AD5292BRUZ-20 Analog Devices Inc, AD5292BRUZ-20 Datasheet - Page 29

AD5292BRUZ-20

Manufacturer Part Number

AD5292BRUZ-20

Description

IC POT DIG 1024P SPI 20K 14TSSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD5291BRUZ-20.pdf (32 pages)

Specifications of AD5292BRUZ-20

Memory Type

Non-Volatile

Temperature Coefficient

35 ppm/°C Typical

Design Resources

30 V Low Cost DAC Using AD5292 Digital Potentiometer (CN0111) Variable Gain Noninverting Amplifier Using AD5292 and OP184 (CN0112) Variable Gain Inverting Amplifier Using AD5292 and OP184 (CN0113) Low Cost, High Voltage, Programmable Gain Instrumentation Amplifier Using AD5292 and AD8221 (CN0114) Programmable High Voltage Source with Boosted Output Current Using AD5292, OP184, and MOSFETs (CN0115) Programmable Bidirectional Current Source Using AD5292 and ADA4091-4 (CN0117) Logarithmic Audio Volume Control with Glitch Reduction Using AD5292 (CN0120)

Taps

1024

Resistance (ohms)

20K

Number Of Circuits

Interface

SPI Serial

Voltage - Supply

9 V ~ 33 V, ±9 V ~ 16.5 V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

14-TSSOP

Resistance In Ohms

20K

End To End Resistance

20kohm

Resistance Tolerance

Â± 1%

No. Of Steps

1024

Control Interface

Serial, SPI

No. Of Pots

Single

Supply Voltage Range

Â± 9V To Â± 16.5V

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

AD5292BRUZ-20-U1
AD5292BRUZ-20-U1

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Current page: 29 of 32
Download datasheet (2Mb)

AUDIO VOLUME CONTROL

The excellent THD performance and high voltage capability

make the AD5291 and AD5292 ideal for a digital volume

control as an audio attenuator or gain amplifier. A typical

problem in these systems is that 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 SYNC line to delay the device update until the

audio signal crosses the window. Because the input signal can

operate on top of any dc level 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.

1µF

90kΩ

10kΩ

AD8541

V+

V–

100kΩ

Figure 74. Audio Volume Control with Zipper Noise Reduction

200Ω

CHANNEL 1

FREQ = 20.25kHz

1.03V p-p

100kΩ

ADCMP371

GND

+5V

Figure 75. Zipper Noise Detector

Rev. D | Page 29 of 32

SYNC

U4B

7408

The configuration to reduce zipper noise is shown in Figure 74,

and the results of using this configuration is shown in Figure 75.

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 AND’ e d

with the SYNC signal such that the AD5291 and AD5292

updates whenever the signal crosses the window. To avoid a

constant update of the device, the SYNC signal should be

programmed as two pulses, rather than as one.

In Figure 75, 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.

U4A

7408

SCLK

+15V

0.1µF

SDIN

–15V

SYNC

SCLK

SDIN

AD5292

20kΩ

GND

–15V

+15V

V–

V+

OUT

AD5291/AD5292

AD5292BRUZ-20 Analog Devices Inc, AD5292BRUZ-20 Datasheet - Page 29

AD5292BRUZ-20

Specifications of AD5292BRUZ-20

Available stocks

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