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SFP+ 10G 1550nm 40/80/100km LC DX光模块
10Gbps SFP+光模块
型   号:JFTSM-SFP+10-15-40(ER)/80(ZR)/100(EZR)-LCD
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产品型号
JFTSM-SFP+10-15-40(ER)/80(ZR)/100(EZR)-LCD
工厂品牌
JFOPT嘉富
封装形式
SFP+
光口类型
LC Duplex
最高总速率
11.3Gbps/10.3125Gbps 
每通道速率
10.31Gbps 
最大传输距离
40km,80km,100km
工作波长
1550nm
工作电压
3.3V
光纤型号
SMF
纤芯尺寸
9/125
发射器类型
EML
接收器类型
IDP
发射功率
-1dBm,0~5dBm,1.5~5dBm
接收灵敏度
-14.4dBm,-15dBm,-20dBm
数字诊断
YES
接收过载
0.5dBm,-8dBm
功耗
SFP+10-15-40(ER)-LCD<1.5W (Typical<1W)
SFP+10-15-80(ZR)-LCD<1.5W
SFP+10-15-100(EZR)-LCD<2W
支持协议
SFF-8431
SFF-8432
SFF-8472
工作温度(商业级)
0℃~+70℃
储存温度(商业级)
-40℃~+85℃
工作温度(工业级)
-40℃~+85℃
储存温度(工业级)
-40℃~+85℃
工作温度(扩展级)
-20℃~+75℃
储存温度(扩展级)
-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 SFP+ 10G 1550nm 40/80/100km LC DX 系列单模光模块是一款紧凑型可插拔模块,专为高达10Gbps速率的双工光数据通信设计。该模块配备20-pin SFP+接口,支持热插拔功能,针对单模光纤优化设计,工作波长为1550nm:其发射端采用符合IEC-60825 Class 1激光安全标准的1550nm电吸收调制激光器(EML);接收端集成先进光检测系统——包含光学头内封装的铟镓砷(InGaAs)探测器前置放大器(IDP)及限幅后置放大器集成电路,确保超长距离传输中的可靠信号处理性能。





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
 
1550nm EML transmitter Distance up to 40km/80km/100km over SMF
Single 3.3V power supply and TTL logic interface Duplex LC connector interface
Hot pluggable Operating case temperature
Standard: 0℃~+70℃
Industrial:-40℃~85℃




应用范围
APPLICATION
 
10GBASE-ER/EW or 10GBASE-ZR/ZW 8G/10G FC
OBSAI rates 6.144 Gb/s, 3.072 Gb/s, 1.536 Gb/s, 0.768Gb/s CPRI rates 10.138Gb/s ,9.830Gb/s,7.373Gb/s, 6.144 Gb/s, 4.915Gb/s, 2.458 Gb/s, 1.229 Gb/s, 0.614Gb/s
Other optical links  




符合标准
STANDARD COMPLIANCE
 





订购信息
ORDER INFORMATION
 
Part No. Data Rate Laser Temp. Distance Optical Interface CDR DDMI
JFTSM-SFP+10-15-40(ER)-LCD 0.6Gbps to 11.3Gbps 1550nm EML Standard 40km LC No YES
Industrial
JFTSM-SFP+10-15-80(ZR)-LCD 1550nm EML Standard 80km
Industrial
JFTSM-SFP+10-15-100(EZR)-LCD Up to 10.3125Gbps 1550nm EML Standard 100km YES





绝对最大额定值
ABSOLUTE MAXIMUM RATINGS
 
Parameter Symbol Min. Max. Unit
Storage temperature TS -40  +85  °C
Supply voltage VCC -0.5  3.6  V

Note: Exceeding any one of these values may destroy the device permanently.
 





建议操作条件
RECOMMENDED OPERATING CONDITIONS
 
Parameter Symbol Unit JFTSM-SFP+10-15-40(ER)-LCD JFTSM-SFP+10-15-80(ZR)-LCD JFTSM-SFP+10-15-100(EZR)-LCD
Min. Typical Max. Min. Typical Max. Min. Typical Max.
Operating case temperature Tc Standard °C - +70  - +70  - 70
Industrial °C -40  - +85  -20  - +75  - - -
Power supply voltage Vcc V 3.15  3.3  3.45  3.15  3.3  3.45  3.135 3.3  3.465
Power supply current ICC mA - - 455 - - 455 - - 576
Surge current ISurge mA - - +30  - - +30  - - +30
Baud rate - Gbps 0.6  - 11.3  0.6  - 11.3  - - 10.3125





性能规范—电气
PERFORMANCE SPECIFICATIONS–ELECTRICAL
 
Parameter Symbol Min. Typ. Max Unit Notes

Transmitter
 
CML inputs(Differential) Vin 150  - 1200  mVpp AC coupled
inputs
Input impedance(Differential) Zin 85  100  115  ohms Rin > 100 kohms
@ DC
Tx_DISABLE input voltage – high - - Vcc+0.3 V -
Tx_DISABLE input voltage – low - - 0.8  V -
Tx_FAULT output voltage – high - - Vcc+0.3 V Io = 400µA; Host
Vcc
Tx_FAULT output voltage – low - - 0.5  V Io = -4.0mA

Receiver
 
CML outputs (Differential) Vout 350  - 700 mVpp AC coupled
outputs
Output Impedance
(Differential)
Zout 85  100  115  ohms -
Rx_LOS output voltage – high - -
Vcc+0.3
V
lo = 400µA; Host
Vcc
Rx_LOS output voltage – low - - 0.8  V lo = -4.0 mA
MOD_DEF ( 2:0 ) VoH 2.5  - - V With Serial ID
VoL - 0.5  V




