FU-68SDF-W02M73F中文资料

MITSUBISHI (OPTICAL DEVICES) TENTATIVE FU-68SDF-V802MxxxB1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) DESCRIPTIONModule type FU-68SDF-V802MxxB is a 1.58µm(L-Band) DFB-LD module with single-mode optical fiber.This module is suitable to a directly modulated light source for use in 2.5Gb/s digital optical communication systems.This module is prepared to expand the wavelength channels into L-Band for Dense-WDM transmission. FEATURESl Multi quantum wells (MQW) DFB Laser Diode modulel Input impedance is 25Ωl Emission wavelength is in 1.58µm bandl High-speed responsel Built-in optical isolatorl Built-in thermal electric coolerl Butterfly packagel With photodiode for optical output monitor APPLICATIONHigh speed transmission systems (~2.5Gb/s) Dense-WDM systemsOPTIONl Wavelength option:1565nm~1625nm are availableABSOLUTE MAXIMUM RATINGS (Tld=Tset)Parameter SymbolConditions Rating UnitOptical outputpowerPf CW6mWForward current If CW150mALaser diodeReverse voltage Vrl-2VReverse voltage Vrd-20VPhotodiodeForward current Ifd-2mACooler current Ipe- 1.3AThermo-electric cooler(Note)Cooler voltage Vpe- 3.1VOperating case temperature Tc--20 ~ 70°CStorage temperature Tstg--40 ~ 85°CNote) Even if the thermo-electric cooler (TEC) is operated within the rated conditions, uncontrolled current loading or operation without heatsink may easily damage the module by exceeding the storagetemperature range. Thermistor resistance should be properly monitored by the feedback circuit during TEC operation to avoid the catastrophic damage.1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) ELECTRICAL/OPTICAL CHARACTERISTICS (Tld=Tset, Tc=25°C unless otherwise noted)Parameter Symbol Test Conditions Limits UnitMin.Typ.Max. Threshold current Ith CW-1025mA Optical output powerat threshold currentPth CW, If=Ith--100µW Operating current Iop CW, Pf=2mW-4065mA Operating voltage Vop CW, Pf=2mW- 1.3 1.8V Input impedance Zin Pf=2mW-25-ΩLight-emission centralwavelengthλc(Note 1)(Note 2)nmCentral wavelength drift withcase temp.∆λc/∆Tc Tc=-20~70°C-1-0pm/°C Laser operating temperature Tset-20-35°C Spectral width∆λ(Note 1), -20dB-0.20.4nm Side mode suppression ratio Sr(Note 1)3340-dB Dispersion penalty Pp(Note 1), at 10-10 BER,+1800ps/nm--2dBCutoff frequency(-1.5dB optical)fc Pf=2mW 3.5--GHzRise and fall time(10~90%)tr, tf(Note 1)--150psecRelative intensity noise Nr CW, Pf=2mW,0.5~3GHz--155-145dB/HzTracking error (Note 3)Er Tc=-20~70°C,APC, ATC--0.5dBDifferential efficiencyηCW, Pf=2mW0.0570.070.15mW/mA Linearity∆ηCW, Pf=0.2~2.4mW,(Note 4)-20-20% Monitor current Imon CW, Pf=2mW, Vrd=5V0.1-2mATc=25°C35--Optical isolation IsoTc=-20~70°C23--dB Dark current (PD)Id Vrd=5V, Tc=-20~70°C--0.1µA Capacitance (PD)Ct Vrd=5V, f=1MHz--10pF Note 1) 2.48832Gb/s NRZ, 223-1, Pf_ave=1mW, Extinction ratio 10dB, optical return loss of the connectors should be greater than 40dB in order to ensure the specified performance.Note 2) See Table 1.Note 3) Er=max|10×log(Pf / Pf@25°C)|Note 4) Variation of the differential efficiency from the straight line between 0.2mW and 2mW.1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) THERMAL CHARACTERISTICS (Tld=Tset, Tc=-20~70°C)Parameter Symbol Test Conditions Limits UnitMin.Typ.Max. Thermistor resistance Rth Tld=25°C9.51010.5kΩB constant of Rth B--3950-K Cooling capacity∆T Pf=2mW, Tc=70°C50--°C Cooler current Ipe Pf=2mW, Tc=70°C, Tld=Tset-0.61A Cooler voltage Vpe Pf=2mW, Tc=70°C, Tld=Tset- 1.22V FIBER PIGTAIL SPECIFICATIONSParameter Limits UnitType SM-Mode field diameter9.5+/-1µmCladding diameter125+/-2µmSecondary coating outer diameter0.9+/-0.1mmConnector FC/PC-Optical return loss of connector40 (min)dBDOCUMENTATION (Tld=Tset)•Fiber output power vs. Laser forward current at Tld=Tset and Tc=-20,25,70°C•BER curves at 2.48832Gb/s modulation•Threshold current (Ith)•Laser forward current (Iop) at Pf=2mW•Laser forward voltage (Vop) at Pf=2mW•Laser operating temperature (Tset) at λc (Note 5)•Monitor current (Imon) at Pf=2mW•Thermistor resistance (Rth)•Cooler current (Ipe) at Pf=2mW and Tc=70°C•Cooler voltage (Vpe) at Pf=2mW and Tc=70°CNote 5) Tset is attached as a reference data. Rth should be used in order to tune the wavelength to the specified value accurately.1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) Table 1.Type numberλc (nm)Type numberλc (nm)Type numberλc (nm) FU-68SDF-V802M103B1567.13FU-68SDF-V802M139B1582.02FU-68SDF-V802M175B1597.19 FU-68SDF-V802M104B1567.54FU-68SDF-V802M140B1582.44FU-68SDF-V802M176B1597.62 FU-68SDF-V802M105B1567.95FU-68SDF-V802M141B1582.85FU-68SDF-V802M177B1598.04 FU-68SDF-V802M106B1568.36FU-68SDF-V802M142B1583.27FU-68SDF-V802M178B1598.47 FU-68SDF-V802M107B1568.77FU-68SDF-V802M143B1583.69FU-68SDF-V802M179B1598.89 FU-68SDF-V802M108B1569.18FU-68SDF-V802M144B1584.11FU-68SDF-V802M180B1599.32 FU-68SDF-V802M109B1569.59FU-68SDF-V802M145B1584.53FU-68SDF-V802M181B1599.75 FU-68SDF-V802M110B1570.01FU-68SDF-V802M146B1584.95FU-68SDF-V802M182B1600.17 FU-68SDF-V802M111B1570.42FU-68SDF-V802M147B1585.36FU-68SDF-V802M183B1600.60 FU-68SDF-V802M112B1570.83FU-68SDF-V802M148B1585.78FU-68SDF-V802M184B1601.03 FU-68SDF-V802M113B1571.24FU-68SDF-V802M149B1586.20FU-68SDF-V802M185B1601.46 FU-68SDF-V802M114B1571.65FU-68SDF-V802M150B1586.62FU-68SDF-V802M186B1601.88 FU-68SDF-V802M115B1572.06FU-68SDF-V802M151B1587.04FU-68SDF-V802M187B1602.31 FU-68SDF-V802M116B1572.48FU-68SDF-V802M152B1587.46FU-68SDF-V802M188B1602.74 FU-68SDF-V802M117B1572.89FU-68SDF-V802M153B1587.88FU-68SDF-V802M189B1603.17 FU-68SDF-V802M118B1573.30FU-68SDF-V802M154B1588.30FU-68SDF-V802M190B1603.60 FU-68SDF-V802M119B1573.71FU-68SDF-V802M155B1588.73FU-68SDF-V802M191B1604.03 FU-68SDF-V802M120B1574.13FU-68SDF-V802M156B1589.15FU-68SDF-V802M192B1604.46 FU-68SDF-V802M121B1574.54FU-68SDF-V802M157B1589.57FU-68SDF-V802M193B1604.88 FU-68SDF-V802M122B1574.95FU-68SDF-V802M158B1589.99FU-68SDF-V802M194B1605.31 FU-68SDF-V802M123B1575.37FU-68SDF-V802M159B1590.41FU-68SDF-V802M195B1605.74 FU-68SDF-V802M124B1575.78FU-68SDF-V802M160B1590.83FU-68SDF-V802M196B1606.17 FU-68SDF-V802M125B1576.20FU-68SDF-V802M161B1591.26FU-68SDF-V802M197B1606.60 FU-68SDF-V802M126B1576.61FU-68SDF-V802M162B1591.68FU-68SDF-V802M198B1607.04 FU-68SDF-V802M127B1577.03FU-68SDF-V802M163B1592.10FU-68SDF-V802M199B1607.47 FU-68SDF-V802M128B1577.44FU-68SDF-V802M164B1592.52FU-68SDF-V802M200B1607.90 FU-68SDF-V802M129B1577.86FU-68SDF-V802M165B1592.95FU-68SDF-V802M201B1608.33 FU-68SDF-V802M130B1578.27FU-68SDF-V802M166B1593.37FU-68SDF-V802M202B1608.76 FU-68SDF-V802M131B1578.69FU-68SDF-V802M167B1593.79FU-68SDF-V802M203B1609.19 FU-68SDF-V802M132B1579.10FU-68SDF-V802M168B1594.22FU-68SDF-V802M204B1609.62 FU-68SDF-V802M133B1579.52FU-68SDF-V802M169B1594.64FU-68SDF-V802M205B1610.06 FU-68SDF-V802M134B1579.93FU-68SDF-V802M170B1595.06FU-68SDF-V802M206B1610.49 FU-68SDF-V802M135B1580.35FU-68SDF-V802M171B1595.49FU-68SDF-V802M207B1610.92 FU-68SDF-V802M136B1580.77FU-68SDF-V802M172B1595.91FU-68SDF-V802M208B1611.35 FU-68SDF-V802M137B1581.18FU-68SDF-V802M173B1596.34FU-68SDF-V802M209B1611.79 FU-68SDF-V802M138B1581.60FU-68SDF-V802M174B1596.76All wavelengths are referred to vacuum.Tolerance is λc+/-0.05nm.1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) OUTLINE DIAGRAM(Unit : mm)28.4FU-68SDF-V802MxxxB。

