Basic Info.
Model NO.
GFC-OLCPXXTXL-CD10R
Certification
CE, ISO, RoHS
Transport Package
Antistatic Bag
Specification
100Gbps 10KM
Product Description
Product Features
- Supports up to 112Gbps bit rates
- LC connector
- Hot pluggable
- Operating electrical serial data rate up to 27.952493Gbps
- 4 parallel electrical serial interface
- Applicable for 10km SMF connection
- Low power consumption (Max: 3W)
- Digital Diagnostic Monitor Interface
- MDIO Communication Interface
- Compliant with 100GBASE-LR4 and OTU4
- Operating case temperature:
Commerical:0 to 70 °CApplications- Local Area Network(LAN)
- Wide Area Network(WAN)
- Switch to router interface
- ITU-T OTU4 OTL4.4
Standards- Compliant with IEEE 802.3ba
- Compliant with CFP4 MSA hardware specifications
- Compliant with CFP4 MSA management specifications
- Compliant with ITU-T G709/Y.1331
- Compliant with RoHS
Functional Description
OLCPXXTXL-CD10R, 100G CFP4 LR4 optical receiver , 4 lanes of optical data streams are optically demultiplexed by an integrated optical demultiplexer. Each data steam is recovered by a PIN photodetector and transimpedance amplifier, retimed, and passed on to an output driver. This module features a hot-pluggable electrical interface, low power consumption, and MDIO management interface.
Absolute Maximum Ratings | Parameter | Symbol | Min. | Max. | Unit | Note |
| Supply Voltage | Vcc | -0.5 | 3.6 | V | |
| Storage Temperature | TS | -40 | 85 | °C | |
| Relative Humidity | RH | 0 | 85 | % | |
Recommended Operating Conditions
| Parameter | Symbol | Min. | Typ | Max. | Unit | Note |
| Data Rate | DR | | 103.2 | 112 | Gb/s | |
| Supply Voltage | Vcc | 3.14 | 3.3 | 3.46 | V | |
| Operating Case Temp. | Tc | 0 | | 70 | °C | |
| Parameter | Symbol | Unit | Min | Typ | Max | Notes |
| Voltage Supply Electrical Characteristics |
| Supply Current | Tx Section | Icc | A | | | 0.9 | 1 |
| Rx Section |
| Power Supply Noise | Vrip | | | | 2% DC | 1MHz |
| 3% 1 | 10MHz |
| Total Dissipation Power | Pw | W | | | 8 | |
| Low Power Mode Dissipation | Plow | W | | | 2 | |
| Inrush Current | Class1 | and | I-inrush | mA/usec | | | 100 | |
| Turn-off Current | Class2 | I-turnoff | mA/usec | -100 | | | |
| Inrush Current | Class3 | and | I-inrush | mA/usec | | | 200 | |
| Turn-off Current | Class4 | I-turnoff | mA/usec | -200 | | | |
| Different Signal Electrical Characteristics |
| Single Ended Data Input Swing | | mV | 20 | | 525 | |
| Single Ended Data Output Swing | | mV | 180 | | 385 | |
| Differential Signal Output Resistance | | Ω | 80 | | 120 | |
| Differential Signal Input Resistance | | Ω | 80 | | 120 | |
| 3.3V LVCMOS Electrical Characteristics |
| Input High Voltage | 3.3VIH | V | 2.0 | | Vcc+0.3 | |
| Input Low Voltage | 3.3VIL | V | -0.3 | | 0.8 | |
| Input Leakage Current | 3.3IIN | uA | -10 | | +10 | |
| Output HighVoltage (IOH=100uA) | 3.3VOH | V | Vcc-0.2 | | | |
| Output Low Voltage (IOL=100uA) | 3.3VOL | V | | | 0.2 | |
| Minimum Pulse Width of Control Pin Signal | t_CNTL | us | 100 | | | |
| 1.2V LVCMOS Electrical Characteristics |
| Input High Voltage | 1.2VIH | V | 0.84 | | 1.5 | |
| Input Low Voltage | 1.2VIL V | 0.3 | 1.2VIL V | | 0.36 | |
| Input Leakage Current | 1.2IIN | uA | -100 | | +100 | |
| Output High Voltage | 1.2VOH | V | 1.0 | | 1.5 | |
| Output Low Voltage | 1.2VOL | V | -0.3 | | 0.2 | |
