mV  
dB  
Common Mode Rejection  
Ratio  
CMRR  
65  
65  
80  
Power Supply Rejection  
Ratio  
PSRR  
100  
dB  
Channel Separation  
Short Circuit Current to  
Ground  
CS  
f=1KHZ to 20KHZ  
120  
40  
dB  
ISC  
mA  
Output Current  
ISOURCE  
ISINK  
VI(+)=1V,VI(-)=0V  
VCC=15V,VO(P)=2V  
VI(+)=0V,VI(-)=1V  
20  
10  
12  
30  
15  
mA  
mA  
mA  
V
VCC=15V,VO(P)=2V  
VI(+)=0V,VI(-)=1V  
100  
VCC=15V,VO(P)=200mV  
Differential Input Voltage  
VI(DIFF)  
VCC  
3
LM358  
LINEAR INTEGRATED CIRCUIT  
TYPICAL PERFORMANCE CHARACTERISTICS  
Fig.2 Input Current vs Temperature  
Fig.1 Input Voltage Range  
100  
80  
15  
10  
Negative  
Input  
Vcc=+30V  
Vcc=+15V  
60  
40  
20  
0
Positive  
Input  
5
0
Vcc=+5V  
-50  
-25  
0
25  
50  
75  
100  
0
5
10  
15  
X
Temperature( C)  
Power Supply Voltage  
Fig. 4 Voltage Gain vs Supply Voltage  
Fig.3 Input Current vs Supply Voltage  
160  
120  
40  
30  
Vcc  
RL=20k  
RL=2k  
W
Ic  
W
80  
20  
40  
0
X
C
10  
0
Ta= 0~+85  
X
C
Ta= -40  
0
7.5  
15  
Supply Voltage (V)  
22.5  
30  
0
10  
20  
Supply Voltage (V)  
30  
40  
Fig. 5 Open Loop Gain vs Frequency  
Fig. 6 Common Mode Rejection Ratio vs Frequency  
120  
120  
Vcc  
100  
80  
100M  
W
100  
0.1  
mF  
Vcc=+7.5V  
Vee=-7.5V  
80  
60  
Vin  
Vcc/2  
+7.5V  
100k  
60  
40  
W
100  
W
40  
20  
0
100  
Vin  
W
Vcc=30V  
Vcc=15V  
100k  
W
-7.5V  
20  
0
2
2
0
1
3
4
5
6
7
3
4
5
6
10  
10  
10  
10  
10  
10  
10  
10  
10  
10  
10  
10  
Frequency (Hz)  
10  
Frequency (Hz)  
4
LM358  
LINEAR INTEGRATED CIRCUIT  
Fig. 8 Voltage Follower Response (Small Signal)  
Fig. 7 Voltage Follower Pulse Response  
3
450  
400  
RL=2kW  
Vcc=15V  
2
1
0
3
2
350  
300  
1
0
1
2
4
5
?
6
(ms)  
7
8
9
3
0
0
10  
50  
20  
30  
40  
Time  
Time (uS)  
Fig. 9 Gain vs Large Signal Frequency  
Fig. 10 Output Current Sinking vs Output Voltage  
8
7
X
C
Ta=25  
15  
10  
5
+15V  
100k  
6
5
1k  
Vcc  
Vo  
Io  
Vcc/  
2
Vi  
+7V  
2k  
4
3
2
1
10-3  
0
103  
104  
105  
106  
10-2  
10-1  
1
10  
102  
Frequency (Hz)  
Output Source Current (mA)  
Fig. 11 Output Sink Current vs Output Voltage  
Fig.12 Current Limiting vs Temperature  
10  
1
60  
40  
Vcc=+5V  
Vcc=+15V  
Vcc  
10-1  
Vcc/  
20  
0
2
Vo  
Vcc=+30V  
Io  
10-3  
10-2  
10-1  
1
10  
102  
-50  
-25  
25  
50  
¢ X  
( C)  
75  
100  
0
è
Temperature  
Output Sink Current (mA)  
5