光学和电学特性
PERFORMANCE SPECIFICATIONS – OPTICAL
 
Parameter Symbol Unit JFTSM-SFP+10-15-40(ER)-LCD JFTSM-SFP+10-15-80(ZR)-LCD JFTSM-SFP+10-15-100(EZR)-LCD
Min. Typical Max. Min. Typical Max. Min. Typical Max.
9µm core diameter SMF - km - 40  - - 80  - - 100  -

Transmitter
 
Center wavelength λC nm 1530  1550  1565  1528 1550 1565  1520 1550 1580 
Spectral width (-20dB) Δλ nm - - - - - - 1
Side mode suppression ratio SMSR dB 30  - - 30 - - 30  - -
Average output power Pout, AVG dBm -4.7  -1  0 - - 1.5 - 5
Optical modulation amplitude Pout,OMA dBm 1.0  - - - - - - - -
Extinction ratio ER dB 3.5  - - 3.5 - - 8.2 - -
Transmitter and dispersion penalty TDP dB - - - - 3 - - -
Average power of OFF transmitter - dBm - - -30  - - -30 - - -30
Relative intensity noise RIN dB/Hz - - -128  - - -128 - - -128
Input differential impedance ZIN - - - 90 100 110 90 100 110
TX disable assert time t_off us - - 10  - - 10  - - -

Receiver
 
Center wavelength λC nm 1530  - 1565  1260 - 1600 1260 - 1600
Sensitivity Pmin dBm - - -15.8  - - -23 - - -24.5
Receiver overload PMAX dBm -1  - - -8 - - -8 - -
Output differential impedance PIN - - - 90 100 110 90 100 110
LOS de-assert LOSD dBm - - -16.5  - - -24 - - -26
LOS assert LOSA dBm -30  - - -36 - - -38 - -





SFP+收发器电气焊盘布局
SFP+ TRANSCEIVER ELECTRICAL PAD LAYOUT
 




 

引脚功能定义
PIN FUNCTION DEFINITIONS
 
Pin Num. Name Function Plug Seq. Notes
VeeT Transmitter Ground Note 5
TX Fault Transmitter Fault
Indication
Note 1
TX Disable Transmitter Disable Note 2, Module disables on high or
open
SDA Module Definition 2 2-wire Serial Interface Data Line.
SCL Module Definition 1 2-wire Serial Interface Clock.
MOD-ABS Module Definition 0 Note 3
RS0 RX Rate Select
(LVTTL).
No Function Implement
LOS Loss of Signal Note 4
RS1 TX Rate Select
(LVTTL).
No Function Implement
10  VeeR Receiver Ground Note 5
11  VeeR Receiver Ground Note 5
12  RD- Inv. Received Data Out 3 Note 6
13  RD+ Received Data Out 3 Note 6
14  VeeR Receiver Ground Note 5
15  VccR Receiver Power 3.3V ± 5%, Note 7
16  VccT Transmitter Power 3.3V ± 5%, Note 7
17  VeeT Transmitter Ground Note 5
18  TD+ Transmit Data In Note 8
19  TD- Inv. Transmit Data In Note 8
20  VeeT Transmitter Ground Note 5

Notes:

1) TX Fault is an open collector/drain output, which should be pulled up with a 4.7K – 10KΩ resistor on the host board. Pull up voltage between 2.0V and VccT/R+0.3V. When high, output indicates a laser fault of some kind. Low indicates normal operation. In the low state, the output will be pulled to < 0.8V.

2) TX disable is an input that is used to shut down the transmitter optical output. It is pulled up within the module with a 4.7K – 10 KΩ resistor. Its states are:

Low (0 – 0.8V): Transmitter on
(>0.8, < 2.0V): Undefined
High(2.0 – 3.465V): Transmitter Disabled
Open: Transmitter Disabled

3) Module Absent, connected to VeeT or VeeR in the module.

4) LOS (Loss of Signal) is an open collector/drain output, which should be pulled up with a 4.7K – 10KΩ resistor. Pull up voltage between 2.0V and VccT/R+0.3V. When high, this output indicates the received optical power is below the worst-case receiver sensitivity (as defined by the standard in use). Low indicates normal operation. In the low state, the output will be pulled to < 0.8V.

5) The module signal ground contacts, VeeR and VeeT, should be isolated from the module case.

6) RD-/+: These are the differential receiver outputs. They are AC coupled 100Ω differential lines which should be terminated with 100Ω (differential) atthe user SERDES. The AC coupling is done inside the module and is thus not required on the host board. The voltage swing on these lines will be between 370 and 700 mV differential (185 –350 mV single ended) when properly terminated.

7) VccR and VccT are the receiver and transmitter power supplies. They are defined as 3.3V ±5% at the SFP+ connector pin. Maximum supply current is 300mA. Inductors with DC resistance of less than 1 ohm should be used in order to maintain the required voltage at the SFP+ input pin with 3.3V supply voltage. When the recommended supply-filtering network is used, hot plugging of the SFP+ transceiver module will result in an inrush current of no more than 30mA greater than the steady state value. VccR and VccT may be internally connected within the SFP+ transceiver module.

8) TD-/+: These are the differential transmitter inputs. They are AC-coupled, differential lines with 100Ω differential termination inside the module. The AC coupling is done inside the module and is thus not required on the host board. The inputs will accept differential swings of 150 – 1200 mV (75 – 600mV single-ended), though it is recommended that values between 150 and 1200 mV differential (75 – 600mV single-ended) be used for best EMI performance.




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