Agilent Technologies N6700 manual Remote Sense Connections

Page 29

Installation 2

Remote Sense Connections

WARNING SHOCK HAZARD Turn off AC power before making or changing rear panel connections.

Remote sensing improves the voltage regulation at the load by monitoring the voltage there instead of at the output terminals. This allows the power system to automatically compensate for the voltage drop in the load leads. Remote sensing is especially useful for CV operation with load impedances that vary or have significant lead resistance. It has no effect during CC operation. Because sensing is independent of other power system functions, remote sensing can be used regardless of how the power system is programmed.

12A & 20 A

+S

+

-S

CONNECTOR

TWIST

 

 

 

PAIR

 

 

TWIST

 

 

 

 

 

 

LEADS

 

+

LOAD

 

 

 

 

+

+

LOAD

50A CONNECTOR

50A SENSE

+S +LS -LS -S

TWIST

PAIR

 

Connect the unit for remote sensing by first disconnecting the straps

 

between sense and load terminals. Make your connections as shown

 

in the following figure. Connect the sense leads as close to the load as

 

possible. Refer to the “Wire Size” section for information about

 

selecting the proper wire size. Best results are obtained by using the

 

shortest load leads practical. It is recommended to keep load leads

 

under 14.7 meters (50 feet) per lead because of inductance effects.

 

The sense leads carry only a few milliamperes of current and can be

 

a lighter gauge than the load leads. However, note that any voltage

 

drop in the sense leads can degrade the voltage regulation of the

 

instrument. Try to keep the sense lead resistance less than about

 

0.5Ω per lead (this requires 20 AWG or heavier for a 50 foot length).

 

When remote sensing on power modules with the 50A sense connector, do not

CAUTION

 

connect the +LS and –LS terminals. These are dedicated for local sensing only.

 

 

