UDA1330ATSDK NXP Semiconductors, UDA1330ATSDK Datasheet - Page 8

UDA1330ATSDK

Manufacturer Part Number

UDA1330ATSDK

Description

DAC 2-CH Interpolation Filter 16-Pin SSOP Tube

Manufacturer

NXP Semiconductors

Datasheet

1.UDA1330ATSN2118.pdf (23 pages)

Specifications of UDA1330ATSDK

Package

16SSOP

Conversion Rate

55 KSPS

Architecture

Interpolation Filter

Digital Interface Type

Serial (3-Wire)

Number Of Outputs Per Chip

Output Type

Voltage

Signal To Noise Ratio

100(Typ) dB

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L3 INTERFACE

The following system and digital sound processing

features can be controlled in the L3 mode of the

UDA1330ATS:

• System clock frequency

• Data input format

• De-emphasis for 32, 44.1 and 48 kHz

• Volume

• Soft mute.

The exchange of data and control information between the

microcontroller and the UDA1330ATS is accomplished

through a serial interface comprising the following signals:

• L3DATA

• L3MODE

• L3CLOCK.

Information transfer through the microcontroller bus is

organized in accordance with the L3 interface format, in

which two different modes of operation can be

distinguished: address mode and data transfer mode.

Address mode

The address mode (see Fig.4) is required to select a

device communicating via the L3 interface and to define

the destination registers for the data transfer mode.

Data bits 7 to 2 represent a 6-bit device address where

bit 7 is the MSB. The address of the UDA1330ATS is

000101 (bit 7 to bit 2). If the UDA1330ATS receives a

different address, it will deselect its microcontroller

interface logic.

Data transfer mode

The selected address remains active during subsequent

data transfers until the UDA1330ATS receives a new

address command.

2001 Feb 02

Low-cost stereo filter DAC

The fundamental timing of data transfers (see Fig.5) is

essentially the same as the address mode. The maximum

input clock frequency and data rate is 64f

Data transfer can only be in one direction, consisting of

input to the UDA1330ATS to program sound processing

and other functional features. All data transfers are by 8-bit

bytes. Data will be stored in the UDA1330ATS after

reception of a complete byte.

A multibyte transfer is illustrated in Fig.6.

Registers

The sound processing and other feature values are stored

in independent registers. The first selection of the registers

is achieved by the choice of data type that is transferred.

This is performed in the address mode using bit 1 and bit 0

(see Table 5).

Table 5 Selection of data transfer

The second selection is performed by the 2 MSBs of the

data byte (bit 7 and bit 6). The other bits in the data byte

(bit 5 to bit 0) represent the value that is placed in the

selected registers.

The ‘status’ settings are given in Table 6 and the ‘data’

settings are given in Table 7.

BIT 1

BIT 0

data (volume, de-emphasis, mute)

not used

status (system clock frequency,

data input format)

not used

TRANSFER

UDA1330ATS

Product specification

UDA1330ATSDK NXP Semiconductors, UDA1330ATSDK Datasheet - Page 8

UDA1330ATSDK

Specifications of UDA1330ATSDK

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