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Agilent 75000 Series C
C-Size VXIbus Systems
Configuration Guide
Where to Find it - Online and Printed Information:
System installation (hardware/software)............. This Manual
Agilent VIC (VXI installation software)
Module configuration and wiring........................ Module User’s Manual
SCPI programming.............................................. Module User’s Manual
SCPI example programs...................................... Module User’s Manual
SCPI command reference ................................... Module User’s Manual
Register-Based Programming ............................. Module User’s Manual
VXIplug&play programming ............................. VXIplug&play Online Help
VXIplug&play example programs...................... VXIplug&play Online Help
VXIplug&play function reference ...................... VXIplug&play Online Help
Soft Front Panel information............................... VXIplug&play Online Help
VISA language information ................................ Agilent VISA User’s Guide
Agilent VEE programming information ............. Agilent VEE User’s Manual
*E1406-90028*
Manual Part Number: E1406-90028
Printed in Malaysia E0706
Seitenansicht 0
1 2 3 4 5 6 ... 177 178

Inhaltsverzeichnis

Seite 1 - *E1406-90028*

Agilent 75000 Series CC-Size VXIbus SystemsConfiguration GuideWhere to Find it - Online and Printed Information:System installation (hardware/software

Seite 2

Notes8 Agilent C-Size VXIbus Configuration Guide

Seite 3 - Contents

2-Frame System - Agilent V743 EmbeddedController• MAINFRAME 1: Set the VXI-MXI module to address 1. Set otherVXI modules in the mainframe to addresse

Seite 4

3-Frame System - Agilent V743 EmbeddedController• MAINFRAME 1: Set the VXI-MXI module to address 2. It doesnot have to be an instrument identifier

Seite 5

MXIbus-5 : Disable the VMEbus Timeout on Other Modules (VME BTO) The VXI-MXI module must do the VMEbus timeout on all mainframes.You MUST disable the

Seite 6

Disable VMEbus Timeout- Agilent RADI-EPC7Embedded ComputerNOTE When using a Agilent RADI-EPC7 Computer with multiple mainframes, theVXI-MXI Module mus

Seite 7

MXIbus-6 : Install VXI-MXI Modules into MainframesUse the following steps to install the VXI-MXI Modules into themainframes. Install VXI-MXI modules

Seite 8 - Safety Symbols

BackplaneConnectorsTighten 2ScrewsSlide Module into theMainframe until it plugs intothe Backplane Connectors.Figure 3-22. Installing ModulesC-Size Co

Seite 9

MXIbus-7 : Connect Interface CablesNOTE If you are using an EPC7 embedded computer or an external computer withan EISA/ISA to MXIbus interface card, t

Seite 10

MXIbus-8 : Apply PowerOnce you have installed your MXIbus system, you can apply power bypressing the button in the lower left corner of the mainframe.

Seite 11

3-26 Set Up the System for Multiple Mainframes C-Size Configuration Guide

Seite 12 - For More Information

Procedure 4:Configure and Install InstrumentsThis procedure describes how to configure and install VXI modules intoyour Agilent 75000 Series C VXIbus

Seite 13 - Terms Used In This Manual

Using the C-Size Configuration Guide and Agilent VICOur goal is to make installation of your C-Size VXI system as easy as possible. To do so, Agilent

Seite 14

CAUTION It is your responsibility to ensure adequate cooling is suppliedto all modules installed in the mainframe. Section B.7.2.4 of theVXIbus Specif

Seite 15 - Configure the VXI Mainframe

Step-1 : Download Instrument DriversIf your system contains an Agilent E1406 Command Module andregister-based instruments, it may be necessary to down

Seite 16 - Procedure

Step-2 : Set Instrument Logical AddressesAll instruments are shipped with a factory-set logical address. In somecases you can use the factory-set log

Seite 17

– Valid logical addresses are 1 through 255. Most Agilentmodules are statically configured modules, which means thatyou have to physically set the ad

