for DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Module

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  • for DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Module
  • for DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Module
  • for DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Module
  • for DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Module
  • for DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Module
  • for DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Module
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Basic Info.

Model NO.
LCFP-CLRS-100G
Condition
New
Transport Package
Blister Pack
Trademark
Linksall
Origin
China
HS Code
8517706000
Production Capacity
100, 000 Per Year

Product Description

100GBASE-LR4 1310nm 10km Transceiver Module 
PRODUCT FEATURES  
  1. Compliant with 100GBASE-LR4
  2. Support line rates from 103.125 Gbps to 111.81 Gbps
  3. Integrated LAN WDM TOSA / ROSA for up to 10 km reach over SMF
  4. CAUI(10x10G) Electrical Interface and 4-lane 25.78Gb/s optical interface
  5. Duplex LC optical receptacle
  6. MDIO Interface for module management
  7. Single 3.3 V power supply
  8. Case operating temperature range:0°C to 70°C 
  9. Power dissipation < 12W
APPLICATIONS
  1. Data Center &100G Ethernet
  2. ITU-T OTU4
STANDARD
  1. Compliant to IEEE 802.3ba
  2. Compliant to CFP MSA Hardware Specification
  3. Compliant to CFP MSA Management Interface Specification
General Description
LACF-0429-LR is the optical transceiver module which is a hot pluggable form factor designed for high speed optical networking application. It is designed for 100 Gigabit Ethernet application and provides 100GBASE-LR4 compliant optical interface, CAUI electrical interface and MDIO module management interface. LACF-0429-LR converts 10-lane 10.3Gb/s electrical data streams to 4-lane LAN-WDM 25.78Gb/s optical output signal and 4-lane LAN-WDM 25.78Gb/s optical input signal to 10-lane 10.3Gb/s electrical data streams. This 10-lane 10.3Gb/s electrical signal is fully compliant with IEEE 802.3ba CAUI specification. The high performance Cooled LAN-WDM EA-DFB transmitter and high sensitivity PIN receiver provide superior performance for 100Gigabit Ethernet applications up to 10km links and compliant optical interface with IEEE802.3ba 100GBASE-LR4 requirements.
The LACF-0429-LR contains a duplex LC connector for the optical interface and a 148-pin connector for the electrical interface. Figure 1 shows the functional block diagram of LACF-0429-LR.

                   Figure 1. CFP LR4 Optical Transceiver functional block diagram
Transmitter
The transceiver module receives 10-lane 10.3 Gb/s CAUI electrical inputs. The gearbox multiplexes 10-lane electrical signals to 4-lane electrical signals. The multiplexed 4-lane signals are fed to the transmitters. The four transmitters convert 4-lane signals to an optical signal through 4 Laser drivers and Lasers diodes which are packaged in the Transmitter Optical Sub-Assembly (TOSA). Each Laser launches optical signal in specific wavelength specified in IEEE802.3ba 100GBASE-LR4 requirements. These 4-lane optical signals will be optically multiplexed into one fiber by 4 to1 Optical WDM MUX which is in the TOSA. The optical output power is held constant by an automatic power control (APC) circuit. The transmitters output can be turned off by TX_DIS hardware signal and/or through MDIO module management Interface.

Receiver
The LACF-0429-LR receives 4-lane LAN WDM optical signals. The optical signals are de-multiplexed by 1 to 4 optical DE-MUX and fed into each Receiver Optical Sub-Assembly(ROSA)integrated 1:4  optical DE-MUX. The ROSA converts optical signal to electrical signal. The 4-lane regenerated electrical signals are de-multiplex to 10-lane signals by the 4 to 10 gearbox. The 10-lane signals are compliant with IEEE CAUI interface requirements. Each received optical signal is monitored by the DOM section. The monitored value is reported through the MDIO section. If one or more received optical signal is weaker than the threshold level, RX_LOS hardware alarm will be launched.   

