NSC LM218H Datasheet

LM118/LM218/LM318
Operational Amplifiers

General Description

The LM118 series are precision high speed operational am­plifiers designed for applications requiring wide bandwidth
and high slew rate. They feature a factor of ten increase in
speed over general purpose devices without sacrificing DC
performance.

The LM118 serieshas internal unity gain frequency compen­sation. This considerably simplifies its application since no
external components are necessary for operation. However,
unlike most internally compensated amplifiers, external fre­quency compensation may be added for optimum perfor­mance. For inverting applications, feedforward compensa­tion will boost the slew rate to over 150V/µs and almost
double the bandwidth. Overcompensation can be used with
the amplifier for greater stability when maximum bandwidth
is not needed. Further, a single capacitor canbe added to re­duce the 0.1%settling time to under 1 µs.

The high speed and fast settling timeof these op amps make
them useful in A/D converters, oscillators, active filters,

Connection Diagram

March 1998

sample and hold circuits, or general purpose amplifiers.
These devices are easy to apply and offer an order of mag­nitude better AC performance than industry standards such
as the LM709.

The LM218 is identical to the LM118 except that the LM218
has its performance specified over a −25˚C to +85˚C tem­perature range. The LM318 is specified from 0˚C to +70˚C.

Features

n 15 MHz small signal bandwidth
n Guaranteed 50V/µs slew rate
n Maximum bias current of 250 nA
n Operates from supplies of
n Internal frequency compensation
n Input and output overload protected
n Pin compatible with general purpose op amps

±

5V to±20V

LM118/LM218/LM318 Operational Amplifiers

Dual-In-Line Package

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Order Number LM118J/883 (Note 2)

See NS Package Number J14A

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Top View

See NS Package Number J08A, M08A or N08B

Dual-In-Line Package

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Top View

Order Number LM118J-8/883 (Note 2),

LM318M or LM318N

Connection Diagram (Continued)

Metal Can Package

(Note 1)

Top View

Order Number LM118H, LM118H/883 (Note 2),

LM218H or LM318H

See NS Package Number H08C

Note 1: Pin connections shown on schematic diagram and typical applications are for TO-5 package.
Note 2: Available per JM38510/10107.

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Absolute Maximum Ratings (Note 8)

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

Supply Voltage
Power Dissipation (Note 3) 500 mW
Differential Input Current (Note 4)
Input Voltage (Note 5)
Output Short-Circuit Duration Continuous
Operating Temperature Range

LM118 −55˚C to +125˚C
LM218 −25˚C to +85˚C
LM318 0˚C to +70˚C

±

±

10 mA

±

20V

15V

Lead Temperature (Soldering, 10 sec.)

Hermetic Package 300˚C
Plastic Package 260˚C

Soldering Information

Dual-In-Line Package

Soldering (10 sec.) 260˚C

Small Outline Package

Vapor Phase (60 sec.) 215˚C
Infrared (15 sec.) 220˚C

See AN-450 “Surface Mounting Methods and Their Effect

on Product Reliability” for other methods of soldering

surface mount devices.

ESD Tolerance (Note 9) 2000V

Storage Temperature Range −65˚C to +150˚C

Electrical Characteristics (Note 6)

Parameter Conditions LM118/LM218 LM318 Units

Min Typ Max Min Typ Max

Input Offset Voltage T
Input Offset Current T
Input Bias Current T
Input Resistance T
Supply Current T
Large Signal Voltage Gain T

Slew Rate T

Small Signal Bandwidth T
Input Offset Voltage 615mV
Input Offset Current 100 300 nA
Input Bias Current 500 750 nA
Supply Current T
Large Signal Voltage Gain V

Output Voltage Swing V
Input Voltage Range V
Common-Mode Rejection Ratio 80 100 70 100 dB
Supply Voltage Rejection Ratio 70 80 65 80 dB

Note 3: The maximum junction temperature of the LM118is 150˚C, the LM218 is 110˚C, and the LM318 is 110˚C.For operating at elevated temperatures, devices
in the H08 package must be derated based on a thermal resistance of 160˚C/W, junction to ambient, or 20˚C/W, junction to case. The thermal resistance of the
dual-in-line package is 100˚C/W, junction to ambient.

Note 4: The inputs are shunted with back-to-back diodes for overvoltage protection. Therefore, excessive current will flow if a differential input voltage in excess of
1V is applied between the inputs unless some limiting resistance is used.

Note 5: For supply voltages less than
Note 6: These specifications apply for

power supplies must be bypassed with 0.1 µF disc capacitors.
Note 7: Slew rate is tested with V

rates between −5.0V and +5.0V and vice versa are tested and guaranteed to exceed 50V/µs.

Note 8: Refer to RETS118X for LM118H and LM118J military specifications.
Note 9: Human body model, 1.5 kΩ in series with 100 pF.

=

S

=

25˚C 2 4 4 10 mV

A

=

25˚C 6 50 30 200 nA

A

=

25˚C 120 250 150 500 nA

A

=

25˚C 1 3 0.5 3 MΩ

A

=

25˚C 5 8 5 10 mA

A

=

25˚C, V

A

V

OUT

=

25˚C, V

A

=

S

=

±

10V, RL≥ 2kΩ

=

S

±

15V 50 200 25 200 V/mV

15V, A

=

1 50 70 50 70 V/µs

V

±

(Note 7)

=

25˚C, V

A

=

125˚C 4.5 7 mA

A

=

±

S

R

≥ 2kΩ

L

=

±

S

=

±

S

±

15V, the absolute maximum input voltage is equal to the supply voltage.

±

5V ≤ VS≤±20V and −55˚C ≤ TA≤ +125˚C (LM118), −25˚C ≤ TA≤ +85˚C (LM218), and 0˚C ≤ TA≤ +70˚C (LM318). Also,

±

15V.The LM118 is in a unity-gain non-inverting configuration. VINis stepped from −7.5V to +7.5V and vice versa. The slew

15V, V

15V, R
15V

=

±

15V 15 15 MHz

S

=

±

10V 25 20 V/mV

OUT

=

2kΩ

L

±

12±13

±

11.5

±

12±13 V

±

11.5 V

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Typical Performance Characteristics LM118, LM218

Input Current

Input Noise Voltage

Closed Loop Output
Impedance

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Voltage Gain

Common Mode Rejection

Current Limiting

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Power Supply Rejection

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Supply Current

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Input Current

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Unity Gain Bandwidth

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Voltage Follower Slew Rate

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Inverter Settling Time

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Typical Performance Characteristics LM118, LM218 (Continued)

Large Signal Frequency
Response

Large Signal Frequency
Response

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Open Loop Frequency
Response

Open Loop Frequency
Response

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Voltage Follower Pulse
Response

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Inverter Pulse Response

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Typical Performance Characteristics LM318

Input Current

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Voltage Gain

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Power Supply Rejection

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