VCA2615 Datasheet, PDF(22/29 Page) Texas Instruments – Dual, Low-Noise Variable-Gain Amplifier with Preamp

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VCA2615 Datasheet, PDF (22/29 Pages) Texas Instruments – Dual, Low-Noise Variable-Gain Amplifier with Preamp

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VCA2615

SBOS316C â JULY 2005 â REVISED SEPTEMBER 2005

PROGRAMMABLE CLIPPING

The clipping level of the VCA can be programmed to a

desired output. The programming feature is useful when

matching the clipped level from the output of the VCA to

the full-scale range of a subsequent VCA, in order to

prevent the VCA from generating false spectral signals;

see the circuit diagram shown in Figure 66. The signal

node at the drain junction of Q5 and Q6 is sent to the diode

bridge formed by diode-connected transistors, D1 through

D4. The diode bridge output is determined by the current

that flows through transistors Q7 and Q8. The maximum

current that can then flow into the summing node of A2 is

this same current; consequently, the maximum voltage

output of A2 is this same current multiplied by the feedback

resistor associated with A2. The maximum output voltage

of A2, which would be the clipped output, can then be

controlled by adjusting the current that flows through Q7

and Q8; see the circuit diagram shown in Figure 63. The

circuitry of A1, R2, and Q2 converts the clamp voltage

(VCLMP) to a current that controls equal and opposite

currents flowing through transistors Q5 and Q6.

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When H/L = 0, the previously described circuitry is

designed so that the value of the VCLMP signal is equal to

the peak differential signal developed between +VOUT and

âVOUT. When H/L = 1, the differential output will be equal

to the clamp voltage. This method of controlled clipping

also achieves fast and clean settling waveforms at the

output of the VCA, as shown in Figure 67 through

Figure 70. The sequence of waveforms demonstrate the

clipping performance during various stages of overload.

The VCLMP pin represents a high impedance input

(> 100kâ¦).

In a typical application, the VCA2615 will drive an

anti-aliasing filter, which in turn will drive an ADC. Many

modern ADCs, such as the ADS5270, are well-behaved

with as much as 2x overload. This means that the clipping

level of the VCA should be set to overcome the loss in the

filter such that the clipped input to the ADC is just slightly

over the full-scale input. By setting the clipping level in this

manner, the lowest harmonic distortion level will be

achieved without interfering with the overload capability of

the ADC.

VDD

VCLMP

Clip Adjust

Input

From D1

Buffered

Input

VCM

H/L

Output

Amp

Figure 66. Clipping Level Adjust Circuitry

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