1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILDESCRIPTIONModule type FU-68SDF-x902MzzF/-x910MzzF is a1.55μm DFB-LD module with single mode optical fiber. This module is suitable to a directly modulated light source for use in2.5Gb/s digital optical communication systems.This module is prepared in accordance with ITU-T recommendation wavelength channel plan for Dense-WDM transmission.FEATURES• • I nput impedance is 25Ω• Multi quantum wells (MQW) DFB Laser Diode module• Emission wavelength is in full C band • Single mode optical fiber pig-tail • Built-in optical isolator• Built-in thermal electric cooler • Butterfly package• With photodiode for optical output monitor • RoHS (2002/95/EC) complian ｔAPPLICATIONHigh speed transmission systems (~2.5Gb/s) Dense-WDM systemsABSOLUTE MAXIMUM RATINGS (Tld=Tset)Parameter Symbol Conditions RatingUnit-x902MzzF 6 Optical output power Pf CW -x910MzzF 15mW Forward current If CW 150 mA Laser diode Reverse voltage Vrl - 2 VReverse voltage Vrd - 20 VPhotodiode Forward current Ifd - 2 mACooler current Ipe - 1.3 A Thermo-electric cooler (Note 1) Cooler voltage Vpe - 3.1 V Operating case temperature Tc - -20 ~ 70 °C Storage temperature Tstg - -40 ~ 85 °CNote 1) Even if the thermo-electric cooler (TEC) is operated within the rated conditions, uncontrolled current loading oroperation without heatsink may easily damage the module by exceeding the storage temperature range.Thermistor resistance should be properly monitored by the feedback circuit during TEC operation to avoid the catastrophic damage.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILELECTRICAL/OPTICAL CHARACTERISTICS (Tld=Tset, Tc=25°C unless otherwise noted)LimitsParameter Symbol Test Conditions Min. Typ. Max.Unit -x902MzzF 2 Optical output P 0 CW,If=Iop -x910MzzF 10mWThreshold current Ith CW - 10 25 mA -x902MzzF - - 100 Optical output power at threshold current Pth CW, If=Ith -x910MzzF - - 150μW -x902MzzF - 40 65Operating current Iop CW, Pf=P 0 -x910MzzF - 50 95mA Operating voltage Vop CW, Pf=P 0 - 1.3 1.8 V Input impedance Zin Pf= P 0 - 25 - Ω Light-emission central wavelength λc (Note 2) See Ordering Information and Table 1 nm Central wavelength drift with case temp.Δλc/ΔTc Tc=-20~70°C -1 - 0 pm/°C Laser operating temperature Tset - 20 - 35 °C Spectral width Δλ (Note 2), -20dB - 0.2 0.4 nm Side mode suppression ratio Sr (Note 2) 33 40 - dBDispersion penalty Pp (Note 2), at 10-10BER, +3000ps/nm- - 2 dBCutoff frequency (-1.5dB optical)fc Pf= P 0 3.5 - - GHz Rise and fall time (10~90%) tr, tf (Note 2) - - 150 psec Relative intensity noise Nr CW, Pf= P 0, f =0.5~3GHz - -155 -145 dB/HzTracking error Er Tc=-20~70°C, APC, ATC(Note 3) - - 0.5 dB -x902MzzF 0.0570.07 0.15 Differential efficiency ηCW Pf= P 0 -x910MzzF 0.15 0.25 0.35 mW/m A LinearityΔηCW, Pf= P 0 x0.1~ P 0x1.2 (Note 4)-20 - 20 % -x902MzzF 0.1 - 2 Monitor current Imon CW, Pf= P 0 Vrd=5V -x910MzzF 0.2 - 3mATc=25°C 35 - - Optical isolation Iso Tc=-20~70°C23 - - dBDark current (PD) Id Vrd=5V, Tc=-20~70°C - - 0.1 μA Capacitance (PD) Ct Vrd=5V, f=1MHz - - 10 pFNote 2) 2.48832Gb/s NRZ, 223-1, Pf_ave= P 0 x 0.5, Extinction ratio 10dB, optical return loss of the connectors should begreater than 40dB in order to ensure the specified performance.Note 3) Er=max|10×log(Pf / Pf@25°C)|Note 4) Variation of the differential efficiency from the straight line between P 0 x0.1~ P 0x1.2THERMAL CHARACTERISTICS (Tld=Tset, Tc=-20~70°C)Parameter Symbol Test Conditions Limits Unit Min.Typ. Max. Thermistor resistance Rth Tld=25°C 9.5 10 10.5 k Ω B constant of Rth B - - 3950 - K Cooling capacity ΔT Pf= P 0, Tc=70°C 50 - - °C Cooler current Ipe Pf= P 0, Tc=70°C, Tld=Tset - 0.6 1 A Cooler voltage Vpe Pf= P 0, Tc=70°C, Tld=Tset - 1.2 2 V1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILFIBER PIGTAIL SPECIFICATIONSUnitParameter Limits- Type SMMode field diameter 9.5+/-1 μmCladding diameter 125+/-2 μmmmSecondary coating outer diameter 0.9+/-0.1Connector (Note 5) -Optical return loss of connector 40 (min) dBNote 5) SC/PC and FC/PC are available. Other connectors are also available for large quantities.DOCUMENTATION (Tld=Tset)•Fiber output power vs. Laser forward current at Tld=Tset and Tc=25°C•Threshold current (Ith)•Laser forward current (Iop) at Pf=P0•Laser forward voltage (Vop) at Pf= P0•Laser operating temperature (Tset) at λc (Note 6)•Monitor current (Imon) at Pf= P0•Thermistor resistance (Rth)•Cooler current (Ipe) at Pf= P0 and Tc=70°C•Cooler voltage (Vpe) at Pf= P0 and Tc=70°CNote 6) Tset is attached as a reference data. Rth should be used in order to tune the wavelength to the specified value accurately.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL ORDERING INFORMATIONFU - 68SDF – _ 9 _ _ M __ Fλ code See table 1Peak Output Power02 2mW10 10mWConnectorW SC/PCV FC/PCTable 1.f [THz] λc [nm] λ code f [THz]λc [nm] λ code196.30 1527.22 3 192.801554.9473196.20 1527.99 5 192.701555.7575196.10 1528.777 192.601556.5577196.00 1529.559 192.501557.3679195.90 1530.3311 192.401558.1781195.80 1531.1213 192.301558.9883195.70 1531.9015 192.201559.7985195.60 1532.6817 192.101560.6187195.50 1533.4719 192.001561.4289195.40 1534.2521 191.901562.2391195.30 1535.0423 191.801563.0593195.20 1535.8225 191.701563.8695195.10 1536.6127195.00 1537.4029194.90 1538.1931194.80 1538.9833194.70 1539.7735194.60 1540.5637194.50 1541.3539194.40 1542.1441194.30 1542.9443194.20 1543.7345194.10 1544.5347194.00 1545.3249193.90 1546.1251193.80 1546.9253193.70 1547.7255193.60 1548.5157193.50 1549.3259193.40 1550.1261193.30 1550.9263193.20 1551.7265193.10 1552.5267193.00 1553.3369192.90 1554.1371All wavelengths are referred to vacuum. Tolerance is λc+/-0.05nm.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILOUTLINE DIAGRAMUnless otherwise noted +/-0.5mm(Unit : mm)FU-68SDF-x9yyMzzF1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL Safety Cautions for Use of Optoelectronic DevicesGeneral:Although the manufacturer is always striving to improve the reliability of its product, problems and errors may occur with semiconductor products. Therefore, the user's products are required to be designed with full safety regard to prevent any accidents that results in injury, death, fire or environmental damage even when semiconductor products happen to error. Especially it is recommended to take in consideration about redundancy, fire prevention, error prevention safeguards. And the following requirements must be strictly observed.Warning!1. Eye safety : Seminductor laser radiates laser light during operation. Laser light is very dangerous when shot directly into human eyes. Don't look at laser light directly, or through optics such as a lens. The laser light should be observed using the ITV camera, IR-viewer, or other appropriate instruments.2. Product handling : The product contains GaAs (gallium arsenide). It is safe for regular use, but harmful to the human body if made into powder or steam. Be sure to avoid dangerous process like smashing, burning, chemical etching. Never put this product in one's mouth or swallow it.3. Product disposal : This product must be disposed of as special industrial waste. It is necessary to separate it from general industrial waste and general garbage.Handling Cautions for Optoelectronic Devices1. General:(1) The products described in this specification are designed and manufactured for use in general communication systems or electronic devices, unless their applications or reliability are otherwise specified. Therefore, they are not designed or manufactured for installation in devices or systems that may affect human life or that are used in social infrastructure requiring high reliability.(2) When the customer is considering to use the products in special applications, such as transportation systems (automobiles, trains, vessels), medical equipments, aerospace, nuclear power control, and submarine repeaters or systems, please contact Mitsubishi Electric or an authorized distributor.2. Shipping Conditions:(1) During shipment, place the packing boxes in the correct direction, and fix them firmly to keep them immovable. Placing the boxes upside down, tilting, or applying abnormal pressure onto them may cause deformation in the electrode terminals, breaking of optical fiber, or other problems.(2) Never throw or drop the packing boxes. Hard impact on the boxes may cause break of the devices.(3) Take strict precautions to keep the devices dry when shipping under rain or snow.3. Storage Conditions:When storing the products, it is recommended to store them following the conditions described below without opening the packing. Not taking enough care in storing may result in defects in electrical characteristics, soldering quality, visual appearance, and so on. The main points are described below (if special storage conditions are given to the product in the specification sheet, they have priority over the following general cautions):(1) Appropriate temperature and humidity conditions, i.e., temperature range between 5~30°C, and humidity between 40~60 percent RH, should be maintained in storage locations. Controlling the temperature and humidity within this range is particularly important in case of long-term storage for six months or more.(2) The atmosphere should be particularly free from toxic gases and dust.(3) Do not apply any load on the product.(4) Do not cut or bend the leads of the devices which are to be stored. This is to prevent corrosion in the cut or bent part of the lead causing soldering problems in the customer’s assembling process.(5) Sudden change in temperature may cause condensation in the product or packing, therefore, such locations should be avoided for storing. Temperature in storage locations should be stable.(6) When storing ceramic package products for extended periods of time, the leads may turn reddish due to reaction with sulfur in the atmosphere.(7) Storage conditions for bare chip and unsealed products shall be stated separately because bare chip and unsealed products require stricter controls than package sealed products.4. Design Conditions and Environment under Use:(1) Avoid use in locations where water or organic solvents adhere directly to the product, or where there is any possibility of the generation of corrosive gas, explosive gas, dust, salinity, or other troublesome conditions. Such environments will not only significantly lower the reliability, but also may lead to serious accidents.(2) Operation in excess of the absolute maximum ratings can cause permanent damage to the device. The customers are requested to design not to exceed those ratings even for a short time.5. ESD Safety Cautions:The optoelectronic devices are sensitive to static electricity (ESD, electro-static discharge). The product can be broken by ESD. When handling this product, please observe the following countermeasures:<Countermeasures against Static Electricity and Surge>To prevent break of devices by static electricity or surge, please adopt the following countermeasures in the assembly line:(1) Ground all equipments, machinery jigs, and tools in the process line with earth wires installed in them. Take particular care with hot plates, solder irons and other items for which the commercial power supplies are prone to leakage.(2) Workers should always use earth bands. Use of antistatic clothing, electric conductive shoes, and other safety equipment while at work is highly recommended.(3) Use conductive materials for this product’s container, etc.(4) It is recommended that grounding mats be placed on the surfaces of assembly line workbench and the surrounding floor in work area, etc.(5) When mounting this product in parts or materials which can be electrically charged (printed wiring boards, plastic products, etc.), pay close attention to the static electricity in those parts. ESD may damage the product.(6) Humidity in working environment should be controlled to be 40 percent RH or higher.These countermeasures are most general, and there is a need to carefully confirm the line before starting mass production using this product (in the trial production, etc.). It is extremely important to prevent surge, eliminate it rapidly, and prevent it from spreading.。

