SFF简介及SFI电气参数测试课件.ppt

1、AgendaIntroduction of SFF-8431SFF-8431 Standard Compliance Test of SFIEye Diagram Test by DSA8200Introduction of SFF-8431 BRIEF INTRODUCTION OF SFF-8431The specification of SFF-8431 defines the electrical interfaces and their test methods between the SFP+module and host board for operation up to 11.

2、1 GBd.The high speed electrical interface between the host and SFP+module is called“SFI”.SFI simplifies the module and leverages host based transmit pre-emphasis and host based receive equalization to overcome PCB and external media impairments.SFI typically operates with one connector at the module

3、 interface and up to about 200 mm of improved FR4 material or 150 mm of standard FR4.The electrical interface is based on high speed,low voltage AC coupled logic with a nominal differential impedance of 100.The SFP+specifications includes management,low speed signal,high speed signal,connector(defin

4、ed by SFF-8083),mechanical(defined by SFF-8432),and appendices providing parameter and test board definitions,and implementation and measurement descriptions.Introduction of SFF-8431 The SFP+SUPPORTED STANDARDSIntroduction of SFF-8431 POWER SPECIFICATIONS OF SFP+n The module signal ground contacts V

5、eeR and VeeT should be isolated from module case.n At host power up the host shall supply VccT and VccR to the module within 100 ms of each other.n SFP+low speed signaling is based on Low Voltage TTL(LVTTL)operating with a module supply of 3.3 V+/-5%and with a host supply range of 2.38 to 3.46 V.n T

6、o avoid exceeding system power supply limits and cooling capacity,all modules at power up by default shall operate with 1.0 W.Hosts supporting Power Level II operation may enable a Power Level II module through the 2-wire interface.Power Level II modules shall assert the power level declaration bit

7、of SFF-8472.Over long spans such as the 40km Ethernet extended reach(ER)long wavelength applications,the SFP+transceivers may require additional power consumption,especially at extreme operating conditions.Power Level I modules Up to 1.0 W Power Level II modules Up to 1.5 WGENERAL REQUIREMENTS Intro

8、duction of SFF-8431n The maximum power level is allowed to exceed the classified power level for 500 ms following hot insertion or power up,or Power Level II authorization,however the current is limited to values given by the following table.POWER SPECIFICATIONS OF SFP+Introduction of SFF-8431n The

9、SFP+module shall meet ESD requirements given in EN61000-4-2,criterion B test specification such that units are subjected to 15 kV air discharges during operation and 8 kV direct contact discharges to the case.Introduction of SFF-8431 HIGH SPEED ELECTRICAL SPECIFICATIONS of SFISFI signaling is based

10、on differential high speed low voltage logic with AC coupling in the module.SFI was developed with the primary goal of low power and low electromagnetic interference(EMI).To satisfy this requirement the nominal differential signal levels are 500 mV p-p with edge speed control to reduce EMI.Introduct

11、ion of SFF-8431n PCB LAYOUT RECOMMENDATIONSThe PCB traces are recommended by the specification to meet 100 10 differential impedace with nominal 7%differential coupling.It is preferable to have the impedance tolerance be 5.Route differential pairs at least 8x their trace-width from other traces.Avoi

12、d sharp angles in routing,chamfer corners.In order to avoid reflection,the recommended minimum trace length requirement is“1 inch”in FR4.When there must be vias on the high-speed differential signals,the 100 differential vias is recommended be used.And stubs due to vias must be avoided.The maximum S

13、FI trace length recommend by the specification of SFF-8431.SFF-8431 Standard Compliance Test of SFIlTEST ENVIRONMENT REQUIREMENTSThe bandwidth of measurement instrument shall be 12 GHz or above;Require AC coupled test equipment on all test ports；All SFI test equipment must have 50ohm single ended im

14、pedance；Reference impedance for differential measurements is 100ohm,and the reference impedance for common mode measurements is 25ohm;Host compliance test board is required.n SFF-8431 STANDARD COMPLIANCE TEST of SFInTEST METHODOLOGY AND MEASUREMENT HOST COMPLIANCE TESTA.1 Test point Host system tran

15、smitter and receiver compliance are defined by tests in which a Host Compliance Board is inserted in place of the SFP+module.The compliance points are B.SFF-8431 Standard Compliance Test of SFIA.2 Measurement setupSFF-8431 Standard Compliance Test of SFIA.2 TEST EQUIPMENTSFF-8431 Standard Compliance

16、 Test of SFIA.3 Host Transmitter Output Jitter and Eye Mask Specifications at B SFF-8431 Standard Compliance Test of SFI10GSFP+Cu DIRECT ATTACH CABLE Compliance Test 10GSFP+Cu cable assemblies are effectively constructed out of a pair of SFP+modules with the OE components replaced with copper cablin

17、g.The cable assembly shall incorporate DC blocking capacitors with at least 4.3 V rating on the RX side and with high pass pole of between 20 kHz and 100 kHz.The drain wire is connected to VeeT and to VeeR.The cable shield directly connects the module A and B cases.B.1 10GSFP+Cu Direct Attach Constr

