SI3206-B-GQ Silicon Laboratories Inc, SI3206-B-GQ Datasheet - Page 59

SI3206-B-GQ

Manufacturer Part Number

SI3206-B-GQ

Description

IC PROSLIC LINE FEED 125V 48TQFP

Manufacturer

Silicon Laboratories Inc

Series

ProSLIC®r

Datasheets

1.SI3206-B-GQ.pdf (128 pages)

2.SI3205-D-FS.pdf (28 pages)

3.SI3206-B-GM.pdf (2 pages)

Specifications of SI3206-B-GQ

On-hook Transmission

Yes

Polarity Reversal

Yes

On-chip Ring Relay Driver

Yes

Longitudinal Balanced

Operating Supply Voltage (typ)

3.3V

Operating Temp Range

-40C to 85C

Package Type

TQFP

Loop Current Limit

45mA

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Function

Subscriber Line Interface Concept (SLIC)

Interface

GCI, PCM, SPI

Number Of Circuits

Voltage - Supply

3.3V

Current - Supply

Power (watts)

Operating Temperature

Mounting Type

Surface Mount

Package / Case

48-TQFP Exposed Pad

Includes

Lead Free Status / RoHS Status

Compliant

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The peak detect filter block will report the magnitude of

the largest positive or negative value without sign. The

dc filter block consists of a single pole IIR low-pass filter

with a coefficient held in the DIAGDCCO indirect

DIAG_DC indirect register. The ac filter block consists of

a full-wave rectifier followed by a single-pole IIR low-

pass filter with a coefficient held in the DIAGACCO

indirect register. The peak value can be read from the

DIAGPK

automatically cleared, and the filters are flushed on the

0-1 transition of the SDIAG bit as well as any time the

input source is changed. The user can always write 0 to

the DIAGPK register to get peak information for a

specific time interval.

4.18.5. Diagnostics Capabilities

VTIP

VRING

VLOOP

VLONG

ILOOP

ILONG

Foreign voltages test. The Si3232 can detect the

presence of foreign voltages according to GR-909

requirements of ac voltages > 10 V and dc voltages

> 6 V from T-G or R-G. This test should only be

performed once it has been determined that a

hazardous voltage is not present on the line.

Resistive faults test. Resistive fault conditions can

be measured from T-G, R-G, or T-R for dc resistance

per GR-909 specifications. If the dc resistance is

< 150 k Ω , it is considered a resistive fault. This test

can be performed by programming the Si3232 to

generate a constant open-circuit voltage and

measuring the resulting current. The resistance can

then be calculated in the system DSP.

Receiver off-hook test. This test can use a similar

procedure as outlined in the Resistive Faults test

above but is measured only across T-R. In addition,

two measurements must be performed at different

open-circuit voltages in order to verify the resistive

indirect

The

Figure 38. SLIC Diagnostic Filter Structure

peak

value

Preliminary Rev. 0.96

FULL WAVE

RECTIFIER

DIAGDCCO

DETECT

PEAK

linearity. If the calculated resistance has more than

15% nonlinearity between the two calculated points

and the voltage/current origin, it is determined to be

a resistive fault.

Ringers (REN) test. This test verifies the presence

of REN at the end of the TIP/RING pair per GR-909

specifications. It can be implemented by generating

a 20 Hz ringing signal between 7 V

and measuring the 20 Hz ac current using the 8-bit

monitor ADC. The resistance (REN) can then be

calculated using the system DSP. The acceptable

REN range is > 0.175 REN (<40 k Ω ) or < 5 REN

(> 1400 Ω ). A returned value of <1400 Ω is

determined to be a resistive fault from T-R, and a

returned value > 40 k Ω is determined to be a loop

with no handset attached.

AC line impedance measurement. This test can

determine the loop length across T-R. It can be

implemented by sending out multiple discrete tones

from the system DSP/codec, one at a time, and

measuring the returned amplitude, with the system

hybrid balance filter disabled. By calculating the

voltage difference between the initial amplitude and

the received amplitude and dividing the result by the

audio current, the line impedance can then be

calculated in the system processor.

Line capacitance measurement. This test can be

implemented in the same manner as the ac line

impedance measurement test above, but the

frequency band of interest is between 1 kHz and

3.4 kHz. Knowing the synthesized 2-wire impedance

of the Si3232, the roll-off effect can be used to

calculate the ac line capacitance. An external codec

is required for this test.

LPF

DIAGACCO

LPF

rms

SDIAG_AC

SDIAG_DC

SDIAG_PK

Si3232

and 17 V

rms

SI3206-B-GQ Silicon Laboratories Inc, SI3206-B-GQ Datasheet - Page 59

SI3206-B-GQ

Specifications of SI3206-B-GQ

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