AD7376ARWZ10 Datasheet, PDF(17/20 Page) Analog Devices – 128-Position Digital Potentiometer

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AD7376ARWZ10 Datasheet, PDF (17/20 Pages) Analog Devices – 128-Position Digital Potentiometer

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AUDIO VOLUME CONTROL

Because of its good THD performance and high voltage

capability, the AD7376 can be used for digital volume control. If

AD7376 is used directly as an audio attenuator or gain amplifier,

a large step change in the volume level at any arbitrary time can

lead to an abrupt discontinuity of the audio signal, causing an

audible zipper noise. To prevent this, a zero-crossing window

detector can be inserted to the CS line to delay the device

update until the audio signal crosses the window. Since the

input signal can operate on top of any dc levels rather than

absolute zero volt level, zero-crossing, in this case, means the

signal is ac-coupled and the dc offset level is the signal zero

reference point.

The configuration to reduce zipper noise and the result of using

this configuration are shown in Figure 35 and Figure 34,

respectively. The input is ac-coupled by C1 and attenuated

down before feeding into the window comparator formed by

U2, U3, and U4B. U6 is used to establish the signal zero

reference. The upper limit of the comparator is set above its

offset and, therefore, the output pulses high whenever the input

falls between 2.502 V and 2.497 V (or 0.005 V window) in this

example. This output is ANDâed with the chip select signal such

that the AD7376 updates whenever the signal crosses the

window. To avoid constant update of the device, the chip select

signal should be programmed as two pulses, rather than the one

shown in Figure 2.

AD7376

In Figure 34, the lower trace shows that the volume level

changes from a quarter scale to full scale when a signal change

occurs near the zero-crossing window.

The AD7376 shutdown sleep-mode programming feature can

be used to mute the device at power-up by holding SHDN low

and programming zero scale.

CHANNEL 1

FREQ = 20.25kHz

1.03V p-p

NOTES

1. THE LOWER TRACE SHOWS THAT THE VOLUME LEVEL

CHANGES FROM QUARTER SCALE TO FULL SCALE, WITH THE

CHANGE OCCURRING NEAR THE ZERO-CROSSING WINDOW.

Figure 34. Input (Trace 1) and Output (Trace 2) of the Circuit in Figure 35

VIN C1

1ÂµF

+5V

100kÎ©

90kÎ©

200Î©

10kÎ©

+5V

V+

AD8541

Vâ

+5V

V+

ADCM371

Vâ

+5V

V+

ADCM371

Vâ

100Î©

U4B

7408

+15V

0.1ÂµF

â15V

6 1 U4A

2 7408

CLK

SDI

VDD

AD7376

VSS

100kÎ©

+15V

V+

Vâ

CLK

SDI

â15V

GND

VOUT

Figure 35. Audio Volume Control with Zipper Noise Reduction

Rev. D | Page 17 of 20

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