LMH6643MA Datasheet, PDF(17/32 Page) Texas Instruments – LMH6642/LMH6643/LMH6644 Low Power, 130MHz, 75mA Rail-to-Rail Output Amplifiers

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

LMH6643MA Datasheet, PDF (17/32 Pages) Texas Instruments – LMH6642/LMH6643/LMH6644 Low Power, 130MHz, 75mA Rail-to-Rail Output Amplifiers

◁

LMH6642, LMH6643, LMH6644

www.ti.com

APPLICATION INFORMATION

SNOS966P â MAY 2001 â REVISED MARCH 2013

CIRCUIT DESCRIPTION

The LMH664X family is based on proprietary VIP10 dielectrically isolated bipolar process.

This device family architecture features the following:

â¢ Complimentary bipolar devices with exceptionally high ft (â¼8GHz) even under low supply voltage (2.7V) and

low bias current.

â¢ A class A-B âturn-aroundâ stage with improved noise, offset, and reduced power dissipation compared to

similar speed devices (patent pending).

â¢ Common Emitter push-push output stage capable of 75mA output current (at 0.5V from the supply rails) while

consuming only 2.7mA of total supply current per channel. This architecture allows output to reach within

milli-volts of either supply rail.

â¢ Consistent performance over the entire operating supply voltage range with little variation for the most

important specifications (e.g. BW, SR, IOUT, etc.)

â¢ Significant power saving (â¼40%) compared to competitive devices on the market with similar performance.

Application Hints

This Op Amp family is a drop-in replacement for the AD805X family of high speed Op Amps in most applications.

In addition, the LMH664X will typically save about 40% on power dissipation, due to lower supply current, when

compared to competition. All AD805X familyâs guaranteed parameters are included in the list of LMH664X

guaranteed specifications in order to ensure equal or better level of performance. However, as in most high

performance parts, due to subtleties of applications, it is strongly recommended that the performance of the part

to be evaluated is tested under actual operating conditions to ensure full compliance to all specifications.

With 3V supplies and a common mode input voltage range that extends 0.5V below Vâ, the LMH664X find

applications in low voltage/low power applications. Even with 3V supplies, the â3dB BW (@ AV = +1) is typically

115MHz with a tested limit of 80MHz. Production testing guarantees that process variations with not compromise

speed. High frequency response is exceptionally stable confining the typical â3dB BW over the industrial

temperature range to Â±2.5%.

As can be seen from the typical performance plots, the LMH664X output current capability (â¼75mA) is enhanced

compared to AD805X. This enhancement, increases the output load range, adding to the LMH664Xâs versatility.

Because of the LMH664Xâs high output current capability attention should be given to device junction

temperature in order not to exceed the Absolute Maximum Rating.

This device family was designed to avoid output phase reversal. With input overdrive, the output is kept near

supply rail (or as closed to it as mandated by the closed loop gain setting and the input voltage). See Figure 60:

Input

Output V+

VS = Â±2.5V

V-

AV = +1

1V/DIV

200 ns/DIV

Figure 60. Input and Output Shown with CMVR Exceeded

However, if the input voltage range of â0.5V to 1V from V+ is exceeded by more than a diode drop, the internal

ESD protection diodes will start to conduct. The current in the diodes should be kept at or below 10mA.

Output overdrive recovery time is less than 100ns as can be seen from Figure 61 plot:

Submit Documentation Feedback

Product Folder Links: LMH6642 LMH6643 LMH6644

▷