SI3200-KS Silicon Laboratories Inc, SI3200-KS Datasheet - Page 57

SI3200-KS

Manufacturer Part Number

SI3200-KS

Description

IC LINEFEED INTRFC 100V 16SOIC

Manufacturer

Silicon Laboratories Inc

Series

ProSLIC®r

Datasheets

1.SI3200-KS.pdf (128 pages)

2.SI3200-FS.pdf (8 pages)

Specifications of SI3200-KS

Package / Case

16-SOIC (3.9mm Width)

Function

Subscriber Line Interface Concept (SLIC), CODEC

Interface

GCI, PCM, SPI

Number Of Circuits

Voltage - Supply

3.3V, 5V

Current - Supply

110µA

Power (watts)

941mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Includes

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

Product

SLIC

Supply Voltage (min)

3.13 V

Supply Current

0.11 mA, 8.4 mA

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Mounting Style

SMD/SMT

Number Of Channels

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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During

ADDRESS, and DATA are captured in the SPI module.

At the completion of the ADDRESS byte of a READ

access, the contents of the channel-based data buffer

are moved into the data register in the SPI for shifting

out during the DATA portion of the SPI transfer. This is

the data loaded into the data buffer in response to the

previous RAM address read request. Therefore, there is

a one-deep pipeline nature to RAM address READ

operations. At the completion of the DATA portion of the

READ cycle, the ADDRESS is transferred to the

channel-based address buffer, and a RAM access

request is logged for that channel. The RAMSTAT bit in

each channel can be polled to monitor the status of

RAM address accesses that are serviced twice per

sample period at dedicated windows in the DSP

algorithm.

There is also a RAM access interrupt in each channel

which, when enabled, indicates that the pending RAM

access request has been serviced. For a RAM WRITE

access, the ADDRESS and DATA is transferred from

the SPI registers to the address and data buffers in the

appropriate channel. The RAM WRITE request is then

logged. As for READ operations, the status of the

pending request can be monitored by either polling the

RAMSTAT bit for the channel or enabling the RAM

access interrupt for the channel. By keeping the

address and data buffers as well as the RAMSTAT

can be scheduled for both channels without interface.

4.18. System Testing

The Si3232 includes a complete suite of test tools that

provide the user with the ability to test the functionality

of the line card as well as detect fault conditions present

on the TIP/RING pair. Using the included loopback test

mode

measurement tools, the user can typically eliminate the

need for per-line test relays as well as centralized test

equipment.

4.18.1. Loopback Test Mode

The codec loopback encompasses almost entirely the

electronics of both the transmit and receive paths. The

analog signal at the output of the system receive path

DAC is fed back to the input of the transmit path by way

of a feedback path. (See Figure 37.) The codec

loopback mode is enabled by setting the DLM bit in the

LBCON register. The impedance synthesis is disabled

in this mode.

along

RAM

with

address

the

signal

accesses,

generation

CONTROL,

Preliminary Rev. 0.96

and

4.18.2. Line Test and Diagnostics

The Si3232 provides a variety of diagnostics tools that

facilitate

diagnostics on the TIP/RING pair as well as line card

functionality verification. The Si3232 can generate dc

line currents and voltages as well as measure all

resulting line voltage and current levels on TIP, RING, or

across the TIP/RING pair. When used in conjunction

with an external codec that can generate discrete audio

tones and discriminate certain audio frequency bands,

the Si3232 can provide a vehicle to allow remote

diagnostics on the subscriber loop and the line card. All

parameters measured by the Si3232 are stored in

registers for further processing by the codec and DSP,

and all dc generation tools are register-programmable

to allow a software-configurable remote diagnostic

system.

The Si3232’s signal generation and measurement tools

are summarized in Table 32. The accompanying text

describes the methodology that can be used to develop

a fully-programmable test suite to facilitate remote

diagnostics.

TIP/

RING

Figure 37. Digital Loopback Mode

remote

BUF

fault

ATX

detection

Mute

and

Si3232

Loopback

ARX

Codec

parametric

To off-chip

off-chip

ADC

From

ADC

SI3200-KS Silicon Laboratories Inc, SI3200-KS Datasheet - Page 57

SI3200-KS

Specifications of SI3200-KS

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