NSC LM146J-883 Datasheet

LM146/LM346
Programmable Quad Operational Amplifiers

LM146/LM346 Programmable Quad Operational Amplifiers

May 1999

General Description

The LM146 series of quad op amps consists of four indepen­dent, high gain, internally compensated, low power, pro­grammable amplifiers. Two external resistors (R
the user to program the gain bandwidth product, slew rate,
supply current, input bias current, input offset current and in­put noise. For example, the user can trade-off supply current
for bandwidth or optimize noise figure for a given source re­sistance. In a similar way, other amplifier characteristics can
be tailored to the application. Except for the two program­ming pins at the end of the package, the LM146 pin-out is
the same as the LM124 and LM148.

SET

) allow

Connection Diagram

Dual-In-Line Package

DS005654-1

Order Number LM146J, LM146J/883,

Top View

LM346M or LM346N

See NS Package Number

J16A, M16A or N16A

Features

=

(I

10 µA)

SET

n Programmable electrical characteristics
n Battery-powered operation
n Low supply current: 350 µA/amplifier
n Guaranteed gain bandwidth product: 0.8 MHz min
n Large DC voltage gain: 120 dB
n Low noise voltage: 28

n Wide power supply range:±1.5V to±22V
n Class AB output stage–no crossover distortion
n Ideal pin out for Biquad active filters
n Input bias currents are temperature compensated

PROGRAMMING EQUATIONS

SET

/10 µA)

SET

SET

/10 µA)

/10 µA)

Total Supply Current=1.4 mA (I
Gain Bandwidth Product=1 MHz (I
Slew Rate=0.4V/µs (I
Input Bias Current

=

I

Current into pin 8, pin 9 (see schematic-diagram)

SET

≅

50 nA (I

SET

/10 µA)

© 1999 National Semiconductor Corporation DS005654 www.national.com

Schematic Diagram

DS005654-2

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Absolute Maximum Ratings (Notes 1, 5)

If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.

LM146 LM346

Supply Voltage
Differential Input Voltage (Note 1)
CM Input Voltage (Note 1)

±

22V

±

30V

±

15V

±

18V

±

30V

±

15V
Power Dissipation (Note 2) 900 mW 500 mW
Output Short-Circuit Duration (Note 3) Continuous Continuous
Operating Temperature Range −55˚C to +125˚C 0˚C to +70˚C
Maximum Junction Temperature 150˚C 100˚C
Storage Temperature Range −65˚C to +150˚C −65˚C to +150˚C
Lead Temperature (Soldering, 10 seconds) 260˚C 260˚C
Thermal Resistance (θ

), (Note 2)

jA

Cavity DIP (J) Pd 900 mW 900 mW

Small Outline (M) θ

θ

jA

jA

100˚C/W 100˚C/W

115˚C/W

Molded DIP (N) Pd 500 mW

θ

jA

90˚C/W

Soldering Information

Dual-In-Line Package

Soldering (10 seconds) +260˚C +260˚C

Small Outline Package

Vapor Phase (60 seconds) +215˚C +215˚C
Infrared (15 seconds) +220˚C +220˚C

SeeAN-450 “Surface Mounting Methods and Their Effect on Product Reliability” for other methods of soldering surface mount de­vices.

ESD rating is to be determined.

DC Electrical Characteristics

=

±

(V

S

Input Offset Voltage V
Input Offset Current V
Input Bias Current V
Supply Current (4 Op Amps) T
Large Signal Voltage Gain R

Input CM Range T
CM Rejection Ratio R
Power Supply Rejection Ratio R

Output Voltage Swing R
Short-Circuit T
Gain Bandwidth Product T
Phase Margin T
Slew Rate T
Input Noise Voltage f=1 kHz, T

=

15V, I

10 µA), (Note 4)

SET

Parameter Conditions LM146 LM346 Units

Min Typ Max Min Typ Max

=

0V, R

CM
CM
CM
A
L

T

A
A
S
S

V

S
L
A
A
A
A

S

=

0V, T

A

=

0V, T

A

=

25˚C 1.4 2.0 1.4 2.5 mA

=

10 kΩ, ∆V

=

25˚C

=

25˚C

≤10 kΩ,T
≤10 kΩ,T

=

±

5to±15V
≥10 kΩ,T
=

25˚C 5 20 35 5 20 35 mA

=

25˚C 0.8 1.2 0.5 1.2 MHz

=

25˚C 60 60 Deg

=

25˚C 0.4 0.4 V/µs

=

A

=

≤50Ω,T
=
=

A
A

A

25˚C 0.5 5 0.5 6 mV

A

25˚C 2 20 2 100 nA
25˚C 50 100 50 250 nA

=

±

10V, 100 1000 50 1000 V/mV

OUT

±

13.5±14

=

25˚C 80 100 70 100 dB

=

25˚C, 80 100 74 100 dB

=

25˚C

±

±

12

14

±

13.5±14 V

±

±

12

14 V

25˚C 28 28

Channel Separation R

Input Resistance T
Input Capacitance T
Input Offset Voltage V

=

10 kΩ, ∆V

L

±

12V, T

A

=

25˚C 1.0 1.0 MΩ

A

=

25˚C 2.0 2.0 pF

A

=

0V, R

CM

=

0V to 120 120 dB

OUT

=

25˚C

≤50Ω 0.5 6 0.5 7.5 mV

S

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DC Electrical Characteristics (Continued)

