SI3210DCQ1-EVB Silicon Laboratories Inc, SI3210DCQ1-EVB Datasheet - Page 29

SI3210DCQ1-EVB

Manufacturer Part Number

SI3210DCQ1-EVB

Description

DAUGHTERCARD W/SI3201 INTERFACE

Manufacturer

Silicon Laboratories Inc

Series

ProSLIC®r

Type

SLIC/CODECr

Datasheets

1.SI3210DCQX-EVB.pdf (130 pages)

2.SI3210MPPQX-EVB.pdf (146 pages)

Specifications of SI3210DCQ1-EVB

Contents

Evaluation Board and CD-ROM

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

For Use With/related Products

Si3210

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Current page: 29 of 130
Download datasheet (2Mb)

2.1.6. Loop Closure Detection

A loop closure event signals that the terminal equipment

has gone off-hook during on-hook transmission or on-

hook active states. The ProSLIC performs loop closure

detection digitally using its on-chip monitor A/D

converter. The functional blocks required to implement

loop closure detection are shown in Figure 18. The

primary input to the system is the Loop Current Sense

value provided in the LCS register (direct Register 79).

The LCS value is processed in the Input Signal

Processor when the ProSLIC is in the on-hook

transmission or on-hook active linefeed state, as

indicated by the Linefeed Shadow register, LFS[2:0]

(direct Register 64). The data then feeds into a

programmable digital low-pass filter, which removes

unwanted ac signal components before threshold

detection.

The output of the low-pass filter is compared to a

programmable threshold, LCRT (indirect register 28).

The threshold comparator output feeds a programmable

debouncing filter. The output of the debouncing filter

remains in its present state unless the input remains in

the opposite state for the entire period of time

programmed by the loop closure debounce interval,

LCDI (direct Register 69). If the debounce interval has

been satisfied, the LCR bit will be set to indicate that a

valid loop closure has occurred. A loop closure interrupt

is generated if enabled by the LCIE bit (direct

written or monitored to correctly detect a loop closure

condition.

2.1.7. Loop Closure Threshold Hysteresis

Silicon revisions C and higher support the addition of

programmable hysteresis to the loop closure threshold,

which can be enabled by setting HYSTEN = 1 (direct

(indirect Register 28) and LCRTL (indirect Register 43),

LCS

LVS

Processor

LFS

Signal

Input

LCVE

ISP_OUT

HYSTEN

Figure 18. Loop Closure Detection

Digital

NCLR

LPF

Loop Closure

LCRT

Threshold

LCRTL

Rev. 1.42

–

Parameter

Loop Closure

Interrupt Pending

Loop Closure

Interrupt Enable

Loop Closure Threshold

Loop Closure

Threshold—Lower

Loop Closure Filter

Coefficient

Loop Closure Detect

Status (monitor only)

Loop Closure Detect

Debounce Interval

Hysteresis Enable

Voltage-Based Loop

Closure

which set the upper and lower bounds, respectively.

2.1.8. Voltage-Based Loop Closure Detection

Silicon revisions C and higher also support an optional

voltage-based loop closure detection mode, which is

enabled by setting LCVE = 1 (direct Register 108,

bit 2). In this mode the loop voltage is compared to the

loop closure threshold register (LCRT) which represents

a minimum voltage threshold instead of a maximum

current threshold. If hysteresis is also enabled, then

LCRT represents the upper voltage boundary and

LCRTL represents the lower voltage boundary for

hysteresis.

detection is an option, the default current-based loop

closure detection is recommended.

Table 26. Register Set for Loop

Debounce

Filter

LCDI

Although

Closure Detection

LCR

Si3210/Si3211

voltage-based

NCLR[12:0] Indirect Reg. 35

LCRTL[5:0] Indirect Reg. 43

LCRT[5:0]

LCDI[6:0]

HYSTEN

LCVE

Interrupt

LCIP

LCIE

LCR

Logic

LCIE

LCIP

Indirect Reg. 28

Direct Reg. 108

Direct Reg. 19

Direct Reg. 22

Direct Reg. 68

Direct Reg. 69

loop

Location

closure

SI3210DCQ1-EVB Silicon Laboratories Inc, SI3210DCQ1-EVB Datasheet - Page 29

SI3210DCQ1-EVB

Specifications of SI3210DCQ1-EVB

Related parts for SI3210DCQ1-EVB