EVAL-AD1928EB AD [Analog Devices], EVAL-AD1928EB Datasheet - Page 15

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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POWER SUPPLY AND VOLTAGE REFERENCE

The AD1928 is designed for 3.3 V supplies. Separate power

supply pins are provided for the analog and digital sections.

These pins should be bypassed with 100 nF ceramic chip

capacitors, as close to the pins as possible, to minimize noise

pickup. A bulk aluminum electrolytic capacitor of at least 22 μF

should also be provided on the same PC board as the codec. For

critical applications, improved performance is obtained with

separate supplies for the analog and digital sections. If this is

not possible, it is recommended that the analog and digital

supplies be isolated by means of a ferrite bead in series with

each supply. It is important that the analog supply be as clean

as possible.

All digital inputs are compatible with TTL and CMOS levels.

All outputs are driven from the 3.3 V DVDD supply and are

compatible with TTL and 3.3 V CMOS levels.

The ADC and DAC internal voltage reference (V

out on FILTR and should be bypassed as close as possible to the

chip, with a parallel combination of 10 μF and 100 nF. Any

external current drawn should be limited to less than 50 μA.

The internal reference can be disabled in the PLL and Clock

Control 1 register, and FILTR can be driven from an external

source. This can be used to scale the DAC output to the clipping

level of a power amplifier based on its power supply voltage.

The ADC input gain varies by the inverse ratio. The total gain

from ADC input to DAC output remains constant.

The CM pin is the internal common-mode reference. It should

be bypassed as close as possible to the chip, with a parallel

combination of 47 μF and 100 nF. This voltage can be used to

bias external op amps to the common-mode voltage of the input

and output signal pins. The output current should be limited to

less than 0.5 mA source and 2 mA sink.

SERIAL DATA PORTS—DATA FORMAT

The eight DAC channels use a common serial bit clock (DBCLK)

and a common left-right framing clock (DLRCLK) in the serial

data port. The two ADC channels use a common serial bit clock

(ABCLK) and left-right framing clock (ALRCLK) in the serial

data port. The clock signals are all synchronous with the sample

rate. The normal stereo serial modes are shown in Figure 23.

The ADC and DAC serial data modes default to I

can also be programmed for left-justified, right-justified, and

TDM modes. The word width is 24 bits by default and can be

programmed for 16 or 20 bits. The DAC serial formats are

programmable according to DAC Control 0 register. The

polarity of the DBCLK and DLRCLK is programmable according

to the DAC Control 1 register. The ADC serial formats and

serial clock polarity are programmable according to ADC

Control 1 register. Both DAC and ADC serial ports are

programmable to become the bus masters according to the

DAC Control 1 register and the ADC Control 2 register. By

default, both ADC and DAC serial ports are in slave mode.

REF

S. The ports

) is brought

Rev. 0 | Page 15 of 32

TIME-DIVISION MULTIPLEXED (TDM) MODES

The AD1928 serial ports also have several different TDM serial

data modes. The first and most commonly used configurations

are shown in Figure 12 and Figure 13. In Figure 12, the ADC

serial port outputs one data stream consisting of two on-chip

ADCs and unused slots. In Figure 13, the eight on-chip DAC

data slots are packed into one TDM stream. In this mode, both

DBCLK and ABCLK are 256 f

The input/output pins of the serial ports are defined according

to the serial mode selected. For a detailed description of the

function of each pin in TDM and auxilliary modes, see

Table 12.

The AD1928 allows systems with more than eight DAC channels

to be easily configured by the use of an auxiliary serial data port.

The DAC TDM-AUX mode is shown in Figure 14. In this mode,

the AUX channels are the last four slots of the TDM data stream.

These slots are extracted and output to the AUX serial port.

Note that due to the high DBCLK frequency, this mode is available

only in the 48 kHz/44.1 kHz/32 kHz sample rate.

The AD1928 also allows system configurations with more than

two ADC channels, as shown in Figure 15 and Figure 16, which

show configurations using 6 ADCs and 14 ADCs, respectively.

Again, due to the high ABCLK frequency, this mode is available

only in the 48 kHz/44.1 kHz/32 kHz sample rate.

Combining the AUX ADC and DAC modes results in a system

configuration of 6 ADCs and 12 DACs. The system, then, con-

sists of two external stereo ADCs, two external stereo DACs,

and one AD1928. This mode is shown in Figure 17 (combined

AUX DAC and ADC modes).

LRCLK

BCLK

DATA

BCLK

DATA

32 BCLKs

SLOT 1

LEFT 1

Figure 12. ADC TDM (6-Channel I

RIGHT 1

Figure 13. DAC TDM (8-Channel I

SLOT 2

MSB

SLOT 3

LEFT 1

LEFT 2

MSB – 1

RIGHT 1

RIGHT 2

SLOT 4

256 BCLKs

MSB – 2

SLOT 5

LEFT 3

LRCLK

BCLK

DATA

LRCLK

BCLK

DATA

RIGHT 3

SLOT 6

S Mode)

SLOT 7

LEFT 4

AD1928

RIGHT 4

SLOT 8

EVAL-AD1928EB AD [Analog Devices], EVAL-AD1928EB Datasheet - Page 15

EVAL-AD1928EB

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