SI3225-G-GQ Silicon Laboratories Inc, SI3225-G-GQ Datasheet - Page 36

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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Si3220/25 Si3200/02

transition point. In the case of the discrete bipolar

linefeed, since the source impedance is 320 Ω both

before and after the adaptive linefeed transition, the V/I

curve exhibits no discontinuity at the transition points

when VOCDELTA = 0.

3.4.3. Off-Hook to On-Hook Transition

Load lines of 10 k Ω , 1930 Ω, and 1800 Ω are shown in

Figure 16. These load lines intercept the linefeed V/I

curve at the V/I point that would result if a load of that

resistance value were connected across TIP and RING.

As the dc loop is opened, the dc feed will exit the

constant current region (point 4) and enter the 320 Ω

source impedance region. As the current in the loop

collapses, the VTIP/RING voltage will linearly increase

until VOCHTH (point 5) is reached. At this point,

adaptive linefeed will transition to a source impedance

of 640 Ω (320 Ω for discrete bipolar transistor linefeed)

and decrease the VOC voltage by VOCDELTA (point 6).

3.4.4. VOCTRACK and Adaptive Linefeed

The two thresholds, VOCLTH and VOCHTH, control

adaptive linefeed hysteresis as shown in Figure 16.

VOCTRACK is a RAM location and is the actual open-

circuit voltage that is being fed to the line. VOCTRACK

is dependent on the measured V

behavior of VOCTRACK is as shown in the equation

below. As long as V

VOV + VCM, VOCTRACK is equal to the programmed

VOC. However, if V

VOC + VOV + VCM, then VOCTRACK will track the

battery voltage so that the programmed VOV and VCM

are satisfied at the expense of a reduced VOC voltage.

VOCTRACK = VOC = 48 V.

The following equation describes VOCTRACK behavior:

The values of VOCLTH and VOCHTH are set relative to

VOCTRACK. In the example shown in Figure 16,

VOCLTH is given as –7 V and VOCHTH as +2 V. This

implies that the VOCLTH threshold is located 7 V below

the prevailing value of VOCTRACK, while the VOCHTH

threshold is located 2 V above the prevailing value of

VOCTRACK.

BAT

the

≥

Hysteresis

example

BAT

⇒

VOCTRACK

becomes too small to support

is sufficient to supply VOC +

Figure 16,

BAT

VOC

BAT

voltage. The

−

V (

therefore,

Rev. 1.3

)

Therefore, the VOCLTH and VOCHTH thresholds will

automatically track the battery voltage along with

VOCTRACK.

In order to provide an adequate level of adaptive

linefeed hysteresis between the on-hook to off-transition

and the off-hook to on-hook transition, VOCLTH is

programmed below VOCTRACK (e.g., –7 V relative to

VOCTRACK), and VOCHTH is programmed above

VOCTRACK (e.g., +2 V above VOCTRACK). Also,

VOCHTH must be less than VOV – 1 V to ensure that a

proper adaptive linefeed transition will occur in a

reduced battery scenario.

3.5. Ground Start Operation

To configure the dc feed for ground start operation, it is

necessary to write the LINEFEED register with the

value corresponding to either TIP-OPEN (LF[2:0] = 011)

or RING-OPEN (LF[2:0] = 111). The TIP-OPEN and

RING-OPEN linefeed modes place the indicated lead in

the OPEN state (>150 k Ω ) while the other lead remains

active.

In ground start operation, an off-hook condition is

signaled by the CPE (Customer Premise Equipment) by

connecting the active lead to earth ground.

The active lead presents a 640 Ω source impedance

before the adaptive linefeed transition (320 Ω for a

discrete bipolar linefeed), and a 320 Ω source

impedance after the adaptive linefeed transition, as

shown in Figure 17. As for loop start operation, the

adaptive linefeed transitions are governed by the

contents

addresses.

The OPEN lead presents a high-impedance (>150 k Ω ).

Figure 17 illustrates the ground-start VRING/IRING

behavior using VOC = 48 V and I

TIP-OPEN linefeed state. The ground key current

thresholds are programmable via the LONGLOTH and

LONGHITH RAM addresses. The LONGLPF RAM

address provides filtering of the measured longitudinal

currents, and the LONGDBI RAM address provides de-

bouncing. The LONGHI status bit in register LCRRTP

indicates when a ground key event has been detected.

Upon detecting a ground key event, the linefeed

automatically transitions to the FORWARD ACTIVE (if

initially in TIP-OPEN) or REVERSE ACTIVE (if initially

in RING-OPEN). See “3.11. Ground Key Detection” on

page 46 for additional details.

the

VOCLTH

and

LIM

VOCHTH

= 24 mA in the

RAM

SI3225-G-GQ Silicon Laboratories Inc, SI3225-G-GQ Datasheet - Page 36

SI3225-G-GQ

Specifications of SI3225-G-GQ

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