SI3225-G-GQ Silicon Laboratories Inc, SI3225-G-GQ Datasheet - Page 71

SI3225-G-GQ

Manufacturer Part Number

SI3225-G-GQ

Description

IC PROSLIC/CODEC DUAL 64TQFP

Manufacturer

Silicon Laboratories Inc

Series

ProSLIC®r

Datasheet

1.SI3200-G-FSR.pdf (112 pages)

Specifications of SI3225-G-GQ

Function

Subscriber Line Interface Concept (SLIC), CODEC

Interface

GCI, PCM, SPI

Number Of Circuits

Voltage - Supply

3.3V, 5V

Current - Supply

65mA

Power (watts)

941mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

64-TQFP, 64-VQFP

Includes

Battery Switching, BORSCHT Functions, DTMF Generation and Decoding, FSK Tone Generation, Modem and Fax Tone Detection

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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attenuation for signals above 3.4 kHz are part of the

combined decimation filter characteristic of the A/D

converter. One more digital filter, THPF, is available in

the transmit path. THPF implements the high-pass

attenuation requirements for signals below 65 Hz. An

equalizer block then equalizes the transmit signal path

to compensate for series protection resistance, R

outside of the ac-sensing inputs. The linear PCM data

stream output from the equalizer block is amplified by

the transmit-path programmable gain amplifier, TPGA,

which can be programmed from –

decoder receives the linear PCM data stream and

performs the digit extraction if enabled by the user. The

final step in the transmit path signal processing is the

A-law or µ-law compression, which can reduce the data

stream word width to 8 bits. Depending on the PCM

mode select register selection, every 8-bit compressed

serial data word occupies one time slot on the PCM

highway, or every 16-bit uncompressed serial data

word occupies two time slots on the PCM highway.

3.25.2. Receive Path

In the receive path, the optionally-compressed 8-bit

data is first expanded to 16-bit words. The PCMF

two 8-bit words are assembled into one 16-bit word.

RPGA is the receive path programmable gain amplifier,

which can be programmed from – ∞ dB to 6 dB. An

8 kHz, 16-bit signal is then provided to a D/A converter.

An analog mute function is provided directly after the

D/A converter. When not muted, the resulting analog

signal is applied at the input of the transconductance

amplifier, Gm, which drives the off-chip current buffer,

3.25.3. TPGA/RPGA Gain/Attenuation Blocks

The TPGA and RPGA blocks are essentially linear

multipliers with the structure illustrated in Figure 39.

Both blocks can be independently programmed from –

to +6 dB (0 to 2 linear scale). The TXGAIN and RXGAIN

RAM locations are used to program each block. A

setting of 0000h mutes all audio signals; a setting of

4000h passes the audio signal with no gain or

attenuation (0 dB), and a setting of 7FFFh provides the

maximum 6 dB of gain to the incoming audio signal. The

device signal scaling assumes that dBm is always

referenced to 600 Ω . To compensate for this, the correct

RXGAIN and TXGAIN settings are given in the

coefficient generator software. The DTXMUTE and

DRXMUTE bits in the DIGCON register are also

available to allow muting of the transmit and receive

paths without requiring modifications to the TXGAIN or

RXGAIN settings.

BUF

∞

to 6 dB. The DTMF

PROT

Rev. 1.3

∞

3.25.4. TXEQ/RXEQ Equalizer Blocks

The TXEQ and RXEQ blocks (see Figure 11 on page

25) represent 4-tap filters that can be used to equalize

the transmit and receive paths, respectively. The

transmit path equalizer is controlled by the TXEQCO0-

TXEQCO3 RAM locations, and the receive path

equalizer is controlled by the RXEQCO0-RXEQCO3

RAM locations. The Si322x Coefficient Generator

software uses these filters in calculating the ac

impedance coefficients for optimal ac performance.

Refer to “AN63: Si322x Coefficient Generator User’s

Guide” for detailed information regarding the calculation

of ac impedance coefficients.

3.25.5. Audio Characteristics

The dominant source of distortion and noise in both the

transmit and receive paths is the quantization noise

introduced by the µ-law or the A-law compression

process. Figure 5 on page 21 specifies the minimum

Signal-to-Noise and Distortion Ratio for either path for a

sine wave input of 200 Hz to 3400 Hz.

Both the µ-law and the A-law speech encoding allow the

audio codec to transfer and process audio signals larger

than 0 dBm0 without clipping. The maximum PCM code

is generated for a µ-law encoded sine wave of

3.17 dBm0 or an A-law encoded sine wave of

3.14 dBm0. The device overload clipping limits are

driven by the PCM encoding process. Figure 6 on page

22 shows the acceptable limits for the analog-to-analog

fundamental power transfer-function, which bounds the

behavior of the device.

The transmit path gain distortion versus frequency is

shown in Figure 7 on page 22. The same figure also

presents the minimum required attenuation for out-of-

band analog signals applied on the line. The presence

of a high-pass filter transfer function ensures at least

30 dB of attenuation for signals below 65 Hz. The low-

pass filter transfer function attenuates signals above

3.4 kHz. It is implemented as part of the A-to-D

converter.

where M = {0, 1/16384, 2/16384,...32767/16384}

Figure 39. TPGA and RPGA structure

PCM

Si3220/25 Si3200/02

TPGA or RPGA

PCM

Out

SI3225-G-GQ Silicon Laboratories Inc, SI3225-G-GQ Datasheet - Page 71

SI3225-G-GQ

Specifications of SI3225-G-GQ

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