| 产品型号 | JFTSM-QSFPDD-400-85-01(SR8)-MPO16 | 工厂品牌 | JFOPT嘉富 |
| 封装形式 | QSFPDD | 光口类型 | MPO 16C/24C |
| 最高总速率 | 400Gbps | 每通道速率 | 53.125Gbps |
| OM3最大传输距离 | 70m | OM4最大传输距离 | 100m |
| 工作波长 | 850nm | 工作电压 | 3.3V |
| 光纤型号 | MMF | 纤芯尺寸 | 50/125 |
| 发射器类型 | VCSEL | 接收器类型 | PIN |
| 发射功率 | -6.5~4.0dBm | 接收灵敏度 | -6.5dBm |
| 数字诊断(DOM) | YES | 接收过载 | 4dBm |
| 功耗 | <12W | 支持协议 | 400G BASE-SR8 ethernet |
| 工作温度(商业级) | 0℃~+70℃ | 储存温度(商业级) | -40℃~+85℃ |
生产线介绍
PRODUCTION LINE INTRODUCTION
JFOPT嘉富持续投入光模块生产领域,产品覆盖1*9、SFP、10G、25G、100G、200G、400G、800G GPON/EPON/XG/XGSPON OLT等全系列光模块。同时为下游同行提供TOSA、ROSA、BOSA等光器件半成品解决方案。JFOPT嘉富生产线具备日产量一万只光模块、两万只光器件的能力。此外,JFOPT嘉富光模块拥有业界领先的耐高温、抗干扰特性,广泛应用于计算中心、运营商、交通安防、电力设施等行业领域。
产品介绍
PRODUCT PRESENTATION
JFOPT QSFP-DD 400G 850nm SR8 MPO16 光模块是一款八通道可插拔光纤模块,专为400Gbps SR8应用设计。该高性能模块适用于短距离数据通信与互连,在OM3光纤上支持70米传输距离,在OM4光纤上可达100米传输距离,每条通道工作速率为53.125Gbps。其光学接口采用MPO连接器,设计用于850nm标称波长的多模光纤系统,电气接口则采用76针边缘式连接器。
光模块系列产品
TRANSCEIVER SERIES PRODUCTS
生产及检测设备
PRODUCTION & TESTING EQUIPMENT
产品特点
FEATURES
| Hot-pluggable QSFP-DD form factor | Data rate 53.125 Gb/s PAM4 per lane | ||||||||
| 8x53Gbps PAM4 transmitter and PAM4 receiver | 8 channels 850nm VCSEL laserarray and 8 channels PIN photo-detector array | ||||||||
| Maximum link length of 70m on OM3 MMF and 100m on OM4 MMF | Digital diagnostics functions are available via the I2C interface | ||||||||
| Single 3.3V power supply and power dissipation<12W | MPO-24 connector | ||||||||
| Operating case temperature:0℃~+70℃ |
应用范围
APPLICATION
| 400G BASE-SR8 ethernet | ||||||||
符合标准
STANDARD COMPLIANCE
绝对最大额定值
ABSOLUTE MAXIMUM RATINGS
| Parameter | Symbol | Min. | Max. | Unit | |||||
| Power supply voltage | VCC | -0.5 | +3.6 | V | |||||
| Storage temperature | TC | -40 | +85 | ℃ | |||||
| Relative humidity | RH | 5 | 85 | % | |||||
These values represent the damage threshold of the module.Stress in excess of any of the individual absolute maximum ratingscan cause immediate catastrophic damage to the module even if all other parameters are within recommended operating conditions.
推荐的操作环境
RECOMMENDED OPERATING ENVIRONMENT
| Parameter | Symbol | Min | Typical | Max | Unit | ||||
| Power supply voltage | VCC | 3.15 | 3.30 | 3.45 | V | ||||
| Operating case temperature | Tca | 0 | - | 70 | ℃ | ||||
Recommended operating environment specifies parameters for which the electrical and optical characteristics hold unless otherwise noted.
电气特性
ELECTRICAL CHARACTERISTICS
| Parameter | Symbol | Min | Typical | Max | Unit | Notes | |||
| Data rateper lane | DR | - | 53.125 | - | Gbps | - | |||
Transmitter |
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| Single ended output voltage tolerance | - | -0.3 | - | 4.0 | V | - | |||
| Common mode voltage tolerance | - | 15 | - | - | mV | - | |||
| Input differential impedance | Rin | - | 100 | - | Ω | - | |||
| Differential input voltage swing | Vin | 300 | - | 1100 | mV | - | |||
| Tx fault | VoL | -0.3 | - | 0.4 | V | At0.7mA | |||
Receiver |
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| Single ended output voltage tolerance | - | -0.3 | - | 4.0 | V | - | |||
| Differential output swing | Vout | 300 | - | 900 | mV | - | |||
| Output differential impedance | Rout | - | 100 | - | Ω | - | |||
The following electrical characteristics are defined over the Recommended Operating Environment unless otherwise specified.
