HTC LM324N

QUAD OPERATIONAL AMPLIFIERS
LM324
SOP 14 / DIP 14 PKG
Output 1
1
-Input 1
2
+Input 1
3
V+
4
11
1
GND
+Input 2
5
10
+Input 3
9
-Input 3
8
Output 3
FEATURES
●
●
●
●
●
●
●
Internally frequency compensated for unity gain
Large DC voltage gain : 100dB
Wide power supply range : 3V~32V(or±1.5V~15V)
Input common-mode voltage range includes ground
Large output voltage swing : 0V DC to VCC-1.5V DC
Power drain suitable for battery operation
Moisture Sensitivity Level 3
-Input 2
6
Output 2
7
1
- +
- +
2
14
Output 4
13
-Input 4
+ - 12
+Input 4
4
+3
ORDERING INFORMATION
Device
LM324D
LM324N
QUAD OPERATION AMPLIFIERS
Package
14 SOP
14 DIP
LM324 is consists of four independent, high gain, internally frequency compensated operational amplifiers
which were designed specifically to operate from a single power supply over a wide voltage range.
Operation from split power supplies is also possible so long as the difference between the two supplies
is 3 volts to 32 volts 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.
EQUIMMENT CIRCUIT
V+
100㎂
6㎂
6㎂
Q5
Q6
CC
Q2
-
Q1
Q7
Q3
RSC
Q4
OUTPUT
INPUTS
+
Q13
Q11
50㎂
Q10
Q8
Q12
Q9
HTC
2008 - Ver. 1.0
-1-
QUAD OPERATIONAL AMPLIFIERS
LM324
ABSOLUTE MAXIMUM RATINGS
CHARACTERISTIC
Power Supply Voltage
Differential Input Voltage
Input Voltage
Output Short Circuit to GND
VCC≤15V TA=25℃ (One Amp)
Power Dissipation
Operating Temperature Range
Storage Temperature Range
SYMBOL
VCC
VI(DIFF)
VI
VALUE
±18 or 32
32
-0.3 to +32
Continuous
UNIT
V
V
V
PD
TOPR
TSTG
570
0~+70
-65 to +150
㎽
℃
℃
Electrical characterisitics at specified free-air temperature, VCC=5V(unless otherwise noted)
PARAMETER
VIO
Input Offset Voltage
αVIO
Average Temperature Coefficient
of Input Offset Voltage
IIO
Input Offset Current
αllo
Average Temperature Coefficient
of Input Offset Current
IIB
Input Bias Current
VICR
Common-Mode Input Voltage
Range
VOH
High-Level Output Voltage
VOL
Low-Level Output Voltage
AVD
Large-Signal Differential
Voltage Amplification
CMRR
Common-Mode Rejection Ratio
KSVR Supply Voltage Rejection
Ratio(ΔVCC/ΔVIO)
V01/V02
Crosstalk Attenuation
*TEST CONDITIONS
VCC=5V to MAX,
VIC=VICR MIN,
VO=1.4V
MIN
25℃
LM324D
TYP
3
Full Range
9
Full Range
7
25℃
Full Range
2
Full Range
10
25℃
Full Range
25℃
-20
0toVCC-1.5
Full Range
0toVCC-2
RL ≥2㏀
VCC=MAX, RL =2㏀
VCC=MAX,
RL ≥10㏀
25℃
Full Range
V CC-1.5
Full Range
27
RL ≥10㏀
Full Range
VO=1.4V
VO=1.4V
VCC=5V to MAX
MAX
7
UNIT
㎷
㎶/℃
50
150
㎁
㎀/℃
-250
-500
㎁
V
26
V
28
5
20
㎷
VCC=15V,
VO=1V to 11V,
RL ≥2㏀
VCC=5V to MAX,
VIC=VICR MIN,
25℃
25
Full Range
15
25℃
65
80
㏈
VCC=5V to MAX
25℃
65
100
㏈
f=1 kHz to 20kHz
25℃
120
㏈
100
VCC=15V,
25℃
-20
-30
Full Range
-10
VID=1V, VO=0
25℃
10
20
IO
VCC=15V,
Full Range
5
VID=1V, VO=15V
Output Current
VID=1V,
25℃
12
30
VO=200㎷
IOS
VCC at 5V,
25℃
±40
GND at -5V, VO=0
Short-Circuit Output Current
Full Range
0.7
ICC
VO-2.5V, No Load
VCC=MAX,
Supply Current (Four Amplifiers)
Full Range
1.1
VO=0.5VCC, No load
* All characteristics are measured under open loop conditions with zero common-mode input voltage unless
otherwise specified <<MAX>> V CC for testing purpose is 30V. Full range is 0℃ to 70℃.