18、uctionSFF-8431 Standard Compliance Test of SFISFF-8431 Standard Compliance Test of SFIB.2 SFP+Direct Attach Cable Test SetupSFF-8431 Standard Compliance Test of SFIB.3 10GSFP+Cu Cable Assembly Specifications at B and C Our Test EnvironmentFigure 1Eye Diagram Test by DSA8200Key features of Test Instr

19、umentsDSA8200 Digital Serial Analyzer DC to 65 GHz optical bandwidth;DC to 70+GHz electrical bandwidth,with up to 12.5 GHz triggering.Bandwidth is determined by the capabilities of the installed modules;CR125A Electrical Clock Recovery instrument100 Mb/s to 12.5 Gb/s continuous data rate coverage;Si

20、ngle-ended or differential 50 data inputs/outputs;DC coupled data through path;Insertion loss:-2.6dB when 12GHz80E04 Electrical Sample Module SMA RF coaxial cable with up to 18G bandwidth and the insertion loss is 1.4dB/m when 10GHz.Eye Diagram Test by DSA8200Installing Test EnvironmentCautionsDo NO

21、T apply a signal outside the Maximum Input Voltage Swing;Always use a wrist strap when making signal connections;Discharge to ground any electrostatic charge that may be present on the center and outer conductors of cables before attaching the cables to the instrument;Never install or remove modules

22、 while the instrument is powered on;Do NOT transport or ship the instrument with modules installed;If possible,always use ESD protection module(80E02)along the test path,example,TDR test;Always disable the 80E04s TDR function when not use the TDR function.Eye Diagram Test by DSA8200C.1 Acquainted wi

23、th Our Instrumenta)DSA8200 Digital Serial AnalyzerEye Diagram Test by DSA8200Eye Diagram Test by DSA8200CR125A Electrical Clock Recovery instrumentEye Diagram Test by DSA820080E04 Electrical Sampling Module with TDR function.Eye Diagram Test by DSA8200C.2 Eye Diagram Test Environment Setup of SFINot

24、es：Please see the attached notes to set the eye diagram test setup.Step 1.Installing the hardware environment as“figure 1”showing;Eye Diagram Test by DSA8200Step 2.POWER ON the instruments and wait 20 minutes for instruments warm-up period ;Eye Diagram Test by DSA8200Step 3.Confirm the TDR function

25、is DISABLED during the eye diagram test to avoid damage the 80E04 TDR module;Notes:Confirm those check-box under“TDR”SETUPS is unchecked to disable the TDR functions on the test channel.Eye Diagram Test by DSA8200Step 4.Execute compensation and wait until the status of all items warm up to PASS;If t

26、he status is Fail,rerun the compensation.If Fail status continues and you have allowed warm up to occur,the module or main instrument may need service.Step 5.Setting software environment;Setting the Display StyleNotes:Select the Infinite Persistence on the“Disp”and the“fast sampling”mode on the fron

27、t panel.Eye Diagram Test by DSA8200Setting triggerNotes:Select the External Prescaler as the trigger source.Eye Diagram Test by DSA8200Setting Math as sourcesEye Diagram Test by DSA8200Notes：For differential signal eye test,subtract the two differential sources we using to define a math as the aimed

28、 signal source.Waveform DatabasesEye Diagram Test by DSA8200Notes：Select the math we had defined as the waveform database and choose the infinite mode to display it.Mask SettingEye Diagram Test by DSA8200Notes：Select our aimed eye mask in the drop-down menu or import customer mask we had defined.Set

29、ting Measurements Eye Diagram Test by DSA8200Notes：Select the signal source and set signal type to“NRZ”.Then,set measurement we aimed to show on the screen,for example,eye height,eye width,Pk-Pk jitter,RMS jitter,and so on.Set a STOP ActionEye Diagram Test by DSA8200Restart TestingEye Diagram Test b

30、y DSA8200Eye Diagram Test by DSA8200Step 3：Calibrate our test installingThe propagation delay inherent in connecting cables and probes can result in inaccurate amplitude and time-correlated measurements.To obtain the best measurement and analysisresults from your instrument,you will need to remove s

31、kew and compensate the attenuations in the test environment.Quick Tipsn Minimize skew by using balanced cable pairs.n Measure and match your cables.TDR modules such as 80E04 allow you to measure cable delays with very high precision.n Compensate the attenuations on the cables and peripherals(CR125A)

32、.Eye Diagram Test by DSA8200De-skew Cable Delay ProcedureEye Diagram Test by DSA8200Eye Diagram Test by DSA8200Eye Diagram Test by DSA8200Eye Diagram Test by DSA8200Congratulations,thats all the installing of our test procedures blow,and you can begin your test now!Compensate the Attenuation on the

33、signal pathFor example,the nominal attenuation on the CR125A is-2.6dB and the coaxial cable is-0.7dB/m,we used one two 0.5m coaxial cable each channel,so,we should compensate 4.0dB/channel on our differential signal path.Notes：Use the vertical buttons to compensate the channel we used.Q&AThank you!谢谢！