1.3 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL DESCRIPTIONModule type FU-48SDF-x37M9yF is a cooled butterfly packaged 1.3μm DFB-LD module with single-mode optical fiber.This module is suitable for a light source of analog applications such repeater systems.FEATURES• High liniality multi quantum wells (MQW) DFB-LD• Emission wavelength is in 1.3μm band• Built-in optical isolator• Thermo electric cooler for laser temperature control • With photodiode for optical output monitor• RoHS (2002/95/EC) compliantAPPLICATIONRepeater systemsRadio on fiberAnalog transmission systemsABSOLUTE MAXIMUM RATINGS(Tld=25°C)Parameter Symbol ConditionsRatingUnit-37M9210Optical output power from fiber end Pf CW-37M96 -37M9820mWForward current If CW 150 mALaser diodeReverse voltage Vrl - 2 VReverse voltage Vrd - 20 VPhotodiodeForward current Ifd - 2 mAVoltage Vpem-2.4V Cooler(Note) Current Ipem-1.2A Operating case temperature Tc - -20 to 65 °CStorage temperature Tstg - -40 to 70 °CNote. Even if the thermo-electric cooler (TEC) is operated within the rated conditions, uncontrolled current loading or operation without heat sink may easily damage the module by exceeding the storage temperature range. Thermistor resistance should be properly monitored by the feedback circuit during TEC operation to avoid the catastrophic damage.1.3 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILELECTRICAL/OPTICAL CHARACTERISTICS (Tld=25°C,Tc=25°C, unless otherwise noted) LimitsParameter Symbol Condition Min. Typ. Max.Units -37M92-37M96- 10 20 Threshold Current Ith CW -37M98- 15 25mA-37M92- 40 55 -37M96- 43 70 Operating Current Iop CW -37M98- 54 85mA-37M92- 30 40 -37M96- 33 50 Modulation Current Imod Imod = Iop-Ith -37M98- 39 60mAOperating Voltage Vop CW, If = Iop (Note1) - 1.3 1.8 V -37M92- 4 - -37M96- 8 -Output Power from Fiber End Pf CW, If = Iop -37M98- 12 - mWCentral Wavelength λc CW, If = Iop 1290 1310 1330nm Side Mode Suppression RatioSr CW, If = Iop 30 35 - dBfc(-1.5dB) If = Iop 2 3 - Cut-off Frequency fc(-3dB) If = Iop 3 4 -GHzFrequency response ripple ΔS21If = Iop, f = 1900~2100MHz -0.5 - 0.5 dB 3rd order distortion D3 2-tone test (Note 2) , f1,f2 = 2000±3MHz, m =21%/carrier, If(average) = Iop- -75 -65 dBcRIN (Note 3) Nr CW, If = Iop, f = 2000MHz (Note 2)- -160 -155dB/Hz Tracking Error(Note 4) Er Tc = -20~65°C, APC, ATC - 0.3 0.5 dB -37M920.1 0.13 0.4 -37M960.16 0.24 0.4 Differential Efficiency ηIf(average) = Iop -37M980.2 0.31 0.45mW/m A Monitor Current Imon CW, If = Iop, Vrd = 5V 0.1 - 3 mA Dark current( PD ) Id Vrd = 5V - 0.1 1 mA Capacitance ( PD ) Ct Vrd = 5V, f = 1MHz - 10 20 pFIsolation Iso Tc = 0 to 65°C 25 37 - dBNote 1. If : LD forward currentNote 2. Optical return loss of the connectors should be greater than 40dB in order to get the specified performance. Note 3. Relative intensity noise does not include shot noise of receiver. Note 4. Er = MAX |10* log (Pf/Pf(25°C))|THERMAL CHARACTERISTICS (Tld=25°C,Tc=-20~+65°C)LimitsParameter Symbol Conditions Min. Typ. Max.Units Thermistor resistance Rth Tld =25°C 9.5 10 10.5K Ω B constant of thermistor resistance B - - 3950 - KCooling capacity ΔT Tc =65°C 40 - - K Cooler current Ipe ΔT=40K - 0.6 1 A Cooler voltage Vpe ΔT=40K- 1.2 2 V1.3 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILOPTICAL FIBER SPECIFICATIONParameter Limits Unit Type SM -Mode filed diameter 9.5±1 μm Cladding diameter 125±2 μm Jacket diameter 900±100 μm Pigtail without connector(or with SC/PC for test) (FU-48SDF-37M92/96/98)SC/PC (FU-48SDF-W37M92/96/98) Connector type FC/PC (FU-48SDF-V37M92/96/98)-Fiber pintail length Lfiber = 1100±100 (Lfiber is defined in the outline drawing.)mmOptical return loss of the connector>45 dBFC/APC CONNECTOR SPECIFICATION (1) FC/APC CONNECTOR PARTSPart Maker Part No.FC connector PF11A Ferrule SEIKOHGIKEN FF3A(2) FERRULE ENDFACE GEOMETRYReference DimensionsEB 8° EO 50μmMAXrEP 5~12mm EQ ±0.1μmORDERING INFORMATIONOutput Power Range2 4mW6 8mW8 12mWConnectorW SC/PC L SC/APC Y FC/APC FU - 48SDF – _ 37M9 _ F1.3 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILOUTLINE DIAGRAMUnless otherwise noted +/-0.5mm(Unit : mm)FU-48SDF-x37M9yF1.3 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL Safety Cautions for Use of Optoelectronic DevicesGeneral:Although the manufacturer is always striving to improve the reliability of its product, problems and errors may occur with semiconductor products. Therefore, the user's products are required to be designed with full safety regard to prevent any accidents that results in injury, death, fire or environmental damage even when semiconductor products happen to error. Especially it is recommended to take in consideration about redundancy, fire prevention, error prevention safeguards. And the following requirements must be strictly observed.Warning!1. Eye safety : Seminductor laser radiates laser light during operation. Laser light is very dangerous when shot directly into human eyes. Don't look at laser light directly, or through optics such as a lens. The laser light should be observed using the ITV camera, IR-viewer, or other appropriate instruments.2. Product handling : The product contains GaAs (gallium arsenide). It is safe for regular use, but harmful to the human body if made into powder or steam. Be sure to avoid dangerous process like smashing, burning, chemical etching. Never put this product in one's mouth or swallow it.3. Product disposal : This product must be disposed of as special industrial waste. It is necessary to separate it from general industrial waste and general garbage.Handling Cautions for Optoelectronic Devices1. General:(1) The products described in this specification are designed and manufactured for use in general communication systems or electronic devices, unless their applications or reliability are otherwise specified. Therefore, they are not designed or manufactured for installation in devices or systems that may affect human life or that are used in social infrastructure requiring high reliability.(2) When the customer is considering to use the products in special applications, such as transportation systems (automobiles, trains, vessels), medical equipments, aerospace, nuclear power control, and submarine repeaters or systems, please contact Mitsubishi Electric or an authorized distributor.2. Shipping Conditions:(1) During shipment, place the packing boxes in the correct direction, and fix them firmly to keep them immovable. Placing the boxes upside down, tilting, or applying abnormal pressure onto them may cause deformation in the electrode terminals, breaking of optical fiber, or other problems.(2) Never throw or drop the packing boxes. Hard impact on the boxes may cause break of the devices.(3) Take strict precautions to keep the devices dry when shipping under rain or snow.3. Storage Conditions:When storing the products, it is recommended to store them following the conditions described below without opening the packing. Not taking enough care in storing may result in defects in electrical characteristics, soldering quality, visual appearance, and so on. The main points are described below (if special storage conditions are given to the product in the specification sheet, they have priority over the following general cautions):(1) Appropriate temperature and humidity conditions, i.e., temperature range between 5~30°C, and humidity between 40~60 percent RH, should be maintained in storage locations. Controlling the temperature and humidity within this range is particularly important in case of long-term storage for six months or more.(2) The atmosphere should be particularly free from toxic gases and dust.(3) Do not apply any load on the product.(4) Do not cut or bend the leads of the devices which are to be stored. This is to prevent corrosion in the cut or bent part of the lead causing soldering problems in the customer’s assembling process.(5) Sudden change in temperature may cause condensation in the product or packing, therefore, such locations should be avoided for storing. Temperature in storage locations should be stable.(6) When storing ceramic package products for extended periods of time, the leads may turn reddish due to reaction with sulfur in the atmosphere.(7) Storage conditions for bare chip and unsealed products shall be stated separately because bare chip and unsealed products require stricter controls than package sealed products.4. Design Conditions and Environment under Use:(1) Avoid use in locations where water or organic solvents adhere directly to the product, or where there is any possibility of the generation of corrosive gas, explosive gas, dust, salinity, or other troublesome conditions. Such environments will not only significantly lower the reliability, but also may lead to serious accidents.(2) Operation in excess of the absolute maximum ratings can cause permanent damage to the device. The customers are requested to design not to exceed those ratings even for a short time.5. ESD Safety Cautions:The optoelectronic devices are sensitive to static electricity (ESD, electro-static discharge). The product can be broken by ESD. When handling this product, please observe the following countermeasures:<Countermeasures against Static Electricity and Surge>To prevent break of devices by static electricity or surge, please adopt the following countermeasures in the assembly line:(1) Ground all equipments, machinery jigs, and tools in the process line with earth wires installed in them. Take particular care with hot plates, solder irons and other items for which the commercial power supplies are prone to leakage.(2) Workers should always use earth bands. Use of antistatic clothing, electric conductive shoes, and other safety equipment while at work is highly recommended.(3) Use conductive materials for this product’s container, etc.(4) It is recommended that grounding mats be placed on the surfaces of assembly line workbench and the surrounding floor in work area, etc.(5) When mounting this product in parts or materials which can be electrically charged (printed wiring boards, plastic products, etc.), pay close attention to the static electricity in those parts. ESD may damage the product.(6) Humidity in working environment should be controlled to be 40 percent RH or higher.These countermeasures are most general, and there is a need to carefully confirm the line before starting mass production using this product (in the trial production, etc.). It is extremely important to prevent surge, eliminate it rapidly, and prevent it from spreading.。

峰岹科技FU68xx-有感方波调试说明文档-V1.0.0峰岹科技(深圳)有限公司Fortior Technology(Shenzhen)Co.,Ltd.深圳市南山区科技中二路软件园11栋2楼203室,518057Room203,2/F,Building No.11,Keji Central Road2,Software Park,High-Tech Industrial Park,Shenzhen,P.R.ChinaTel：86-755-26867710Fax：86-755-26867715Contained hereinCopyright by FortiorTechnology(Shenzhen)Co.,Ltd all rights reserved.修改记录版本号：第1位-原理第2位-模块第3位-细节版本号修改详细内容说明生效日期修订者审核者V1.0.0初稿2020-3-5Dean.Wang John.Luo1.概述⏹本调试指导针对软件方波程序芯片类型:FU6861Q软件支持直流无刷电机无HALL方波控制速度开环和速度闭环控制⏹软件编写的几点原则：1、禁止此文件中的结构体变量不能改动，改动后编译会出错。

2、禁止使用”TAB”键禁止缩进。

3、禁止在使用没有明确含义的全局变量。

4、建议每个功能函数，放在明确的“层”中。

本调试文档参考datasheet-MCU-DS-010C_FU6812_61_Datasheet_V1.32(20181115中文版)。

2.方波控制工作原理2.1.BLDC的六步换相A AC B C B(1)(2)A AC B C B(3)(4)A AC B C B(5)(6)图2-1-1通电顺序第一个电周期第二个电周期0180360540720霍尔传感器输出反电动势输出转矩相电流序号(1)(2)(3)(4)(5)(6)(1)(2)(3)(4)(5)(6)图2-1-2霍尔传感器信号、电机反电动势、输出转矩、相电流波形上面图2-1-1是按照霍尔信号给绕组通电的示意图，图2-1-2展示了霍尔信号和反电势、输出转矩及相电流的关系。

