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pickering User Manual - 虹科测试测量
Transcript of pickering User Manual - 虹科测试测量
Page (1)MATRIX MODULE 40-510/511/512/513
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Issue 8.2 March 2017
User Manual
Matrix Module(Model No. 40-510/511/512/513)
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© COPYRIGHT (2017) PICKERING INTERFACES. ALL RIGHTS RESERVED.
No part of this publication may be reproduced, transmitted, transcribed, translated or stored in any form, or by any means without the written permission of Pickering Interfaces.
Technical details contained within this publication are subject to change without notice.
ISO 9001Reg No. FM38792
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TECHNICAL SUPPORT
For Technical Support please contact Pickering Interfaces either by phone, the website or via e-mail.
WARRANTY
All products manufactured by Pickering Interfaces are warranted against defective materials and workmanship for a period of three years, excluding programmable power supplies, from the date of delivery to the original purchaser. Any product found to be
defective within this period will, at the discretion of Pickering Interfaces be repaired or replaced.
Products serviced and repaired outside of the warranty period are warranted for ninety days.
Extended warranty and service are available. Please contact Pickering Interfaces by phone, the website or via e-mail.
ENVIRONMENTAL POLICY
Pickering Interfaces operates under an environmental management system similar to ISO 14001.
Pickering Interfaces strives to fulfil all relevant environmental laws and regulations and reduce wastes and releases to the environment. Pickering Interfaces aims to design and operate products in a way that protects the environment and the health and safety of its employees, customers and the public. Pickering Interfaces endeavours to develop and manufacture products that can
be produced, distributed, used and recycled, or disposed of, in a safe and environmentally friendly manner.
Worldwide Technical Support and Product Informationpickeringtest.com
GermanyTel: +49 89 125 953 160E-mail: [email protected]
SwedenTel: +46 340-69 06 69E-mail: [email protected]
USATel: (West) +1 541 471 0700Tel: (East) +1 781 897 1710E-mail: [email protected]
Czech RepublicTel: +420 558 987 613E-mail: [email protected]
FranceTel +33 9 72 58 77 00E-mail [email protected]
Pickering Interfaces HeadquartersStephenson Road Clacton-on-Sea CO15 4NL United KingdomTel: +44 (0)1255-687900E-Mail: [email protected]
ChinaTel: +86 4008 799 765E-mail: [email protected]
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MEANING / DESCRIPTION SYMBOL
PROTECTIVE EARTH (GROUND) To identify any terminal which is intended for connection to an external conductor for protection against electric shock in case of a fault, or the terminal of a protective earth (ground) electrode.
DANGEROUS VOLTAGE To indicate hazards arising from dangerous voltages.
WARNING / CAUTION An appropriate safety instruction should be followed or caution to a potential hazard exists. Refer to the relevant instructions detailed within the product manual.
HEAVY If this product is heavy reference should be made to the safety instructions for provisions of lifting and moving.
STATIC SENSITIVE To indicate that static sensitive devices are present and handling precautions should be followed.
!
kg
SAFETY SYMBOLS
PRODUCT SAFETY
The following safety symbols may be used on the product and throughout the product documentation.
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Copyright Statement ...................................................................II
Technical Support and Warranty ................................................III
Product Safety .............................................................................IV
Contents (this page) ....................................................................V
Warnings and Cautions ..............................................................VII
Section 1Technical Specification ...............................................................1.1
Section 2Technical Description .................................................................2.1 Functional Description ..........................................................2.1
Section 3Installation ....................................................................................3.1 Pre Operation Checks ...........................................................3.1 Hardware Installation ............................................................3.2 Software Installation .............................................................3.2 Testing Operation ..................................................................3.3
Section 4Programming Guide ....................................................................4.1 Programming Options For Pickering PXI Cards.................4.1 Module Architecture 40-510 .................................................4.3 Module Architecture 40-511 .................................................4.4 Module Architecture 40-512 .................................................4.5 Module Architecture 40-513 .................................................4.6 Programming The Module ....................................................4.7
Section 5Connector Information ................................................................5.1 40-510 .....................................................................................5.1 40-511......................................................................................5.2 40-512 .....................................................................................5.3 40-513 .....................................................................................5.4
Section 6Trouble Shooting .........................................................................6.1
Section 7Maintenance Information ............................................................7.1 Switching System Test Tools ...............................................7.1 Relay Lookup Table 40-510 ..................................................7.2 Relay Lookup Table 40-511 ..................................................7.3 Relay Lookup Table 40-512 ..................................................7.4 Relay Lookup Table 40-513 ..................................................7.5
CONTENTS
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WARNINGS AND CAUTIONS
WARNING - HAZARDOUS ENVIRONMENTS SYMBOL
This product is not specifically designed for use in hazardous environments, for example in explosive atmospheres. If the product is to be used in hazardous environments we recommend that the user ensures suitable protective measures are taken. !