| Output High Current | 1.2IOH | mA | | | -4 | |
| Output Low Current | 1.2IOL | mA | +4 | | | |
| Input Capacitance | Ci | pF | | | 10 | |
| Parameter | Symbol | Unit | Min. | Max. | Notes |
| Impedance | Zd | Ω | 90 | 110 | |
| Frequency | | MHz | 161.1328125 | 1/64 of electrical lane rate |
| Frequency Stability | △f | ppm | -100 | 100 | For Ethernet |
| -20 | 20 | For Telecom |
| Differential Voltage | VDIFF | mV | 400 | 900 | Peak to Peak Differential |
| Common mode noise (rms) | | mV | | 17.5 | |
| RMS jitter | | ps | | 10 | Random Jitter Over frequency band of
10KHZ<f<10MHZ |
| Clock Duty Cycle | | % | 40 | 60 | |
| Parameter | Symbol | Unit | Min | Typ | Max | Notes |
| Optical Receiver Characteristics |
| Receive Rate for Each Lane | | Gbps | | 25.78125 | 27.9525 | |
| Overload Input Optical Power | Pmax | dBm | 5.5 | | | 3 |
| Average Receive Power for Each Lane | Pin | dBm | -8.6 | | 3 | 4 |
| Receive Power In OMA for Each Lane | PinOMA | dBm | | | 3 | |
| Difference in Receive Power in OMA between Any Two Lanes | | dBm | | | | |
| Receiver Sensitivity in OMA for Each Lane | SOMA | dBm | | | -8.6 | 5 |
| Stressed Receiver Sensitivity in OMA for Each Lane | | dBm | | | -6.8 | 6,7 |
Notes:
- The supply current includes CFP4 module's supply current and test board workingcurrent.
- Average launch power, each lane (min) is informative for 100GBase-LR4, not the principal indicator of signal strength.
- The receiver shall be able to tolerate , without damage, continuous exposure to an optical input signal having this average power level
- Average receive power, each lane (min) is informative and not the principal indicator
of signal strength. A received power below this value cannot be compliant; however, a value above this does not ensure compliance- Receiver sensitivity (OMA), each lane (max) is informative
- Measured with conformance test signal at TP3 for BER=10-12
conditions of stressed receiver sensitivity test: vertical eye closure penalty for each lane is 1.8dB;stressed eye J2 jitter for each lane is 0.3UI; stressed eye J9 jitter for each lane is 0.47UI.
Hardware Control PinsThe CFP4 Module support real-time control functions via hardware pins, listed in the following | Pin | Symbol | Description | I/O | Logic | H | L | Pull-up/down |
| 14 | MOD_LOPWR | Module Low Power Mode | I | 3.3V LVCMOS
Low Power Enable Pull-Up | Low Power | Enable | Pull-Up Note1 |
| 16 | MOD_RSTn | Module Reset(Invert) | I | 3.3V LVCMOS | Enable | Reset | Pull-Down Note2 |
Notes:
- Pull-Up resistor (4.7KOhm to 10 KOhm) is located within the CFP4 module
- Pull-Down resistor (4.7KOhm to 10 kOhm) is located within the CFP4 module
Hardware Alarm Pins
The CFP4 Module supports alarm hardware pins listed in the following| Pin | Symbol | Description | I/O | Logic | H L | Pull-up/down |
| 15 | MOD_ABS | Module Absent | O | 3.3V LVCMOS | Absent | Present | Pull-Down Note1 |
| 20 | RX_LOS | Receiver Loss of Signa | O | 3.3V LVCMOS | Loss of Signal | OK | |
Note:
1:.Pull-Down resistor (<100Ohm) is located within the CFP4 module. Pull-up should be located on the host Management Interface Pins(MDIO)
The CFP4 Module supports alarm, control and monitor functions via an MDIO bus. The CFP4 MDIO pins are listed in the following:| Pin | Symbol | Description | I/O | Logic | H | L | Pull-up/down |