1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILDESCRIPTIONModule type FU-68SDF-x802MzzF/-x810MzzF is a1.55μm DFB-LD module with single mode optical fiber. This module is suitable to a directly modulated light source for use in2.5Gb/s digital optical communication systems.This module is prepared in accordance with ITU-T recommendation wavelength channel plan for Dense-WDM transmission.FEATURES• Input impedance is 25Ω• Multi quantum wells (MQW) DFB Laser Diode module• Emission wavelength is in full C band • Single mode optical fiber pig-tail • Built-in optical isolator• Built-in thermal electric cooler • Butterfly package• With photodiode for optical output monitor • RoHS (2002/95/EC) complianAPPLICATIONHigh speed transmission systems (~2.5Gb/s) Dense-WDM systemsABSOLUTE MAXIMUM RATINGS (Tld=Tset)Parameter Symbol Conditions RatingUnit-x802MzzF 6 Optical output power Pf CW -x810MzzF 15mW Forward current If CW 150 mA Laser diode Reverse voltage Vrl - 2 VReverse voltage Vrd - 20 VPhotodiode Forward current Ifd - 2 mACooler current Ipe - 1.3 A Thermo-electric cooler (Note 1) Cooler voltage Vpe - 3.1 V Operating case temperature Tc - -20 ~ 70 °C Storage temperature Tstg - -40 ~ 85 °CNote 1) Even if the thermo-electric cooler (TEC) is operated within the rated conditions, uncontrolled current loading oroperation without heatsink may easily damage the module by exceeding the storage temperature range.Thermistor resistance should be properly monitored by the feedback circuit during TEC operation to avoid the catastrophic damage.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILELECTRICAL/OPTICAL CHARACTERISTICS (Tld=Tset, Tc=25°C unless otherwise noted)LimitsParameter Symbol Test Conditions Min. Typ. Max.Unit -x802MzzF 2 Optical output P 0 CW,If=Iop -x810MzzF 10mWThreshold current Ith CW - 10 25 mA -x802MzzF - - 100 Optical output power at threshold current Pth CW, If=Ith -x810MzzF - - 150μW -x802MzzF - 40 65Operating current Iop CW, Pf=P 0 -x810MzzF - 50 95mA Operating voltage Vop CW, Pf=P 0 - 1.3 1.8 V Input impedance Zin Pf= P 0 - 25 - Ω Light-emission central wavelength λc (Note 2) See Ordering Information and Table 1 nm Central wavelength drift with case temp.Δλc/ΔTc Tc=-20~70°C -1 - 0 pm/°C Laser operating temperature Tset - 20 - 35 °C Spectral width Δλ (Note 2), -20dB - 0.2 0.4 nm Side mode suppression ratio Sr (Note 2) 33 40 - dBDispersion penalty Pp (Note 2), at 10-10BER, +1800ps/nm- - 2 dBCutoff frequency (-1.5dB optical)fc Pf= P 0 3.5 - - GHz Rise and fall time (10~90%) tr, tf (Note 2) - - 150 psec Relative intensity noise Nr CW, Pf= P 0, f =0.5~3GHz - -155 -145 dB/HzTracking error Er Tc=-20~70°C, APC, ATC(Note 3) - - 0.5 dB -x802MzzF 0.0570.07 0.15 Differential efficiency ηCW Pf= P 0 -x810MzzF 0.15 0.25 0.35 mW/m A LinearityΔηCW, Pf= P 0 x0.1~ P 0x1.2 (Note 4)-20 - 20 % -x802MzzF 0.1 - 2 Monitor current Imon CW, Pf= P 0 Vrd=5V -x810MzzF 0.2 - 3mATc=25°C 35 - - Optical isolation Iso Tc=-20~70°C23 - - dBDark current (PD) Id Vrd=5V, Tc=-20~70°C - - 0.1 μA Capacitance (PD) Ct Vrd=5V, f=1MHz - - 10 pFNote 2) 2.48832Gb/s NRZ, 223-1, Pf_ave= P 0 x 0.5, Extinction ratio 10dB, optical return loss of the connectors should begreater than 40dB in order to ensure the specified performance.Note 3) Er=max|10×log(Pf / Pf@25°C)|Note 4) Variation of the differential efficiency from the straight line between P 0 x0.1~ P 0x1.2THERMAL CHARACTERISTICS (Tld=Tset, Tc=-20~70°C)Parameter Symbol Test Conditions Limits Unit Min.Typ. Max. Thermistor resistance Rth Tld=25°C 9.5 10 10.5 k Ω B constant of Rth B - - 3950 - K Cooling capacity ΔT Pf= P 0, Tc=70°C 50 - - °C Cooler current Ipe Pf= P 0, Tc=70°C, Tld=Tset - 0.6 1 A Cooler voltage Vpe Pf= P 0, Tc=70°C, Tld=Tset - 1.2 2 V1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILFIBER PIGTAIL SPECIFICATIONSUnitParameter Limits- Type SMMode field diameter 9.5+/-1 μmCladding diameter 125+/-2 μmmmSecondary coating outer diameter 0.9+/-0.1Connector (Note 5) -Optical return loss of connector 40 (min) dBNote 5) SC/PC and FC/PC are available. Other connectors are also available for large quantities.DOCUMENTATION (Tld=Tset)•Fiber output power vs. Laser forward current at Tld=Tset and Tc=25°C•Threshold current (Ith)•Laser forward current (Iop) at Pf=P0•Laser forward voltage (Vop) at Pf= P0•Laser operating temperature (Tset) at λc (Note 6)•Monitor current (Imon) at Pf= P0•Thermistor resistance (Rth)•Cooler current (Ipe) at Pf= P0 and Tc=70°C•Cooler voltage (Vpe) at Pf= P0 and Tc=70°CNote 6) Tset is attached as a reference data. Rth should be used in order to tune the wavelength to the specified value accurately.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL ORDERING INFORMATIONFU - 68SDF – _ 8 _ _ M __ Fλ code See table 1Peak Output Power02 2mW10 10mWConnectorW SC/PCV FC/PCTable 1.f [THz] λc [nm] λ code f [THz]λc [nm] λ code196.30 1527.22 3 192.801554.9473196.20 1527.99 5 192.701555.7575196.10 1528.777 192.601556.5577196.00 1529.559 192.501557.3679195.90 1530.3311 192.401558.1781195.80 1531.1213 192.301558.9883195.70 1531.9015 192.201559.7985195.60 1532.6817 192.101560.6187195.50 1533.4719 192.001561.4289195.40 1534.2521 191.901562.2391195.30 1535.0423 191.801563.0593195.20 1535.8225 191.701563.8695195.10 1536.6127195.00 1537.4029194.90 1538.1931194.80 1538.9833194.70 1539.7735194.60 1540.5637194.50 1541.3539194.40 1542.1441194.30 1542.9443194.20 1543.7345194.10 1544.5347194.00 1545.3249193.90 1546.1251193.80 1546.9253193.70 1547.7255193.60 1548.5157193.50 1549.3259193.40 1550.1261193.30 1550.9263193.20 1551.7265193.10 1552.5267193.00 1553.3369192.90 1554.1371All wavelengths are referred to vacuum. Tolerance is λc+/-0.05nm.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILOUTLINE DIAGRAMUnless otherwise noted +/-0.5mm(Unit : mm)FU-68SDF-x8yyMzzF1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL Safety Cautions for Use of Optoelectronic DevicesGeneral:Although the manufacturer is always striving to improve the reliability of its product, problems and errors may occur with semiconductor products. Therefore, the user's products are required to be designed with full safety regard to prevent any accidents that results in injury, death, fire or environmental damage even when semiconductor products happen to error. Especially it is recommended to take in consideration about redundancy, fire prevention, error prevention safeguards. And the following requirements must be strictly observed.Warning!1. Eye safety : Seminductor laser radiates laser light during operation. Laser light is very dangerous when shot directly into human eyes. Don't look at laser light directly, or through optics such as a lens. The laser light should be observed using the ITV camera, IR-viewer, or other appropriate instruments.2. Product handling : The product contains GaAs (gallium arsenide). It is safe for regular use, but harmful to the human body if made into powder or steam. Be sure to avoid dangerous process like smashing, burning, chemical etching. Never put this product in one's mouth or swallow it.3. Product disposal : This product must be disposed of as special industrial waste. It is necessary to separate it from general industrial waste and general garbage.Handling Cautions for Optoelectronic Devices1. General:(1) The products described in this specification are designed and manufactured for use in general communication systems or electronic devices, unless their applications or reliability are otherwise specified. Therefore, they are not designed or manufactured for installation in devices or systems that may affect human life or that are used in social infrastructure requiring high reliability.(2) When the customer is considering to use the products in special applications, such as transportation systems (automobiles, trains, vessels), medical equipments, aerospace, nuclear power control, and submarine repeaters or systems, please contact Mitsubishi Electric or an authorized distributor.2. Shipping Conditions:(1) During shipment, place the packing boxes in the correct direction, and fix them firmly to keep them immovable. Placing the boxes upside down, tilting, or applying abnormal pressure onto them may cause deformation in the electrode terminals, breaking of optical fiber, or other problems.(2) Never throw or drop the packing boxes. Hard impact on the boxes may cause break of the devices.(3) Take strict precautions to keep the devices dry when shipping under rain or snow.3. Storage Conditions:When storing the products, it is recommended to store them following the conditions described below without opening the packing. Not taking enough care in storing may result in defects in electrical characteristics, soldering quality, visual appearance, and so on. The main points are described below (if special storage conditions are given to the product in the specification sheet, they have priority over the following general cautions):(1) Appropriate temperature and humidity conditions, i.e., temperature range between 5~30°C, and humidity between 40~60 percent RH, should be maintained in storage locations. Controlling the temperature and humidity within this range is particularly important in case of long-term storage for six months or more.(2) The atmosphere should be particularly free from toxic gases and dust.(3) Do not apply any load on the product.(4) Do not cut or bend the leads of the devices which are to be stored. This is to prevent corrosion in the cut or bent part of the lead causing soldering problems in the customer’s assembling process.(5) Sudden change in temperature may cause condensation in the product or packing, therefore, such locations should be avoided for storing. Temperature in storage locations should be stable.(6) When storing ceramic package products for extended periods of time, the leads may turn reddish due to reaction with sulfur in the atmosphere.(7) Storage conditions for bare chip and unsealed products shall be stated separately because bare chip and unsealed products require stricter controls than package sealed products.4. Design Conditions and Environment under Use:(1) Avoid use in locations where water or organic solvents adhere directly to the product, or where there is any possibility of the generation of corrosive gas, explosive gas, dust, salinity, or other troublesome conditions. Such environments will not only significantly lower the reliability, but also may lead to serious accidents.(2) Operation in excess of the absolute maximum ratings can cause permanent damage to the device. The customers are requested to design not to exceed those ratings even for a short time.5. ESD Safety Cautions:The optoelectronic devices are sensitive to static electricity (ESD, electro-static discharge). The product can be broken by ESD. When handling this product, please observe the following countermeasures:<Countermeasures against Static Electricity and Surge>To prevent break of devices by static electricity or surge, please adopt the following countermeasures in the assembly line:(1) Ground all equipments, machinery jigs, and tools in the process line with earth wires installed in them. Take particular care with hot plates, solder irons and other items for which the commercial power supplies are prone to leakage.(2) Workers should always use earth bands. Use of antistatic clothing, electric conductive shoes, and other safety equipment while at work is highly recommended.(3) Use conductive materials for this product’s container, etc.(4) It is recommended that grounding mats be placed on the surfaces of assembly line workbench and the surrounding floor in work area, etc.(5) When mounting this product in parts or materials which can be electrically charged (printed wiring boards, plastic products, etc.), pay close attention to the static electricity in those parts. ESD may damage the product.(6) Humidity in working environment should be controlled to be 40 percent RH or higher.These countermeasures are most general, and there is a need to carefully confirm the line before starting mass production using this product (in the trial production, etc.). It is extremely important to prevent surge, eliminate it rapidly, and prevent it from spreading.。

