SI3225-G-GQ Silicon Laboratories Inc, SI3225-G-GQ Datasheet - Page 30

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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Si3220/25 Si3200/02

3. Functional Description

The Dual ProSLIC

solution that provides all SLIC, codec, and DTMF

detection/decoding functions needed for a complete

dual-channel analog telephone interface. Intended for

multiple-channel long-loop (up to 18 kft) applications

requiring high-density line card designs, the Dual

ProSLIC chipset provides high integration and low-

power operation for applications, such as Central Office

(CO) and digital loop carrier (DLC) enclosures. The

Dual ProSLIC chipset is also ideal for short-loop

applications requiring a space-effective solution, such

as terminal adapters, integrated access devices (IADs),

PBX/key systems, and voice-over IP systems. The

chipset meets all relevant Bellcore LSSGR, ITU, and

ETSI standards.

The Si3220/Si3225 ICs perform all battery, overvoltage,

ringing,

(BORSCHT) functions on-chip in a low-power, small-

footprint solution. DTMF decoding and generation,

phase continuous FSK (caller ID) signaling, and pulse

metering are also integrated. All high-voltage functions

are implemented using the Si3200/2 Linefeed Interface

IC allowing a highly-programmable integrated solution

that offers the lowest total system cost.

The internal linefeed circuitry provides programmable

on-hook voltage and off-hook loop current, reverse

battery operation, loop or ground-start operation, and

on-hook transmission. Loop current and voltage are

continuously monitored using an integrated 8-bit

monitor A/D converter. The Si3220 provides on-chip

balanced 5 REN ringing with or without a programmable

dc offset, eliminating the need for an external bulk ring

generator and per-channel ringing relay. Both sinusoidal

and trapezoidal ringing waveshapes are available.

Ringing parameters, such as frequency, waveshape,

cadence, and offset, are available in registers to reduce

external controller requirements. The Si3225 supports

external ringing generation with ring relay driver and

external ring trip sensing to address legacy systems

that implement a centralized ringing architecture. All

ringing options are software-programmable over a wide

range of parameters to address a wide variety of

application requirements.

The Si3220/Si3225 ICs also provide a variety of line

monitoring and subscriber loop testing functions. All

versions have the ability to generate specific dc and

audio signals and continuously monitor and store all line

voltage and current parameters. This combination of

signal generation and measurement tools allows remote

line card and loop diagnostics without requiring

additional test equipment. These diagnostic functions

supervision,

chipset is a three-chip integrated

codec,

hybrid,

and

test

Rev. 1.3

comply with relevant LSSGR and ITU requirements for

line-fault detection and reporting, and measured values

are stored in registers for later use or further

calculations. The Si3220 and Si3225 also include two

relay drives per channel to support legacy systems

implementing centralized test equipment.

A complete audio transmit and receive path is

integrated, including DTMF generation and decoding,

tone

programmable

programmable transhybrid balance and programmable

gain

programmable providing a single hardware design to

meet international requirements. Digital voice data

transfer occurs over a standard PCM bus, and control

data is transferred using a standard 4-wire serial

peripheral interface (SPI). The Si3220 and Si3225 can

also be configured to support a 4-wire general circuit

interface (GCI). The Si3220 and Si3225 are available in

a 64-lead TQFP, and the Si3200/2 is available in a

thermally-enhanced 16-lead SOIC.

3.1. Dual ProSLIC Architecture

The Dual ProSLIC chipset is comprised of a low-voltage

CMOS device that uses a low-cost integrated linefeed

interface IC to control the high voltages needed for

operating the terminal equipment connected to the

telephone line. Figure 15 presents a simplified diagram

of the linefeed control loop circuit for controlling the TIP

and RING leads. The diagram illustrates a single-ended

model for simplicity, showing either the TIP or the RING

lead.

The Dual ProSLIC chipset produces line voltages and

currents

programmable settings as well as direct ac and dc

voltage/current sensing from the line. The Si3200/2

LFIC provides a low-cost interface for bridging the low-

voltage CMOS devices to the high-voltage TIP/RING

pair. Sense resistors allow the voltage and current to be

measured on each lead or across T-R using the low-

voltage circuitry inside the Si3220 and Si3225

eliminating expensive analog sensing circuitry inside

the high-voltage Si3200/2. In addition, the total power

inside the Si3200/2 is constantly monitored and

controlled to provide optimal reliability under all

operating conditions. The sensing circuitry is calibrated

for environmental and process variations to guarantee

accuracy with standard external resistor tolerances.

attenuation.

generation,

the

These

TIP/RING

modem/fax

impedance

features

pair

tone

synthesis,

using

are

detection,

software-

and

SI3225-G-GQ Silicon Laboratories Inc, SI3225-G-GQ Datasheet - Page 30

SI3225-G-GQ

Specifications of SI3225-G-GQ

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