uda1345ts-n2 NXP Semiconductors, uda1345ts-n2 Datasheet - Page 9

uda1345ts-n2

Manufacturer Part Number

uda1345ts-n2

Description

Economy Audio Codec

Manufacturer

NXP Semiconductors

Datasheet

1.UDA1345TS-N2.pdf (28 pages)

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Philips Semiconductors

Table 2 Digital decimation ﬁlter characteristics

Note: the digital output level is inversely proportional to the

ADC analog power supply. This means that with a

constant analog input level and increasing power supply

the digital output level will decrease proportionally.

7.4

The digital filter interpolates from 1 to 128f

cascade of a recursive filter and an FIR filter.

Table 3 Digital interpolation ﬁlter characteristics

7.5

Since the device supports a sampling range of

8 to 100 kHz, the device can support double speed (e.g.

for 44.1 kHz and 48 kHz sampling frequency) by just

doubling the system speed. In double speed all features

are available.

7.6

The 3rd-order noise shaper operates at 128f

in-band quantization noise to frequencies well above the

audio band. This noise shaping technique enables high

signal-to-noise ratios to be achieved. The noise shaper

output is converted into an analog signal using a filter

stream digital-to-analog converter.

2002 May 28

Pass-band ripple

Stop band

Dynamic range

Overall gain when

a 0 dB signal is

input to ADC to

digital output

Passband ripple

Stopband

Dynamic range

Gain

Economy audio CODEC

Interpolation ﬁlter (DAC)

Double speed

Noise shaper (DAC)

ITEM

CONDITIONS

>0.55f

0.45f

VALUE (dB)

by means of a

. It shifts

116.5

114

0.05

1.16

0.03

3.5

7.7

The FSDAC is a semi-digital reconstruction filter that

converts the 1-bit data stream of the noise shaper to an

analog output voltage. The filter coefficients are

implemented as current sources and are summed at

virtual ground of the output operational amplifier. In this

way very high signal-to-noise performance and low clock

jitter sensitivity is achieved. A post filter is not needed due

to the inherent filter function of the DAC. On-board

amplifiers convert the FSDAC output current to an output

voltage signal capable of driving a line output.

The output voltage of the FSDAC is scaled proportionally

with the power supply voltage.

7.8

In the event that the DAC is powered-up or powered-down,

a cosine roll-off mute will be performed (when powering

down) or a cosine roll-up de-mute (when powering up) will

be performed. This is in order to prevent clicks when

powering up or down. This power-on/off mute takes

7.9

The UDA1345TS can be used under L3 microcontroller

interface mode or under static pin control. The mode can

be set via the Mode Control (MC) pins MC1 (pin 8) and

MC2 (pin 21). The function of these pins is given in

Table 4.

Table 4 Mode Control pins MC1 and MC2

Important: in L3MODE the UDA1345TS is completely pin

and function compatible with the UDA1340M and the

UDA1344TS.

Note: the UDA1345TS does NOT support bass-boost and

treble.

L3MODE

Test modes

Static pin mode

4 = 128 samples.

MODE

The Filter Stream DAC (FSDAC)

Power control

L3MODE or static pin control

HIGH

LOW

MC2

UDA1345TS

Product speciﬁcation

HIGH

LOW

MC1

uda1345ts-n2 NXP Semiconductors, uda1345ts-n2 Datasheet - Page 9

uda1345ts-n2

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