MITSUBISHI (OPTICAL DEVICES) TENTATIVE FU-68SDF-V810MxxxB1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) DESCRIPTIONModule type FU-68SDF-V810MxxB is a 1.58µm(L-Band) DFB-LD module with single-mode opticalfiber.This module is suitable to a directly modulated light source for use in 2.5Gb/s digital optical communication systems.This module is prepared to expand the wavelength channels into L-Band for Dense-WDM transmission. FEATURESl Multi quantum wells (MQW) DFB Laser Diode modulel Input impedance is 25Ωl Emission wavelength is in 1.58µm bandl High-speed responsel Built-in optical isolatorl Built-in thermal electric coolerl Butterfly packagel With photodiode for optical output monitor APPLICATIONHigh speed transmission systems (~2.5Gb/s)Dense-WDM systemsOPTIONl Wavelength option:1565nm~1625nm are availableABSOLUTE MAXIMUM RATINGS (Tld=Tset)Parameter SymbolConditions Rating UnitOptical outputpowerPf CW15mWForward current If CW150mALaser diodeReverse voltage Vrl-2VReverse voltage Vrd-20VPhotodiodeForward current Ifd-2mACooler current Ipe- 1.3AThermo-electric cooler(Note)Cooler voltage Vpe- 3.1VOperating case temperature Tc--20 ~ 70°CStorage temperature Tstg--40 ~ 85°CNote) Even if the thermo-electric cooler (TEC) is operated within the rated conditions, uncontrolled current loading or operation without heatsink may easily damage the module by exceeding the storage temperature range. Thermistor resistance should be properly monitored by the feedback circuit during TEC operation to avoid the catastrophic damage.1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) ELECTRICAL/OPTICAL CHARACTERISTICS (Tld=Tset, Tc=25°C unless otherwise noted)Parameter Symbol Test Conditions Limits UnitMin.Typ.Max. Threshold current Ith CW-1025mA Optical output powerat threshold currentPth CW, If=Ith--150µW Operating current Iop CW, Pf=10mW-5095mA Operating voltage Vop CW, Pf=10mW- 1.3 1.8V Input impedance Zin Pf=10mW-25-ΩLight-emission centralwavelengthλc(Note 1)(Note 2)nmCentral wavelength drift withcase temp.∆λc/∆Tc Tc=-20~70°C-1-0pm/°C Laser operating temperature Tset-20-35°C Spectral width∆λ(Note 1), -20dB-0.20.4nm Side mode suppression ratio Sr(Note 1)3340-dB Dispersion penalty Pp(Note 1), at 10-10 BER,+1800ps/nm--2dBCutoff frequency(-1.5dB optical)fc Pf=10mW 3.5--GHzRise and fall time(10~90%)tr, tf(Note 1)--150psecRelative intensity noise Nr CW, Pf=10mW,0.5~3GHz--155-145dB/HzTracking error (Note 3)Er Tc=-20~70°C,APC, ATC--0.5dBDifferential efficiencyηCW, Pf=10mW0.150.250.35mW/mA Linearity∆ηCW, Pf=1~12mW,(Note 4)-20-20% Monitor current Imon CW, Pf=10mW, Vrd=5V0.2-3mATc=25°C35--Optical isolation IsoTc=-20~70°C23--dB Dark current (PD)Id Vrd=5V, Tc=-20~70°C--0.1µA Capacitance (PD)Ct Vrd=5V, f=1MHz--10pF Note 1) 2.48832Gb/s NRZ, 223-1, Pf_ave=5mW, Extinction ratio 10dB, optical return loss of the connectors should be greater than 40dB in order to ensure the specified performance.Note 2) See Table 1.Note 3) Er=max|10×log(Pf / Pf@25°C)|Note 4) Variation of the differential efficiency from the straight line between 1mW and 10mW.1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) THERMAL CHARACTERISTICS (Tld=Tset, Tc=-20~70°C)Parameter Symbol Test Conditions Limits UnitMin.Typ.Max. Thermistor resistance Rth Tld=25°C9.51010.5kΩB constant of Rth B--3950-K Cooling capacity∆T Pf=10mW, Tc=70°C50--°C-0.61A Cooler current Ipe Pf=10mW, Tc=70°C,Tld=Tset- 1.22V Cooler voltage Vpe Pf=10mW, Tc=70°C,Tld=TsetFIBER PIGTAIL SPECIFICATIONSParameter Limits UnitType SM-Mode field diameter9.5+/-1µmCladding diameter125+/-2µmSecondary coating outer diameter0.9+/-0.1mmConnector FC/PC-Optical return loss of connector40 (min)dBDOCUMENTATION (Tld=Tset)•Fiber output power vs. Laser forward current at Tld=Tset and Tc=-20,25,70°C•BER curves at 2.48832Gb/s modulation•Threshold current (Ith)•Laser forward current (Iop) at Pf=10mW•Laser forward voltage (Vop) at Pf=10mW•Laser operating temperature (Tset) at λc (Note 5)•Monitor current (Imon) at Pf=10mW•Thermistor resistance (Rth)•Cooler current (Ipe) at Pf=10mW and Tc=70°C•Cooler voltage (Vpe) at Pf=10mW and Tc=70°CNote 5) Tset is attached as a reference data. Rth should be used in order to tune the wavelength to the specified value accurately.1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) Table 1.Type numberλc (nm)Type numberλc (nm)Type numberλc (nm) FU-68SDF-V810M103B1567.13FU-68SDF-V810M139B1582.02FU-68SDF-V810M175B1597.19 FU-68SDF-V810M104B1567.54FU-68SDF-V810M140B1582.44FU-68SDF-V810M176B1597.62 FU-68SDF-V810M105B1567.95FU-68SDF-V810M141B1582.85FU-68SDF-V810M177B1598.04 FU-68SDF-V810M106B1568.36FU-68SDF-V810M142B1583.27FU-68SDF-V810M178B1598.47 FU-68SDF-V810M107B1568.77FU-68SDF-V810M143B1583.69FU-68SDF-V810M179B1598.89 FU-68SDF-V810M108B1569.18FU-68SDF-V810M144B1584.11FU-68SDF-V810M180B1599.32 FU-68SDF-V810M109B1569.59FU-68SDF-V810M145B1584.53FU-68SDF-V810M181B1599.75 FU-68SDF-V810M110B1570.01FU-68SDF-V810M146B1584.95FU-68SDF-V810M182B1600.17 FU-68SDF-V810M111B1570.42FU-68SDF-V810M147B1585.36FU-68SDF-V810M183B1600.60 FU-68SDF-V810M112B1570.83FU-68SDF-V810M148B1585.78FU-68SDF-V810M184B1601.03 FU-68SDF-V810M113B1571.24FU-68SDF-V810M149B1586.20FU-68SDF-V810M185B1601.46 FU-68SDF-V810M114B1571.65FU-68SDF-V810M150B1586.62FU-68SDF-V810M186B1601.88 FU-68SDF-V810M115B1572.06FU-68SDF-V810M151B1587.04FU-68SDF-V810M187B1602.31 FU-68SDF-V810M116B1572.48FU-68SDF-V810M152B1587.46FU-68SDF-V810M188B1602.74 FU-68SDF-V810M117B1572.89FU-68SDF-V810M153B1587.88FU-68SDF-V810M189B1603.17 FU-68SDF-V810M118B1573.30FU-68SDF-V810M154B1588.30FU-68SDF-V810M190B1603.60 FU-68SDF-V810M119B1573.71FU-68SDF-V810M155B1588.73FU-68SDF-V810M191B1604.03 FU-68SDF-V810M120B1574.13FU-68SDF-V810M156B1589.15FU-68SDF-V810M192B1604.46 FU-68SDF-V810M121B1574.54FU-68SDF-V810M157B1589.57FU-68SDF-V810M193B1604.88 FU-68SDF-V810M122B1574.95FU-68SDF-V810M158B1589.99FU-68SDF-V810M194B1605.31 FU-68SDF-V810M123B1575.37FU-68SDF-V810M159B1590.41FU-68SDF-V810M195B1605.74 FU-68SDF-V810M124B1575.78FU-68SDF-V810M160B1590.83FU-68SDF-V810M196B1606.17 FU-68SDF-V810M125B1576.20FU-68SDF-V810M161B1591.26FU-68SDF-V810M197B1606.60 FU-68SDF-V810M126B1576.61FU-68SDF-V810M162B1591.68FU-68SDF-V810M198B1607.04 FU-68SDF-V810M127B1577.03FU-68SDF-V810M163B1592.10FU-68SDF-V810M199B1607.47 FU-68SDF-V810M128B1577.44FU-68SDF-V810M164B1592.52FU-68SDF-V810M200B1607.90 FU-68SDF-V810M129B1577.86FU-68SDF-V810M165B1592.95FU-68SDF-V810M201B1608.33 FU-68SDF-V810M130B1578.27FU-68SDF-V810M166B1593.37FU-68SDF-V810M202B1608.76 FU-68SDF-V810M131B1578.69FU-68SDF-V810M167B1593.79FU-68SDF-V810M203B1609.19 FU-68SDF-V810M132B1579.10FU-68SDF-V810M168B1594.22FU-68SDF-V810M204B1609.62 FU-68SDF-V810M133B1579.52FU-68SDF-V810M169B1594.64FU-68SDF-V810M205B1610.06 FU-68SDF-V810M134B1579.93FU-68SDF-V810M170B1595.06FU-68SDF-V810M206B1610.49 FU-68SDF-V810M135B1580.35FU-68SDF-V810M171B1595.49FU-68SDF-V810M207B1610.92 FU-68SDF-V810M136B1580.77FU-68SDF-V810M172B1595.91FU-68SDF-V810M208B1611.35 FU-68SDF-V810M137B1581.18FU-68SDF-V810M173B1596.34FU-68SDF-V810M209B1611.79 FU-68SDF-V810M138B1581.60FU-68SDF-V810M174B1596.76All wavelengths are referred to vacuum.Tolerance is λc+/-0.05nm.1.58 µm (L-Band) DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) OUTLINE DIAGRAM(Unit : mm)28.4FU-68SDF-V810MxxxB。

首先感谢您选用我们的开发板及产品，在使用前请详细阅读此说明，如有疑问请和卖家联系！1.简介FU6818DEMO直流输入驱动器开发板基于峰岹公司的核心方案，完成3相永磁同步无刷电机的速度电流控制，希望我们可以助力您完成电机控制项目。

2.特性●输入电压12-100VDC●调速模式：电位器模拟量、PWM脉冲调试●支持FOC控制●支持PID速度换和DQ电流环●驱动器最大持续电流15A(有效值)，允许2倍过载10秒●预留2路温度传感器探头，方便检测电机和MOSFET管子的温度●预留3相UVW霍尔输入接口●硬件支持有感和无感短接跳线冒，方便用户进行有感和无感电机的控制器的开发●支持2-SHUT电流采集(低侧采样)●支持采集VBUS母线电压●使用高品质铝型材散热器，安装孔数控精确定位，保证管子安装不受外力损坏●预留大孔径引线接口焊盘，方便用户使用大功率电机调试●外形尺寸：(L*W*H)110*104*59mm3.电源连接：A.推荐电源接线地线为16AWG,带电操作时需要十分小心。