Seite 18 - Step-3 : Where To Go Next

The Logical Address is the sum of thedecimal values of the switches in the closedpositionFigure 4-1. Setting a Logical Address4-6 Configure and Insta

Seite 19 - Procedure 2:

LADDR = 2464 + 16 = 8032 + 16 + 8 = 5632 + 16 = 4816 + 8 = 24128 + 8 = 13664 + 32 + 16 + 8 = 12064 + 32 + 16 = 112128 + 16 = 14416 + 8 + 1 = 2532 + 8

Seite 20 - Configuration

Step-3 : Install A- and B-Size ModulesIf you are installing A- or B-Size modules and C-Size modules in the samemainframe, we recommend you install the

Seite 21

Slide adapter module into themainframe until it plugs into thebackplane connectorSlide B-Size module intoadapter module until itconnectsFigure 4-2. I

Seite 22

Slide the module firmlyinto the adapter.Slide adapter firmly intothe backplaneP1 ConnectorP2 ConnectorFigure 4-3. Installing B-Size Modules in the E14

Seite 23

Step-4 : Install C-Size ModulesC-Size Modules can be installed in any slot except slot 0, and need not beinstalled in adjacent slots. However, when in

Seite 24

For More InformationThis manual describes how to get a C-Size VXIbus System up and runningquickly. You may require information from other manuals. T

Seite 25

1. Slide the module into themainframe until it touches thebackplane connectors3. Tighten2 screws2. Seat the module into themainframe by pushing

Seite 26

1. Slide the module into themainframe until it touches thebackplane connectors.P1 ConnectorP2 ConnectorTopBottom2. Seat the module into themainfra

Seite 27

Step-5 : Install a Chassis ShieldIf EMI shielding is needed, install the Agilent E1409A/B Chassis Shieldaccording to the instructions in the Agilent E

Seite 28

Step-6 : Install Backplane Connector ShieldsFor conformance with the following European EMC Standards:CISPR 11:1990/EN 55011 (1991): Group 1 Class AIE

Seite 29

Step-7 : Install Faceplate PanelsThe Agilent E1401 and Agilent E1421 mainframes are shipped from thefactory with faceplate panels installed to cover t

Seite 30 - (24540-80014)

Step-8 : Where To Go NextSo far you should have done the following:• Downloaded device drivers (with Command Module Only)• Set the instrument logical

Seite 31 - E1406-10 : Apply Power

4-18 Configure and Install Instruments C-Size Configuration Guide

Seite 32

Procedure 5:Apply PowerOnce the controller to VXI mainframe interface has been set up andmodules have been installed, power can be applied to the syst

Seite 33 - Configurations

Testing ROMTesting 512K Bytes RAM PassedTesting CPU1. CPU Self Test PassedGPIB address: 09Talk/ListenCommand Module ladd = 0Command Module serv

Seite 34

Configuration andStart-Up ErrorsIf the Command Module fails its self test, the "Failed" annunciator lights upon the faceplate. Should this o

Seite 35 - E1406-11 : Where To Go Next

Terms Used In This ManualThe following is a list of terms used in this manual. For more informationon these terms, see Appendix A, "Terms and De

Seite 36

• if necessary, call your nearest Agilent Technologies sales and serviceoffice.When using the Command Module for the first time or when the mainframeh

Seite 37

VXI Current Configuration:MXI BUS: 0Device Logical Addresses: 0 2 24 128Slots: 0123456789101112-- -- -- -- -- -- -- -- -- -- -- -- --Empty 00

Seite 38

Interrupt Request Lines: Handler InterrupterName 1 2 3 4 5 6 7 1 2 3 4 5 6 7--------- -------------------------------------hpmxictlr X XX X X X Xh

Seite 39

Agilent E1497A/E1498A EmbeddedV743 ControllerTo verify that the V743 controller-based system is installed correctly, turnon the mainframe. If configur

Seite 40

VXI Current Configuration:VXI BUS: 0Device Logical Addresses: 0 24 127 128Slots: 0123456789101112-- -- -- -- -- -- -- -- -- -- -- -- --Empty OOOOO

Seite 41

Agilent RADI-EPC7Embedded 486ComputerWhen power is applied to the mainframe, the Start-Up Resource Manager(SURM) on the Agilent RADI-EPC will execute.