CFP Pin Map Orientation


Figure 2 CFP LR4 optical transceiver pin-out




Table 1 CFP optical transceiver pin descriptions
Pin no. Name Logic Description
1 3.3V_GND   3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground
 
2 3.3V_GND  
3 3.3V_GND  
4 3.3V_GND  
5 3.3V_GND  
6 3.3V    
7 3.3V  
8 3.3V  
9 3.3V  
10 3.3V  
11 3.3V  
12 3.3V  
13 3.3V  
14 3.3V  
15 3.3V  
16 3.3V_GND   3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground
 
17 3.3V_GND  
18 3.3V_GND  
19 3.3V_GND  
20 3.3V_GND  
21 NUC   Module Vendor I/O. Must No Connect at host board
22 NUC   Module Vendor I/O. Must No Connect at host board
23 GND    
24 TX_M CLKn   TX Monitor Clock Output (Negative)
25 TX_M CLKp   TX Monitor Clock Output (Positive)
26 GND    
27 NUC   Module Vendor I/O. Must No Connect at host board
28 NUC   Module Vendor I/O. Must No Connect at host board



 
Pin no. Name Logic Description
29 NUC   Module Vendor I/O. Must No Connect at host board
30 PRG_CNTL1 LVCMOS w/ PUR Programmable Control 1 set over MDIO, M SA Default: TRXIC_RSTn, TX & RX ICs reset, "0": reset, "1" or NC: enabled = not used
31 PRG_CNTL2 LVCMOS w/ PUR Programmable Control 2 set over MDIO, M SA Default: Hardware Interlock LSB,"00": ≤8W, "01":≤16W, "10": ≤24W, "11" or NC: ≤32W = not used
32 PRG_CNTL3 LVCMOS w/ PUR Programmable Control 2 set over M DIO, M SA Default: Hardware Interlock M SB,"00": ≤8W, "01":≤16W, "10": ≤24W, "11" or NC: ≤32W = not used
33 PRG_ALRM 1 LVCM OS Programmable Alarm 1 set over MDIO, M SA Default: HIPWR_ON, "1": module, power up completed, "0": module not high powered up
34 PRG_ALRM 2 LVCM OS Programmable Alarm 2 set over MDIO, M SA Default: M OD_READY, "1": Ready, "0":not Ready,
35 PRG_ALRM 3 LVCM OS Programmable Alarm 3 set over MDIO, M SA Default: M OD_FAULT, fault detected,1": Fault, "0": No Fault
36 TX_DIS LVCM OS w/ PUR Transmitter Disable for all lanes, "1" or NC = transmitter disabled, "0" = transmitter enabled
37 MOD_LOPWR LVCM OS w/ PUR Module Low Power M ode. "1" or NC: module in low power (safe) mode, "0": power- on enabled
38 MOD_ABS   Module Absent. "1" or NC: module absent, "0": module present, Pull Up Resistor on Host
39 MOD_RSTn LVCM OS w/ PUR Module Reset. "0" resets the module, "1" or NC = module enabled, Pull Down
Resistor in Module
40 RX_LOS LVCM OS Receiver Loss of Optical Signal, "1": low optical signal, "0": normal condition
41 GLB_ALRM n LVCM OS Global Alarm. "0": alarm condition in any M DIO Alarm register, "1": no alarm condition, Open Drain, Pull Up Resistor on Host
42 PRTADR4 1.2V CM OS M DIO Physical Port address bit 4
43 PRTADR3 1.2V CM OS M DIO Physical Port address bit 3
44 PRTADR2 1.2V CM OS M DIO Physical Port address bit 2
45 PRTADR1 1.2V CM OS M DIO Physical Port address bit 1
46 PRTADR0 1.2V CM OS M DIO Physical Port address bit 0
47 M DIO 1.2V CM OS Management Data I/O bi-directional data (electrical specs as per 802.3ae and ba)
48 M DC 1.2V CM OS Management Data Clock (electrical specs as per 802.3ae and ba)
49 GND    
50 NUC   Module Vendor I/O. Must No Connect at host board
51 NUC   Module Vendor I/O. Must No Connect at host board
52 GND    
53 NUC   Module Vendor I/O. Must No Connect at host board
54 NUC   Module Vendor I/O. Must No Connect at host board


