Spectrum Brands MC.31XX Installing multiple boards synchronized by starhub, Hooking up the boards

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Installing the board in the system	Hardware Installation

Installing multiple boards synchronized by starhub

Hooking up the boards

Before mounting several synchronized boards for a multi channel system into the chassis you have to hook up the boards with their synchronization cables first. Spectrum ships the boards together with the needed amount of synchronization ca- bles. All of them are matched to the same length, to achieve a zero clock delay between the boards.

Only use the included flat ribbon cables.

All of the boards, including the board that carrys the starhub piggy-back module, must be wired to the starhub as the figure is showing exemplarily for three synchro- nized boards.

As you can see, all boards have a notch to get the cables to the other boards. Please only use these notches to lay the cables to avoid damage to the cables when inserting the boards into the host system.

It does not matter which of the 16 connectors on the starhub module you use for which board. The software driver will detect the types and order of the synchro- nized boards automatically. The right figure shows the three cables mounted next to each other only to achieve a better visibility.

As some of the synchronization cables are not secured against wrong plugging you should take care to have the pin 1 markers on the multiple connectors and the cable on the same side, as the figure on the right is showing.

Mounting the wired boards

The locks on the top and bottom side of all CompactPCI brackets need to be unlocked and opened before installing the boards into the slots of the system. Therefore you need to press the little buttons on the inside of the fasteners and move them outwards (see figure). Now slowly insert the boards into the host system using the key ways until both locks snap in with a „click“.

While inserting the boards take care not to cant them and make sure that the cables are not squeezed by the backplane or any other components.

After the board’s insertion fasten the screws of all brackets carefully, without overdoing. The figure shows exemplarily a board with two in- stalled modules.