Seite 42

VXI System Configuration- - All Devices - -NAME ULA BUS.SL MANUFACTURER MODEL A32/A24 MEMORYTopCmdr S000 0.00 RadiSys Corp EPC-7 S0 400000-7FFFFFv

Seite 43 - Setting the

SettingCommander/ServantHierarchies whenusing a CommandModuleWhen you have an EPC7, Command Module, and Agilent register-basedinstruments to be acces

Seite 44

– Select the Add button.Repeat this procedure for each VXI instrument in your system.3. Select OK to end.Assigning Commander/Servant Hierarchy1. F

Seite 45 - Agilent E1406A

Now you need to rerun the Start-up Resource Manager by exiting Windowsand turning the VXI Mainframe Off and then On. Notice theCommander/Servant Hie

Seite 46 - Installing the

Resource Manager The resource manager runs at power on andidentifies all plug-in modules installed in the mainframe. Theresource manager also contro

Seite 47

5-14 Applying Power C-Size Configuration Guide

Seite 48 - Series 700-5 : Apply Power

Procedure 6: System Programming and DebuggingAfter your instruments have been installed in the VXI mainframe, the nextstep is to program them. This pr

Seite 49

COMM1 : Verify Communication with the InstrumentsThis step explains how VXI instruments are addressed, based on thecomputer controlling the system. Th

Seite 50 - Assigning Interrupt

C Language Program/* This program sends the *IDN? command to the Command Module as a *//* way to determine if the computer is communicating with the

Seite 51

E1406/05 Command Module. See the sections "SICL Addressing" and"Compiled SCPI Addressing" for programs to verify communication wit

Seite 52

#include <stdio.h>#include <sicl.h>#define SICL_NULL (INST) 0 INST instrument;int main(void){char result[100];instrument = iopen("hpi

Seite 53 - • V743-5 : Where To Go Next

#include <stdio.h>#include <stdlib.h>#include <cscpi.h>void main(){char vm_id[80];INST_DECL(vm,"E1411B",REGISTER);INST_ST

Seite 54

DEBUG1 : Sending SCPI CommandsStandard Commands for Programmable Instruments (SCPI) is anASCII-based instrument command language designed for test and

Seite 55 - Servant Area

ARM:LAY2:SOUR EXTARM:LAY2:SLOP POSARM:LAY2:COUN 10Note that the semicolon (;) and colon (:) link commands within differentsubsystems. Only a semicolon

Seite 56 - Module Logical

DEBUG3 : Start Each Program by Fully Resetting Each InstrumentAn instrument is fully reset when you cycle power or go through the threelevels of the r

Seite 57 - Module Servant

Procedure 1:Configure the VXI MainframeThis procedure describes how to configure the Agilent E1401B and AgilentE1421B VXI mainframes in preparation fo

Seite 58 - GPIB Address

DEBUG5 : Query all Command Parameter SettingsWhen the error queue contains an error, the next task is to determine whichcommand caused it. When a comm

Seite 59 - Capability

DEBUG7 : Check the Instrument’s Arm-Trigger SubsystemAll SCPI instruments follow an Arm-Trigger model that is described inmost operating manuals and i

Seite 60

DEBUG8 : Execute Coupled Commands Within a Coupling GroupCertain SCPI commands are functional coupled or value coupled.Functionally coupled commands a

Seite 61

In an instrument where the previous commands are coupled, sending thecommands as shown prevents "Settings conflict" errors. The commandsetti

Seite 62

6-14 System Programming and Debugging C-Size Configuration Guide

Seite 63 - V743-4 : Apply Power

Appendix A:Terms and DefinitionsThis chapter contains additional information on specific terms and functionsrefereed to in the procedures throughout t