 
  Pin no. Name Logic Description  
55 3.3V_GND   3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground

 
 
56 3.3V_GND    
57 3.3V_GND    
58 3.3V_GND    
59 3.3V_GND    
60 3.3V   3.3V Module Supply Voltage
 
 
61 3.3V    
62 3.3V    
63 3.3V    
64 3.3V    
65 3.3V    
66 3.3V    
67 3.3V    
68 3.3V    
69 3.3V    
70 3.3V_GND   3.3V Module Supply Voltage Return Ground, can be separate or tied together with Signal Ground
 
 
71 3.3V_GND    
72 3.3V_GND    
73 3.3V_GND    
74 3.3V_GND    
75 3.3V_GND    
  76 RX_MCLKp   RX Monitor Clock Output (Positive)  
  77 RX_MCLKn   RX Monitor Clock Output (Negative)  
  78 GND      
  79 RX0p HS I/O Lane 0 Receiver Output (Positive)  
  80 RX0n HS I/O Lane 0 Receiver Output (Negative)  
  81 GND      
  82 RX1p HS I/O Lane 1 Receiver Output (Positive)  
  83 RX1n HS I/O Lane 1 Receiver Output (Negative)  
  84 GND      
  85 RX2p HS I/O Lane 2 Receiver Output (Positive)  
  86 RX2n HS I/O Lane 2 Receiver Output (Negative)  
  87 GND      
  88 RX3p HS I/O Lane 3 Receiver Output (Positive)  
  89 RX3n HS I/O Lane 3 Receiver Output (Negative)
  90 GND    
  91 RX4p HS I/O Lane 4 Receiver Output (Positive)
  92 RX4n HS I/O Lane 4 Receiver Output (Negative)
  93 GND    
  94 RX5p HS I/O Lane 5 Receiver Output (Positive)
  95 RX5n HS I/O Lane 5 Receiver Output (Negative)
  96 GND    
  97 RX6p HS I/O Lane 6 Receiver Output (Positive)
  98 RX6n HS I/O Lane 6 Receiver Output (Negative)
  99 GND    
  100 RX7p HS I/O Lane 7 Receiver Output (Positive)
  101 RX7n HS I/O Lane 7 Receiver Output (Negative)
  102 GND    
  103 RX8p HS I/O Lane 8 Receiver Output (Positive)
  104 RX8n HS I/O Lane 8 Receiver Output (Negative)
  105 GND    
  106 RX9p HS I/O Lane 9 Receiver Output (Positive)
  107 RX9n HS I/O Lane 9 Receiver Output (Negative)
  108 GND    
  109 NC   Not Connected Internally
  110 NC   Not Connected Internally
  111 GND    
  112 GND    
  113 TX0p HS I/O Lane 0 Transmitter Input (Positive)
  114 TX0n HS I/O Lane 0 Transmitter Input (Negative)
  115 GND    
  116 TX1p HS I/O Lane 1Transmitter Input (Positive)
  117 TX1n HS I/O Lane 1 Transmitter Input (Negative)
  118 GND    
  119 TX2p HS I/O Lane 2Transmitter Input (Positive)
  120 TX2n HS I/O Lane 2 Transmitter Input (Negative)
  121 GND    
  122 TX3p HS I/O Lane 3 Transmitter Input (Positive)
  Pin no. Name Type Description
  123 TX3n HS I/O Lane 3Transmitter Input (Negative)
  124 GND    
  125 TX4p HS I/O Lane 4 Transmitter Input (Positive)
  126 TX4n HS I/O Lane 4 Transmitter Input (Negative)
  127 GND    
  128 TX5p HS I/O Lane 5 Transmitter Input (Positive)
  129 TX5n HS I/O Lane 5 Transmitter Input (Negative)
  130 GND    
  131 TX6p HS I/O Lane 6 Transmitter Input (Positive)
  132 TX6n HS I/O Lane 6 Transmitter Input (Negative)
  133 GND    
  134 TX7p HS I/O Lane 7Transmitter Input (Positive)
  135 TX7n HS I/O Lane 7 Transmitter Input (Negative)
  136 GND    
  137 TX8p HS I/O Lane 8 Transmitter Input (Positive)
  138 TX8n HS I/O Lane 8Transmitter Input (Negative)
  139 GND    
  140 TX9p HS I/O Lane 9 Transmitter Input (Positive)
  141 TX9n HS I/O Lane 9 Transmitter Input (Negative)
  142 GND    
  143 NC   Not Connected Internally
  144 NC   Not Connected Internally
  145 GND    
  146 REFCLKp   Reference Clock Input (Positive)
  147 REFCLKn   Reference Clock Input (Negative)
  148 GND    
                   
