产品型号
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JFTSM-SFP+10-50DW-40(ER)-LCD
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工厂品牌
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JFOPT嘉富
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封装形式
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SFP+
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光口类型
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LC Duplex
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最高总速率
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11.3Gbps
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每通道速率
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10.3125Gbps
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最大传输距离
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40km
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工作波长
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1529.16~1567.13nm(Tunable)
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工作电压
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3.3V
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光纤型号
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SMF
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纤芯尺寸
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9/125
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发射器类型
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Monolithic MZM Tunable TOSA
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接收器类型
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PIN
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发射功率
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-1~3dBm,-1~4dBm
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接收灵敏度
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-16dBm
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数字诊断
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YES
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接收过载
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-1dBm
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功耗
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C<2.1W,I<2.5W
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支持协议
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SFF-8431
SFF-8472
SFF-8690
IEEE 802.3ae CL 52
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工作温度(商业级)
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0℃~+70℃
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储存温度(商业级)
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-40℃~+85℃
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工作温度(工业级)
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-40℃~+85℃
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储存温度(工业级)
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-40℃~+85℃
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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 SFP+ 10G 50GHz DWDM 40km ER LC DX光模块是一款高性能高性价比设备,支持带CDR的9.95Gbps-11.3Gbps多速率及8.5Gbps旁路CDR模式,在单模光纤上实现40公里传输;该收发器包含发射端(集成激光驱动器与温度调谐光发射次组件TTOSA)和接收端(采用集成跨阻前置放大器TIA的PIN光电二极管);模块通过20-pin连接器热插拔,其高速电气接口基于低电压逻辑,具备标称100欧姆差分阻抗与内部交流耦合;光输出可通过LVTTL高电平TX_DIS信号禁用,Tx_Fault(发送故障)指示激光操作异常,RX_LOS(接收信号丢失)标识光输入中断;内置串行EEPROM支持通过双线制SFP管理接口访问监控配置数据,该接口使用单一地址A0h,存储映射分为低位区(存储基本数字诊断DD数据)与高位区(特定数据存储于高位内存数据表中)。
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
Up to 40km transmission on SMF | Support multi rate 9.95Gbps to 11.3Gbpswith CDR, 8.5Gbps bypass CDR | ||||||||
Monolithic MZM tunable TOSA | PIN receiver | ||||||||
50GHz ITU-based channel spacing (C-Band) with a wavelength locker | SFI electrical interface | ||||||||