Seite 64 - Shared Memory

What is theResource Manager?Every VXIbus system must have a module that provides the system’sresource manager requirements. The resource manager func

Seite 65 - V743-4B :

What is theCommand Module’s10 MHz ClockSource?One of the slot 0 resources supplied by the Command Module is the10 MHz system clock: CLK10. This clock

Seite 66 - V743-5 : Where To Go Next

This form of arbitration occurs on any bus request level (0 - 3) selected.However, because of the bus request level priority, a module requesting theD

Seite 67

What is the ServantArea?In a VXIbus system, modules in the servant area of another module areservants to that module (the commander). The commander m

Seite 68

Step-1 : Connect Mainframe Safety Ground (if necessary)When operating the Agilent 1401B or E1421B at mains frequenciesgreater than 66 Hz, you must co

Seite 69 - Mainframes

Servant Area with theCommand Module asResource Manager/Slot0 DeviceThe Command Module should be set so it is the top level commander. TheCommand Modu

Seite 70

The embedded computer’s servant area should be set to 255. Thus, if theembedded computer’s logical address is 0 and its servant area setting is 255,t

Seite 71

What is the VXI-MXIModule?With the Agilent E1482B VXI-MXI mainframe extender module, multipleE1401A/E1400B mainframes are integrated into a single VXI

Seite 72

• The logical address window of the root mainframe must be a validwindow (valid starting address and size), and include all of themodules in all of th

Seite 73

Note, however, you cannot combine multiple modules of the same typesuch as multimeters, counters, and function generators into virtualinstruments.What

Seite 74

What areDownloadableInstrument Drivers?Instrument drivers enable Agilent Technologies register-based modules tobe programmed using SCPI commands. The

Seite 75

What DisplayTerminals Can BeUsed?The Command Module has a 9-pin DTE RS-232 connector. You canconnect a terminal or PC to the Command Module using the

Seite 76 - GPIB Address Switch

Appendix B :Configuration and Start-up ErrorsThe Agilent E1406 Command Module error messages associated withsystem installation and configuration are

Seite 77

Error Message Cause1 FAILED DEVICE A device failed its power-on self-test. A device failed if theresource manager finds the PASSED bit false. The test

Seite 78

Error Message Cause13 LADD OR IACK SWITCH SET WRONG Either a device logical address is set incorrectly, or theinterrupt switches on the mainframe back

Seite 79 - EPC7-6 : Apply Power

Step-2 : Connect the Power CordFigure 1 - 2. Grounding Screw, Toothed Washers1-3 Configure the VXI Mainframe C-Size Configuration Guide

Seite 80

Error Message Cause24 INTERRUPT LINE UNAVAILABLE The interrupt line assigned by the user-defined interrupt linetable is not available. Either the line

Seite 81 - EPC7-7 : Where To Go Next

Error Message Cause38 INVALID UDEF CNFG TABLE DATA There are 0, or greater than 254 entries in the user-definedcommander/servant hierarchy table.39 IN

Seite 82

Error Message Cause52 DEVICE OUTSIDE OF LADD WINDOW A module in a (extender) mainframe is outside of the logicaladdress window set by the resource man

Seite 83 - Procedure 3:

Checking forInstrument ErrorsThe following BASIC program is a method of checking for errors as youprogram the instruments (plug-in modules) in your VX

Seite 84

1 !Call controller subprogram "Errmsg" when a programming error occurs.2 !Enable the controller to respond to an interrupt from the instrume

Seite 85

IndexC-Size VXIbus Configuration GuideAA-size modules, installing, 4-8Addressdescription, Command Module GPIB, A-7setting on B- and C-size modules, 4

Seite 86

DData Transfer Bus Arbitration, A-3Debugging Programs, 6-6Disable VME BTO TimeoutCommand Module, 3-20RadiSys EPC-7, 3-21Disabling the Command Module’s