 
  1. Absolute Maximum Ratings
Parameter Symbol Min. Typ. Max. Unit Note
Storage Temperature Ts -40 - 85 ºC  
Relative Humidity RH 5 - 95 %  
Power Supply Voltage VCC -0.3 - 4 V  
Signal Input Voltage   Vcc-0.3 - Vcc+0.3 V  
Receive Input Optical Power (Damage threshold) Pdmg     5.5 dBm  
  1. Low Speed Electrical Characteristics
Parameter Symbol Min Typ. Max Unit Notes  
Supply currents and voltages  
Voltage Vcc 3.2 3.3 3.4 V With Respect to GND  
Supply current Icc     3.6 A    
  Power dissipation Pwr     12.0 W    
  Power dissipation (low power mode) Plp     2.0 W    
  Low speed control and sense signals, 3.3 V LVCMOS  
  Outputs low voltage VOL -0.3   0.2 V  
  Output high voltage VOH Vcc-0.2   Vcc+0.3 V  
  Input low voltage VIL -0.3   0.8 V  
  Input high voltage VIH 2   Vcc+ 0.3 V  
  Input leakage current IIN -10   10 μA  
  Low speed control and sense signals, 1.2 V LVCMOS
  Outputs low voltage VOL -0.3   0.2 V  
  Output high voltage VOH 1.0   1.5 V  
  Input low voltage VIL -0.3   0.36 V  
  Input high voltage VIH 0.84   1.5 V  
  Input leakage current IIN -100   100 μA  
                                             
 
  1. MDIO Management Interface
The LACF-0429-LR supports the MDIO interface specified in IEEE802.3 Clause 45. This 2-wire management data I/O interface is provided for the module status monitoring and control. The management data clock (MDC) provides clocking for the data that is passed on the MDIO port. Five further pins allow for loading of a port address (PORT_ADDR0-4) into the module. The CFP transceiver supports MDIO pages 8000h NVR 1 Based ID registers, 8080h NVR 2 Extended ID registers, 8100h NVR 3 network lane specific registers , and pages A000h CFP module VR 1 registers,A080h MLG VR 1 registers, A200h network lane VR 1 registers,A280h network lane VR 2 registers.
Details of the protocol and interface are explicitly described in CFP MSA Management Interface Specification. Please refer to the specifications for design reference.


