LMH6574 Datasheet, PDF(14/27 Page) National Semiconductor (TI)

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LMH6574 Datasheet, PDF (14/27 Pages) National Semiconductor (TI) – 4:1 High Speed Video Multiplexer

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LMH6574

SNCS103D â NOVEMBER 2004 â REVISED DECEMBER 2014

Typical Application (continued)

7.2.2 Feedback Resistor Selection

1600

1400

1200

1000

800

600

400

200

1 2 3 4 5 67

GAIN (V/V)

8 9 10

Figure 28. Suggested RF vs. Gain

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The LMH6574 has a current feedback output buffer with gain determined by external feedback (RF) and gain set

(RG) resistors. With current feedback amplifiers, the closed loop frequency response is a function of RF. For a

gain of 2 V/V, the recommended value of RF is 575â¦. For other gains see Figure 28. Generally, lowering RF from

the recommended value will peak the frequency response and extend the bandwidth while increasing the value

of RF will cause the frequency response to roll off faster. Reducing the value of RF too far below the

recommended value will cause overshoot, ringing and, eventually, oscillation.

Since all applications are slightly different it is worth some experimentation to find the optimal RF for a given

circuit. For more information see Current Feedback Loop Gain Analysis and Performance Enhancement,

Application Note OA-13 (SNOA366), which describes the relationship between RF and closed-loop frequency

response for current feedback operational amplifiers. The impedance looking into pin 12 is approximately 20â¦.

This allows for good bandwidth at gains up to 10 V/V. When used with gains over 10 V/V, the LMH6574 will

exhibit a âgain bandwidth productâ similar to a typical voltage feedback amplifier. For gains of over 10 V/V

consider selecting a high performance video amplifier like the LMH6720 (SNOSA39) to provide additional gain.

7.2.3 SD vs. EN

The LMH6574 has both shutdown and disable capability. The shutdown feature affects the entire chip, whereas

the disable function only affects the output buffer. When in shutdown mode, minimal power is consumed. The

shutdown function is very fast, but causes a very brief spike of about 400 mV to appear on the output. When in

shutdown mode the LMH6574 consumes only 1.8 mA of supply current. For maximum input to output isolation

use the shutdown function.

The EN pin only disables the output buffer which results in a substantially reduced output glitch of only 50 mV.

While disabled the chip consumes 4.7 mA, considerably more than when shutdown. This is because the input

buffers are still active. For minimal output glitch use the EN pin. Also, care should be taken to ensure that, while

in the disabled state, the voltage differential between the active input buffer (the one selected by pins A0 and A1)

and the output pin stays less than 2V. As the voltage differential increases, input to output isolation decreases.

Normally this is not an issue. See Multiplexer Expansion for further details.

To reduce the output glitch when using the SD pin, switch the EN pin at least 10 ns before switching the SD pin.

This can be accomplished by using an RC delay circuit between the two pins if only one control signal is

available.

Logic inputs "SD" and "EN" will revert to the "High", while "A0" and "A1" will revert to the "Low" state when left

floating.

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