Seite 87

MMainframe, AC power, 1-1Mainframe, applying power, 5-1Mainframe, power-on sequence, 5-1Multiple Command Modules, 2-15Multiple Mainframesusing MXIbus,

Seite 88

Terminating Networksremoving, VXI-MXI modules, 3-9Turning on the mainframe, 5-1VV743 Controller and Command Module configuration, 2-37 enabling shared

Seite 89

Step-3 : Where To Go Next If you have additional mainframes repeat this procedure until allmainframes are configured. Once configured, continue with

Seite 90

Procedure 2:Set Up the VXI System ControllerThe controller to VXI mainframe interface determines how commands anddata will flow between the controller

Seite 92

Setting Up the Agilent E1406A Command ModuleThis procedure explains how to set up and install an Agilent 75000 Series CVXIbus system with an external

Seite 93

E1406-1 : Set the Command Module as Resource ManagerSet the Command Module as resource manager by setting its logical addressto 0. (The Command Modul

Seite 94

E1406-2 : Set the Command Module as Slot 0 DeviceSet the following switches:• Slot 0 switches to the "Enable" Position, and • (VME) System C

Seite 95

E1406-3 : Set the Clock SourceSet the clock to one of the following:• Internal - to use the Command Module’s 10 MHz internal clock,CLK10 (factory def

Seite 96

E1406-4 : Set the Bus Request Level The Command Module’s bus request level switch is set to 3 at the factory.In most VXIbus systems and configurations

Seite 97

E1406-5 : Configure the Command Module’s Shared RAM When the E1406A expanded memory option 010 is installed, the switchshown in Figure 2-5 is used to

Seite 98

E1406-6 : Set the Command Module’s Servant AreaWhen the Command Module is the resource manager (logical address = 0),its servant area should be set to

Seite 99

E1406-7 : Set Command Module’s Primary GPIB AddressThe Command Module has a factory-set GPIB address of 9. If there is onlyone Command Module (i.e. on

Seite 100 - Controller

E1406-8 : Install the Command Module into the Mainframe Use the following procedure to install the Agilent E1406A CommandModule into slot 0. 1. Tur

Seite 101

E1406-9 : Connect Interface CablesNOTE Refer to your controller’s documentation for information on connecting thekeyboard and video cables and other p

Seite 102 - Command Module

ContentsC-Size VXIbus Configuration GuideWarranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Seite 103 - Embedded Computer

RS-232 Connections The Command Module has a 9-pin DTE RS-232 connector. You canconnect a terminal or PC to the Command Module using the RS-232interfa

Seite 104

Command Module’s power-on and configuration sequence, and function asa front panel to your VXIbus C-Size system.See Appendix A, "Terms and Defini

Seite 105

Testing ROMTesting 512K Bytes RAM PassedTesting CPU1. CPU Self Test PassedGPIB address: 09Talk/ListenCommand Module ladd = 0Command Module serv

Seite 106

AlternateCommand ModuleConfigurationsThe procedures in this chapter have described how to configure theAgilent E1406A Command Module as the system’s r

Seite 107 - MXIbus-9 : Where To Go Next

5. Only one Command Module is required to translate SCPIcommands for the system’s Agilent register-based modules -provided the register-based modu

Seite 108

E1406-11 : Where To Go NextSo far you should have done the following:• Configured your Agilent E1406A Command Module for operationwith an external com

Seite 109 - Procedure 4:

Setting Up a Series 700 ControllerThis procedure describes the system configuration and steps necessary foran HP 9000 Series 700 controller to be used

Seite 110

HP 9000 Series 700 Controller w/Agilent E1489I MXIbus ControllerInterfaceAgilent E1482B VXIbusC-Size VXI MainframeMXI and INTX Cables(Agilent E1482B O

Seite 111

Series 700-1 : Set up the Agilent E1482B VXIbus Extender ModuleThe Agilent E1482B VXI-MXI module is factory configured for use inmainframe slot 0. Tab

Seite 112

Setting Switch/JumperAgilent E1482B VXI-MXIExtender ModuleSlot 0(factory settings)Agilent E1482B VXI-MXIExtender ModuleNon Slot 0Trigger InputTerminat

Seite 113 - For Agilent E1406

Setting Up an Embedded V743 Controller . . . . . . . . . . . . . . . . . . . . . . . . 2-35V743-1 : The V743 Configuration

Seite 114

Note If an Agilent E1406A Command Module is part of your system, continuewith step Series 700-2. Otherwise proceed to step Series 700-3.Figure 2-14.

