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产品模块: | 100G QSFP28 SR4 Active Optical Cable |
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Description
The HG Genuine MTRQ-4L101 QSFP28 transceiver modules are designed for use in 100 Gigabit Ethernet links over single mode fiber. They are compliant with the QSFP28 MSA , CWDM4 MSA and IEEE 802.3bm . Digital diagnostics functions are available via an I2C interface, as specified by the QSFP28 MSA.
Features
l Hot-pluggable QSFP28 form factor
l Supports 103.1 Gb/s aggregate bit rates
l Power dissipation < 3.5W RoHS-6 compliant (lead-free)
l Commercial case temperature range 0°C to 70°C
l Single 3.3V power supply
l Maximum link length of 2km on Single Mode Fiber (SMF) with KR4 FEC
l Duplex LC receptacles
l I2C management interface 4x25G retimed electrical interface
l 4x25Gb/s CWDM transmitter
Applications
l 100G CWDM4 applications with FEC
l Other Optical Links.
Standards
l Compliant with QSFP+ MSA.
l Compliant with SFF-8636.
l Compliant with IEEE802.3bm
l Compliant with RoHS6.
Absolute Maximum Ratings
Parameter | Symbol | Unit | Min | Max |
Storage Temperature Range | Ts | o C | -40 | 85 |
Relative Humidity | RH | % | 0 | 85 |
Power Supply Voltage | Vcc | V | -0.5 | 4 |
Receiver Damage Threshold, per Lane | PT | dBm | 5.5 |
Recommended Operating Conditions
Operating Case Temperature Range | Tc | o C | 0 | - | 70 |
Power Supply Voltage | Vcc | V | 3.135 | 3.3 | 3.465 |
Total Data Rate | Gbps | - | 103.1 | ||
Maximum Data Rate per Lane | Gbps | 25.78125 |
Tested under recommended operating conditions, unless otherwise noted
Optical Transmitter Characteristics | ||||||||
PARAMETER | SYMBOL | MIN | TYPE | MAX | UNITS | |||
Bit Rate per Lane | 25.78125 ± 100 ppm | GBd | ||||||
Lane center wavelengths (range) | CH0 | λ0 | 1264.5 | 1277.5 | nm | |||
CH1 | λ1 | 1284.5 | 1297.5 | nm | ||||
CH2 | λ2 | 1304.5 | 1317.5 | nm | ||||
CH3 | λ3 | 1324.5 | 1337.5 | nm | ||||
Average Launch Power per Lane | TXPx | 2.5 | dBm | |||||
Side-Mode Suppression Ratio | SMSR | 30 | dB | |||||
Transmit OMA per Lane | OMA | -4 | 2.5 | dBm | ||||
Launch Power (OMA-TDP) | -5 | dBm | ||||||
Extinction Ratio | ER | 3.5 | dB | |||||
Transmitter and Dispersion Penalty per Lane | TDP | 3 | dB | |||||
Average launch power of OFF transmitter, per lane | -30 | dBm | ||||||
T Transmitter eye mask definition {X1, X2, X3, Y1, Y2, Y3} | {0.31, 0.4, 0.45, 0.34, 0.38, 0.4} | |||||||
Transmitter Reflectance | -12 | dB |
Optical Receiver Characteristics | ||||||
PARAMETER | SYMBOL | MIN | TYPE | MAX | UNITS | |
Bit Rate per Lane | 25.78125 ± 100 ppm | GBd | ||||
Lane center wavelengths (range) | CH0 | λ0 | 1264.5 | 1277.5 | nm | |
CH1 | λ1 | 1284.5 | 1297.5 | nm | ||
CH2 | λ2 | 1304.5 | 1317.5 | nm | ||
CH3 | λ3 | 1324.5 | 1337.5 | nm | ||
Receive Saturation (OMA) per Lane | 2.5 | dBm | ||||
Damage threshold per Lane | 3.5 | dBm | ||||
Unstressed Receiver Sensitivity (OMA) per Lane | -10 | dBm | ||||
Stressed Receiver Sensitivity (OMA) per Lane | -7.3 | dBm | ||||
Conditions of stressed receiver sensitivity test: | ||||||
Vertical Eye Closure Penalty | VECP | 1.9 | dB | |||
Stressed J2 Jitter | J2 | 0.33 | UI | |||
Stressed J4 Jitter | J4 | 0.48 | - | UI | ||
LOS De-Assert | LOSD | -11 | dBm | |||
LOS Assert | LOSA | -25 | dBm | |||
LOS Hysteresis | 0.5 | dB |
