SI3216PPQ1-EVB Silicon Laboratories Inc, SI3216PPQ1-EVB Datasheet - Page 40

SI3216PPQ1-EVB

Manufacturer Part Number

SI3216PPQ1-EVB

Description

BOARD EVAL W/SI3201 INTERFACE

Manufacturer

Silicon Laboratories Inc

Series

ProSLIC®r

Datasheets

1.SI3216-C-FT.pdf (122 pages)

2.SI3216PPQX-EVB.pdf (40 pages)

3.SI3216PPQ1-EVB.pdf (122 pages)

Specifications of SI3216PPQ1-EVB

Main Purpose

Interface, Analog Front End (AFE)

Utilized Ic / Part

Si3216

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Secondary Attributes

Embedded

Primary Attributes

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Si3216

2.4.2. Sinusoidal Ringing

To configure the ProSLIC for sinusoidal ringing, the

frequency and amplitude are initialized by writing to the

following indirect registers: RCO, RNGX, and RNGY.

The equations for RCO, RNGX, RNGY are as follows:

where

and f = desired ringing frequency in hertz.

In selecting a ringing amplitude, the peak TIP-to-RING

ringing voltage must be greater than the selected on-

hook line voltage setting (VOC, direct Register 72). For

example, to generate a 70 V

Note: The ProSLIC uses registers that are both directly and indirectly mapped. A “direct” register is one that is mapped

RNGX

Common Mode Bias Adjust During Ringing

Linefeed Control (Initiates Ringing State)

Ringing Oscillator Inactive Timer

Ringing Oscillator Active Timer

Ringing Voltage Offset Enable

Ringing Inactive Timer Enable

directly. An “indirect” register is one that is accessed using the indirect access registers (direct registers 28 through

31).

Ringing Active Timer Enable

Ringing Oscillator Enable

Ringing dc voltage offset

-- -



High Battery Voltage

Ringing initial phase

Ringing Waveform

Ringing frequency

Ringing amplitude

----------------------- -

1 coeff

–

coeff

Parameter

RCO

coeff

RNGY



cos

coeff







---------------------- -

1000 Hz

Desired V

----------------------------------------------------------------------- -



20 Hz ringing signal, the

Table 29. Registers for Ringing Generation

2f









96 V



0 to 94.5 V

Ringing State = 100

sinewave and period

Range/ Description

Sets initial phase for

Sine/Trapezoid

15 to 100 Hz

for trapezoid

0 to –94.5 V

0 to 94.5 V

0 to 22.5 V

Rev. 1.0



Enabled/

Disabled

Enabled/

Disabled

Enabled/

Disabled

Enabled/

Disabled

0 to 8 s

equations are as follows:

In addition, the user must select the sinusoidal ringing

waveform by writing TSWS = 0 (direct Register 34,

bit 0).

2.4.3. Trapezoidal Ringing

In addition to the sinusoidal ringing waveform, the

ProSLIC

illustrates a trapezoidal ringing waveform with offset

ROFF

RNGX

RCO

supports

coeff

-- -

RNGX[15:0]

RNGY[15:0]

VBATH[5:0]

ROFF[15:0]

VCMR[3:0]

0.99211

RCO[15:0]

RAT[15:0]

RIT[15:0]



LF[2:0]

TSWS

RTAE

RTIE

RVO

ROE

0.00789

-------------------- -

1.99211

Bits

cos

RNGY

trapezoidal







---------------------- -

1000 Hz



2 20





Direct Registers 48 and

Direct Registers 50 and



Indirect Register 27





32509

Indirect Register 6

Indirect Register 7

Indirect Register 8

Indirect Register 9

Direct Register 34

Direct Register 64

Direct Register 74

----- -

0.99211

ringing.

Location

376

7EFDh

0177h

Figure 22

SI3216PPQ1-EVB Silicon Laboratories Inc, SI3216PPQ1-EVB Datasheet - Page 40

SI3216PPQ1-EVB

Specifications of SI3216PPQ1-EVB

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