Seite 115

Series 700-2 : Set Up the Agilent E1406A Command ModuleIf an Agilent E1406A Command Module is part of your Series 700/MXIbased VXIbus system, you must

Seite 116

Series 700-2A :Setting theCommand ModuleLogical AddressNotice the following when setting the Command Module logical address.• The Command Module has a

Seite 117

Series 700-2C :Setting theCommand ModulePrimary GPIBAddressRegister-based modules in the servant area of the Command Module areaccessed from the Serie

Seite 118

Series 700 computer’s (GPIB) interface select code (typically 7), to formthe Command Module’s complete GPIB address.Series 700-2D :Disabling theComman

Seite 119

Note When using the Agilent E1406A Command Module with the HP Series 700computer, an interrupt line other than line 1 is assigned to the CommandModul

Seite 120 - 2. Seat the module into the

Series 700-3 : Install the Agilent E1482B Extender Module in theMainframeUse the following procedure to install the Agilent E1482B VXIbusExtender Modu

Seite 121

Series 700-4 : Connect the MXIbus and INTX CablesThe MXI and INTX cables are connected between the Series 700 controllerand the E1482B extender module

Seite 122

Series 700-5 : Apply PowerTo verify that the E1482B VXIbus extender module and the MXIbus andINTX cables are correctly installed, turn on the mainfram

Seite 123 - Mainframe Backplane

VXI Current Configuration:MXI BUS: 0Device Logical Addresses: 0 1VXI Device Table:Name LADD Slot Bus Manufacturer Model--------- -------- ---

Seite 124

Procedure 5:Apply Power Agilent E1406 Command Module with an External Computer . . . . . . . . . . . . 5-1HP 9000 Series 700 Computer .

Seite 125 - Step-8 : Where To Go Next

Assigning InterruptLinesThere are seven backplane interrupt lines. These lines are assigned todevices by the resource manager during the system’s powe

Seite 126

Platform Location of file "irq.cf"HP-UX /usr/pil/etc/vxi16/irq.cfBASIC/WS must be in the directory the resourcemanager executes from.As an e

Seite 127 - Apply Power

Series 700-6 : Where To Go NextOnce you have installed the Agilent E1482 VXIbus extender module,continue with one of the following procedures:If you h

Seite 128

Setting Up an Embedded V743 Controller This procedure describes the system configuration and steps necessary foran Agilent E1497A V743/64 or Agilent E

Seite 129 - Start-Up Errors

RAM connectorsinsideReset SwitchLEDsSpeaker OutGPIBClock I/OTrigger I/ODigital VideoSCSILANVideoRS-232 (B)RS-232 (A)MouseKeyboardThe Agilent V743/64 a

Seite 130 - Computer

The V743 LogicalAddress andServant AreaThe following pertains to the V743 logical address and servant area: • The V743 controller has a logical addres

Seite 131 - MXI BUS: 0

In VXIbus systems with a V743 controller and a Agilent E1406ACommand Module, the V743 must function as the resource manager sinceits logical address i

Seite 132 - VXI-MXI Registers:

V743-2B : Settingthe CommandModule ServantAreaNotice the following when setting the Command Module servant area.• For the Command Module to be the com

Seite 133 - V743 Controller

V743-2C : Settingthe CommandModule PrimaryGPIB AddressRegister-based modules in the servant area of the Command Module areaccessed from the V743 acros

Seite 134 - VXI BUS: 0

V743-2D : Disablingthe CommandModule’s Slot 0CapabilityBecause the V743 controller contains the resource manager and slot 0functionality that is also

