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5962-8962501HA

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描述：High Speed Operational Amplifier

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5962-8962501HA 概述

High Speed Operational Amplifier 高速运算放大器

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May 1999

LM6165/LM6265/LM6365

High Speed Operational Amplifier

n High GBW product: 725 MHz

n Low supply current: 5 mA

n Fast settling: 80 ns to 0.1%

General Description

The LM6165 family of high-speed amplifiers exhibits an ex-

cellent speed-power product in delivering 300 V/µs and

725 MHz GBW (stable for gains as low as +25) with only

5 mA of supply current. Further power savings and applica-

tion convenience are possible by taking advantage of the

wide dynamic range in operating supply voltage which ex-

tends all the way down to +5V.

n Low differential gain:

n Low differential phase:

0.1%

0.1˚

n Wide supply range: 4.75V to 32V

n Stable with unlimited capacitive load

™

These amplifiers are built with National’s VIP (Vertically In-

Applications

n Video amplifier

n Wide-bandwidth signal conditioning

n Radar

tegrated PNP) process which produces fast PNP transistors

that are true complements to the already fast NPN devices.

This advanced junction-isolated process delivers high speed

performance without the need for complex and expensive di-

electric isolation.

n Sonar

Features

n High slew rate: 300 V/µs

Connection Diagrams

10-Lead Flatpak

Top View

DS009152-14

Order Number LM6165W/883

DS009152-8

See NS Package Number W10A

Order Number LM6165J/883

See NS Package Number J08A

Order Number LM6365M

See NS Package Number M08A

Order Number LM6265N or LM6365N

See NS Package Number N08E

™

VIP is a trademark of National Semiconductor Corporation.

DS009152

www.national.com

Connection Diagrams (Continued)

Temperature Range

Package

NSC

Drawing

Military

Industrial

−25˚C ≤ T_A≤ +85˚C

LM6265N

Commercial

0˚C ≤ T_A≤ +70˚C

LM6365N

−55˚C ≤ T_A≤ +125˚C

8-Pin

Molded DIP

8-Pin

N08E

J08A

LM6165J/883

5962-8962501PA

Ceramic DIP

8-Pin Molded

Surface Mt.

10-Lead

LM6365M

M08A

WG10A

W10A

LM6165WG/883

5962-8962501XA

LM6165W883

Ceramic SOIC

10-Pin

5962-8962501HA

Ceramic Flatpak

www.national.com

Absolute Maximum Ratings (Note 1)

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales Office/

Distributors for availability and specifications.

See AN-450 “Surface Mounting Methods and Their Effect

on Product Reliability” for other methods of soldering

surface mount devices.

Storage Temp Range

Max Junction Temperature

(Note 3)

−65˚C to +150˚C

Supply Voltage (V⁺− V⁻)

Differential Input Voltage

(Note 7)

36V

150˚C

ESD Tolerance (Notes 7, 8)

700V

Common-Mode Voltage

Range (Note 11)

Operating Ratings

Temperature Range (Note 3)

LM6165, LM6165J/883

LM6265

(V⁺− 0.7V) to (V⁻+ 0.7V)

Continuous

Output Short Circuit to GND

(Note 2)

−55˚C ≤ T_J≤ +125˚C

−25˚C ≤ T_J≤ +85˚C

0˚C ≤ T_J≤ +70˚C

4.75V to 32V

Soldering Information

Dual-In-Line Package (N, J)

Soldering (10 sec.)

LM6365

Supply Voltage Range

260˚C

Small Outline Package (M)

Vapor Phase (60 sec.)

Infrared (15 sec.)

215˚C

220˚C

DC Electrical Characteristics

= =

15V, V_CM0, R_L≥ 100 kΩ and R_S50Ω unless otherwise noted.

The following specifications apply for Supply Voltage

Boldface limits apply for T_AT_JT_MINto T_MAX; all other limits T_AT_J25˚C.

Symbol

Parameter

Conditions

Typ

LM6165

LM6265

Limit

(Note 4)

LM6365

Limit

(Note 4)

Units

Limit

(Notes 4, 12)

V_OS

Input Offset Voltage

Max

V_OS

Drift

I_b

Input Offset Voltage

Average Drift

µV/˚C

Input Bias Current

2.5

150

0.3

µA

Max

I_OS

Input Offset Current

350

800

350

600

1500

1900

Max

nA/˚C

I_OS

Input Offset Current

Average Drift

Drift

R_IN

Input Resistance

Input Capacitance

Large Signal

Differential

6.0

kΩ

C_IN

A_VOL

V_OUT

10V,

10.5

7.5

5.5

V/mV

Min

Voltage Gain

R_L2 kΩ

5.0

6.0

5.0

(Note 10)

R_L10 kΩ

V_CM

Input Common-Mode

Voltage Range

Supply

15V

+14.0

+13.9

+13.8

−13.4

−13.2

3.9

+13.9

+13.8

−13.4

−13.2

3.9

+13.8

+13.7

−13.3

−13.2

3.8

Min

−13.6

4.0

Min

Supply +5V

(Note 5)

3.8

3.7

Min

1.4

1.6

1.7

1.8

Max

Min

CMRR

PSRR

Common-Mode

Rejection Ratio

Power Supply

Rejection Ratio

−10V ≤ V_CM≤ +10V

102

104

16V

10V ≤ V

≤

www.national.com

DC Electrical Characteristics (Continued)

= =

15V, V_CM0, R_L≥ 100 kΩ and R_S50Ω unless otherwise noted.

