100 Gb/s CFP4 LR4 Transceiver
CFP4 transceiver
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CFP4 transceiver,100 Gb/s CFP4 LR4 Transceiver
PRODUCT FEATURES
Compliant with 100GBASE-LR4
Support line rates from 103.125 Gbps to 111.81 Gbps
Integrated LAN WDM TOSA / ROSA for up to 10 km reach
over SMF
Digital Diagnostics Monitoring Interface
Duplex LC optical receptacle
No external reference clock
Single 3.3 V power supply
Case operating temperature range:0°C to 70°C
Power dissipation < 6W
APPLICATIONS
Local Area Network (LAN)
Data Center
Ethernet switches and router applications
STANDARD
Compliant to IEEE 802.3ba
Compliant to CFP MSA CFP4 Hardware Specification
Compliant to CFP MSA Management Interface Specification
General Description
FASTFOM CFP4 transceiver integrates receiver and transmitter path on one module.
In the transmit side, four lanes of serial data streams are recovered, retimed, and passed to four laser drivers.
The laser drivers control four EMLs (Electric-absorption Modulated Lasers) with center wavelength of
1296 nm, 1300nm, 1305nm and 1309 nm. The optical signals are multiplexed to a single –mode fiber
through an industry standard LC connector. In the receive side, the four lanes of optical data streams are
optically de-multiplexed by the integrated optical de-multiplexer. Each data stream is recovered by a PIN
photo-detector and trans-impedance amplifier, retimed. This module features a hot-pluggable electrical
interface, low power consumption and MDIO management interface.
The CFP4 transceiver provides an aggregated signaling rate from 103.125 Gbps to 111.81 Gbps. It is compliant with
IEEE 802.3 ba 100GBASE-LR4 and ITU-T G.959.1, and OIF CEI-28G-VSR. The MDIO management
interface complies with IEEE 802.3 Clause 45 standard. The transceiver complies with CFP MSA CFP4
Hardware Specification, CFP MSA Management Interface Specification, and OIF CEI-28G-VSR standards.
Transmitter
The CFP4 transceiver transmitter path converts four lanes of serial NRZ electrical data from line rate of 25.78 Gbps to 27.95
Gbps to a standard compliant optical signal. Each signal path accepts a 100 Ω differential 100 mV peak-topeak
to 900 mV peak-to-peak 25 Gbps electrical signal on TDxn and TDxp pins. Inside the module, each
differential pair of electric signals is input to a CDR (clock-data recovery) chip. The recovered and retimed
signals are then passed to a laser driver which transforms the small swing voltage to an output modulation
that drives a EML laser. The laser drivers control four EMLs with center wavelengths of 1295.56 nm,
1300.05 nm, 1304.58 nm and 1309.14 nm. The optical signals from the four lasers are multiplexed together
optically. The combined optical signals are coupled to single-mode optical fiber through an industry
standard LC optical connector.
Receiver
The receiver takes incoming combined four lanes optical data from line rate of 25.78 Gbps to 27.95 Gbps
through an industry standard LC optical connector. The four incoming wavelengths are separated by an
optical de-multiplexer into four separated channels. Each output is coupled to a PIN photo-detector. The
electrical currents from each PIN photo-detector are converted to a voltage with a high-gain transimpedance
amplifier. The electrical output is recovered and retimed by the CDR chip. The four lanes of
reshaped electrical signals are output to RDxp and RDxn pins.
Low Speed Signaling
Low speed signaling is based on low voltage CMOS (LVCMOS) operating at a nominal voltage of 3.3 V
for the control and alarm signals, and at a nominal voltage of 1.2 V for MDIO address, clock and data
signals. All low speed inputs and outputs are based on the CFP MSA CFP4 Hardware Specification and
CFP MSA Management Interface Specification.
MDC/MDIO: Management interface clock and data lines.
PRTADR0, 1, 2: Input pins. MDIO physical port addresses.
GLB_ALEMn: Output pin. When asserted low indicates that the module has detected an alarm condition in
any MDIO alarm register.
TX_Disable: Input pin. When asserted high or left open the transmitter output is turned off. When
Tx_Dsiable is asserted low or grounded the module transmitter is operating normally. Pulled up with 4.7kΩ to 10 kΩ resistors to 3.3 V inside the CFP4 module.
MOD_LOPWR: Input pin. When asserted high or left open the CFP4 module is in low power mode. When
asserted low or grounded the module is operating normally. Pulled up with 4.7 kΩ to 10 kΩ resistors to 3.3
V inside the CFP4 module.
MOD_RSTn: Input pin. When asserted low or grounded the module is in Reset mode. When asserted high
or left open the CFP4 module is operating normally after an initialization process. Pulled down with 4.7 kΩ
to 10 kΩ resistors to ground inside the CFP4 module.
Mod_ABS: Output pin. Asserted high when the CFP4 module is absent and is pulled low when the CFP4
module is inserted.
RX_LOS: Output pin. Asserted high when insufficient optical power for reliable signal reception is
received.
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