SI3225-G-GQ Silicon Laboratories Inc, SI3225-G-GQ Datasheet - Page 35

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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When the Si3220/Si3225 is used with the Si3200/2

linefeed device, the source impedance of the dc feed is

640 Ω before the adaptive linefeed transition and 320 Ω

after the adaptive linefeed transition, as shown in

Figure 16. On the other hand, when the Si3220/Si3225

is used with a discrete bipolar transistor linefeed, the

source impedance of the dc feed is 320 Ω both before

and after the adaptive linefeed transition.

The loop closure thresholds are programmable via the

LCROFFHK and LCRONHK RAM addresses. The

LCRLPF RAM address provides filtering of the

measured loop current, and the LCRDBI RAM address

provides de-bouncing. The LCR status bit in register

LCRRTP indicates when a loop closure event has been

detected. See “3.10. Loop Closure Detection” on

page 45 for additional details.

3.4.2. On-Hook to Off-Hook Transition

Referring to Figure 16, point 1 represents the open-

circuit voltage (VOC = –48 V) of the dc feed. At point 1,

the source impedance of the dc feed is 640 Ω (320 Ω for

discrete

RING = VOC, since no current flows in the loop. When

bipolar

transistor

VOCDELTA

10 kOhms

linefeed)

Figure 16. Adaptive Linefeed V/I Behavior

0.005

and

2450 Ohms

VTIP/

0.01

Rev. 1.3

Iloop (A)

a dc load is connected across TIP and RING and as dc

current begins to flow in the dc loop, the product of the

dc loop current and the 640 Ω source impedance

(320 Ω for a discrete bipolar transistor linefeed) causes

the VTIP/RING voltage to decline linearly with

increasing loop current. When the VTIP/RING voltage

reaches the VOCLTH threshold (point 2), adaptive

linefeed switches the source impedance of the dc feed

to 320 Ω and simultaneously boosts the value of VOC

by VOCDELTA (point 3). The source impedance of the

dc feed will now remain at 320 Ω until the programmed

current limit (ILIM) is reached (point 4). At point 4, the dc

feed has entered into the constant current mode of

operation.

Adaptive linefeed can be disabled by writing a value of

zero into the VOCDELTA RAM address. Writing a value

of zero to VOCDELTA simply eliminates the apparent

VOC voltage boost associated with a non-zero

VOCDELTA value. With VOCDELTA = 0 in the case of

the Si3200/2, the adaptive linefeed transition still

changes the source impedance from 640 Ω to 320 Ω ,

and there is a corresponding discontinuity at the

1930 Ohms

1800 Ohms

0.015

320 Ohms

Si3220/25 Si3200/02

VOCHTH

0.02

VOCLTH

0.025

SI3225-G-GQ Silicon Laboratories Inc, SI3225-G-GQ Datasheet - Page 35

SI3225-G-GQ

Specifications of SI3225-G-GQ

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