B.控制器内部没有快短保险丝，需要用户测试调试时，外接保险丝，以免事故出现。

C.用户可根据电机额定电压及功率来选择电源。

同等输出电流下，电源电压越高，电机及驱动的温升越高；D.控制内部有防反接保护；E.切记高于额定电压输入，损坏控制板自行负责；4.电机及霍尔接线：A.按照PCB丝印标识UVW字样接线，切记正确接线，否则，会导致启动或转动异常！！B.有感反馈的电机，相序换向列表值需要实际调试，在程序中设置；C.有感发奎的电机，需要在代码中设置电机极对数等参数；5.其他接口：A.温度接口，采用NTC10K即可，探头贴合目标对象安装；B.所有对外输入输出接口，未做保护处理，最高支持5V电平，切近误接入高于此电压的设备和控制器；C.FU6818电源模式选择，请参照原理图示意；D.有感无感工作模式选择，需要通过配置硬件的反馈装置跳线以及修改代码中的配置文件实现，详细参照原理图及代码设置；6.硬件说明:标号示意：1.外置功率MOSFET管6颗；2.DC电源输入端，区分正负极DC+、DC-；3.电机输出焊盘，U、V、W；4.电源模式选择跳线（当使用双电源高压模式使用）；5.Motor温度检测端子输入；6.调速、方向开关输入端子；7.调速电位器；8.2输入按钮；9.主控FU6818L；10.仿真、调试接口；11.霍尔反馈输入端口；12.接地测试点；13.MOS温度检测端子输入；14.有感、无感工作模式的跳线配置；15.输入电源电压<＝12V时，短接跳线帽；16.铝制散热器；7.外形尺寸图(单位:mm)：2018/12/28 成都技领电子科技有限公司。

+SP20B/SP20F/SP20X/SP20P编程器使用手册2022-12-20 Revision A6深圳硕飞科技有限公司SHENZHEN SFLY TECHNOLOGY CO.，LTD.目录第一章简介1.1 性能特点 -------------------------------------------------------------------------------------------- 31.2 SP20系列编程器参数表----------------------------------------------------------------------------- 4第二章编程器硬件2.1 编程器主机------------------------------------------------------------------------------------------ 52.2 附件------------------------------------------------------------------------------------------------- 5第三章快速使用3.1 软件安装 -------------------------------------------------------------------------------------------- 63.2 烧录芯片步骤 --------------------------------------------------------------------------------------- 63.3 读取芯片数据并写入新的芯片----------------------------------------------------------------------- 83.4 联机模式指示灯状态 -------------------------------------------------------------------------------- 9第四章脱机烧录4.1下载脱机数据 ---------------------------------------------------------------------------------------104.2 脱机烧录操作----------------------------------------------------------------------------------------11手动方式 -------------------------------------------------------------------------------------------11 自动控制方式（通过ATE接口控制）---------------------------------------------------------------124.3 脱机模式指示灯状态 -------------------------------------------------------------------------------12第五章ISP模式烧录5.1选择ISP烧录模式 ----------------------------------------------------------------------------------135.2 ISP接口定义----------------------------------------------------------------------------------------135.3 连接目标芯片 --------------------------------------------------------------------------------------145.4 选择ISP供电方式----------------------------------------------------------------------------------145.5 烧录操作 -------------------------------------------------------------------------------------------14第六章多机模式烧录6.1 编程器硬件连接 ------------------------------------------------------------------------------------156.2 烧录操作 -------------------------------------------------------------------------------------------16附录一常见问题解答 -------------------------------------------------------------------------------------------- 17附录二免责声明------------------------------------------------------------------------------------------------- 18附录三修订记录-------------------------------------------------------------------------------------------------19第一章简介SP20系列（SP20B/SP20F/SP20X/SP20P）编程器是深圳硕飞科技最新推出的一款SPI FLASH专用高速量产型编程器，是SP16系列的升级版，全面支持国内外各厂商的SPI NOR FLASH、I2C/MicroWire 等EEPROM的高速量产烧录。

峰岹科技FU68xx-无霍尔-FOC调试说明文档-V1.0.0峰岹科技(深圳)有限公司Fortior Technology(Shenzhen)Co.,Ltd.深圳市南山区科技中二路软件园11栋2楼203室,518057Room203,2/F,Building No.11,Keji Central Road2,Software Park,High-Tech Industrial Park,Shenzhen,P.R.ChinaTel：86-755-26867710Fax：86-755-26867715Contained hereinCopyright by FortiorTechnology(Shenzhen)Co.,Ltd all rights reserved.修改记录版本号：第1位-原理第2位-模块第3位-细节版本号修改详细内容说明生效日期修订者审核者V1.0.0初稿2020-3-5Jamie.Xu John.Luo1.概述本应用笔记介绍了如何使用FU68XX MCU中的FOC控制直流无刷电机（BLDC）。

本文介绍了如何使用FU6831应用于硬件FU6831-DDGJ_V1.0电机控制开发板。

FU68XX系列是一款集成8051内核和电机控制引擎（ME）的电机驱动专用芯片，8051内核处理常规事务，ME处理电机实时事务，双核协同工作实现各种高性能电机控制。

其中8051内核大部分指令周期为1T或2T，芯片内部集成有高速运算放大器、比较器、Pre-driver（FU6811除外）、高速ADC、高速乘/除法器、CRC、SPI、I2C、UART、多种TIMER、PWM等功能，内置高压LDO，适用于BLDC/PMSM电机的方波、SVPWM/SPWM、FOC驱动控制。

FU68XX系列现共分为三款芯片：FU6811，FU6831和FU6818。

●FU6811为Gate Driver输出；●FU6831为3P3N Pre-driver输出；●FU6818为6N Pre-driver输出。

FU6831Fortior TechFU6831MCU Embedded and Configurable 3-Phase BLDCMotor ControllerDatasheetP re li mi na ry目 录1系统介绍 (3)1.1 概述 ............................................................................................................................................. 3 1.2 特性 ............................................................................................................................................. 3 1.3 功能框图 . (4)2引脚定义与封装 .......................................................................................................................... 5 2.1 FU6831引脚列表 ....................................................................................................................... 5 2.2 FU6831封装-LQFP48 .................................................................................................................. 8 2.3FU6831封装-QFN48 (9)3 电气参数 ................................................................................................................................... 10 3.1 电气特性绝对最大值 ............................................................................................................... 10 3.2 全局电气特性 (10)3.3 GPIO 电气特性 (11)3.4 Predriver 3P3N IO 电气特性 (11)3.5 ADC 电气特性 (12)3.6 参考电压电气特性 (12)3.7 运算放大器电气特性 (13)3.8 比较器电气特性 ....................................................................................................................... 13 3.9 HALL/BEMF 电气特性 ............................................................................................................... 13 3.10 OSC 电气特性 ........................................................................................................................... 13 3.11 复位电气特性 (14)3.12LDO 电气特性 (14)4 封装信息 ................................................................................................................................... 15 4.1 LQFP48_7X7 .............................................................................................................................. 15 4.2QFN48_6X6 (16)5 订购信息 (17)P re li mi na ry1 系统介绍 1.1概述FU6831为一款基于8051内核的电机驱动专用芯片，大部分指令周期为1T 或2T ，芯片内部集成有高速ADC 、高速乘除法器、电机专用运算加速器、CRC 、SPI 、I2C 、UART 、多种TIMER 、PWM 等功能，内置高压LDO 和Predriver ，适用于电机方波、SVPWM 、FOC 驱动控制。

