PSB 21393 H V1.3 Infineon Technologies, PSB 21393 H V1.3 Datasheet - Page 117

PSB 21393 H V1.3

Manufacturer Part Number

PSB 21393 H V1.3

Description

IC CODEC W/TRANSCEIVER MQFP-44

Manufacturer

Infineon Technologies

Series

SCOUT™r

Datasheet

1.PSB_21391_H_V1.3.pdf (253 pages)

Specifications of PSB 21393 H V1.3

Function

CODEC

Interface

IOM-2, SCI, UPN

Number Of Circuits

Voltage - Supply

3.3V, 5V

Current - Supply

27mA

Mounting Type

Surface Mount

Package / Case

44-BQFP

Includes

Activation and Deactivation, Channel Handler, DTMF / Tone / Ringing Generator, HDLC Controller, Speakerphone, UPN Transceiver

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power (watts)

Operating Temperature

Other names

PSB21393HV1.3XT
PSB21393HV13XP
SP000007533
SP000007534

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Two differential inputs (MIP1/MIN1 and MIP2/MIN2) and one single-ended input (AXI)

can be connected to the amplifier AMI via an analog input multiplexer (ATCR.AIMX). The

programmable amplifier AMI (ATCR.MIC) provides a coarse gain adjustment range from

0...42dB in 6dB steps. The maximum value of the programmable gain adjustment of the

microphone amplifier with specified transmission characteristics is 36dB for the

differential input. The maximum gain value with specified transmission characteristics of

the single ended input AXI is 24dB. Fine gain adjustment is performed in the digital

domain via the programmable gain adjustment stage GX (see signal processor section).

This allows a perfect level adaptation to various types of microphone transducers without

loss in the signal to noise performance.

The fully differential output HOP/HON connects the amplifier AHO to a handset earpiece.

Differential output LSP/LSN is provided for use with a 50

(3.3V supply voltage) respectively loudspeaker. The programmable amplifiers AHO and

ALS (ARCR.HOC, ARCR.LSC) provide a coarse gain adjustment range from 11.5dB...-

21.5dB (ALS) or 2.5dB...-21.5dB (AHO) respectively. The step size is for both amplifiers

3dB. Fine gain adjustment is performed in the digital domain via the programmable

adjustment stage GR.

Each output of the differential amplifiers AHO and ALS can be powered down separately

(ACR.DHOP, DHON, DLSP, DLSN). By setting ACR.SEM, a powered down

loudspeaker output can be grounded internally for a single ended operation.

The bandgap reference voltage is low-pass filtered via a capacity connected to pin

BGREF. The internal and external reference voltages are derived from this filtered

bandgap reference voltage providing a good noise performance.

A square wave signal from the tone generator can be output directly to the loudspeaker

amplifier (TGSR.TRL) via a level shifter.

Note: The single-ended input (AXI) is internally connected to VREF. To avoid an

4.1.1

Figure 61 shows the attenuation plan of the AFE for the transmit and receive direction.

The levels are given for the digital reference level (0dBm0) and the max. PCM level in

A-law coding (3.14dBm0) at the two supply voltages 3.3V and 5V.

The stated microphone amplifier gain is the maximum gain for guaranteed transmission

characteristics.

In the receive path the stated loudspeaker or handset output amplification is the

maximum selectable gain at the maximum digital PCM level (3.14dBm0) for guaranteed

transmission characteristics.

Data Sheet

unsymmetric input signal to the internal amplifer module, external resitors must

not be connected between AXI and GND or AXI and VREF.

AFE Attenuation Plan

107

(5V supply voltage) or 25

PSB 21391

PSB 21393

2001-03-07

Codec

PSB 21393 H V1.3 Infineon Technologies, PSB 21393 H V1.3 Datasheet - Page 117

PSB 21393 H V1.3

Specifications of PSB 21393 H V1.3

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