SI5010-GM SILABS [Silicon Laboratories], SI5010-GM Datasheet - Page 10

SI5010-GM

Manufacturer Part Number

SI5010-GM

Description

OC-12/3, STM-4/1 SONET/SDH CLOCK AND DATA RECOVERY IC

Manufacturer

SILABS [Silicon Laboratories]

Datasheet

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Si5010

4. Functional Description

The Si5010 utilizes a phase-locked loop (PLL) to

recover a clock synchronous to the input data stream.

This clock is used to retime the data, and both the

recovered clock and data are output synchronously via

current mode logic (CML) drivers. Optimal jitter

performance is obtained by using Silicon Laboratories'

DSPLL

caused by external PLL filter components.

4.1. DSPLL

The PLL structure (shown in "3. Typical Application

Schematic" on page 9) utilizes Silicon Laboratories'

DSPLL technology to eliminate the need for external

loop filter components found in traditional PLL

implementations. This is achieved by using a digital

signal processing (DSP) algorithm to replace the loop

filter commonly found in analog PLL designs. This

algorithm processes the phase detector error term and

generates a digital control value to adjust the frequency

of the voltage-controlled oscillator (VCO). Because

external loop filter components are not required,

sensitive noise entry points are eliminated, thus making

the DSPLL less susceptible to board-level noise

sources that make SONET/SDH jitter compliance

difficult to attain.

4.2. PLL Self-Calibration

The Si5020 achieves optimal jitter performance by

using self-calibration circuitry to set the loop gain

parameters within the DSPLL. For the self-calibration

circuitry to operate correctly, the power supply voltage

must exceed 2.25 V when calibration occurs. For best

performance, the user should force a self-calibration

once the supply has stabilized on power-up.

A self-calibration can be initiated by forcing a

high-to-low transition on the power-down control input,

PWRDN/CAL, while a valid reference clock is supplied

to the REFCLK input. The PWRDN/CAL input should be

held high at least 1 µs before transitioning low to

guarantee a self-calibration. Several application circuits

that could be used to initiate a power-on self-calibration

are provided in Silicon Laboratories application note

“AN42: Controlling DSPLL Self-Calibration for the

Si5020/5018/5010 CDR Devices and Si531x Clock

Multiplier/Regenerator Devices”.

4.3. Multi-Rate Operation

The Si5010 supports clock and data recovery for

OC-12/3 and STM-4/1 data streams.

Multi-rate operation is achieved by configuring the

device to divide down the output of the VCO to the

technology to eliminate the noise entry points

Rev. 1.3

desired data rate. The RATESEL configuration and

associated data rates are given in Table 7.

4.4. Reference Clock Detect

The Si5010 CDR requires an external reference clock

applied to the REFCLK input for normal device

operation. When REFCLK is absent, the LOL alarm will

always be asserted when it has been determined that

no activity exists on REFCLK, indicating the lock status

of the PLL is unknown. Additionally, the Si5010 uses the

reference clock to center the VCO operating frequency

so that clock and data can be recovered from the input

data stream. The VCO operates at an integer multiple of

the REFCLK frequency. (See “Lock Detect” section.)

The device will self configure for operation with one of

three reference clock frequencies. This eliminates the

need to externally configure the device to operate with a

particular reference clock. The REFCLK frequency

should be 19.44 MHz, 77.76 MHz, or 155.52 MHz with a

frequency accuracy of ±100 ppm.

4.5. Lock Detect

The Si5010 provides lock-detect circuitry that indicates

whether the PLL has achieved frequency lock with the

incoming data. The circuit compares the frequency of a

divided-down version of the recovered clock with the

frequency of the applied reference clock (REFCLK). If

the recovered clock frequency deviates from that of the

reference clock by the amount specified in Table 4 on

page 7, the PLL is declared out-of-lock, and the

loss-of-lock (LOL) pin is asserted high. In this state, the

PLL will periodically try to reacquire lock with the

incoming data stream. During reacquisition, the

recovered clock may drift over a ±600 ppm range

relative to the applied reference clock, and the LOL

output alarm may toggle until the PLL has reacquired

frequency lock. Due to the low noise and stability of the

DSPLL, under the condition where data is removed from

the inputs, there is the possibility that the PLL will not

drift enough to render an out-of-lock condition.

If REFCLK is removed, the LOL output alarm will always

be asserted when it has been determined that no

activity exists on REFCLK, indicating the frequency lock

status of the PLL is unknown.

Note: LOL is not asserted during PWRDN/CAL.

Table 7. Data-Rate Configuration

RATESEL

SONET/SDH

622.08 Mbps

155.52 Mbps

SI5010-GM SILABS [Silicon Laboratories], SI5010-GM Datasheet - Page 10

SI5010-GM

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