NSC LM3303N

LM3303/LM3403
Quad Operational Amplifiers
Y
General Description
The LM3303 and LM3403 are monolithic quad operational
amplifiers consisting of four independent high gain, internally frequency compensated, operational amplifiers designed
to operate from a single power supply or dual power supplies over a wide range of voltages. The common mode
input range includes the negative supply, thereby eliminating the necessity for external biasing components in many
applications.
Features
Y
Y
Y
Y
Y
Y
Y
Applications
Y
Input common mode voltage range includes ground or
negative supply
Output voltage can swing to ground or negative supply
Connection Diagram
Four internally compensated operational amplifiers in a
single package
Wide power supply range single supply of 3.0V to 36V
dual supply of g 1.5V to g 18V
Class AB output stage for minimal crossover distortion
Short circuit protected outputs
High open loop gain 200k
LM741 operational amplifier type performance
Y
Filters
Voltage controlled oscillators
Order Information
14-Lead DIP and SO-14 Package
TL/H/10064 – 1
Device
Code
Package
Code
Package
Description
LM3303J
LM3303N
J14A
N14A
Ceramic DIP
Molded DIP
LM3303M
LM3403J
LM3403N
LM3403M
M14A
J14A
N14A
M14A
Molded Surface Mount
Ceramic DIP
Molded DIP
Molded Surface Mount
Top View
Equivalent Circuit ((/4 of Circuit)
TL/H/10064 – 2
C1995 National Semiconductor Corporation
TL/H/10064
RRD-B30M115/Printed in U. S. A.
LM3303/LM3403 Quad Operational Amplifiers
February 1995
Absolute Maximum Ratings
Internal Power Dissipation (Notes 1, 2)
14L-Ceramic DIP
14L-Molded DIP
SO-14
Supply Voltage between V a and Vb
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.
Storage Temperature Range
Ceramic DIP
Molded DIP and SO-14
Operating Temperature Range
Industrial (LM3303)
Commercial (LM3403)
Lead Temperature
Ceramic DIP (Soldering, 60 sec.)
Molded DIP and SO-14
(Soldering, 10 sec.)
b 65§ C to a 175§ C
b 65§ C to a 150§ C
Differential Input Voltage (Note 3)
Input Voltage
ESD Tolerance
b 40§ C to a 85§ C
0§ C to a 70§ C
1.36W
1.04W
0.93W
36V
g 30V
(Vb) b 0.3V to V a
(To Be Determined)
300§ C
265§ C
LM3303 and LM3403
Electrical Characteristics TA e 25§ C, VCC e g 15V, unless otherwise specified
Symbol
Parameter
LM3303
Conditions
Min
LM3403
Typ
Max
Min
Units
Typ
Max
VIO
Input Offset Voltage
2.0
8.0
2.0
8.0
mV
IIO
Input Offset Current
30
75
30
50
nA
IIB
Input Bias Current
200
500
200
500
ZI
Input Impedance
0.3
ICC
Supply Current
VO e 0V, RL e %
CMR
Common Mode Rejection
RS s 10 kX
VIR
Input Voltage Range
PSRR
Power Supply
Rejection Ratio
IOS
Output Short Circuit Current
(Per Amplifier) (Note 4)
AVS
Large Signal Voltage Gain
VOP
Output Voltage Swing
TR
Transient
Response
1.0
2.8
0.3
7.0
1.0
2.8
nA
MX
7.0
mA
70
90
70
90
dB
a 12V
to Vb
a 12.5V
to Vb
a 13V
to Vb
a 13.5V
to Vb
V
30
150
30
150
mV/V
g 10
g 30
g 45
g 10
g 30
g 45
mA
VO e g 10V,
RL t 2.0 kX
20
200
20
200
RL e 10 kX
RL e 2.0 kX
g 12
12.5
g 12
a 13.5
g 10
12
g 10
g 13
V/mV
V
Rise Time/
Fall Time
VO e 50 mV,
AV e 1.0, RL e 10 kX
0.3
0.3
ms
Overshoot
VO e 50 mV,
AV e 1.0, RL e 10 kX
5.0
5.0
%
BW
Bandwidth
VO e 50 mV,
AV e 1.0, RL e 10 kX
1.0
1.0
MHz
SR
Slew Rate
VI e b10V to a 10V,
AV e 1.0
0.6
0.6
V/ms
2
LM3303 and LM3403 (Continued)
Electrical Characteristics TA e 25§ C, VCC e g 15V, unless otherwise specified
The following specifications apply for b40§ C s TA s a 85§ C for the LM3303, and 0§ C s TA s a 70§ C for the LM3403
Symbol
Parameter
LM3303
Conditions
Min
VIO
Input Offset Voltage
DVIO/DT
Input Offset Voltage
Temperature Sensitivity
IIO
Input Offset Current
DIIO/DT
Input Offset Current
Temperature Sensitivity
IIB
Input Bias Current
AVS
Large Signal Voltage Gain
Output Voltage Swing
LM3403
Max
Min
Typ
10
10
250
50
1000
RL e 2.0 kX
mV
mV/§ C
200
50
VO e g 10V,
Units
Max
10
10
RL t 2.0 kX
VOP
Typ
nA
pA/§ C
800
nA
15
15
V/mV
g 10
g 10
V
LM3303 and LM3403
Electrical Characteristics TA e 25§ C, V a e 5.0V, Vb e GND, unless otherwise specified
Symbol
Parameter
LM3303
Conditions
Min
Typ
LM3403
Max
Min
Units
Typ
Max
VIO
Input Offset Voltage
8.0
2.0
8.0
mV
IIO
Input Offset Current
75
30
50
nA
IIB
Input Bias Current
500
200
500
nA
ICC
Supply Current
7.0
2.5
7.0
mA
PSRR
Power Supply
Rejection Ratio
150
mV/V
AVS
Large Signal Voltage Gain
RL t 2.0 kX
20
VOP
Output Voltage Swing
(Note 5)
RL e 10 kX
3.3
3.3
(V a )
b 2.0
(V a )
b 2.0
CS
Channel Separation
2.5
150
5.0V s V a s 30V,
RL e 10 kX
1.0 Hz s f s 20 kHz
(Input Referenced)
200
20
b 120
200
V/mV
V
b 120
dB
Note 1: TJ Max e 150§ C for the Molded DIP and SO-14, and 175§ C for the Ceramic DIP.