V/㎷
㎃
±60
㎃
1.2
3
㎃
HTC
-2-
QUAD OPERATIONAL AMPLIFIERS
LM324
TYPICAL PERFORMANCE CHARACTERISTICS
OUTPUT CHARACTERISITICS
CURRENT SOURCING
SUPPLY CURRENT
8
V+
+ +/2
3
V
2
1
TA=0℃TO+125℃
TA=-55℃
0
10
20
+
-
5
+
V>-OUTPUT VOLTAGE
6
0
+
IO
INDEPENDENT OF+ V
3
TA=+25℃
80
70
60
50
40
30
20
2
10
1
0.001
40
30
0.01
0.1
1
10
0
-55 -35 -15 5
100
IO+-OUTPUT SOURCE CURRENT (㎃DC)
160
25
45 65 85 105 125
TEMPERATURE(℃)
OUTPUT CHARACTERISITICS
CURRENT SINKING
VOLTAGE GAIN
OPEN-LOOP FREQUENCY
RESPONSE
10
140
V+
V+=+5VDC
RL=20㏀
120
RL=2㏀
80
40
VOLTAGE GAIN (㏈
V =+15VDC
V+=+30VDC
1
V+
+/2
V
++
0.1
IO
10
20
30
V
V+/2
80
V+=30VDC AND
-55℃≤TA≤+125℃
60
V+=10℃ TO 15V
DC AND
-55℃≤TA≤+125℃
20
TA=+25℃
40
0
0.001
0.01
0.1
1
10
100
1
10
100
1K
100K
10K
SUPPLY VOLTAGE(V
DC)
IO+-OUTPUT SINK CURRENT (㎃DC)
FREQUENCY(㎐)
LARGE-SIGNAL FREQUENCY
RESPONSE
VOLTAGE-FOLLOWER PULSE
RESPONSE
INPUT VOLTAGE RANGE
VDC
100K
1K
VIN
+
7VVD
V0
2K
INPUT VOLTAGE(V)
15
10
5
0
4
10M
15
3
RL=≥2KV+=15VDC
VIN -INPUT VOLTAGE(±V
DC)
15
1M
2
1
0
3
2
10
NEGATIVE
POSITIVE
5
+
20
OUTVOLTAGE
0
+
VIN
100
40
V0
0.01
0
10M
0.1㎌
120
+
V0-OUTPUT VOLTAGE
(VDC)
AVOL-VOLTAGE GAIN(㏈
V2
4
SUPPLY VOLTAGE (V
DC)
V0-OUTPUT SWING(V
P-P)
OUTPUT CURRENT(㎃
DC)
7
REFERENCED TO (V
V DC)
SUPPLY CURRENT DRAIN(㎃
DC)
4
CURRENT LIMITING
90
1
0
1K
10K
FREQUENCY(㎐)
100K
1M
0
10
20
TIME(㎲)
30
40
0
5
10
15
V+ OR V--POWER SUPPLY VOLTAGE (±V
DC)
HTC
-3-
QUAD OPERATIONAL AMPLIFIERS
LM324
TYPICAL PERFORMANCE CHARACTERISTICS (CONTINIED)
90
VCM=0VDC
IB-INPUT CURRENT(㎁
DC)
80
70
60
V+=+30VDC
50
V+=+15VDC
40
30
20
+
V =+5VDC
10
0
-55 -35 -15
5
25
45 65
VOLTAGE-FOLLOWER PULSE
RESPONSE (SMALL-SIGNAL)
COMMON-MODE REJECTION RATIO
500
120
EO-OUTPUT VOLTAGE(㎷
CMRR-COMMON-MODE REJECTION RATIO
INPUT CURRENT
100
80
+
7.5VDC
100K
60
100
40
+
100
+
VIN
20
V0
100K
EO
50㎊
eIN
400
INPUT
350
OUTPUT
300
7.5VDC
0
85 105 125
450
TA=+25℃
V+=30VDC
250
10
1K
TA-TEMPERATURE(℃)
10K
100K
0
1M
2
1
3
4
55
6
7
8
t-TIME(㎲)
f-FREQUENCY(㎐)
TYPICAL APPLICATIONS
V+
RF
V+
VIN
RIN
-
10K
V+
8
VIN
V0
+
4
+
V+
2
RL
-
8
V0
4
10K
V+
2
SINGLE SUPPLY INVERTING AMPLIFIER
INPUT BIASING VOLTAGE POLLOWER
V+
V+
10K
VIN
+
8
V0
-
4
10K
BLOCKS
DC
GAIN
RI
RF
NON-INVERTING AMPLIFIER
HTC
-4-