1.5 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILDESCRIPTIONModule type FU-68SDF-x31MyyF is a 1.5μm band DFB-LD module with single-mode optical fiber.This module is suitable to a directly modulated light source for use in high power optical repieter for mobile communication system.FEATURES• High liniality multi quantum wells (MQW) DFB-LD• Emission wavelength is in 1.5μm band• Built-in optical isolator• Thermo electric cooler for laser temperature control • With photodiode for optical output monitor• RoHS (2002/95/EC) compliantAPPLICATIONRepeater systemsRadio on fiberAnalog transmission systemsABSOLUTE MAXIMUM RATINGS(Tld=25°C)Parameter SymbolConditionsRatingUnit Optical outputpowerPf CW 15 mW Forward current If CW 150 mALaser diodeReverse voltage Vrl - 2 VReverse voltage Vrd - 20 VPhotodiodeForward current Ifd - 2 mACooler current Ipe - 1.3 AThermo-electric cooler(Note)Cooler voltage Vpe - 3.1 VOperating case temperature Tc - -20 ~ 70 °CStorage temperature Tstg - -40 ~ 85 °CNote) Even if the thermo-electric cooler (TEC) is operated within the rated conditions, uncontrolled current loading or operation without heatsink may easily damage the module by exceeding the storage temperature range.Thermistor resistance should be properly monitored by the feedback circuit during TEC operation to avoid the catastrophic damage.1.5 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILELECTRICAL/OPTICAL CHARACTERISTICS ( Tc= 25°C, Tld=Tset unless otherwise noted )Parameter Symbol Test Conditions Limits UnitMin. Typ. Max. Threshold current Ith CW - 10 25 mA Operating current Iop CW, Pf=10mW - 60 100 mA Operating voltage Vop CW, Pf=10mW - 1.3 1.8 V Input impedance Zin Pf=10mW - 25 - Ω Light-emission central wavelength λc CW, Pf=10mW See Ordering Information and Table 1 nm Central wavelength drift with case temp.Δλc/ΔTc Tc =-20~70°C -1 - 0 pm/°C Laser operating temperature Tset - 15 - 35 °C Side mode suppression ratio Sr CW, Pf=10mW 33 40 - dB 3rdorder distortion D3 2 tone testf1=1997MHz, f2=2003MHz m=20%/tone, If(average)=Iop (Note 1) (Note 2) - -65 -56 dBc Cutoff frequency (-1.5dB optical) fc Pf =10mW 3.5 - - GHz Relative intensity noise Nr CW, Pf =10mW, 0.5~3GHz- -155 -145 dB/HzTracking error (Note 3) Er Tc=-20~70°C,APC, ATC - - 0.5 dB Differential efficiency ηCW, Pf =10mW 0.12 0.2 0.35 mW/m AMonitor current Imon CW, Pf=10mW, Vrd=5V 0.2 - 3 mA Tc =25°C 35 - - Optical isolation Iso Tc=-20~70°C 23 - - dBDark current (PD) Id Vrd=5V, Tc=-20~70°C - - 0.1 μA Capacitance (PD) Ct Vrd=5V, f=1MHz - - 10 pF Note 1) If: LD forward currentNote 2) Optical return loss of the connectors should be greater than 40dB in order to ensure the specified performance. Note 3) Er=max|10×log(Pf / Pf@25°C)|THERMAL CHARACTERISTICS (Tld=25°C, Tc=-20~70°C)Parameter Symbol Test Conditions Limits UnitMin. Typ. Max. Thermistor resistance Rth - 9.5 10 10.5 k Ω B constant of Rth B - - 3950 - K Cooling capacity ΔT Pf =10mW, Tc =70°C 55 - - °C Cooler current Ipe Pf=10mW, Tc=70°C - 0.6 1 A Cooler voltage Vpe Pf=10mW, Tc=70°C - 1.2 2 VFIBER PIGTAIL SPECIFICATIONSParameter Limits UnitType SM - Mode field diameter 9.5+/-1 μm Cladding diameter 125+/-2 μm Secondary coating outer diameter 0.9+/-0.1 mm Connector Optical return loss of connector See Ordering information -1.5 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILDOCUMENTATION (Tld=Tset)• Fiber output power vs. Laser forward current Tc=25°C • Threshold current (Ith)• Laser forward current (Iop) at Pf=10mW • Laser forward voltage (Vop) at Pf=10mW • Monitor current (Imon) at Pf=10mW • Thermistor resistance (Rth)• Cooler current (Ipe) at Pf=10mW and Tc=70°C • Cooler voltage (Vpe) at Pf=10mW and Tc=70°C • Laser temperature (Tset) • Central wavelength (λc)ORDERING INFORMATIONTable 1.f [THz] λc [nm] λ code 193.50 1549.3259 193.30 1550.9263 193.10 1552.5267 192.90 1554.1371 192.70 1555.7575 192.50 1557.3679 192.30 1558.9883 192.10 1560.6187All wavelengths are referred to vacuum. Tolerance is λc+/-0.4nmλ code See table 1ConnectorW SC/PCV FC/PC FU - 68SDF – _ 31M __ F1.5 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILOUTLINE DIAGRAMUnless otherwise noted +/-0.5mm(Unit : mm)FU-68SDF-x31MyyF1.5 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL Safety Cautions for Use of Optoelectronic DevicesGeneral:Although the manufacturer is always striving to improve the reliability of its product, problems and errors may occur with semiconductor products. Therefore, the user's products are required to be designed with full safety regard to prevent any accidents that results in injury, death, fire or environmental damage even when semiconductor products happen to error. Especially it is recommended to take in consideration about redundancy, fire prevention, error prevention safeguards. And the following requirements must be strictly observed.Warning!1. Eye safety : Seminductor laser radiates laser light during operation. Laser light is very dangerous when shot directly into human eyes. Don't look at laser light directly, or through optics such as a lens. The laser light should be observed using the ITV camera, IR-viewer, or other appropriate instruments.2. Product handling : The product contains GaAs (gallium arsenide). It is safe for regular use, but harmful to the human body if made into powder or steam. Be sure to avoid dangerous process like smashing, burning, chemical etching. Never put this product in one's mouth or swallow it.3. Product disposal : This product must be disposed of as special industrial waste. It is necessary to separate it from general industrial waste and general garbage.Handling Cautions for Optoelectronic Devices1. General:(1) The products described in this specification are designed and manufactured for use in general communication systems or electronic devices, unless their applications or reliability are otherwise specified. Therefore, they are not designed or manufactured for installation in devices or systems that may affect human life or that are used in social infrastructure requiring high reliability.(2) When the customer is considering to use the products in special applications, such as transportation systems (automobiles, trains, vessels), medical equipments, aerospace, nuclear power control, and submarine repeaters or systems, please contact Mitsubishi Electric or an authorized distributor.2. Shipping Conditions:(1) During shipment, place the packing boxes in the correct direction, and fix them firmly to keep them immovable. Placing the boxes upside down, tilting, or applying abnormal pressure onto them may cause deformation in the electrode terminals, breaking of optical fiber, or other problems.(2) Never throw or drop the packing boxes. Hard impact on the boxes may cause break of the devices.(3) Take strict precautions to keep the devices dry when shipping under rain or snow.3. Storage Conditions:When storing the products, it is recommended to store them following the conditions described below without opening the packing. Not taking enough care in storing may result in defects in electrical characteristics, soldering quality, visual appearance, and so on. The main points are described below (if special storage conditions are given to the product in the specification sheet, they have priority over the following general cautions):(1) Appropriate temperature and humidity conditions, i.e., temperature range between 5~30°C, and humidity between 40~60 percent RH, should be maintained in storage locations. Controlling the temperature and humidity within this range is particularly important in case of long-term storage for six months or more.(2) The atmosphere should be particularly free from toxic gases and dust.(3) Do not apply any load on the product.(4) Do not cut or bend the leads of the devices which are to be stored. This is to prevent corrosion in the cut or bent part of the lead causing soldering problems in the customer’s assembling process.(5) Sudden change in temperature may cause condensation in the product or packing, therefore, such locations should be avoided for storing. Temperature in storage locations should be stable.(6) When storing ceramic package products for extended periods of time, the leads may turn reddish due to reaction with sulfur in the atmosphere.(7) Storage conditions for bare chip and unsealed products shall be stated separately because bare chip and unsealed products require stricter controls than package sealed products.4. Design Conditions and Environment under Use:(1) Avoid use in locations where water or organic solvents adhere directly to the product, or where there is any possibility of the generation of corrosive gas, explosive gas, dust, salinity, or other troublesome conditions. Such environments will not only significantly lower the reliability, but also may lead to serious accidents.(2) Operation in excess of the absolute maximum ratings can cause permanent damage to the device. The customers are requested to design not to exceed those ratings even for a short time.5. ESD Safety Cautions:The optoelectronic devices are sensitive to static electricity (ESD, electro-static discharge). The product can be broken by ESD. When handling this product, please observe the following countermeasures:<Countermeasures against Static Electricity and Surge>To prevent break of devices by static electricity or surge, please adopt the following countermeasures in the assembly line:(1) Ground all equipments, machinery jigs, and tools in the process line with earth wires installed in them. Take particular care with hot plates, solder irons and other items for which the commercial power supplies are prone to leakage.(2) Workers should always use earth bands. Use of antistatic clothing, electric conductive shoes, and other safety equipment while at work is highly recommended.(3) Use conductive materials for this product’s container, etc.(4) It is recommended that grounding mats be placed on the surfaces of assembly line workbench and the surrounding floor in work area, etc.(5) When mounting this product in parts or materials which can be electrically charged (printed wiring boards, plastic products, etc.), pay close attention to the static electricity in those parts. ESD may damage the product.(6) Humidity in working environment should be controlled to be 40 percent RH or higher.These countermeasures are most general, and there is a need to carefully confirm the line before starting mass production using this product (in the trial production, etc.). It is extremely important to prevent surge, eliminate it rapidly, and prevent it from spreading.。

MITSUBISHI (OPTICAL DEVICES)FU-68SDF-V802MxxB1.55 m m DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION)DESCRIPTIONModule type FU-68SDF-V802MxxB is a 1.55m m DFB-LD module with single-mode optical fiber.This module is suitable to a directly modulated lightsource for use in 2.5Gb/s digital opticalcommunication systems.This module is prepared in accordance with ITU-Trecommendation wavelength channel plan for Dense-WDM transmission.FEATURESEmission wavelength is in 1.55m m bandBuilt-in thermal electric cooler2VReverse voltage Vrd2mACooler current Ipe3.1VOperating case temperature Tc-40 ~ 85°CNote) Even if the thermo-electric cooler (TEC) is operated within the rated conditions, uncontrolled current loading or operation without heatsink may easily damage the module by exceeding the storage temperature range.Thermistor resistance should be properly monitored by the feedback circuit during TEC operation to avoid the catastrophic damage.1.55 m m DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION)ELECTRICAL/OPTICAL CHARACTERISTICS (Tld=Tset, Tc=25°C unless otherwise noted)Parameter Symbol Test Conditions Limits UnitMin.Typ.Max. Threshold current Ith CW-1025mA Optical output powerat threshold currentPth CW, If=Ith--100m W Operating current Iop CW, Pf=2mW-4065mA Operating voltage Vop CW, Pf=2mW- 1.3 1.8V Input impedance Zin Pf=2mW-25-W Light-emission centralwavelengthl c(Note 1)(Note 2)nmCentral wavelength drift withcase temp.Dl c/D Tc Tc=-20~70°C-1-0pm/°C Laser operating temperature Tset-20-35°C Spectral width Dl(Note 1), -20dB-0.20.4nm Side mode suppression ratio Sr(Note 1)3340-dB Dispersion penalty Pp(Note 1), at 10-10 BER,+1800ps/nm--2dBCutoff frequency(-1.5dB optical)fc Pf=2mW 3.5--GHzRise and fall time(10~90%)tr, tf(Note 1)--150psecRelative intensity noise Nr CW, Pf=2mW,0.5~3GHz--155-145dB/HzTracking error (Note 3)Er Tc=-20~70°C,APC, ATC--0.5dBDifferential efficiency h CW, Pf=2mW0.0570.070.15mW/mA Linearity Dh CW, Pf=0.2~2.4mW,(Note 4)-20-20% Monitor current Imon CW, Pf=2mW, Vrd=5V0.1-2mATc=25°C35--Optical isolation IsoTc=-20~70°C23--dB Dark current (PD)Id Vrd=5V, Tc=-20~70°C--0.1m A Capacitance (PD)Ct Vrd=5V, f=1MHz--10pF Note 1) 2.48832Gb/s NRZ, 223-1, Pf_ave=1mW, Extinction ratio 10dB, optical return loss of the connectors should be greater than 40dB in order to ensure the specified performance.Note 2) See Table 1.Note 3) Er=max|10´log(Pf / Pf@25°C)|Note 4) Variation of the differential efficiency from the straight line between 0.2mW and 2mW.1.55 m m DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION)THERMAL CHARACTERISTICS (Tld=Tset, Tc=-20~70°C)Parameter Symbol Test Conditions Limits UnitMin.Typ.Max. Thermistor resistance Rth Tld=251m mCladding diameter125BER curves at 2.48832Gb/s modulationLaser forward voltage (Vop) at Pf=2mWThermistor resistance (Rth)1.55 m m DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION)Table 1.Type number l c (nm)Type number l c (nm)FU-68SDF-802M9B1529.55FU-68SDF-802M53B1546.92FU-68SDF-802M11B1530.33FU-68SDF-802M55B1547.72FU-68SDF-802M13B1531.12FU-68SDF-802M57B1548.51FU-68SDF-802M15B1531.90FU-68SDF-802M59B1549.32FU-68SDF-802M17B1532.68FU-68SDF-802M61B1550.12FU-68SDF-802M19B1533.47FU-68SDF-802M63B1550.92FU-68SDF-802M21B1534.25FU-68SDF-802M65B1551.72FU-68SDF-802M23B1535.04FU-68SDF-802M67B1552.52FU-68SDF-802M25B1535.82FU-68SDF-802M69B1553.33FU-68SDF-802M27B1536.61FU-68SDF-802M71B1554.13FU-68SDF-802M29B1537.40FU-68SDF-802M73B1554.94FU-68SDF-802M31B1538.19FU-68SDF-802M75B1555.75FU-68SDF-802M33B1538.98FU-68SDF-802M77B1556.55FU-68SDF-802M35B1539.77FU-68SDF-802M79B1557.36FU-68SDF-802M37B1540.56FU-68SDF-802M81B1558.17FU-68SDF-802M39B1541.35FU-68SDF-802M83B1558.98FU-68SDF-802M41B1542.14FU-68SDF-802M85B1559.79FU-68SDF-802M43B1542.94FU-68SDF-802M87B1560.61FU-68SDF-802M45B1543.73FU-68SDF-802M89B1561.42FU-68SDF-802M47B1544.53FU-68SDF-802M91B1562.23FU-68SDF-802M49B1545.32FU-68SDF-802M93B1563.05FU-68SDF-802M51B1546.12FU-68SDF-802M95B1563.86All wavelengths are referred to vacuum.Tolerance is l c1.55 m m DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL(WAVELENGTH SELECTED, BIAS CIRCUIT INTEGRATED, DIGITAL APPLICATION) OUTLINE DIAGRAM(Unit : mm)28.4FU-68SDF-V802MxxB。