Note 2: Ratings apply to ambient temperature at 25§ C. Above this temperature, derate the 14L-Ceramic DIP at 9.1 mW/§ C, the 14L-Molded DIP at 8.3 mW/§ C, and
the SO-14 at 7.5 mW/§ C.
Note 3: For supply voltage less than 30V between V a and V b , the absolute maximum input voltage is equal to the supply voltage.
Note 4: Not to exceed maximum package power dissipation.
Note 5: Output will swing to ground.
3
Typical Performance Characteristics
Open Loop
Frequency Response
Sine Wave Response
Output Voltage
vs Frequency
Output Swing vs
Supply Voltage
Input Bias Current
vs Temperature
Input Bias Current
vs Supply Voltage
TL/H/10064 – 3
4
Typical Applications
Multiple Feedback Bandpass Filter
Comparator with Hysteresis
TL/H/10064 – 6
VIL e
TL/H/10064 – 4
fo e center frequency
VIH e
BW e Bandwidth
R in kX
C in mF
He
Qe
R1
R1 a R2
(VOL b VREF) a VREF
R1
(VOH b VREF) a VREF
R1 a R2
R1
(VOH b VOL)
R1 a R2
fo
k 10
BW
High Impedance Differential Amplifier
Q
C1 e C2 e
3
R1 e R2 e 1 R3 e 9Q2 b 1
( Using scaling factors in these expressions.
If source impedance is high or varies, filter may be preceded with voltage
follower buffer to stabilize filter parameters.
Design example:
given: Q e 5, fo e 1 kHz
Let R1 e R2 e 10 kX
then R3 e 9(5)2 b 10
R3 e 215 kX
Ce
5
e 1.6 nF
3
Wein Bridge Oscillator
TL/H/10064 – 7
VOUT e C(1 a a a b)(V2 b V1)
R2
R5
A
R6
for best CMRR
R7
R1 e R4
R2 e R5
Gain e
R6
R5
#1
a
2R1
R3
J
e C (1 a a a b)
AC Coupled Non-Inverting Amplifier
TL/H/10064 – 5
fo e
1
for fo e 1 kHz
2qRC
R e 16 kX
C e 0.01 mF
TL/H/10064 – 9
AV e 1 a
R2
R1
AV e 11 (as shown)
5
Typical Applications (Continued)
AC Coupled Inverting Amplifier
Voltage Reference
TL/H/10064 – 10
VO e
VO e
R1
R1 a R2
#
e
Va
as shown
2
J
1
Va
2
TL/H/10064–8
AV e
Rf
R1
AV e 10 (as shown)
Ground Referencing a
Differential Input Signal
Pulse Generator
TL/H/10064–11
TL/H/10064 – 14
Voltage Controlled Oscillator
TL/H/10064 – 12
Note 1: Wide Control Voltage Range:
0V s VCO s 2 (V g 1.5V)
6
Typical Applications (Continued)
Function Generator
TL/H/10064 – 13
Note 2: f e
R1 a R2
R2R1
if R3 e
4CRfR1
R2 a R1
Bi-Quad Filter
TL/H/10064 – 15
Qe
BW
fo
Example:
fo e 1000 Hz
BW e 100 Hz
TBP e 1
TN e 1
R e 160 kX
R1 e 1.6 MX
R2 e 1.6 MX
R3 e 1.6 MX
C e 0.001 mF
where:
TBP e Center Frequency Gain
TN e Bandpass Notch Gain
fo e
1
1
, VREF e VCC
2qRC
2
R1 e QR
R2 e
R1
TBP
R3 e TNR2
C1 e 10 C
7
8
Physical Dimensions inches (millimeters)
14-Lead Ceramic Dual-In-Line Package (J)
Order Number LM3303J or LM3403J
NS Package Number J14A
14-Lead Molded Surface Mount (M)
Order Number LM3403M
NS Package Number M14A
9
LM3303/LM3403 Quad Operational Amplifiers
Physical Dimensions inches (millimeters) (Continued)
14-Lead Molded Dual-In-Line Package (N)
Order Number LM3303N or LM3403N
NS Package Number N14A
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