Seite 135 - Embedded 486

Notes4 C-Size VXIbus Configuration Guide Contents

Seite 136

V743-3 : Install the V743 Controller in the MainframeUse the following procedure to install the V743 controller into mainframeslot 0.1. If the mainf

Seite 137

BackplaneConnectorsTighten screwsSlide the V743 into themainframe until it plugsinto the backplaneconnectorsFigure 2-36. Installing the V743 Embedded

Seite 138 - – Select the Add button

Installing theE1406A CommandModuleUse the following procedure to install the Agilent E1406A CommandModule into slot 1 (when the V743 controller is ins

Seite 139

V743-4 : Apply PowerTo verify that the V743 controller and software are correctly installed, turnon the mainframe. If the SICL software is installed,

Seite 140

V743-4A : EnablingShared Memory Enabling and disabling the V743 shared memory is software controlled. TheV743 ships with its shared memory disabled. Y

Seite 141 - Procedure 6:

The V743 shared memory is mapped into VXI A24 address space. Thus, thememory is accessible from the V743 and from other devices such as theAgilent E14

Seite 142 - Addressing

## This database contains the mapping of VXI devices to Interrupt lines.# Note that not all VXI devices need to use interrupt lines and that# not all

Seite 143 - Embedded

Setting Up an Embedded RADI-EPC7 486 ComputerThis procedure explains how to set up and install an Agilent 75000 Series CVXIbus system equipped with an

Seite 144 - COMM1C : SICL

EPC7-1 : Set the EPC7 as Slot 0 DeviceThe Agilent RADI-EPC7 is shipped from the factory to be the VXI Slot 0Controller and System Controller. Therefo

Seite 145 - COMM1D : C-SCPI

EPC7-1A : Set the EPC7 as Non-Slot 0 Device if Using MultipleMainframesIf you are using multiple mainframes connected via MXIbus, the EPC7Embedded Com

Seite 146 - Debugging Programs

CertificationAgilent Technologies certifies that this product met its published specifications at the time of shipment from the factory. AgilentTechn

Seite 147 - Structure

EPC7-2 : Install the EPC7 into the MainframeUse the following procedure to install the Agilent RADI-EPC7 EmbeddedComputer into slots 0 and 1 of the ma

Seite 148

BackplaneConnectorTighten 3 ScrewsSlide the EPC7 Computerinto the Mainframe until it plugs intothe backplane connectors.Figure 2-41. Installing EPC7

Seite 149

EPC7-3 : Install EXM Expansion ModulesEXM expansion modules are used for video controllers, network interfaces,and GPIB interfaces. Some EXM modules c

Seite 150 - Amount of Data Generated

EPC7-4 : Configure the Command Module to Work with the EPC7When you are using a Command Module in your system to interpret SCPIcommands for the regist

Seite 151

EPC7-4A : Set the Command Module’s Logical AddressSet the Command Module’s logical address to 1, 2, or 3.Since the EPC7 is acting as resource manager

Seite 152 - Coupled Commands

EPC7-4B : Set the Command Module’s Servant AreaNotice the following when setting the Command Module servant area:• For the Command Module to be the co

Seite 153

EPC7-4C : Set the Command Module’s Primary GPIB AddressRegister-based modules in the servant area of the Command Module areaccessed from the EPC7 acro

Seite 154

EPC7-4D : Disable the Command Module’s slot 0 and System ControllerCapabilityBecause the EPC7 contains the resource manager and slot 0 functionality,t

Seite 155 - Terms and Definitions

EPC7-5 : Connect Interface CablesConnect the cable from the monitor and the keyboard to the EPC7. Tightenthe screws on the connector.NOTE The monitor

Seite 156 - Functions?