2-wire interface for integrated digital diagnostic monitoring | Hot pluggable | ||||||||
Very low EMI and excellent ESD protection | +3.3V power supply power consumption less than 2.1W | ||||||||
Operating case temperature: 0~75°C | SFP+ MSA package with duplex LC conn |
应用范围
APPLICATION
DWDM 10Gb/s SONET/SDH | DWDM 10Gb/s ethernet & 10Gb/s fibre channel | ||||||||
DWDM 10Gb/s SONET/SDH w/FEC | DWDM 10Gb/s ethernet & 10Gb/s fibre channel w/FEC |
符合标准
STANDARD COMPLIANCE
绝对最大额定值
ABSOLUTE MAXIMUM RATINGS
Parameter | Symbol | Min. | Max. | Unit | Notes | ||||
Storage temperature | Ts | -40 | 85.0 | ℃ | - | ||||
Power supply voltage | Vcc3 | 0 | 3.63 | V | - | ||||
Relative humidity(noncondensation) | RH | 5 | +85 | % | Note1 | ||||
Damage threshold | Pmax | - | - | dBm | - |
建议操作条件
RECOMMENDED OPERSTING CONDITIONS
Parameter | Symbol | Min. | Typ. | Max. | Unit | Notes | |||
Operating case temperature | Tc | 0 | 25 | 75 | °C | - | |||
Supply voltage | Vcc | 3.13 | 3.3 | 3.47 | V | - | |||
Power supply current | Pd | - | - | 670 | mA | - | |||
Data rate | - | 8.5 | 10.3125 | 11.3 | Gbps | - | |||
Transmission distance | - | - | - | 40 | km | - |
发射机工作特性-光学&电气
TRANSMITTER OPERATING CHARACTERISTIC-OPTICAL & ELECTRICAL
Parameter | Symbol | Min. | Typical | Max | Unit | Note | |||
Data rate | DR | 8.5 | 10.3125 | 11.3 | Gbps | - | |||
Center wavelength | CW | 191.3 | - | 196.05 | THz | - | |||
Wavelength range | λC | 1529.16 | - | 1567.13 | nm | - | |||
Center frequqncy variation | CFV | 0 | - | +/-2.5 | GHz | - | |||
-20dB spectral width | Δλ20 | - | - | 0.3 | nm | - | |||
Side mode suppression ratio | SMSR | 30 | - | - | nm | - | |||
Laser off power | Poff | - | - | -30 | dBm | - | |||
Transmitter reflectance | TR | - | - | -12 | dB | - | |||
Average optical power | PO | -1 | 0.5 | 3 | dBm | - | |||
Extinction ratio | ER | 8.2 | - | - | dB | - | |||
Cross point of eye | CP | 40% | - | 0.52 | - | - | |||
Transmitter dispersion renalty | TDP | - | - | 3 | dB | - | |||
Transmitter dispersion tolerance(CD window with 2dB OSNR penalty) | TDT | -700 | - | 700 | km ps/nm | - | |||
Relative intensity noise | RIN12OMA | - | - | -128 | dB/Hz | - | |||
Optical eye mask | EMM | 5 | - | - | - | - | |||
Tx Input diff voltage | VI | 200 | - | 850 | mV | - |
接收器工作特性-光学&电气
RECEIVER OPERATING CHARACTERISTIC-OPTICAL & ELECTRICAL
Parameter | Symbol | Min. | Typical | Max. | Unit | Note | |||
Data rate | DR | 8.5 | 10.3125 | 11.3 | Gbps | - | |||
Center wavelength | CW | 1260 | - | 1600 | nm | - | |||
Sensitivity @(BER=1E-12, PRBS 2^31-1, NRZ, 9.95Gbps~10.7Gbps data rate |
Psen | 1529.16 | - | -16(EOL) | dBm | - | |||
Sensitivity @(BER=2.0E-03, PRBS 2^31-1,NRZ,11.3Gbps data rate, dispersion 800ps/nm, at room temperature and OSNR >31dB) | Psen | - | - | -19 (EOL) | dBm | - | |||
B2B OSNR Tolerance BOL @ 2E-3 Test condition: A:optical filter type and bandwidth:flattop filter-3dB bandwidth 84 GHz, OSA res 0.1nm for noise bandwidth. B: Input optical power range: 0~-14dBm C:9.9Gbps~11.3Gbps data rate range D:-5~70℃ E:Under the optimal threshold or 50% threshold |
- | - | - | 13.5 | dB | - | |||
B2B OSNR Tolerance BOL @ 2E-3 Test condition: A:optical filter type and bandwidth:flattop filter -3dB bandwidth 84 GHz, OSA res 0.1nm for noise bandwidth. B: Input optical power range: 0~-14dBm C:9.9Gbps~11.3Gbps data rate range D:-5~70℃ E:Under the optimal threshold or 50% threshold |
- | - | - | 14.0 | dB | - | |||
Saturation power(EOL) | SP | -1 | - | - | dBm | - | |||
Input optical power(no | IOP | 4 | - | - | dBm | - |
数字诊断功能
DIGITAL DIAGNOSTIC FUNCTIONS
Parameter | Symbol | Min. | Typical | Max | Units | Notes | |||