16	MC.31xx Manual

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Contents MC.31xx English version April 27Page Hardware Installation Software Driver InstallationIntroduction SoftwareFifo Mode Programming the BoardAnalog Inputs Standard acquisition modesOption Multiple Recording Option Gated SamplingOption Timestamp Option Extra I/OIntroduction PrefaceGeneral Information PrefaceMC.3110 MC.3120 MC.3130 MC.3111 MC.3121 MC.3131 Different models of the MC.31xx seriesIntroduction MC.3112 MC.3122 MC.3132 Additional options Digital inputsExtra I/O Option -XMF Introduction Additional optionsStarhub TimestampSpectrum type plate Block diagram Technical Data Hardware informationDynamic Parameters Order informationIntroductionHardware information Order No DescriptionInstalling the board in the system Hardware InstallationSystem Requirements Installing a board with extra I/O Option -XMF Installing a board with digital inputs/outputsHardware Installation Installing multiple boards synchronized by starhub Mounting the wired boardsHooking up the boards Only use the included flat ribbon cablesInstalling multiple synchronized boards Interrupt Sharing Software Driver InstallationInterrupt Sharing Installation Software Driver Installation WindowsWindows Version controlDriver Update Windows Driver Update Software Driver Installation Windows XPWindows XP Windows NT Software Driver Installation Windows NTAdding boards to the Windows NT driver Linux OverviewInstalling the device Now it is possible to access the board using this deviceDriver info Automatic load of the driverSoftware Software OverviewFirst Test with SBench Software Overview++ Driver Interface Header filesMicrosoft Visual C++ Borland C++ BuilderOther Windows C/C++ compilers National Instruments LabWindows/CVIDriver functions Include DriversSoftware ++ Driver Interface Using the Driver under Linux Function SpcSetParamFunction SpcSetParam Function SpcSetData WindowsDelphi Pascal Programming Interface Type definitionInclude Driver ExamplesSoftware Visual Basic Examples Visual Basic Programming InterfaceVBA for Excel Examples Visual Basic Programming Interface Error handling Programming the BoardOverview Register tablesExample for error checking InitializationStarting the automatic initialization routine PCI RegisterInstalled memory Installed features and optionsHardware version Date of productionUsed interrupt line Used type of driverProgramming the Board Initialization Driver versionPowerdown and reset Example program for the board initializationSpcpcimemsize SpcpciserialnoAnalog Inputs Channel SelectionImportant note on channels selection Analog InputsChannel rerouting Rerouting information for moduleSPCCHROUTE0 SPCCHROUTE1Setting up the inputs Input rangesInput offset Register Value Direction Description Offset rangeOverrange bit Automatical adjustment of the offset settingsInput termination Spcadjautoadj Adjall Spcadjsave ADJUSER0Standard acquisition modes ProgrammingMemory, Pre- and Posttrigger Pretrigger = memsize posttriggerStarting without interrupt classic mode Command registerMaximum posttrigger in MSamples Minimum memsize and posttrigger in samplesStandard acquisition modes Programming Starting with interrupt driven modeStatus register Normal mode Fast 8 bit mode201100 Enables the fast 8 bit mode Data organizationStandard mode Reading out the data with SpcGetDataValue ’start’ as a 32 bit integer value Value ’len’ as a 32 bit integer valueProgramming Fifo Mode General InformationBackground Fifo Read Speed LimitationsProgramming Fifo Mode Software BuffersTheoretical maximum sample rate PCI Bus Throughput 60040 Read out the number of available Fifo buffersFifo Mode Programming Buffer processingAnalog acquisition or generation boards Digital I/O 701x or 702x or pattern generator boardsExample Fifo acquisition mode Fifo acquisition exampleSpcfifostart SpcfifowaitSample format Internally generated sample rate Clock generationStandard internal sample rate Using plain quartz without PLL Maximum internal sample rate in MS/s normal modeExternal reference clock Clock generationExternal clocking Direct external clockMinimum external sample rate Maximum external samplerate in MS/sCHANNEL0 CHANNEL1 CHANNEL2 CHANNEL3 External clock with dividerFifo Trigger modes and appendant registers General DescriptionSoftware trigger External TTL triggerExample on how to set up the board for positive TTL trigger Edge triggersTrigger modes and appendant registers Positive TTL triggerPulsewidth triggers Positive and negative TTL triggerTTL pulsewidth trigger for long High pulses TTL pulsewidth trigger for short High pulsesTTL pulsewidth trigger for long LOW pulses TTL pulsewidth trigger for short LOW pulsesSpctriggermode Tmttlhighlp SpcpulsewidthChannel Trigger Overview of the channel trigger registersSpctriggermode Tmchannel TmchxoffTriggerlevel Spctriggermode TmchorSPCTRIGGERMODE0 Tmchxoff SPCTRIGGERMODE2 TmchxoffReading out the number of possible trigger levels SPCTRIGGERMODE0 TmchxposSPCHIGHLEVEL0 Input ranges Triggerlevel ±50 mV ±100 mV ±200 mV ±500 mVDetailed description of the channel trigger modes Channel trigger on positive edgeChannel trigger on negative edge Channel trigger on positive and negative edgeChannel pulsewidth trigger for long positive pulses Channel pulsewidth trigger for long negative pulsesChannel pulsewidth trigger for short negative pulses Channel pulsewidth trigger for short positive pulsesTmchxposgsp Channel steepness trigger for flat positive pulses Channel steepness trigger for flat negative pulsesChannel steepness trigger for steep positive pulses Channel steepness trigger for steep negative pulsesChannel window trigger for entering signals Channel window trigger for leaving signalsChannel window trigger for long inner signals Channel window trigger for long outer signalsChannel window trigger for short inner signals Channel window trigger for short outer signalsStandard Mode When using Multiple Recording pretrigger is not availableOption Multiple Recording Recording modesResulting start delays Trigger modesOption Multiple RecordingSpcmemsize SpctriggermodeGeneral information and trigger delay Option Gated SamplingOption Gated Sampling SpcgateEnd of gate alignement Alignement samples per channelNumber of samples on gate signal Allowed trigger modesOption Gated SamplingTrigger modes External TTL edge triggerExample program Example program Option Gated SamplingChannel trigger Spctriggermode TmttlposStartReset mode Option TimestampTimestamp modes LimitsRefClock mode optional Functions for accessing the dataTimestamp Status Reading out timestamp dataSpcGetData nr, ch, start, len, data Data formatSpctimestampcount Example programs Standard acquisition modeAcquisition with Multiple Recording Option Extra I/O Digital I/OsAnalog Outputs Channel directionProgramming example Programming example Option Extra I/OBit Standard Mode Digital Inputs enabled Option Digital inputsSample format SpcreaddigitalSynchronization Option Different synchronization optionsSynchronization with option cascading Synchronization with option starhubSetup order for the different synchronization options Set up the board parametersLet the master calculate it’s clocking Write Data to on-board memory output boards onlyExample for data writing Define the boards for trigger masterExample of board #2 set as trigger master 4a Define synchronization or triggerDefine the board for clock master Example board number 0 is clock masterDefine the remaining boards as clock slaves Arm the boards for synchronizationStart all of the trigger master boards Wait for the end of the measurementRead data from the on-board memory acquisition boards only Restarting the board for another synchronized runExample of Fifo buffer allocation 2a Write first data for output boardsSpcsyncmasterfifo SpcsyncslavefifoAdditions for synchronizing different boards General informationCalculating the clock dividers 20xx 30xx 31xx 40xx 45xx 60xx 61xx 70xx 72xxSetting up the clock divider Board type 3122 312040 MS/s Board type 3025 3131Resulting delays using different boards or speeds Delay in standard non Fifo modesDelay in Fifo mode Additions for equal boards with different sample ratesError Codes Error CodesError name Value hex Value dec Error description AppendixExtra I/O with external connectorOption -XMF Pin assignment of the multipin connectorOption Digital inputs Pin assignment of the multipin cable