光学特性
OPTICAL CHARACTERISTICS
| Parameter | Symbol | Min | Typical | Max | Unit | Notes | |||
Transmitter |
|||||||||
| Center wavelength | λ | 820 | 850 | 880 | nm | - | |||
| RMS spectralwidth | Pm | - | - | 0.6 | nm | 1 | |||
| Average optical power | Po | -6.5 | - | 4 | dBm | 2 | |||
| Extinction ratio | ER | 3.0 | - | - | dBm | - | |||
| Optical modulation amplitude | OMA | -4.5 | - | 3 | dB | - | |||
| Transmitter and dispersion eye closure | TDECQ | - | - | 4.5 | dB | - | |||
| Optical return loss tolerance | ORL | - | - | 12 | dB | - | |||
Receiver |
|||||||||
| Center wavelength | λ | 820 | - | 880 | nm | - | |||
| Average receive power,each lane | - | -8.4 | - | 4 | dBm | - | |||
| Receive power(OMAouter),each lane | - | - | - | 3 | dBm | - | |||
| Receiver sensitivity(OMAouter) | Psens | - |  - |
-6.5 | dBm | 3 | |||
| LOS asserted | Lsa | -30 | - | - | dBm | - | |||
| LOS de-asserted | Lda | - | - |  -10 |
dBm | - | |||
| LOS hysteresis | Lh | 0.5 | - | - | dB | - | |||
Note: [1]Trade-offs are available between spectral width,center wavelength and minimum OMA. [2]The optical power is launched into MMF [3]BER=2.4E-4;PRBS31Q@26.5625GBd. |
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The following optical characteristics are defined over the recommended operating environment unless otherwise specified.
QSFP-DD 收发器电气焊盘布局
QSFP-DD TRANSCEIVER ELECTRICAL PAD LAYOUT
引脚定义
PIN DEFINITIONS
| Pin | Symbol | Name/Description | |||||||
| 1 | GND | Ground | |||||||
| 2 | Tx2n | Transmitter inverted data input | |||||||
| 3 | Tx2p | Transmitter non-inverted data input | |||||||
| 4 | GND | Ground | |||||||
| 5 | Tx4n | Transmitter inverted data input | |||||||
| 6 | Tx4p | Transmitter non-inverted data input | |||||||
| 7 | GND | Ground | |||||||
| 8 | ModSelL | Module select | |||||||
| 9 | ResetL | Module reset | |||||||
| 10 | Vcc Rx | +3.3V Power supply receiver | |||||||
| 11 | SCL | 2-wire serial interface clock | |||||||
| 12 | SDA | 2-wireserial interface data | |||||||
| 13 | GND | Ground | |||||||
| 14 | Rx3p | Receiver non-inverted data output | |||||||
| 15 | Rx3n | Receiver inverted data output | |||||||
| 16 | GND | Ground | |||||||
| 17 | Rx1p | Receiver non-inverted data output | |||||||
| 18 | Rx1n | Receiver inverted data output | |||||||
| 19 | GND | Ground | |||||||
| 20 | GND | Ground | |||||||
| 21 | Rx2n | Receiver onverted data output | |||||||
| 22 | Rx2p | Receiver non-inverted data output | |||||||
| 23 | GND | Ground | |||||||
| 24 | Rx4n | Receiver inverted data output | |||||||
| 25 | Rx4p | Receiver non-onverted data output | |||||||
| 26 | GND | Ground | |||||||
| 27 | ModPrsL | Module present | |||||||
| 28 | IntL | Interrupt | |||||||
| 29 | VCC Tx | +3.3V power supply transmitter | |||||||
| 30 | VCC1 | +3.3V power supply | |||||||
| 31 | InitMode | Initialization mode;In legacy QSFP applications,the InitModepad is called LPMODE | |||||||
| 32 | GND | Ground | |||||||
| 33 | Tx3p | Transmitter non-inverted data input | |||||||
| 34 | Tx3n | Transmitter inverted data input | |||||||
| 35 | GND | Ground | |||||||
| 36 | Tx1p | Transmitter non-Inverted data input | |||||||
| 37 | Tx1n | Transmitter inverted data input | |||||||
| 38 | GND | Ground | |||||||
| 39 | GND | Ground | |||||||
| 40 | Tx6n | Transmitter inverted data input | |||||||
| 41 | Tx6p | Transmitter non-inverted data input | |||||||
| 42 | GND | Ground | |||||||
| 43 | Tx8n | Transmitter inverted data input | |||||||
| 44 | Tx8p | Transmitter non-inverted data input | |||||||
| 45 | GND | Ground | |||||||
| 46 | Reserved | For future use | |||||||
| 47 | VS1 | Module vender specific1 | |||||||
| 48 | Vcc Rx1 | +3.3V power supply receiver | |||||||
| 49 | VS2 | Module vender specific2 | |||||||
| 50 | VS3 | Module vender specific3 | |||||||
| 51 | GND | Ground | |||||||
| 52 | Rx7p | Receiver non-inverted data output | |||||||
| 53 | Rx7n | Receiver inverted data output | |||||||
| 54 | GND | Ground | |||||||
| 55 | Rx5p | Receiver non-inverted data output | |||||||
| 56 | Rx5n | Receiver inverted data output | |||||||
| 57 | GND | Ground | |||||||
| 58 | GND | Ground | |||||||
| 59 | Rx6n | Receiver inverted data output | |||||||
| 60 | Rx6p | ReceiverNon-inverted data output | |||||||
| 61 | GND | Ground | |||||||
| 62 | Rx8n | Receiver inverted data output | |||||||
| 63 | Rx8p | Receiver non-inverted data output | |||||||
| 64 | GND | Ground | |||||||
| 65 | NC | No connect | |||||||
| 66 | Reserved | For futureuse | |||||||
| 67 | VCC Tx1 | +3.3V power supply transmitter | |||||||
| 68 | VCC2 | +3.3V power supply | |||||||
| 69 | Reserved | For future use | |||||||
| 70 | GND | Ground | |||||||
| 71 | Tx7p | Transmitter non-inverted data input | |||||||
| 72 | Tx7n | Transmitter inverted data input | |||||||
| 73 | GND | Ground | |||||||
| 74 | Tx5p | Transmitter non-inverted data input | |||||||
| 75 | Tx5n | Transmitter inverted data input | |||||||
| 76 | GND | Ground | |||||||
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