SI5100-F-BC Silicon Laboratories Inc, SI5100-F-BC Datasheet - Page 16

SI5100-F-BC

Manufacturer Part Number

SI5100-F-BC

Description

IC TXRX SERIAL/DESERIAL 195CBGA

Manufacturer

Silicon Laboratories Inc

Type

Transceiverr

Series

SiPHY®r

Datasheets

1.SI5100-F-BC.pdf (40 pages)

2.SI5100-H-BL.pdf (40 pages)

Specifications of SI5100-F-BC

Package / Case

196-BGA

Number Of Drivers/receivers

1/1

Protocol

SONET/SDH

Voltage - Supply

1.71 V ~ 1.89 V

Mounting Type

Surface Mount

Product

RF / Wireless

Supply Voltage (max)

1.89 V, 3.47 V

Supply Voltage (min)

1.71 V

Supply Current

0.83 A

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 20 C

Mounting Style

SMD/SMT

Maximum Power Dissipation

1600 mW

Number Of Channels

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Contains lead / RoHS non-compliant

Other names

336-1135
SI5100-BC

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Si5100

than the amount specified in Table 5 on page 10.

The RXLOL output is asserted automatically if a valid

reference clock is not detected.

The RXLOL output is also asserted whenever the loss

of signal alarm (LOS) is active, provided that the LTR

input is set high (i.e. provided that the device is not

configured for lock-to-reference mode).

5.3.3. Lock-to-Reference

The lock-to-reference (LTR) input can be utilized to

ensure the presence of a stable output clock during a

loss-of-signal alarm (LOS). When LTR is asserted, the

CDR is prevented from phase locking to the data signal

and the CDR locks the RXCLKOUT1 and RXCLKOUT2

outputs to the reference clock. In typical applications,

the LOS output is tied to the LTR input to force a stable

output clock during a loss-of-signal condition.

5.4. Deserialization

The Si5100 deserializes the high-speed data from the

CDR and outputs the deserialized data on the 16-bit

parallel data bus RXDOUT[15:0]. The demultiplexer

used for deserialization is configured by the MODE16

pin to output either 4-bit or 16-bit data words on the bus.

The data words are output on RXDOUT[15:0] with the

rising edge of RXCLK1. When the demultiplexer is

configured to output 4-bit data words, the data is output

Figure 4. Typical LOSLVL Transfer Curve, Absolute Slice Mode (SLICEMODE = 0)

300

100

350

250

150

200

0.05

0.1

0.15

LOSLV (V)

Rev. 1.1

0.2

on RXDOUT[3:0].

5.4.1. Serial Input to Parallel Output Relationship

The Si5100 provides the capability to select the order in

which the received serial data is mapped to the parallel

output bus RXDOUT[15:0]. The mapping of the receive

bits to the output data word is controlled by the

RXMSBSEL input. When RXMSBSEL is set low, the

first bit received is output on RXDOUT0, and the

following bits are output in order on RXDOUT1 through

RXDOUT15

MODE16 = 0). When RXMSBSEL is set high, the first

bit received is output on RXDOUT15 (RXDOUT3), and

the following bits are output in order on RXDOUT14

(RXDOUT2) through RXDOUT0.

5.5. Voltage Reference Output

The Si5100 provides an output voltage reference that

can be used by external circuitry to set the LOS

threshold, slicing level, or sampling phase adjustment

input voltage levels. One possible implementation uses

a resistor divider to set the control voltage for the

LOSLVL,

alternative is the use of a digital-to-analog converters

(DACs) to set the control voltages. With this approach,

VREF is used to set the range of the DAC outputs. The

voltage on the VREF output is nominally 1.25 V.

0.25

SLICELVL,

0.3

(RXDOUT1

0.35

PHASEADJ

through

0.4

Assert

DeAssert

RXDOUT3

inputs.

SI5100-F-BC Silicon Laboratories Inc, SI5100-F-BC Datasheet - Page 16

SI5100-F-BC

Specifications of SI5100-F-BC

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