| 13 | GLB-ALRM
n | Global Alarm | I | 3.3V LVCMOS | OK | Alarm | |
| 18 | MDIO | Management interface bidirectional
data | I/O | 1.2V | LVCMOS | | | |
| 17 | MDC | Management interface clock input | I | 1.2V | LVCMOS | | | |
| 19 | PRTADR0 | MDIO physical address bit 0 | port | I | 1.2V | LVCMOS |
Per MDIO | |
| 20 | PRTADR1 | MDIO physical address bit 1 | port | I | 1.2V | LVCMOS | |
| 21 | PRTADR2 | MDIO physical address bit 2 | port | I | 1.2V | LVCMOS | |
| Parameter | Symbol | Unit | Min. | Max. | Notes |
Hardware MOD_LOPWR
assert | t_MOD_LOPWR_assert | ms | | 1 | |
Hardware MOD_LOPWR
deassert | t_MOD_LOPWR_deassert | s | | 60 | Stored in NVR register 8072h |
| Management interface clock period | t_prd | ns | 250 | | MDC is 4 MHz rate or less |
| Host MDIO setup time | t_setup | ns | 10 | | |
| Host MDIO hold time | t_hold | ns | 10 | | |
CFP4 MDIO
delay time | t_delay | ns | 0 | 175 | |
GLB_ALRM
assert time | GLB_ALRMn_assert | ms | | 150 | A logic "OR" of associated MDIO alarm and
status registers |
GLB_ALRM
deassert time | GLB_ALRMn_deassert | ms | | 150 | A logic "OR" of associated MDIO alarm and
status registers |
| Minimum pulse width of control | t_CNTL | μs | 100 | | |
| pin signal | | | | | |
| Initialization time from reset | t_initialize | s | | 2.5 | |
| TX_Disable assert time | t_deassert | μs | | 100 | Transmitter disable, application specific |
| TX_Disable deassert time1 | t_assert | ms | | 5 | Time from Tx Disable pin deasserted until CFP4 module enters the Tx-turn-on state
Stored in NVR register 8073h |
| RX_LOS assert time | t_loss_assert | μs | | 100 | From occurrence of loss of signal to assertion of RX_LOS |
RX_LOS
deassert time | t_loss_deassert | μs | | 100 | From occurrence of return of signal to deassert of RX_LOS |
| Lane | Center Frequency | Center Wavelength | Wavelength Range |
| L0 | 231.4 THz | 1295.56 nm | 1294.53 to 1296.59 nm |
| L1 | 230.6 THz | 1300.05 nm | 1299.02 to 1301.09 nm |
| L2 | 229.8 THz | 1304.58 nm | 1303.54 to 1305.63 nm |
| L3 | 229.0 THz | 1309.14 nm | 1308.09 to 1310.19 nm |
Address:
3rd Floor, Building 69, Headquarters Business Garden, Nanhu District, Jiaxing, Zhejiang, China
Business Type:
Manufacturer/Factory, Group Corporation
Business Range:
Electrical & Electronics, Manufacturing & Processing Machinery, Service, Textile
Management System Certification:
ISO 9001, ISO 14001
Company Introduction:
As the fixed supplier of the three China National Telecommunications Services Providers (China Mobile, China Unicom and China Telecom). Zhejiang GuangFan Communications Technology Co., Ltd. (member of G. F. Group) has been specializing in communication industry since 2011.
Our trading company and manufacture plant both locate in Jiaxing City, which is in the east of China, with a distance of about 1.5hours by car from Shanghai City. Based on the best geographical position, we can send the products to the customers all over the world economically and efficiently. With own standardize factory and professional team, we promise to provide you high-quality products, professional service and competitive price.
Our aim is to be one of the most professional products, system and service provider in the communication industry. Expecting to become your long-term partner in China.
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