Electrical Characteristics
Parameter | Symbol | Unit | Min | Typical | Max | Notes |
Electrical Characteristics | ||||||
Power Supply Voltage | VCC | V | 3.135 | - | 3.465 | - |
Power Supply Current | ICC | A | - | - | 1.1 | - |
Transmit turn-on time | ms | 2000 | ||||
Transmitter(per Lane) | ||||||
Sigle ended input voltage tolerance | - | V | -0.3 | 4 | - | |
Differential data input swing | mVpp | 900 | ||||
Differential to common mode input return loss (min) | dB | 22-20(f/25.78), 0.01≤f<12.89 15-6(f/25.78), 12.89≤f<19 | ||||
Differential input return loss(min) | dB | 9.5–0.37f, 0.01≤f<8 4.75–7.4log10(f/14), 8≤f<19 | ||||
Receiver (per Lane) | ||||||
Single-ended output voltage | V | -0.3 | 4.0 | |||
Differential data output swing | mVpp | 400 | 550 | 800 | ||
Eye width | UI | 0.57 | ||||
Vertical eye closure | dB | 5.5 | ||||
Termination mismatch | % | 10 | ||||
Output transition time, 20% to 80% | ps | 12 | ||||
Differential output return loss (min) | dB | 9.5–0.37f, 0.01≤f<8 4.75 – 7.4log10(f/14), 8≤f<19 | ||||
Common to differential mode conversion return loss (min) | dB | 22-20(f/25.78), 0.01≤f<12.89 15-6(f/25.78), 12.89≤f<19 |
EEPROM definitions Compatible with SFF-8636 (QSFP28)
QSFP28-compliant 38-pin connector (per SFF-8679)
Mechanical Dimension
Unit: mm
Feature | Test Method | Performance |
RoHS5 | BS EN 1122: 2001 US EPA METHOD 3050B US EPA METHOD 3052 US EPA METHOD 3060A | Hg<1000ppm PBB<1000ppm PBDE<1000ppm Cd<100ppm |
RoHS6 | BS EN 1122: 2001 US EPA METHOD 3050B US EPA METHOD 3052 US EPA METHOD 3060A | Pb <1000ppm Cr6+ <1000ppm Hg <1000ppm PBB <1000ppm PBDE <1000ppm Cd <100ppm |
Electrostatic Discharge (ESD) to the Electrical Pins | MIL-STD-883E Method 3015.7 | Class 1 (>1.5kV) – Human Body Model |
Electrostatic Discharge (ESD) Immunity | IEC61000-4-2 | Class 2(>4.0kV) |
Electromagnetic Interference (EMI) | CISPR22 ITE Class B FCC Class B CENELEC EN55022 VCCI Class 1 | Compliant with standard |
Immunity | IEC61000-4-3 Class 2 | Typically show no measurable effect from a 3 V/m field swept from 80 to 1000MHz applied to the transceiver without a chassis enclosure. |
Part No | Specification | ||||||||
Pack | Rate | Tx | Pout | Rx | S | Top | Reach | Others | |
MTRQ-4L101 | QSFP28 | 100G | 1310nm CWDM | -4~2.5 dBm | PIN | <-10 dBm | 0~70℃ | 2KM | DDM/RoHS |
Contact Information
Wuhan Huagong Genuine Optics Technology Co., Ltd
Address: Science & Technology Region of HUST, Donghu High-Tech Zone
Wuhan, Hubei Province, 430223, China
l Tel: +86-27-87180102
l Fax: +86-27-87180220
Email: market@genuine-opto.com
Website: http://www.genuine-opto.com
HG Genuine possesses the authority for ultimate explanation of all information contained in this document, which is subject to change without prior notice. All the information was obtained in specific environments; and HG Genuine will not be responsible for verifying the products performance in customers’ operating environments, neither liable for the performance of users' products. All information contained is only for the users' reference and shall not be considered as warranted characteristics. HG Genuine will not be liable for damages arising directly or indirectly from any use of the information contained in this document.
Publishing Date: 2016-10-26
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