SI3200-G-GS Silicon Laboratories Inc, SI3200-G-GS Datasheet - Page 73

SI3200-G-GS

Manufacturer Part Number

SI3200-G-GS

Description

SLIC 2-CH 63dB 45mA 3.3V 6-Pin SMD

Manufacturer

Silicon Laboratories Inc

Series

ProSLIC®r

Datasheets

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

2.SI3232PPT0-EVB.pdf (128 pages)

Specifications of SI3200-G-GS

Package

6SMD

Number Of Channels Per Chip

Polarity Reversal

Yes

Longitudinal Balanced

63 dB

Loop Current

45 mA

Minimum Operating Supply Voltage

3.13 V

Typical Operating Supply Voltage

3.3 V

Typical Supply Current

0.11 mA

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

Package / Case

16-SOIC (3.9mm Width)

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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3.27. Interrupt Logic

The Dual ProSLIC devices are capable of generating

interrupts for the following events:

The interface to the interrupt logic consists of six

registers. Four interrupt status registers (IRQ0–IRQ3)

contain 1 bit for each of the above interrupt functions.

These bits are set when an interrupt is pending for the

associated resource. Three interrupt mask registers

(IRQEN1–IRQEN3) also contain 1 bit for each interrupt

function. For interrupt mask registers, the bits are active

high. Refer to the appropriate functional description text

for operational details of the interrupt functions.

When a resource reaches an interrupt condition, it

signals an interrupt to the interrupt control block. The

interrupt control block sets the associated bit in the

interrupt status register if the mask bit for that interrupt

is set. The INT pin is a NOR of the bits of the interrupt

status registers. Therefore, if a bit in the interrupt status

registers is asserted, IRQ asserts low. Upon receiving

the interrupt, the interrupt handler should read interrupt

status registers to determine which resource requests

service. All interrupt bits in the interrupt status registers

IRQ0–IRQ3 are cleared following a register read

operation. If the interrupt status registers are non-zero,

the INT pin remains asserted.

Loop current/ring ground detected

Ring trip detected

Ground Key detected

Power alarm

DTMF digit detected

Active timer 1 expired

Inactive timer 1 expired

Active timer 2 expired

Inactive timer 2 expired

Ringing active timer expired

Ringing inactive timer expired

Pulse metering active timer expired

Pulse metering inactive timer expired

RAM address access complete

Receive path modem tone detected

Transmit path modem tone detected

Rev. 1.3

3.28. SPI Control Interface

The control interface to the Dual ProSLIC devices is a

4-wire SPI bus modeled after microcontroller and serial

peripheral devices. The interface consists of a clock,

SCLK, chip select, CS, serial data input, SDI, and serial

data output, SDO. In addition, the Dual ProSLIC devices

include a serial data through output (SDI_THRU) to

support daisy-chain operation of up to eight devices (up

to sixteen channels). Figure 41 illustrates the daisy-

chain connections. Note that the SDITHRU pin of the

last device in the chain must not be connected to

ground (SDITHRU = 0 indicated GCI mode). The device

operates with both 8-bit and 16-bit SPI controllers.

Each SPI operation consists of a control byte, an

address byte (of which only the seven LSBs are used

internally), and either one or two data bytes depending

on the width of the controller and whether the access is

to an 8-bit register or 16-bit RAM address. Bytes are

always transmitted MSB first. The variations of usage

on this four-wire interface are as follows:

As shown in the application schematics in Figure 12 on

page 26 and Figure 13 on page 27, a pulldown resistor

is required on the SDO pin to ensure proper operation.

A pullup resistor is not allowed on the SDO pin.

Continuous clocking . During continuous clocking,

the data transfers are controlled by the assertion of

the CS pin. CS must be asserted before the falling

edge of SCLK on which the first bit of data is

expected during a read cycle and must remain low

for the duration of the 8-bit transfer (command/

address or data), going high after the last rising of

SCLK after the transfer.

Clock during transfer only . In this mode, the clock

is cycling only during the actual byte transfers. Each

byte transfer consists of eight clock cycles in a return

to “1” format.

SDI/SDO wired operation . Independent of the

clocking options described, SDI and SDO can be

treated as two separate lines or wired together if the

master is capable of tri-stating its output during the

data byte transfer of a read operation.

Soft reset . The SPI state machine resets whenever

CS asserts during an operation on an SCLK cycle

that is not a multiple of eight. This is a mechanism

for the controller to force the state machine to a

known state when the controller and the device are

out of synchronization.

Si3220/25 Si3200/02

SI3200-G-GS Silicon Laboratories Inc, SI3200-G-GS Datasheet - Page 73

SI3200-G-GS

Specifications of SI3200-G-GS

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