EPC7-6 : Apply PowerWhen power is applied to the mainframe, the Start-Up Resource Manager(SURM) on the EPC7 will execute. An example of the configurat

Seite 157 - Arbitration

Frame or chassis ground terminal—typicallyconnects to the equipment’s metal frame.Alternating current (AC).Direct current (DC). Indicates hazardous vo

Seite 158 - Module Memory

VXI System Configuration- - All Devices - -NAME ULA BUS.SL MANUFACTURER MODEL A32/A24 MEMORYTopCmdr S000 0.00 RadiSys Corp EPC-7 S0 400000-7FFFFF-

Seite 159 - What is the Servant

EPC7-7 : Where To Go NextSo far you should have done the following:• Configured the Agilent RADI-EPC7 as a Slot 0 (or Non-Slot 0 formultiple mainframe

Seite 160

2-64 Setting Up an Embedded RADI-EPC7 Computer C-Size Configuration Guide

Seite 161 - Address?

Procedure 3:Set Up the System for Multiple MainframesIf you only have one mainframe, continue with the next procedure,Procedure 4: Configure and Insta

Seite 162 - Address Windows

The following figure illustrates some typical 2- and 3-frame MXIbussystems:Notice that we’ve given each mainframe a number to identify its location in

Seite 163 - Instruments?

The following table summarizes the VXI-MXI module’s switch and jumpersettings for slot 0 and non-slot 0 operation. Continue with this procedurefor sp

Seite 164 - What is the Logical

MXIbus-1 : Set Up VXI-MXI Modules for Slot 0 The VXI-MXI module is shipped from the factory configured for slot 0operation. The VXI-MXI module should

Seite 165 - Instrument Drivers?

MXIbus-2 : Set VXI-MXI Modules for Non-Slot 0 VXI-MXI modules installed in a root mainframe (mainframe 1) that doesnot contain an Agilent RADI-EPC7 or

Seite 166 - What are Interrupt

S8S8S1S8S1S1a. Slot 0 (Factory Default)b. Non-Slot 0 c. 400 µsec BTOd. Disable BTO GenerationW6a. 100 µsec BTO (factory default)b. 200 µsec BTO (VXI-M

Seite 167 - Appendix B :

S4a. Not MXIbus System Controller(Factory Default)b. MXIbus System Controller(VXI-MXI Non-Slot 0)W7a. One extender, slot 0(Factory Default)b. One exte

Seite 168

NotesAgilent C-Size VXIbus Configuration Guide 7

Seite 169

a. 100 µsec/msec MXIbusSystem Controller Timeout(VXI-MXI Non-Slot 0)W8d. Disable MXIbus SystemController Timeout Generation (Factory Default)c. 400 µs

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MXIbus-3 : Remove the Terminating Networks from Middle VXI-MXIModules If you have more than two mainframes, remove the MXI and INTXterminating network

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MXIbus-4 : Set the VXI-MXI Module’s Logical AddressSet the logical address on your VXI-MXI modules by using the followingsteps:1. Locate the logical

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Remember that logical address 0 or 255 is not allowed for the VXI-MXImodule.LADDR = 192LADDR = 128(Factory Default)LADDR = 2Figure 3-11. Logical Add

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2-Frame System - Command Module with ExternalComputerNOTE A system using a Command Module as the resource manager identifiesinstruments by an instrume

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3-Frame System - Command Module with ExternalComputer• MAINFRAME 1: Set the VXI-MXI module to address 2. It doesnot have to be an instrument identif

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2-Frame System - VXI-MXI with External Computer• MAINFRAME 1: Set the VXI-MXI module to address 1. Set otherVXI modules in the mainframe to addresse

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3-Frame System - VXI-MXI with External Computer• MAINFRAME 1: Set the VXI-MXI module to address 2. It doesnot have to be an instrument identifier ad

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2-Frame System - Agilent RADI-EPC7 EmbeddedComputer• MAINFRAME 1: Set the VXI-MXI module to address 1. Set otherVXI modules in the mainframe to addre

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3-Frame System - Agilent RADI-EPC7 EmbeddedComputer• MAINFRAME 1: Set the VXI-MXI module to address 1. It doesnot have to be an instrument identifie

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