 
Starting Address in Hex Ending Address in Hex Access
Type
Allocated
Size
Data Bit Width Table Name and Description
0000 7FFF N/A 32768 N/A Reserved for IEEE 802.3 Use.
8000 807F RO 128 8 CFP NVR 1. Basic ID registers.
8080 80FF RO 128 8 CFP NVR 2. Extended ID registers.
8100 817F RO 128 8 CFP NVR 3. Network lane specific registers.
8180 81FF RO 128 8 CFP NVR 4.
8200 83FF RO 4x128 N/A MSA Reserved.
8400 847F RO 128 8 Vendor NVR 1. Vendor data registers.
8480 84FF RO 128 8 Vendor NVR 2. Vendor data registers.
8500 87FF RO 6x128 N/A Reserved by CFP MSA.
8800 887F R/W 128 8 User NVR 1. User data registers.
8880 88FF R/W 128 8 User NVR 2. User data registers.
8900 8EFF RO 12x128 N/A Reserved by CFP MSA.
8F00 8FFF N/A 2x128 N/A Reserved for User private use
9000 9FFF RO 4096 N/A Reserved for vendor private use.
A000 A07F R/W 128 16 CFP Module VR 1. CFP Module level control and DDM registers.
A080 A0FF R/W 128 16 MLG VR 1. MLG Management Interface registers
A100 A1FF RO 2x128 N/A Reserved by CFP MSA.
A200 A27F R/W 128 16 Network Lane VR 1. Network lane specific registers.
A280 A2FF R/W 128 16 Network Lane VR 2. Network lane specific registers.
A300 A37F R/W 128 16 Network Lane VR 3. Network Lane n Vendor Specific FAWS Registers
A380 A3FFF RO 128 N/A Reserved by CFP MSA
A400 A47F R/W 128 16 Host Lane VR 1. Host lane specific registers.
A480 ABFF RO 15x128 N/A Reserved by CFP MSA.
AC00 AFFF R/W 8x128 16 Common Data Block Registers
B000 BFFF R/W 32x128 16 Allocated for OIF MSA-100GLH modules
C000 FFFF RO 4x4096 N/A Reserved by CFP MSA.


 
  1. Optical Transmitter Characteristics
Parameter Symbol Min Typ. Max Unit Notes
Signaling rate, each lane     25.78125   GBd  
Lane wavelength(range)   1294.53 1295.56 1296.59 nm  
  1299.02 1300.05 1301.09 nm  
  1303.54 1304.58 1305.63 nm  
  1308.09 1309.14 1310.19 nm  
Rate tolerance   -100   100 ppm From nominal rate
Side-mode suppression ratio SMSR 30     dB  
Total launch power       10.5 dBm
 
 
Average launch power, each lane Pavg -4.3   4.5 dBm
 
 
Extinction Ratio ER 4 8.2   dB
 
 
Optical modulation amplitude,
each lane (OMA)
OMA -1.3   4.5 dBm  
Difference in launch power
between any two lanes (OMA)
      5 dB  
Transmitter and Dispersion
Penalty, each lane
TDP     2.2 dB  
OMA minus TDP, each lane OMA-TDP -2.3     dBm  
Average launch power of OFF
transmitter, each lane
      -30 dBm  
Relative Intensity Noise RIN20O
MA
    -130 dB/Hz  
Transmitter reflectance       -12 dB  
Transmitter eye mask {X1, X2,
X3, Y1, Y2, Y3}
  {0.25, 0.4, 0.45, 0.25, 0.28, 0.4}    
 
  1. Optical Receiver Characteristics
Parameter Symbol Min Typ. Max Unit Notes
Signaling rate, each lane     25.78125   GBd  
Rate tolerance   -100   100 ppm From normal rate
Average receive power, each lane Pavg -10.6   4.5 dBm  
Receive power, each lane (OMA)       4.5 dBm  
Difference in receiver power
between any two lanes (OMA)
      5.5 dB  
Receiver Sensitivity (OMA),
each lane
Rsen     -8.6 dBm 1
Stressed Receiver Sensitivity
(OMA), each lane
SRS     -6.8 dBm  
Stressed receiver sensitivity test conditions
Vertical eye closure penalty, each lane VECP   1.8   dB  
Stressed sys J2 jitter, each lane J2   0.3   UI 2
Stressed sys J9 jitter, each lane J9   0.47   UI 2
Receiver reflectance       -26 dB  
LOS Assert Plos_on   -18   dBm  
LOS Deassert Plos_off   -15   dBm  
LOS Hysteresis   0.5     dB  
  1. Receiver sensitivity (OMA), each lane, is informative.
  2. Vertical eye closure penalty, stressed eye J2 Jitter, and stressed eye J9 Jitter are test conditions for measuring stressed receiver sensitivity. They are not characteristics of the receiver.

 
for DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Modulefor DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Modulefor DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Modulefor DELL Cfp2-100gbase-Lr4 Compatible 100gbase- Lr4 1310nm 10km Transceiver Module

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