The following specifications apply for Supply Voltage

Boldface limits apply for T_AT_JT_MINto T_MAX; all other limits T_AT_J25˚C.

Symbol

Parameter

Conditions

Typ

LM6165

Limit

(Notes 4, 12)

+13.5

+13.3

−13.0

−12.7

3.5

LM6265

Limit

(Note 4)

+13.5

+13.3

−13.0

−12.8

3.5

LM6365

Limit

(Note 4)

+13.4

+13.3

−12.9

−12.8

3.4

Units

V_O

Output Voltage

Swing

Supply

15V,

+14.2

−13.4

4.2

Min

R_L2 kΩ

Min

Supply +5V

R_L2 kΩ (Note 5)

3.3

Min

1.3

1.7

1.8

2.0

1.9

Max

Min

Max

Output Short

Source

Sink

Circuit Current

I_S

Supply Current

5.0

6.5

6.8

6.7

6.9

AC Electrical Characteristics

The following specifications apply for Supply Voltage

15V, V_CM0, R_L≥ 100 kΩ and R_S50Ω unless otherwise noted.

Boldface limits apply for T_AT_JT_MINto T_MAX; all other limits T_AT_J25˚C. (Note 6)

Symbol

GBW

Parameter

Conditions

Typ

LM6165

Limit

LM6265

Limit

LM6365

Limit

Units

(Notes 4, 12)

575

(Note 4)

575

(Note 4)

500

Gain Bandwidth

20 MHz

725

MHz

Min

350

Product

Supply

500

300

Slew Rate

A_V+25 (Note 9)

200

V/µs

Min

180

Supply

200

4.5

PBW

t_S

Power Bandwidth

Product

V_OUT20 V_PP

MHz

Settling Time

10V Step to 0.1%

A_V−25, R_L2 kΩ

φ_m

Phase Margin

A_V+25

Deg

A_D

Differential Gain

Differential Phase

Input Noise Voltage

Input Noise Current

NTSC, A_V+25

0.1

φ_D

NTSC, A_V+25

Deg

e_np-p

i_np-p

10 kHz

1.5

Note 1: “Absolute Maximum Ratings” indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is

functional, but do not guarantee specific performance limits.

Note 2: Continuous short-circuit operation at elevated ambient temperature can result in exceeding the maximum allowed junction temperature of 150˚C.

Note 3: The typical junction-to-ambient thermal resistance of the molded plastic DIP (N) is 105˚C/Watt, and the molded plastic SO (M) package is 155˚C/Watt, and

the cerdip (J) package is 125˚C/Watt. All numbers apply for packages soldered directly into a printed circuit board.

Note 4: All limits guaranteed by testing or correlation.

2.5V. Pin 1 & Pin 8 (V Adjust) are each connected

OUT OS

Note 5: For single supply operation, the following conditions apply: V+ 5V, V− 0V, V

2.5C, V

to Pin 4 (V−) to realize maximum output swing. This connection will degrade V

Note 6:

C ≤ 5 pF.

Note 7: In order to achieve optimum AC performance, the input stage was designed without protective clamps. Exeeding the maximum differential input voltage re-

sults in reverse breakdown of the base-emitter junction of one of the input transistors and probable degradation of the input parameters (especially V , I , and

OS OS

Noise).

www.national.com

AC Electrical Characteristics (Continued)

Note 8: The average voltage that the weakest pin combinations (those involving Pin 2 or Pin 3) can withstand and still conform to the datasheet limits. The test circuit

used consists of the human body model of 100 pF in series with 1500Ω.

5V, V 0.2V step.

Note 9:

0.8V step. For supply

Note 10: Voltage Gain is the total output swing (20V) divided by the input signal required to produce that swing.

Note 11: The voltage between V and either input pin must not exceed 36V.

Note 12: A military RETS electrical test specification is available on request. At the time of printing, the LM6165J/883 RETS spec complied with the Boldface limits

in this column. The LM6165J/883 may also be procured as Standard Military Drawing #5962-8962501PA.

