EVAL-AD1954EB Analog Devices Inc, EVAL-AD1954EB Datasheet - Page 11

EVAL-AD1954EB

Manufacturer Part Number

EVAL-AD1954EB

Description

BOARD EVAL FOR AD1954

Manufacturer

Analog Devices Inc

Datasheet

1.AD1954YSTZRL.pdf (36 pages)

Specifications of EVAL-AD1954EB

Rohs Status

RoHS non-compliant

Current page: 11 of 36
Download datasheet (2Mb)

DCSOUT—Data Capture Serial Out

This pin will output the DSP’s internal signals, which can be used

by external DACs or other signal processing devices. The signals

that are captured and output on the DCSOUT pin are controlled

by writing program counter trap numbers to SPI Addresses 263

(for the left output) and 264 (for the right output).When the inter-

nal program counter contents are equal to the trap values written

to the SPI port, the selected DSP register is transferred to the

DCSOUT parallel-to-serial registers and shifted out on the

DCSOUT pin. Table XX shows the program counter trap values

and register-select values that should be used to tap various inter-

nal points of the algorithm flow.

The DCSOUT pin is meant to be used in conjunction with the

LRCLK and BCLK signals that are provided to the serial input

port. The format of DCSOUT is the same as the format used

for the serial port. In other words, if the serial port is running in

and BCLK0 pins (assuming input 0 is selected), will form a valid

3-wire I

The DCSOUT pin can be used for a variety of purposes. If the

DCSOUT pin is used to drive another external DAC, then a

4.1 system is possible using a new program downloaded into the

program RAM.

DEEMP/SDATA_AUX—De-emphasis Input Pin/Auxiliary Serial

DEEMP/SDATA_AUX

Data Input

In de-emphasis mode, if this pin is asserted high, then a digital

de-emphasis filter will be inserted into the signal flow. The

de-emphasis curve is valid only for a sample rate of 44.1 kHz;

curves for 32 kHz and 48 kHz may be programmed using the

SPI port.This pin can also be used as an auxiliary 2-channel serial

data input. This function is set by writing a 1 to Bit 11 of Control

used for the SDATA0, SDATA1, and SDATA2 signals. This serial

input can only be used in the signal processing flow when using

Analog Devices’ custom programming tools; see the Graphical

Custom Programming Tools section. The use of de-emphasis is

still available while this pin is used as a serial input but only

through SPI control.

MUTE—Mute Output Signal

When this pin is asserted high, a ramp sequence is started, which

gradually reduces the volume to zero.When de-asserted, the volume

ramps from zero back to the original volume setting.The ramp

speed is timed so that it takes 10 ms to reach 0 volume when starting

from the default 0 dB volume setting.

VOUTL+, VOUTL2—Left Channel Differential Analog Outputs

Full-scale outputs correspond to 1 Vrms on each output pin or

2 V rms differential, assuming a VREF input voltage of 2.5 V.

REV. A

S mode, then the DCSOUT pin, together with the LRCLK0

S output.

–11–

The full-scale swing scales directly with VREF. These outputs are

capable of driving a load of >5 k, with a maximum peak current

of 1 mA from each pin. An external third order filter is recom-

mended for filtering out-of-band noise.

VOUTR+, VOUTR2 —Right Channel Differential Outputs

See characteristics for

VOUTS+, VOUTS2 —Subchannel Differential Outputs

These outputs are designed to drive loads of 10 k or greater,

with a peak current capability of 250 µA. This output does not

use digital interpolation, since it is intended for low frequency

applications. An external third order filter with a cutoff frequency

<2 kHz is recommended.

VREF—Analog Reference Voltage Input

The nominal VREF input voltage is 2.5 V; the analog gain scales

directly with the voltage on this pin.When using the AD1954 to

drive a power amplifier, it is recommended that the VREF voltage

be derived by dividing down and heavily filtering the supply to the

power amplifier. This provides a benefit if the compressor/limiter

in the AD1954 is used to prevent amplifier clipping. In this case, if

the DAC output voltage is scaled to the amplifier power supply, a

fixed compressor threshold can be used to protect an amplifier

whose supply may vary over a wide range. Any ac signal on this

pin will cause distortion, and therefore, a large decoupling capaci-

tor may be necessary to ensure that the voltage on VREF is clean.

The input impedance of VREF is greater than 1 M.

FILTCAP—Filter Capacitor Point

This pin is used to reduce the noise on an internal biasing point

in order to provide the highest performance. It may not be neces-

sary to connect this pin, depending on the quality of the layout

and the grounding used in the application circuit.

DVDD—Digital VDD for Core

5 V nominal.

ODVDD—Digital VDD for All Digital Outputs

Variable from 2.7 V to 5.5 V.

DGND (2)—Digital Ground

AVDD (3)—Analog VDD

5 V nominal. For best results, use a separate regulator for AVDD.

Bypass capacitors should be placed close to the pins and connected

directly to the analog ground plane.

AGND (3)—Analog Ground

For best performance, separate nonoverlapping analog and digital

ground planes should be used.

left channel

VOUTL+,VOUTL–.

AD1954

EVAL-AD1954EB Analog Devices Inc, EVAL-AD1954EB Datasheet - Page 11

EVAL-AD1954EB

Specifications of EVAL-AD1954EB

Related parts for EVAL-AD1954EB