CS42528-DQZ Cirrus Logic Inc, CS42528-DQZ Datasheet - Page 75

CS42528-DQZ

Manufacturer Part Number

CS42528-DQZ

Description

IC CODEC S/PDIF RCVR 64-LQFP

Manufacturer

Cirrus Logic Inc

Type

Audio Codecr

Datasheet

1.CS42528-CQZ.pdf (91 pages)

Specifications of CS42528-DQZ

Data Interface

Serial

Resolution (bits)

24 b

Number Of Adcs / Dacs

2 / 8

Sigma Delta

Yes

Dynamic Range, Adcs / Dacs (db) Typ

114 / 114

Voltage - Supply, Analog

4.75 V ~ 5.25 V

Voltage - Supply, Digital

3.13 V ~ 5.25 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

64-LQFP

Audio Codec Type

Stereo

No. Of Adcs

No. Of Dacs

No. Of Input Channels

No. Of Output Channels

Adc / Dac Resolution

24bit

Adcs / Dacs Signal To Noise Ratio

114dB

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

598-1503 - BOARD EVAL FOR CS42528/CS49300

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Quantity

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Part Number:

CS42528-DQZ

Manufacturer:

Cirrus Logic Inc

Quantity:

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Company:

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Part Number:

CS42528-DQZR

Manufacturer:

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DS586F1

9.2.1

9.2.1.1

In many applications, the channel status blocks for the A and B channels will be identical. In this situation,

the user may read a byte from one of the channel's blocks since the corresponding byte for the other chan-

nel will likely be the same. One-Byte Mode takes advantage of the often identical nature of A and B channel

status data. When reading data in One-Byte Mode, a single byte is returned, which can be from channel A

or B data, depending on a register control bit.

One-Byte Mode saves the user substantial control port access time, as it effectively accesses two bytes

worth of information in 1 byte's worth of access time. If the control port's auto-increment addressing is used

in combination with this mode, multi-byte accesses, such as full-block reads, can be done especially effi-

ciently.

9.2.1.2

There are those applications in which the A and B channel status blocks will not be the same, and the user

is interested in accessing both blocks. In these situations, Two-Byte Mode should be used to access the

E buffer.

In this mode, a read will cause the CS42528 to output two bytes from its control port. The first byte out will

represent the A channel status data, and the second byte will represent the B channel status data.

Channel Status Data E Buffer Access

The user can monitor the incoming Channel Status data by reading the E buffer, which is mapped into the

ured to point to the address space of the C data. This is accomplished by setting the BSEL bit to ‘0’ in the

The user can configure the Interrupt Mask Register to cause an interrupt whenever any data-bit changes

are detected when D to E Channel Status buffer transfers occur. If no data bits have changed within the

current transfer of data from D to E, no interrupt will be generated. This allows determination of the ac-

ceptable time periods to interact with the E buffer. See

details.

The E buffer is organized as 24 x 16-bit words. For each word the MS Byte is the A channel data, and the

LS Byte is the B channel data (see

as One-Byte Mode and Two-Byte Mode. The desired mode is selected by setting the CAM bit in the Chan-

nel Status Data Buffer Control Register.

“Channel Status Data Buffer Control (address 24h)” on page

One-Byte Mode

Two-Byte Mode

Figure 26. Channel Status Data Buffer Structure

Receiver

S/PDIF

From

Figure

Received

Data

Buffer

26). There are two methods of accessing this memory, known

“Interrupt Mask (address 21h)” on page 64

8-bits

Control Port

words

8-bits

65.

CS42528

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CS42528-DQZ Cirrus Logic Inc, CS42528-DQZ Datasheet - Page 75

CS42528-DQZ

Specifications of CS42528-DQZ

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