The design idea presented here is a gain-trimmable wideband FET amplifier with very good speed, high input impedance, and excellent dc stability under all conditions.

Transistors Q1 and Q2 constitute a simple, high-speed FET input buffer. Q1 functions as a source-follower, with the Q2 current-source load setting the drain-source channel current. Q3 and Q4 form a simple discrete gain stage, while Q5 and Q6 form the output stage.

The OP-77 op amp contributes dc feedback to stabilize the circuit. This is accomplished by comparing the filtered circuit output to a similarly filtered version of the input signal. The amplified difference between these signals then is used to set the bias of Q2, and hence Q1’s channel current. This forces Q1’s V_GS to whatever voltage is required to match the circuit’s input and output potentials. The RC network in the OP-77’s output prevents it from seeing any high-speed edges coupled through Q2’s collector-base junction.

The voltage gain of this amplifier is equal to the R_A/R_B ratio. The R_B adjustment allows the gain to be precisely set to the desired value—usually between 1 and 10 (R_B = 1k and R_B = 100 Ω, respectively):

V_OUT = V_IN * R_A / R_B

With the components shown in the figure (i.e., gain of 1):

• Output slew rate > 1000 V/µs
• 0-dB bandwidth = 20 MHz
• −3-dB bandwidth = 60 MHz

At a gain of 10, the 0-dB point occurs at 12 MHz, and the −3-dB point occurs at 40 MHz.

This circuit provides more than adequate performance for driving video cable, high-speed data converters, etc.

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