=

±

(V

S

Input Offset Current V
Input Bias Current V
Supply Current (4 Op Amps) 1.7 2.2 1.7 2.5 mA
Large Signal Voltage Gain R
Input CM Range
CM Rejection Ratio R
Power Supply Rejection Ratio R

Output Voltage Swing R

=

15V, I

10 µA), (Note 4)

SET

Parameter Conditions LM146 LM346 Units

Min Typ Max Min Typ Max

=

0V 2 25 2 100 nA

CM

=

0V 50 100 50 250 nA

CM

=

10 kΩ, ∆V

L

≤50Ω 70 100 70 100 dB

S

≤50Ω, 76 100 74 100 dB

S

=

±

V

5V to±15V

S

≥10 kΩ

L

=

±

10V 50 1000 25 1000 V/mV

OUT

±

13.5±14

±

12

±

13.5±14 V

±

14

±

±

12

14 V

DC Electrical Characteristic

=

±

(V

S

Input Offset Voltage V

Input Bias Current V
Supply Current (4 Op Amps) T
Gain Bandwidth Product T

=

15V, I

SET

10 µA)

Parameter Conditions LM146 LM346 Units

Min Typ Max Min Typ Max

=

≤50Ω, 0.5 5 0.5 7 mV

0V, R

CM

T

A
CM
A
A

S

=

25˚C

=

=

0V, T

25˚C 7.5 20 7.5 100 nA

A

=

25˚C 140 250 140 300 µA

=

25˚C 80 100 50 100 kHz

DC Electrical Characteristics

=

±

(V

1.5V, I

S

Parameter Conditions LM146 LM346 Units

Input Offset Voltage V

Input CM Range T
CM Rejection Ratio R
Output Voltage Swing R

Note 1: For supply voltages less than±15V, the absolute maximum input voltage is equal to the supply voltage.
Note 2: The maximum power dissipation for these devices must be derated at elevated temperatures and is dictated by T

. The maximum available power dissipation at any temperature is P

T

A

Note 3: Any of the amplifier outputs can be shorted to ground indefinitely; however, more than one should not be simultaneously shorted as the maximum junction
temperature will be exceeded.

Note 4: These specifications apply over the absolute maximum operating temperature range unless otherwise noted.
Note 5: Refer to RETS146X for LM146J military specifications.

SET

=

10 µA)

=

CM

=

T

25˚C

A

=

25˚C

A

≤50Ω,T

S

≥10 kΩ,T

L

Min Typ Max Min Typ Max

≤50Ω, 0.5 5 0.5 7 mV

0V, R

S

±

0.7

=

25˚C 80 80 dB

A

=

25˚C

A

±

=

d

0.6

(T

jMAX-TA

)/θjAor the 25˚C P

±

0.7 V

±

0.6 V

, θjA, and the ambient temperature,

, whichever is less.

dMAX

jMAX

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Typical Performance Characteristics

Input Bias Current vs I

Slew Rate vs I

SET

SET

DS005654-44

DS005654-47

Supply Current vs I

SET

Gain Bandwidth Product
vs I

SET

DS005654-45

DS005654-48

Open Loop Voltage Gain
vs I

SET

Phase Margin vs I

SET

DS005654-46

DS005654-49

Input Offset Voltage
vs I

SET

DS005654-50

Common-Mode Rejection
Ratio vs I

SET

DS005654-51

Power Supply Rejection
Ratio vs I

SET

DS005654-52

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Typical Performance Characteristics (Continued)

Open Voltage Swing vs
Supply Voltage

Input Bias Current vs
Temperature

DS005654-53

DS005654-56

Input Voltage Range vs
Supply Voltage

Input Offset Current vs
Temperature

DS005654-54

DS005654-57

Input Bias Current vs
Input Common-Mode
Voltage

DS005654-55

Supply Current vs
Temperature

DS005654-58

Open Loop Voltage Gain
vs Temperature

DS005654-20

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Gain Bandwidth Product
vs Temperature

DS005654-21

Slew Rate vs
Temperature

DS005654-22