EVAL-AD1928EB AD [Analog Devices], EVAL-AD1928EB Datasheet - Page 13

EVAL-AD1928EB

Manufacturer Part Number

EVAL-AD1928EB

Description

2 ADC/8 DAC with PLL, 192 kHz, 24-Bit Codec

Manufacturer

AD [Analog Devices]

Datasheet

1.EVAL-AD1928EB.pdf (32 pages)

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THEORY OF OPERATION

ANALOG-TO-DIGITAL CONVERTERS (ADCS)

There are two analog-to-digital converter (ADC) channels in

the AD1928, configured as a stereo pair with differential inputs.

The ADCs can operate at a nominal sample rate of 48 kHz,

96 kHz, or 192 kHz. The ADCs include on-board digital

antialiasing filters with 79 dB stop-band attenuation and linear

phase response, operating at an oversampling ratio of 128

(48 kHz, 96 kHz, and 192 kHz modes). Digital outputs are

supplied through two serial data output pins (one for each

stereo pair) and a common frame clock (ALRCLK) and bit

clock (ABCLK). Alternatively, one of the TDM modes can be

used to access up to 14 channels on a single TDM data line.

The ADCs must be driven from a differential signal source for

best performance. The input pins of the ADCs connect to internal

switched capacitors. To isolate the external driving op amp from

the glitches caused by the internal switched capacitors, each

input pin should be isolated by using a series-connected, exter-

nal, 100 Ω resistor together with a 1 nF capacitor connected

from each input to ground. This capacitor must be of high quality,

for example, ceramic NPO or polypropylene film.

The differential inputs have a nominal common-mode voltage

of 1.5 V. The voltage at the common-mode reference pin (CM)

can be used to bias external op amps to buffer the input signals

(see the Power Supply and Voltage Reference section). The

inputs can also be ac-coupled and do not need an external dc

bias to CM.

A digital high-pass filter can be switched in line with the ADCs

under serial control to remove residual dc offsets. It has a

1.4 Hz, 6 dB per octave cutoff at a 48 kHz sample rate. The

cutoff frequency scales directly with sample frequency.

DIGITAL-TO-ANALOG CONVERTERS (DACS)

The AD1928 digital-to-analog converter (DAC) channels are

arranged as four single-ended stereo pairs, providing eight

analog outputs for minimum external components. The DACs

include on-board digital reconstruction filters with 70 dB stop-

band attenuation and linear phase response, operating at an

oversampling ratio of 4 (48 kHz or 96 kHz modes) or 2 (192 kHz

mode). Each channel has its own independently programmable

attenuator, adjustable in 255 steps in 0.375 dB increments. Digital

inputs are supplied through four serial data input pins (one for

each stereo pair) and a common frame clock (DLRCLK) and bit

clock (DBCLK). Alternatively, one of the TDM modes can be

used to access up to 16 channels on a single TDM data line.

Each output pin has a nominal common-mode dc level of 1.5 V

and swings ±1.27 V for a 0 dBFS digital input signal. A single op

amp, third-order, external, low-pass filter is recommended to

remove high frequency noise present on the output pins. The

use of op amps with low slew rate or low bandwidth can cause

high frequency noise and tones to fold down into the audio

band; therefore, exercise care in selecting these components.

Rev. 0 | Page 13 of 32

The voltage at CM, the common-mode reference pin, can be

used to bias the external op amps that buffer the output signals

(see the Power Supply and Voltage Reference section).

CLOCK SIGNALS

The on-chip phase-locked loop (PLL) can be selected to

reference the input sample rate from either of the LRCLK pins

or 256, 384, 512, or 768 times the sample rate, referenced to the

48 kHz mode from the MCLKI/XI pin. The default at power-up

is 256 × f

frequency stays at the same absolute frequency; therefore, the

actual multiplication rate is divided by 2. In 192 kHz mode,

the actual multiplication rate is divided by 4. For example, if the

AD1928 is programmed in 256 × f

master clock input is 256 × 48 kHz = 12.288 MHz. If the AD1928

is then switched to 96 kHz operation (by writing to the SPI or

12.288 MHz, which, under these conditions, is 128 × f

mode, this becomes 64 × f

The internal clock for the ADCs is 256 × f

The internal clock for the DACs varies by mode: 512 × f

mode), 256 × f

default, the on-board PLL generates this internal master clock

from an external clock. A direct 512 × f

mode) master clock can be used for either the ADCs or DACs if

selected in the PLL and Clock Control 1 register.

Note that it is not possible to use a direct clock for the ADCs set

to the 192 kHz mode. It is required that the on-chip PLL be

used in this mode.

The PLL can be powered down in the PLL and Clock Control 0

or if the reference clock is unstable at power-on, power down

the PLL and then power it back up when the reference clock has

stabilized.

The internal master clock (MCLK) can be disabled in the PLL

and Clock Control 0 register to reduce power dissipation when

the AD1928 is idle. The clock should be stable before it is

enabled. Unless a standalone mode is selected (see the Serial

Control Port section), the clock is disabled by reset and must be

enabled by writing to the SPI or I

To maintain the highest performance possible, it is recommended

that the clock jitter of the internal master clock signal be limited

to less than 300 ps rms TIE (time interval error). Even at these

levels, extra noise or tones can appear in the DAC outputs if the

jitter spectrum contains large spectral peaks. If the internal PLL

is not being used, it is best to use an independent crystal oscilla-

tor to generate the master clock. In addition, it is especially

important that the clock signal should not be passed through an

FPGA, CPLD, or other large digital chip (such as a DSP) before

being applied to the AD1928. In most cases, this induces clock

jitter due to the sharing of common power and

C port), the frequency of the master clock should remain at

from MCLKI/XI. In 96 kHz mode, the master clock

(96 kHz mode), or 128 × f

C port for normal operation.

mode, the frequency of the

(referenced to 48 kHz

for all clock modes.

(192 kHz mode). By

AD1928

. In 192 kHz

(48 kHz

EVAL-AD1928EB AD [Analog Devices], EVAL-AD1928EB Datasheet - Page 13

EVAL-AD1928EB

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