Typical Performance Characteristics R_L= 10 kΩ, T_A= 25˚C unless otherwise specified

Supply Current vs

Supply Voltage

Common-Mode

Rejection Ratio

Power Supply

Rejection Ratio

DS009152-16

DS009152-17

DS009152-18

Gain-Bandwidth

Product

Propagation Delay,

Rise and Fall Times

Gain-Bandwidth Product vs

Load Capacitance

DS009152-19

DS009152-20

DS009152-21

Slew Rate vs

Load Capacitance

Overshoot vs

Capacitive Load

Slew Rate

DS009152-23

DS009152-24

DS009152-22

www.national.com

Typical Performance Characteristics R_L= 10 kΩ, T_A= 25˚C unless otherwise specified (Continued)

Output Impedance

(Open-Loop)

Gain vs Supply Voltage

DS009152-26

DS009152-25

Differential Gain (Note 13)

Differential Phase (Note 13)

DS009152-7

DS009152-6

Note 13: Differential gain and differential phase measured for four series LM6365 op amps configured with gain of +25 (each output attenuated by 96%), in series

with an LM6321 buffer. Error added by LM6321 is negligible. Test performed using Tektronix Type 520 NTSC test system.

Step Response; Av +25

TIME (50 (ns/div)

DS009152-1

www.national.com

Typical Performance Characteristics R_L= 10 kΩ, T_A= 25˚C unless otherwise specified (Continued)

Input Noise Voltage

Input Noise Current

Power Bandwidth

DS009152-27

DS009152-28

DS009152-29

Open-Loop

Frequency Response

Open-Loop

Frequency Response

Voltage Gain vs

Load Resistance

DS009152-30

DS009152-31

DS009152-32

Common-Mode Input

Saturation Voltage

Bias Current vs

Common-Mode Voltage

Output Saturation Voltage

DS009152-34

DS009152-35

DS009152-33

www.national.com

Simplified Schematic

DS009152-3

Application Tips

The LM6365 is stable for gains of 25 or greater. The LM6361

and LM6364, specified in separate datasheets, are compen-

sated versions of the LM6365. The LM6361 is unity-gain

stable, while the LM6364 is stable for gains as low as 5. The

LM6361, and LM6364 have the same high slew rate as the

LM6365, typically 300 V/µs.

(from each supply “rail” to ground); an additional 2.2 µF to

10 µF (tantalum) may be required for extra noise reduction.

Keep all leads short to reduce stray capacitance and lead in-

ductance, and make sure ground paths are low-impedance,

especially where heavier currents will be flowing. Stray ca-

pacitance in the circuit layout can cause signal coupling be-

tween adjacent nodes, and can cause circuit gain to uninten-

tionally vary with frequency.

To use the LM6365 for gains less than 25,

a series

resistor-capacitor network should be added between the in-

put pins (as shown in the Typical Applications, Noise Gain

Compensation) so that the high-frequency noise gain rises

to at least 25.

Breadboarded circuits will work best if they are built using

generic PC boards with a good ground plane. If the op amps

are used with sockets, as opposed to being soldered into the

circuit, the additional input capacitance may degrade circuit

performance.

Power supply bypassing will improve stability and transient

response of the LM6365, and is recommended for every de-

sign. 0.01 µF to 0.1 µF ceramic capacitors should be used

Typical Applications

Offset Voltage Adjustment

Noise-Gain Compensation

DS009152-11

DS009152-12

≥ 1/(2π • 25 MHz)

[R1 + R (1 + R1/R2)] 25 R

www.national.com

Typical Applications (Continued)

1 MHz Voltage-to-Frequency Converter

(f_OUT1 MHz for V_IN10V)

DS009152-13

All diodes 1N914

www.national.com

Physical Dimensions inches (millimeters) unless otherwise noted

Ceramic Dual-In-Line Package (J)

Order Number LM6165J/883

NS Package Number J08A

Molded Package SO (M)

Order Number LM6365M

NS Package Number M08A

www.national.com

Physical Dimensions inches (millimeters) unless otherwise noted (Continued)

Molded Dual-In-Line Package (N)

Order Number LM6265N or LM6365N

NS Package Number N08E

10-Pin Ceramic Flatpak

Order Number LM6165W/883

NS Package Number W10A

www.national.com

Notes

LIFE SUPPORT POLICY

NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT

DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL

COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein:

1. Life support devices or systems are devices or

systems which, (a) are intended for surgical implant

into the body, or (b) support or sustain life, and

whose failure to perform when properly used in

accordance with instructions for use provided in the

labeling, can be reasonably expected to result in a

significant injury to the user.

2. A critical component is any component of a life

support device or system whose failure to perform

can be reasonably expected to cause the failure of

the life support device or system, or to affect its

safety or effectiveness.

National Semiconductor

Corporation

Americas

Tel: 1-800-272-9959

Fax: 1-800-737-7018

Email: support@nsc.com

National Semiconductor

Europe

National Semiconductor

Asia Pacific Customer

Response Group

Tel: 65-2544466

Fax: 65-2504466

National Semiconductor

Japan Ltd.

Tel: 81-3-5639-7560

Fax: 81-3-5639-7507

Fax: +49 (0) 1 80-530 85 86

Email: europe.support@nsc.com

Deutsch Tel: +49 (0) 1 80-530 85 85

English Tel: +49 (0) 1 80-532 78 32

Français Tel: +49 (0) 1 80-532 93 58

Italiano Tel: +49 (0) 1 80-534 16 80

Email: sea.support@nsc.com

www.national.com

National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.

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