1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILDESCRIPTIONModule type FU-68SDF-x902MzzF/-x910MzzF is a1.55μm DFB-LD module with single mode optical fiber. This module is suitable to a directly modulated light source for use in2.5Gb/s digital optical communication systems.This module is prepared in accordance with ITU-T recommendation wavelength channel plan for Dense-WDM transmission.FEATURES• • I nput impedance is 25Ω• Multi quantum wells (MQW) DFB Laser Diode module• Emission wavelength is in full C band • Single mode optical fiber pig-tail • Built-in optical isolator• Built-in thermal electric cooler • Butterfly package• With photodiode for optical output monitor • RoHS (2002/95/EC) complian ｔAPPLICATIONHigh speed transmission systems (~2.5Gb/s) Dense-WDM systemsABSOLUTE MAXIMUM RATINGS (Tld=Tset)Parameter Symbol Conditions RatingUnit-x902MzzF 6 Optical output power Pf CW -x910MzzF 15mW Forward current If CW 150 mA Laser diode Reverse voltage Vrl - 2 VReverse voltage Vrd - 20 VPhotodiode Forward current Ifd - 2 mACooler current Ipe - 1.3 A Thermo-electric cooler (Note 1) Cooler voltage Vpe - 3.1 V Operating case temperature Tc - -20 ~ 70 °C Storage temperature Tstg - -40 ~ 85 °CNote 1) Even if the thermo-electric cooler (TEC) is operated within the rated conditions, uncontrolled current loading oroperation without heatsink may easily damage the module by exceeding the storage temperature range.Thermistor resistance should be properly monitored by the feedback circuit during TEC operation to avoid the catastrophic damage.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILELECTRICAL/OPTICAL CHARACTERISTICS (Tld=Tset, Tc=25°C unless otherwise noted)LimitsParameter Symbol Test Conditions Min. Typ. Max.Unit -x902MzzF 2 Optical output P 0 CW,If=Iop -x910MzzF 10mWThreshold current Ith CW - 10 25 mA -x902MzzF - - 100 Optical output power at threshold current Pth CW, If=Ith -x910MzzF - - 150μW -x902MzzF - 40 65Operating current Iop CW, Pf=P 0 -x910MzzF - 50 95mA Operating voltage Vop CW, Pf=P 0 - 1.3 1.8 V Input impedance Zin Pf= P 0 - 25 - Ω Light-emission central wavelength λc (Note 2) See Ordering Information and Table 1 nm Central wavelength drift with case temp.Δλc/ΔTc Tc=-20~70°C -1 - 0 pm/°C Laser operating temperature Tset - 20 - 35 °C Spectral width Δλ (Note 2), -20dB - 0.2 0.4 nm Side mode suppression ratio Sr (Note 2) 33 40 - dBDispersion penalty Pp (Note 2), at 10-10BER, +3000ps/nm- - 2 dBCutoff frequency (-1.5dB optical)fc Pf= P 0 3.5 - - GHz Rise and fall time (10~90%) tr, tf (Note 2) - - 150 psec Relative intensity noise Nr CW, Pf= P 0, f =0.5~3GHz - -155 -145 dB/HzTracking error Er Tc=-20~70°C, APC, ATC(Note 3) - - 0.5 dB -x902MzzF 0.0570.07 0.15 Differential efficiency ηCW Pf= P 0 -x910MzzF 0.15 0.25 0.35 mW/m A LinearityΔηCW, Pf= P 0 x0.1~ P 0x1.2 (Note 4)-20 - 20 % -x902MzzF 0.1 - 2 Monitor current Imon CW, Pf= P 0 Vrd=5V -x910MzzF 0.2 - 3mATc=25°C 35 - - Optical isolation Iso Tc=-20~70°C23 - - dBDark current (PD) Id Vrd=5V, Tc=-20~70°C - - 0.1 μA Capacitance (PD) Ct Vrd=5V, f=1MHz - - 10 pFNote 2) 2.48832Gb/s NRZ, 223-1, Pf_ave= P 0 x 0.5, Extinction ratio 10dB, optical return loss of the connectors should begreater than 40dB in order to ensure the specified performance.Note 3) Er=max|10×log(Pf / Pf@25°C)|Note 4) Variation of the differential efficiency from the straight line between P 0 x0.1~ P 0x1.2THERMAL CHARACTERISTICS (Tld=Tset, Tc=-20~70°C)Parameter Symbol Test Conditions Limits Unit Min.Typ. Max. Thermistor resistance Rth Tld=25°C 9.5 10 10.5 k Ω B constant of Rth B - - 3950 - K Cooling capacity ΔT Pf= P 0, Tc=70°C 50 - - °C Cooler current Ipe Pf= P 0, Tc=70°C, Tld=Tset - 0.6 1 A Cooler voltage Vpe Pf= P 0, Tc=70°C, Tld=Tset - 1.2 2 V1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILFIBER PIGTAIL SPECIFICATIONSUnitParameter Limits- Type SMMode field diameter 9.5+/-1 μmCladding diameter 125+/-2 μmmmSecondary coating outer diameter 0.9+/-0.1Connector (Note 5) -Optical return loss of connector 40 (min) dBNote 5) SC/PC and FC/PC are available. Other connectors are also available for large quantities.DOCUMENTATION (Tld=Tset)•Fiber output power vs. Laser forward current at Tld=Tset and Tc=25°C•Threshold current (Ith)•Laser forward current (Iop) at Pf=P0•Laser forward voltage (Vop) at Pf= P0•Laser operating temperature (Tset) at λc (Note 6)•Monitor current (Imon) at Pf= P0•Thermistor resistance (Rth)•Cooler current (Ipe) at Pf= P0 and Tc=70°C•Cooler voltage (Vpe) at Pf= P0 and Tc=70°CNote 6) Tset is attached as a reference data. Rth should be used in order to tune the wavelength to the specified value accurately.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL ORDERING INFORMATIONFU - 68SDF – _ 9 _ _ M __ Fλ code See table 1Peak Output Power02 2mW10 10mWConnectorW SC/PCV FC/PCTable 1.f [THz] λc [nm] λ code f [THz]λc [nm] λ code196.30 1527.22 3 192.801554.9473196.20 1527.99 5 192.701555.7575196.10 1528.777 192.601556.5577196.00 1529.559 192.501557.3679195.90 1530.3311 192.401558.1781195.80 1531.1213 192.301558.9883195.70 1531.9015 192.201559.7985195.60 1532.6817 192.101560.6187195.50 1533.4719 192.001561.4289195.40 1534.2521 191.901562.2391195.30 1535.0423 191.801563.0593195.20 1535.8225 191.701563.8695195.10 1536.6127195.00 1537.4029194.90 1538.1931194.80 1538.9833194.70 1539.7735194.60 1540.5637194.50 1541.3539194.40 1542.1441194.30 1542.9443194.20 1543.7345194.10 1544.5347194.00 1545.3249193.90 1546.1251193.80 1546.9253193.70 1547.7255193.60 1548.5157193.50 1549.3259193.40 1550.1261193.30 1550.9263193.20 1551.7265193.10 1552.5267193.00 1553.3369192.90 1554.1371All wavelengths are referred to vacuum. Tolerance is λc+/-0.05nm.1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAILOUTLINE DIAGRAMUnless otherwise noted +/-0.5mm(Unit : mm)FU-68SDF-x9yyMzzF1.55 μm DFB-LD MODULE WITH SINGLEMODE FIBER PIGTAIL Safety Cautions for Use of Optoelectronic DevicesGeneral:Although the manufacturer is always striving to improve the reliability of its product, problems and errors may occur with semiconductor products. Therefore, the user's products are required to be designed with full safety regard to prevent any accidents that results in injury, death, fire or environmental damage even when semiconductor products happen to error. Especially it is recommended to take in consideration about redundancy, fire prevention, error prevention safeguards. And the following requirements must be strictly observed.Warning!1. Eye safety : Seminductor laser radiates laser light during operation. Laser light is very dangerous when shot directly into human eyes. Don't look at laser light directly, or through optics such as a lens. The laser light should be observed using the ITV camera, IR-viewer, or other appropriate instruments.2. Product handling : The product contains GaAs (gallium arsenide). It is safe for regular use, but harmful to the human body if made into powder or steam. Be sure to avoid dangerous process like smashing, burning, chemical etching. Never put this product in one's mouth or swallow it.3. Product disposal : This product must be disposed of as special industrial waste. It is necessary to separate it from general industrial waste and general garbage.Handling Cautions for Optoelectronic Devices1. General:(1) The products described in this specification are designed and manufactured for use in general communication systems or electronic devices, unless their applications or reliability are otherwise specified. Therefore, they are not designed or manufactured for installation in devices or systems that may affect human life or that are used in social infrastructure requiring high reliability.(2) When the customer is considering to use the products in special applications, such as transportation systems (automobiles, trains, vessels), medical equipments, aerospace, nuclear power control, and submarine repeaters or systems, please contact Mitsubishi Electric or an authorized distributor.2. Shipping Conditions:(1) During shipment, place the packing boxes in the correct direction, and fix them firmly to keep them immovable. Placing the boxes upside down, tilting, or applying abnormal pressure onto them may cause deformation in the electrode terminals, breaking of optical fiber, or other problems.(2) Never throw or drop the packing boxes. Hard impact on the boxes may cause break of the devices.(3) Take strict precautions to keep the devices dry when shipping under rain or snow.3. Storage Conditions:When storing the products, it is recommended to store them following the conditions described below without opening the packing. Not taking enough care in storing may result in defects in electrical characteristics, soldering quality, visual appearance, and so on. The main points are described below (if special storage conditions are given to the product in the specification sheet, they have priority over the following general cautions):(1) Appropriate temperature and humidity conditions, i.e., temperature range between 5~30°C, and humidity between 40~60 percent RH, should be maintained in storage locations. Controlling the temperature and humidity within this range is particularly important in case of long-term storage for six months or more.(2) The atmosphere should be particularly free from toxic gases and dust.(3) Do not apply any load on the product.(4) Do not cut or bend the leads of the devices which are to be stored. This is to prevent corrosion in the cut or bent part of the lead causing soldering problems in the customer’s assembling process.(5) Sudden change in temperature may cause condensation in the product or packing, therefore, such locations should be avoided for storing. Temperature in storage locations should be stable.(6) When storing ceramic package products for extended periods of time, the leads may turn reddish due to reaction with sulfur in the atmosphere.(7) Storage conditions for bare chip and unsealed products shall be stated separately because bare chip and unsealed products require stricter controls than package sealed products.4. Design Conditions and Environment under Use:(1) Avoid use in locations where water or organic solvents adhere directly to the product, or where there is any possibility of the generation of corrosive gas, explosive gas, dust, salinity, or other troublesome conditions. Such environments will not only significantly lower the reliability, but also may lead to serious accidents.(2) Operation in excess of the absolute maximum ratings can cause permanent damage to the device. The customers are requested to design not to exceed those ratings even for a short time.5. ESD Safety Cautions:The optoelectronic devices are sensitive to static electricity (ESD, electro-static discharge). The product can be broken by ESD. When handling this product, please observe the following countermeasures:<Countermeasures against Static Electricity and Surge>To prevent break of devices by static electricity or surge, please adopt the following countermeasures in the assembly line:(1) Ground all equipments, machinery jigs, and tools in the process line with earth wires installed in them. Take particular care with hot plates, solder irons and other items for which the commercial power supplies are prone to leakage.(2) Workers should always use earth bands. Use of antistatic clothing, electric conductive shoes, and other safety equipment while at work is highly recommended.(3) Use conductive materials for this product’s container, etc.(4) It is recommended that grounding mats be placed on the surfaces of assembly line workbench and the surrounding floor in work area, etc.(5) When mounting this product in parts or materials which can be electrically charged (printed wiring boards, plastic products, etc.), pay close attention to the static electricity in those parts. ESD may damage the product.(6) Humidity in working environment should be controlled to be 40 percent RH or higher.These countermeasures are most general, and there is a need to carefully confirm the line before starting mass production using this product (in the trial production, etc.). It is extremely important to prevent surge, eliminate it rapidly, and prevent it from spreading.。