Temperature monitor absolute error | DMI_Temp | -3 | - | 3 | ℃ | Over operating temperature | |||
Supplyvoltage monito rabsolute error | DMI_Vcc | -3% | - | 3% | V | Over operating voltage | |||
Bias current monitor absolute error | DMI_Ibias | -10% | - | 10% | mA | - | |||
Lase rpower monitor absolute error | DMI_Tx | -3 | - | 3 | dB | - |
控制与状态输入/输出时序特性
CONTROL AND STATUS I/O TIMING CHARACTERISTICS
Parameter | Symbol | Min. | Typical | Max | Units | Notes | |||
TX disable assert time | t_off | - | - | 100 | µs | Note1 | |||
TX disable negate time | t_on | - | - | 2 | ms | Note2 | |||
Time to initialize including reset of TX_fault |
t_init | - | - | 300 | ms | Note3 | |||
TX fault assert time | t_fault_on | - | - | 1 | ms | Note4 | |||
TX fault reset time | t_reset | 10 | - | - | µs | Note5 | |||
LOS assert time | t_loss_on | - | - | 100 | µs | Note6 | |||
LOS deassert time | t_loss_off | - | - | 100 | µs | Note7 | |||
Notes: [1]Time from rising edge of TX Disable to when the optical output falls below 10% of nominal. [2]Time from falling edge of TX Disable to when the modulated optical output rises above 90% of nominal. [3]From power on or negation of TX Fault using TX Disable. [4]Time from fault to TX fault on. [5]Time from TX fault to TX nominal. [6]Time from LOS state to RX LOS assert. [7]Time from non-LOS state to RX LOS deassert. |
引脚定义
PIN-OUT DEFINITIONS
Logic | Symbol | Name/Description | Note | ||||||
1 | - | VeeT | Module transmitter ground | Note1 | |||||
2 | LVTTL-O | TX_fault | Module transmitter fault | Note2 | |||||
3 | LVTTL-I | TX_disable | Transmitter disable;Turnsofftrans mitterlaseroutput | Note3 | |||||
4 | LVTTL-I/O | SDA | 2-Wire serial interface data line(Same as MOD-DEF2 asdefinedin the INF-8074i) | Note4 | |||||
5 | LVTTL-I/O | SCL | 2-Wire serial interface clock(Same as MOD-DEF1 as defined intheINF-8074i) | Note4 | |||||
6 | MOD-ABS | Module absent, connected to VeeT or VeeR in the module | Note5 | ||||||
7 | LVTTL-I | RS0 | Rate select 0 | - | |||||
8 | LVTTL-O | RX_LOS | Receiver Loss of Signal indication (In FC designated as RX_LOS, in SONET designated as LOS, and in ethernet designated at signal detect) | Note2 | |||||
9 | LVTTL-I | RS1 | Rate select 1 | - | |||||
10 | - | VeeR | Module receiver ground | Note1 | |||||
11 | - | VeeR | Module receiver ground | Note1 | |||||
12 | CML-O | RD- | Receiver inverted data output | - | |||||
13 | CML-O | RD+ | Receiver non inverted data output | - | |||||
14 | - | VccR |
![]() ![]() ![]() ![]() Module receiver ground
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Note1 | |||||
15 | - | VeeR | Module receiver 3.3 V supply | - | |||||
16 | - | VccT | Module transmitter 3.3 V supply | Note1 | |||||
17 | - | VeeT | Module transmitter ground | - | |||||
18 | CML- I | TD+ | Transmitter non-inverted data input | - | |||||
19 | CML- I | TD- | Transmitter inverted data input | - | |||||
20 | - | VeeT | Module yransmitter ground | Note1 |
Notes:
[1]The module signal ground pins, VeeR and VeeT, shall be isolated from the module case.
[2]This pin is an open collector/drain output pin and shall be pulled up with 4.7k-10kohms to Host_Vcc on the host board. Pull ups can be connected to multiple power supplies, however the host board design shall ensure that no module pin has voltage exceeding module VccT/R + 0.5 V.
[3]This pin is an open collector/drain input pin and shall be pulled up with 4.7k-10kohms to VccT in the module.
[4]See SFF-8431 4.2 2-wire Electrical Specifications.
[5]This pin shall be pulled up with 4.7k-10kohms to Host_Vcc on the host board
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