Series N6700 User’s Guide

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Contents Agilent Technologies Low-Profile Modular Power System Agilent Technologies, Inc Legal NoticesGeneral Safety NoticesThis Book Contents 100 Agilent Models N6751A/N6752A, N6753A/N6754A, N6761A/N6762A103 104Referred to as MPS and power system throughout this manual Modular Power System MPSEssential operating features of the power system Output Features Agilent N6700 Modular Power System At a GlanceModel Differences System FeaturesRear Panel At a Glance Front Panel At a GlanceFront Panel Display At a Glance IndicatorsSingle-channel view Interface statusNumber keys Front Panel Keys At a GlanceOperating status OCP Front Panel Menu ReferenceUSB Scpi Command Description Scpi Command SummarySubsystem Commands FUNCtion VOLTage CURRent, @chanlist SWEep Scpi CommandALL RST Settings Common CommandsCommand Description These settings are set by the *RST Reset commandInstallation Models General InformationItems Supplied OptionsSafety Considerations Installing the UnitRack Installation Inspecting the UnitInstallation Cleaning Bench InstallationChannel Number Hz OperationInstallation Connecting the Line CordPower cord, resulting in fire Snap-On Ferrite CoreScrews securely tightened Connecting the OutputsTerminals. Sense jumpers are provided for local sensing Terminals in any other wayAWG Wire SizePositive and Negative Voltages Multiple LoadsResponse Time with an External Capacitor N6700 Modular Power System Scope Drop in the sense leads can degrade the voltage regulation Remote Sense ConnectionsOpen Sense Leads Parallel ConnectionsOver-voltage Protection Considerations Output Noise ConsiderationsGrouping the Outputs When programming via the front panel or using Scpi commandsFirmware revision B.00.00 and up Discussed in under System-Related OperationsRecovery Time Effect on SpecificationsSeries Connections Terminal may be more than 240 VDC from chassis groundDesired operating voltage Setting the OutputsEffect on Specifications Menu structure is found in Chapter Getting StartedTurning the Unit On Entering an Output Voltage SettingSelecting an Output Channel Method 1 Use the Navigation and Arrow KeysUse the On/Off key to enable the output Entering a Current Limit SettingEnabling the Output Method 2 Use the Current key to enter a valuePress the Menu key to access the front panel command menu Using the Front Panel MenuSet the Over-Voltage Protection MenuMeter Back There are two ways to exit the command menu Exiting the Command MenuCase of Trouble Enter ChannelCause the unit to reset and require operator intervention Connecting to the InterfacesGpib Interface Automation-Ready CD that is shipped with your productUSB Interface USB-enabled instrument to the Universal Serial Bus USB.LAN Interface Following figure illustrates a typical USB interface systemConnecting to a Private LAN Connecting to a Site LANFactory-shipped instrument LAN settings are configured to Release the previous settingsDhcp server. You can leave these settings as they are. Most Will come on when the LAN port has been configuredConfiguring the LAN Parameters Viewing the Currently Active LAN SettingsLAN Parameters Take effectDomain NameLAN Communication ResetReduced Using the Web ServerTelnet connections to be made Using TelnetUsing Sockets Securing the Interfaces Enable/Disable the USB, LAN, and Web ServerRestoring the Non-volatile Factory Settings Other factory-shipped non-volatile settings Factory-shipped non-volatile LAN settingsOperating the Power System Select an Output Channel Programming the OutputSet the Output Voltage Set the Voltage Slew RateSet the Output Current Enable the OutputSequence Multiple Outputs Outpdelrise .1,@2Program the Output Relays Front Panel Scpi Command Select Output\PolarityOutp Outprelpol REV,@1Front Panel Scpi Command Select Transient\Mode Enable the Output to Respond to Trigger CommandsFront Panel Scpi Command Select Transient\Step Synchronizing Output StepsInitiate the Transient Trigger System Select the Transient Trigger SourceFront Panel Scpi Command Select Transient\Control Generate Trigger Out SignalsTrigger the Output Scroll to and select AbortMeasurement Ranges Making MeasurementsSimultaneous Voltage and Current Measurements Front Panel Scpi Command Select Protect\OVP Using the Protection FunctionsSet the Over-Current Protection Enter a value in the OVP level box To 10 Press SelectClear Output Protection Functions Couple Output ProtectionSelf-Test System-Related OperationsInstrument Identification Instrument State StorageOutput Groups Front Panel Scpi Command Select System\GroupsSystgrodelall SystrebFront Panel Scpi Command Select System\Preferences\Keys Front Panel Scpi Command Select System\Preferences\LockFront Panel Keys LockoutScreen Saver Front Panel DisplayContrast ViewProgramming High-Speed Test Extensions When the power system is turned offList Function All models Refer to , Model DifferencesFront Panel Scpi Command Select Transient\List\Pace Front Panel Scpi Command Select Transient\List\ConfigProgram an Output Pulse or Pulse Train Voltmode LIST, @1Front Panel Scpi Command Select Transient\TrigSource Front Panel Scpi Command Select Transient\List\RepeatTrigtransour BUS, @1 Inittran @1Select the List Step number Program an Arbitrary ListListstep AUTO, @1 Front Panel Scpi Command Select the Transient\List\RepeatFront Panel Scpi Command Select Measure\Sweep Adjust the Measurement Sample RateDigitizer Function Programming the DigitizerTo offset the measurement on Specify a Window FunctionAcquisition trigger, use Front Panel Scpi Command Not Available Front Panel Scpi Command Select Measure\WindowSynchronizing Digitizer Measurements Retrieve Measurement Array DataSensfunc VOLT,@14 Select the Measurement Trigger SourceSensfunc CURR,@14 TransientnInitiate the Measurement Trigger System Front Panel Scpi Command Select Measure\ControlTrigger the Measurement Trigacq @1Appendix a Specifications Agilent Models N6751A/N6752A, N6753A/N6754A, N6761A/N6762A Performance SpecificationsSupplemental Characteristics Up-programming Settling Time with full resistive load Up-programming Time with full resistive loadDown-programming Settling Time with no load Down-programming Time with Capacitive loadOutput Impedance Graphs Autoranging CharacteristicModel N6753A, CV Mode, @20V, 15A 0125 Magnitude Agilent Models N6731B N6736B and N6741B N6746B Load Transient Recovery TimeFrom 20 Hz 20 MHz from either output to chassis Temperature Coefficient per CCommon Mode Noise Agilent Models N6773A N6776A 20 mA Agilent N6700B, N6701A, N6702A MPS Mainframes Net Weight DimensionsEnvironmental Conditions AC Input432.5 mm 17.03 482.6 mm 19.00 425.45 mm Outline DiagramAppendix B Using the Digital Port Digital Control Port Bi-directional Digital I/O Configuring the Digital Control PortPin Bit Select System\IO\DigPort\PinnExternal Trigger Front Panel Scpi Command Select System\IO\DigPort\PinnDigital Input Front Panel Scpi Command Select System\IO\DigPort\Pin1 Fault OutputFront Panel Scpi Command Select System\IO\DigPort\Pin3 Inhibit InputMainframes Fault/Inhibit System ProtectionClearing a System Protection Fault For the majority of Agilent N6700 Modular Power System This chapter discusses the power allocation functionPower rating of Agilent N6700 mainframes is as follows Rating of the mainframeMainframe Power Limit Power Limit OperationModule Power Limit Must reset the power limit to its maximum rated valuePower limit function will not activate Module Power AllocationTo set a power limit on output Page Appendix D Output On/Off Synchronization Tutorial Synchronizing Output Turn-on DelaysPower Modules Options and Mode Minimum Enable the Synchronization Function ProcedureOutpcoup on Outpcoup OFFSpecify which Output Channels will be Synchronized Specify the Turn-On Delays for each Output ChannelSpecify the Common Delay Offset Synchronizing Multiple Mainframes Digital Connections and ConfigurationSystem\IO\DigPort\Pin6 OperationDIGPIN6FUNC ONC DIGPIN7FUNC OffcIndex Instrument Inhibit input11, 42 ListSystem protection SpecificationsRemote interface Declaration of Conformity Manual Updates
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