SI3201-KS Silicon Laboratories Inc, SI3201-KS Datasheet - Page 51

SI3201-KS

Manufacturer Part Number

SI3201-KS

Description

IC LINEFEED INTRFC SI321X 16SOIC

Manufacturer

Silicon Laboratories Inc

Series

ProSLIC®r

Datasheet

1.SI3201-KS.pdf (138 pages)

Specifications of SI3201-KS

Package / Case

16-SOIC (3.9mm Width) Exposed Pad, 16-eSOIC, 16-HSOIC

Function

CODEC

Interface

PCM, Serial, SPI

Number Of Circuits

Voltage - Supply

3.13 V ~ 5.25 V

Current - Supply

88mA

Power (watts)

800mW

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Includes

BORSCHT Functions, Ring Trip Detection

Product

SLIC

Supply Voltage (min)

3.13 V

Supply Current

88 mA

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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

2.8. Two-Wire Impedance Matching

The ProSLIC provides on-chip, programmable, two-wire

impedance settings to meet a wide variety of worldwide

two-wire return loss requirements. The two-wire

impedance is programmed by loading one of the eight

available impedance values into the TISS[2:0] bits of the

Two-Wire Impedance Synthesis Control register (direct

the default setting of 600  will be loaded into the TISS

Real and complex two-wire impedances are realized by

internal feedback of a programmable amplifier (RAC), a

switched

transconductance amplifier (G

creates the real portion, and XAC creates the imaginary

portion of G

models the desired impedance value to the subscriber

loop. The differential ac current is fed to the subscriber

loop via the ITIPP and IRINGP pins through an off-chip

current buffer, I

path and ends with an analog signal at the output of

the receive path.

An additional analog loopback (ALM1) takes the

digital stream at the output of the A/D converter and

feeds it back to the D/A converter. (See Figure 25.)

The signal path starts with the analog signal at the

input of the transmit path and ends with an analog

signal at the output of the receive path. This

loopback option allows testing of the analog signal

processing circuitry of the Si3210 to be carried out

completely independently of any activity in the DSP.

The full digital loopback tests almost all the circuitry

of both the transmit and receive paths. The analog

signal at the output of the receive path are fed back

to the input of the transmit path by way of the hybrid

filter path. (See Figure 25.) The signal path starts

with 8-bit PCM data input to the receive path and

ends with 8-bit PCM data at the output of the

transmit path. The user can bypass the companding

process and interface directly to the 16-bit data.

An additional digital loopback (DLM) takes the digital

stream at the input of the D/A converter in the

receive path and feeds it back to the transmit A/D

digital filter. The signal path starts with 8-bit PCM

data input to the receive path and ends with 8-bit

PCM data at the output of the transmit path. This

loopback option allows the testing of the digital

signal processing circuitry of the Si3210 to be carried

out completely independently of any analog signal

processing activity. The user can bypass the

companding process and interface directly to the 16-

bit data.

capacitor

’s input. G

BUF

, which is implemented using

network

then creates a current that

). (See Figure 25.) RAC

(XAC),

and

Rev. 1.45

transistors Q1 and Q2 (see Figure 13 on page 24). G

is referenced to an off-chip resistor (R

The ProSLIC also provides a means of compensating

for degraded subscriber loop conditions involving

excessive line capacitance (leakage). The CLC[1:0] bits

of direct Register 10 increase the ac signal magnitude

to compensate for the additional loss at the high end of

the audio frequency range. The default setting of

CLC[2:0] assumes no line capacitance.

Silicon revisions C and higher support the option to

remove the internal reference resistor used to

synthesize ac impedances for 600 + 2.16 µF and

900 + 2.16 µF settings so that an external resistor

reference may be used. This option is enabled by

setting ZSEXT = 1 (direct Register 108, bit 4).

2.9. Clock Generation

The ProSLIC will generate the necessary internal clock

frequencies from the PCLK input. PCLK must be

synchronous to the 8 kHz FSYNC clock and run at one

of the following rates: 256 kHz, 512 kHz, 768 kHz,

1.024 MHz, 1.536 MHz, 2.048 MHz, 4.096 MHz or

8.192 MHz. (Note that 768 kHz and 1.536 MHz are not

valid rates for GCI mode.) The ratio of the PCLK rate to

the FSYNC rate is determined via a counter clocked by

PCLK. The three-bit ratio information is automatically

transferred into an internal register, PLL_MULT,

following a reset of the ProSLIC. The PLL_MULT is

used to control the internal PLL, which multiplies PCLK

as needed to generate the 16.384 MHz rate needed to

run the internal filters and other circuitry.

The PLL clock synthesizer settles very quickly following

powerup. However, the settling time depends on the

PCLK frequency, and it can be approximated by the

following equation:

2.10. Interrupt Logic

The ProSLIC is capable of generating interrupts for the

following events:



Loop current/ring ground detected

Ring trip 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

SETTLE

---------------- -

PCLK

Si3210/Si3211

SI3201-KS Silicon Laboratories Inc, SI3201-KS Datasheet - Page 51

SI3201-KS

Specifications of SI3201-KS

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