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LMH6714/6720/6722 Wideband Video Op Amp; Single, Single with Shutdown and Quad

March 2003

LMH6714/6720/6722

Wideband Video Op Amp; Single, Single with Shutdown

and Quad

General Description

The LMH6714/6720/6722 series combine National’s

VIP10

™

high speed complementary bipolar process with

National’s current feedback topology to produce a very high

speed op amp. These amplifiers provide a 400MHz small

signal bandwidth at a gain of +2V/V and a 1800V/µs slew

rate while consuming only 5.6mA from

5V supplies.

The LMH6714/6720/6722 series offer exceptional video per-

formance with its 0.01% and 0.01˚ differential gain and

phase errors for NTSC and PAL video signals while driving a

back terminated 75Ω load. They also offer a flat gain re-

sponse of 0.1dB to 120MHz. Additionally, they can deliver

70mA continuous output current. This level of performance

makes them an ideal op amp for broadcast quality video

systems.

The LMH6714/6720/6722’s small packages (SOIC &

SOT23), low power requirement, low noise and distortion

allow the LMH6714/6720/6722 to serve portable RF applica-

tions. The high impedance state during shutdown makes the

LMH6720 suitable for use in multiplexing multiple high speed

signals onto a shared transmission line. The LMH6720 is

also ideal for portable applications where current draw can

be reduced with the shutdown function.

Features

400MHz (A

= +2V/V, V

OUT

= 500mV

) −3dB BW

250MHz (A

= +2V/V, V

OUT

= 2V

) -3dB BW

0.1dB gain flatness to 120MHz

Low power: 5.6mA

TTL compatible shutdown pin (LMH6720)

Very low diff. gain, phase: 0.01%, 0.01˚ (LMH6714)

−58 HD2/ −70 HD3 at 20MHz

Fast slew rate: 1800V/µs

Low shutdown current: 500uA (LMH6720)

11ns turn on time (LMH6720)

7ns shutdown time (LMH6720)

Unity gain stable

Improved replacement for CLC400,401,402,404,406 and

446 (LMH6714)

Improved replacement for CLC405 (LMH6720)

Improved replacement for CLC415 (LMH6722)

Applications

HDTV, NTSC & PAL video systems

Video switching and distribution

Wideband active filters

Cable drivers

High speed multiplexer (LMH6720)

Programmable gain amplifier (LMH6720)

Non-Inverting Small Signal Frequency Response

Differential Gain and Phase vs. Number of Video

Loads (LMH6714)

20056506

20056528

DS200565

www.national.com

LMH6714/6720/6722

Absolute Maximum Ratings

(Note 1)

Storage Temperature Range

Shutdown Pin Voltage (Note 5)

−65˚C to +150˚C

to V

/2-1V

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales Office/

Distributors for availability and specifications.

ESD Tolerance (Note 4)

Human Body Model

Machine Model

OUT

Common Mode Input Voltage

Differential Input Voltage

Maximum Junction Temperature

Storage Temperature Range

Lead Temperature (soldering 10 sec)

2000V

200V

Operating Ratings

(Note 3)

Thermal Resistance

Package

5-Pin SOT23

6-Pin SOT23

8-Pin SOIC

14-Pin SOIC

Operating Temperature

Nominal Supply Voltage

−40˚C

(θ

)

232˚C/W

198˚C/W

145˚C/W

130˚C/W

+85˚C

6.75V

(Note 3)

2.2V

+150˚C

−65˚C to +150˚C

+300˚C

Electrical Characteristics

Unless specified, A

= +2, R

= 300Ω: V

5V, R

= 100Ω, LMH6714/6720/6722.

Boldface

limits apply at temperature

extremes.

Symbol

SSBW

LSBW

GFP

GFR

LPD

TRS

TRL

HD2

HD3

IMD

NICN

ICN

DVIO

DIBN

Settling Time to 0.05%

Slew Rate

2nd Harmonic Distortion

3rd Harmonic Distortion

3rd Order Intermodulation Products

Equivalent Input Noise

Non-Inverting Voltage

Inverting Current

Non-Inverting Current

Output Offset Voltage

Average Drift

Input Bias Current

Average Drift

Non-Inverting

Parameter

−3dB Bandwidth

Gain Flatness

Peaking

Rolloff

Linear Phase Deviation

Differential Gain

Differential Phase

Rise and Fall Time

Conditions

OUT

= 0.5V

OUT

= 2.0V

OUT

= 2V

DC to 120MHz

= 150Ω, 4.43MHz

(LMH6714)

= 150Ω, 4.43MHz

(LMH6720)

