Datasheet

ManualsBrandsTEXAS INSTRUMENTS ManualsLinear ICsLinear IC - Op-amp, buffer amplifer Buffer SOIC 8

OUT

+5V

-5V

POS

6.8 µF

.01 µF

6.8 µF

NEG

.01 µF

0.1 µF

LMH6704

OUT

+5V

-5V

POS

6.8 µF

.01 µF

6.8 µF

NEG

.01 µF

0.1 µF

LMH6704

OUT

+5V

-5V

POS

6.8 µF

.01 µF

6.8 µF

NEG

.01 µF

0.1 µF

LMH6704

SNOSAD0C –FEBRUARY 2005–REVISED MARCH 2013

www.ti.com

APPLICATION INFORMATION

Figure 17. Recommended Gain of +2 Circuit Figure 18. Recommended Gain of +1 Circuit

Figure 19. Recommended Gain of −1 Circuit

GENERAL INFORMATION

The LMH6704 is a high speed current feedback Selectable Gain Buffer (SGB), optimized for very high speed and

low distortion. With its internal feedback and gain-setting resistors the LMH6704 offers excellent AC performance

while simplifying board layout and minimizing the affects of layout related parasitic components. The LMH6704

has no internal ground reference so single or split supply configurations are both equally useful.

SETTING THE CLOSED LOOP GAIN

The LMH6704 is a current feedback amplifier with on-chip R

= R

= 465Ω. As such it can be configured with an

= +2, A

= +1, or an A

= −1 by connecting pins 3 and 4 as described in Table 1.

Table 1.

Input Connections

GAIN A

Non-Inverting (Pin 3, SOT-23) Inverting (Pin 4, SOT-23)

−1 V/V Ground Input Signal

+1 V/V Input Signal NC (Open)

+2 V/V Input Signal Ground

The gain accuracy of the LMH6704 is accurate over temperature to within ±1%. The internal gain setting

resistors, R

and R

, match very well. The LMH6704 architecture takes advantage of the fact that the internal

gain setting resistors track each other well over a wide range of temperature and process variation to keep the

overall gain constant, despite the fact that the individual resistors have nominal temperature drifts. Therefore,

using external resistors in series with R

to change the gain will result in poor gain accuracy over temperature.

Product Folder Links: LMH6704