SI3050-E-GTR Silicon Laboratories Inc, SI3050-E-GTR Datasheet - Page 32

SI3050-E-GTR

Manufacturer Part Number

SI3050-E-GTR

Description

IC VOICE DAA GCI/PCM/SPI 20TSSOP

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI3050-E-GTR.pdf (106 pages)

Specifications of SI3050-E-GTR

Function

Data Access Arrangement (DAA)

Interface

PCM, Serial, SPI

Number Of Circuits

Voltage - Supply

3 V ~ 3.6 V

Current - Supply

8.5mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

20-TSSOP

Includes

Line Voltage Monitor, Loop Current Monitor, Overload Detection, Parallel Handset Detection, Polarity Reversal Detection, TIP and

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power (watts)

Lead Free Status / RoHS Status

Supplier Unconfirmed, Lead free / RoHS Compliant

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Si3050 + Si3011

5.28. Transhybrid Balance

The Si3050 contains an on-chip analog hybrid that

performs the 2- to 4-wire conversion and near-end echo

cancellation. This hybrid circuit is adjusted for each ac

termination setting selected to achieve a minimum

transhybrid balance of 20 dB when the line impedance

matches the impedance set by ACIM.

The Si3050 also offers a digital hybrid stage for

additional near-end echo cancellation. For each ac

termination setting, the eight programmable hybrid

registers (Registers 45–52) can be programmed with

coefficients to increase cancellation of real-world line

impedances. This digital filter can produce 10 dB or

greater of near-end echo cancellation in addition to the

trans-hybrid loss from the analog hybrid circuitry.

Coefficients are 2s complement, where unity is

represented as binary 0100 0000b, the maximum value

as binary 0111 1111b, and the minimum value as binary

1000 000b. See AN84 for a more detailed description of

the digital hybrid and how to use it.

5.29. Filter Selection

The Si3050 supports additional filter selections for the

receive and transmit signals as defined in Tables 10 and

11. The IIRE bit (Register 16, bit 4) selects between the

IIR and FIR filters. The IIR filter provides a shorter, but

non-linear, group delay alternative to the default FIR

filter, and only operates with an 8 kHz sample rate. The

FILT bit (Register 31, bit 1) selects a –3 dB low

frequency pole of 5 Hz when cleared and a –3 dB low

frequency pole of 200 Hz (per EIA/TIA 464) when set.

The FILT bit affects the receive path only.

5.30. Clock Generation

The Si3050 generates 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,

8.192 MHz. The ratio of the PCLK rate to the FSYNC

rate is determined internally by the DAA and is

transferred into internal registers after a reset. These

internal registers are not accessible through register

reads or writes. Figure 27 shows the operation of the

Si3050 clock circuitry.

The PLL clock synthesizer settles quickly after powerup.

However, the settling time depends on the PCLK

frequency and it can be approximately predicted by the

following equation:

For all valid PCLK frequencies listed above, the default

line sample rate is 8 kHz. This sample rate can be

1.53 MHz,

settle

= 64/F

PCLK

2.048 MHz,

4.09 MHz,

Rev. 1.11

increased to 16 kHz by setting the HSSM bit

(Register 7, bit 3). Regardless of the sample rate

frequency, the serial data communication rate of the

PCM and GCI highways remains 8 kHz. When the

16 kHz sample rate is selected, additional timeslots in

the PCM or GCI highway are used to transfer the

additional data.

5.31. Communication Interface Mode

The Si3050 supports two communication interface

protocols:



A pin-strapping method (specifically, the state of SCLK

on power-up [reset]) is used to select between the two

communication interface protocols. Tables 16 and 17

specify how to select a communication mode, and how

the various pins are used in each mode.

When operating in PCM/SPI mode, the GCI control

each remain set at 0000_0000 when using the PCM/

SPI highway mode). Similarly, when operating in GCI

highway mode the PCM registers should not be written

(i.e., Registers 33–37 must remain set to 0000_0000

when using the GCI highway mode).

PCM/SPI mode where data and control information

transmission/reception occurs across separate

buses (PCM highway for data, and SPI port for

control).

GCI mode where data and control information is

multiplexed and transmission/reception occurs

across the GCI highway bus.

Selection

SI3050-E-GTR Silicon Laboratories Inc, SI3050-E-GTR Datasheet - Page 32

SI3050-E-GTR

Specifications of SI3050-E-GTR

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