= 150Ω, 4.43MHz

.5V Step

2V Step

6V Step

, 20MHz

10MHz, P

OUT

= 0dBm

1200

0.1

0.5

0.01

0.02

0.01

1.5

2.6

1800

−58

−70

−78

3.4

1.2

deg

V/µs

dBc

nV/

pA/

Min

345

200

Typ

400

250

Max

Units

MHz

Frequency Domain Response

Time Domain Response

Distortion and Noise Response

1MHz

Static, DC Performance

0.2

µV/˚C

µA

nA/˚C

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LMH6714/6720/6722

Electrical Characteristics

Symbol

DIBI

PSRR

CMRR

CCI

OUT

CMIR

OFFMAX

ONMIN

IIH

IIL

IOZ

off

Input Voltage Range

Output Current (Note 3)

Voltage for Shutdown

Voltage for Turn On

Current Turn On

Current Shutdown

OUT

Shutdown

Turn on Time

Turn off Time

Parameter

Input Bias Current

Average Drift

Power Supply Rejection Ratio

Common Mode Rejection Ratio

Supply Current

Supply Current During Shutdown

Input Resistance

Input Capacitance

Output Resistance

Output Voltage Range

(Continued)

Unless specified, A

= +2, R

= 300Ω: V

5V, R

= 100Ω, LMH6714/6720/6722.

Boldface

limits apply at temperature

extremes.

Conditions

Inverting

Min

Typ

−4

∞

LMH6720

Non-Inverting

Closed Loop

∞

= 100Ω

Common Mode

= 0V, Max Linear Current

LMH6720

LMH6720, SD = 2.0V

LMH6720, SD = .8V

LMH6720

2.0

−20

−30

−600

0.2

−400

1.8

−100

4.5

5.6

500

1.0

0.06

7.5

670

Max

Units

µA

nA/˚C

µA

MΩ

Ω

0.8

µA

MΩ

Miscellaneous Performance

3.5

3.4

3.6

3.4

3.9

3.8

2.2

Note 1:

Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is

intended to be functional, but specific performance is not guaranteed. For guaranteed specifications, see the Electrical Characteristics tables.

Note 2:

Electrical Table values apply only for factory testing conditions at the temperature indicated. Factory testing conditions result in very limited self-heating of

the device such that T

= T

. No guarantee of parametric performance is indicated in the electrical tables under conditions of internal self heating where T

See Applications Section for information on temperature derating of this device." Min/Max ratings are based on product characterization and simulation. Individual

parameters are tested as noted.

Note 3:

The maximum output current (I

OUT

) is determined by device power dissipation limitations. See the Power Dissipation section of the Application Division for

more details.

Note 4:

Human body model, 1.5kΩ in series with 100pF. Machine model, 0Ω In series with 200pF.

Note 5:

The shutdown pin is designed to work between 0 and V

with split supplies (V

= -V

). With single supplies (V

= ground) the shutdown pin should

not be taken below V

/2.

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LMH6714/6720/6722

Connection Diagrams

5-Pin SOT23 (LMH6714)

6-Pin SOT23 (LMH6720)

14-Pin SOIC (LMH6722)

20056531

Top View

20056532

Top View

20056534

8-Pin SOIC (LMH6714)

8-Pin SOIC (LMH6720)

20056539

20056538

Top View

Ordering Information

Package

5-Pin SOT23

8-Pin SOIC

6-Pin SOT23

8-Pin SOIC

14-Pin SOIC

Part Number

LMH6714MF

LMH6714MFX

LMH6714MA

LMH6714MAX

LMH6720MF

LMH6720MFX

LMH6720MA

LMH6720MAX

LMH6722MA

LMH6722MAX

Package Marking

A95A

LMH6714MA

A96A

LMH6720MA

LMH6722MA

Transport Media

1k Units Tape and Reel

3k Units Tape and Reel

95 Units/Rail

2.5k Units Tape and Reel

1k Units Tape and Reel

3k Units Tape and Reel

95 Units/Rail

2.5k Units Tape and Reel

55 Units/Rail

2.5 Units Tape and Reel

NSC Drawing

MF05A

M08A

MF06A

M08A

M14A

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LMH6714/6720/6722

Typical Performance Characteristics

Non-Inverting Small Signal Frequency Response

= 2, R

= 300Ω, R

= 100Ω Unless Specified).

Non-Inverting Large Signal Frequency Response

20056506

20056507

Inverting Frequency Response

Non-Inverting Frequency Response vs. V

20056503

20056508

Inverting Frequency Response vs. V

Harmonic Distortion vs. Frequency

20056509

20056504

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