SI3056SSI2-EVB Silicon Laboratories Inc, SI3056SSI2-EVB Datasheet - Page 39

SI3056SSI2-EVB

Manufacturer Part Number

SI3056SSI2-EVB

Description

BOARD EVAL SI3056/SI3010 SSI

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI3056-D-FS.pdf (94 pages)

Specifications of SI3056SSI2-EVB

Main Purpose

Telecom, Data Acquisition Arrangement (DAA)

Utilized Ic / Part

Si3056

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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SRC[3:0]

programmed with the proper sample rate value before

the sampled line data is valid. The SCLK pin of the

slave is a no connect in this configuration.

The delay between FSYNC input and delayed frame

sync output (RGDT/FSD/M1) is 16 SCLK periods. The

RGDT/FSD/M1 output has a waveform identical to the

FSYNC signal in serial mode 0. In addition, the LSB of

SDO is set to 0 by default for all devices in serial

mode 2.

5.28. Power Management

The Si3056 supports four basic power management

operation modes. The modes are normal operation,

reset operation, sleep mode, and full powerdown mode.

PDN and PDL bits (Register 6) control the power

management modes.

On powerup, or following a reset, the Si3056 is in reset

operation. The PDL bit is set, and the PDN bit is

cleared. The Si3056 is operational, except for the

isolation link. No communication between the Si3056

and line-side device can occur during reset operation.

Bits associated with the line-side device are not valid in

this mode.

In typical applications, the DAA will predominantly be

operated in normal mode. In this mode, the PDL and

PDN bits are cleared. The Si3056 is operational and the

isolation link is passing information between the Si3056

and the line-side device.

The Si3056 supports a low-power sleep mode to

support ring validation and wake-on-ring features. The

clock generator registers 7, 8, and 9 must be

programmed with valid, non-zero values and the PDL

bit must be clear before enabling sleep mode. The PDN

bit must then be set. When the Si3056 is in sleep mode

the MCLK signal must remain active. In low-power

sleep mode with MCLK active, the Si3056 is non-

functional except for the isolation link and the RGDT

signal. To take the Si3056 out of sleep mode, pulse the

reset pin (RESET) low.

In summary, the powerdown/up sequence for sleep

mode is as follows:

1. Ensure that Registers 7, 8, and 9 have valid non-

2. Set the PDN bit (Register 6, bit 3).

3. The device is now in sleep mode. MCLK must stay

4. To exit sleep mode, reset the Si3056 by pulsing the

5. Program registers to desired settings.

zero values, and ensure the PDL bit (Register 6, bit

4) is cleared.

active.

RESET pin.

bits

(Register

bits

3:0)

must

Rev. 1.05

The Si3056 also supports an additional powerdown

mode. When both the PDN (Register 6, bit 3) and PDL

(Register 6, bit 4) bits are set, the chipset enters a

complete powerdown mode and draws negligible

current (deep sleep mode). Turn off the PLL2 before

entering deep sleep mode (i.e., set Register 9 to 0 and

then Register 6 to 0x18). In this mode, the Si3056 is

non-functional. Normal operation is restored by the

same process for taking the DAA out of sleep mode.

5.29. Calibration

The Si3056 initiates two auto-calibrations by default

when the device goes off-hook or experiences a loss in

line power. A 17 ms resistor calibration is performed to

allow circuitry internal to the DAA to adjust to the exact

line conditions present at that time. This resistor

calibration can be disabled by setting the RCALD bit

(Register 25, bit 5). A 256 ms ADC calibration is also

performed to remove offsets that might be present in the

on-chip A/D converter which could affect the A/D

dynamic range. The ADC auto-calibration is initiated

after the DAA dc termination stabilizes, and the resistor

calibration completes . Because large variations in line

conditions and line card behavior exist, it could be

beneficial to use manual calibration instead of auto-

calibration.

Execute manual ADC calibration as close as possible to

256 ms before valid transmit/receive data is expected.

Take the following steps to implement manual ADC

calibration:

1. The CALD (auto-calibration disable—Register 17) bit

2. The MCAL (manual calibration) bit must be toggled

3. The calibration is completed in 256 ms.

5.30. In-Circuit Testing

With the Si3056’s advanced design the designer can

determine system functionality during production line

tests, and during support for end-user diagnostics. Four

loopback modes allow thorough coverage of system

components. Four of the test modes require a line-side

power source. Although a standard phone line can be

used, the test circuit in Figure 1 on page 6 is adequate.

In addition, an off-hook sequence must be performed to

connect the power source to the line-side device.

For the start-up loopback test mode, line-side power is

not necessary and no off-hook sequence is required.

The start-up test mode is enabled by default. When the

PDL bit (Register 6, bit 4) is set (the default case), the

line-side is in a powerdown mode and the DSP-side is

in a digital loop-back mode. Data received on SDI

must be set to 1.

to 1 and then 0 to begin and complete the

calibration.

Si3018/19/10

SI3056SSI2-EVB Silicon Laboratories Inc, SI3056SSI2-EVB Datasheet - Page 39

SI3056SSI2-EVB

Specifications of SI3056SSI2-EVB

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