WARNING - DANGER OF ELECTRIC SHOCK SYMBOL
This module may contain hazardous voltages. Before removing the module from the rack remove all supplies and disconnect user I/O signals.
Unused slots in the PXI/LXI chassis are populated with blanking plates to prevent access to user I/O signals that may be present. Blanking panels are available to order from Pickering in a variety of slot widths. If the product is not used in this manner for example by using an extender card then additional care must be taken to avoid contact with exposed signals.
CAUTION - HANDLING OF ELECTROSTATIC-SENSITIVE DEVICES SYMBOLCertain semiconductor devices used in this equipment are liable to damage due to static voltage. Observe the following precautions when handling these devices in their unterminated state, or sub-assemblies containing these devices:
1. Persons removing sub-assemblies from equipment using these devices must be earthed by a wrist strap and a resistor at the point provided on the equipment.
2. Soldering irons used during the repair operations must be low voltage types with earthed tips and isolated from the mains voltage by a double insulated transformer.
3. Outer clothing worn must be unable to generate static charges.
4. Printed Circuit Boards (PCBs) fitted with these devices must be stored and transported in anti-static bags.
CAUTION - PRODUCT DOCUMENTATION SYMBOL
Suitably qualified & trained users should ensure that the accompanying documentation is fully read and understood before attempting to install or operate the product. !
SAFETY INSTRUCTIONS
SAFETY INSTRUCTIONSAll cleaning and servicing requires the equipment to be isolated and disconnected from the power source and user I/O signals (refer to the Maintenance Section).
• Appropriate manual handling procedures should be followed as dictated by the weight of the individual module or the combined weight of the modules & chassis.
• Should a fault occur with the module or chassis, immediately isolate and disconnect the incoming power to the chassis and the user I/O signals.
• Ensure the equipment is installed, operated and maintained by trained and authorised personnel.
• For suitably equipped products in the event of an emergency press the red “emergency stop” button situated on the front of the unit.
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40-510/511/512/513Matrix Module
Reed Relay Matrix Module 12x4, Dual 12x4, 24x4 or 12x8 1-Pole, 2-Pole or Screened Versions Large Matrices Built Using Multiple Modules Screened 50Ω Option with 50MHz Bandwidth Uses High Reliability Pickering Reed Relays For
Maximum Performance Fast Operating Speed < 500µs Switch up to 150Volts, 1.2A with 20W Max Power VISA, IVI & Kernel Drivers Supplied for Windows Supported by PXI or LXI Chassis Supported by eBIRST
3 Year Warranty
40-511 Matrix Dual 12x4
The 40-510 series of matrix modules feature a wide range of selectable switching configurations (12x4, dual 12x4, 12x8 and 24x4). Typical applications include signal routing in ATE and data acquisition systems.
Available reed relay formats are 1-pole, 2-pole and 1-Pole screened. The screened version is suitable for switching signals up to 50MHz. Larger matrices may be constructed by Daisy Chaining the common signals from multiple PXI moodules.
Relay Type
All 40-510 series modules are fitted with Reed Relays (Ruthenium sputtered type), these offer very long life with good low level switching performance and excellent contact resistance stability.Spare Reed Relays are built onto the circuit board to facilitate easy maintenance with minimum downtime.All reed relays are manufactured by our sister company Pickering Electronics, www.pickeringrelay.com.
40-513 Matrix 24x440-512 Matrix 12x8 2-pole
(each line is a 2 wire connection) ISSU
E 1
0.1
M
AR
201
7
X2 X4 X8X1 X3 X5 X6 X7 X9 X10
Y2
Y4
Y8
Y1
Y3
Y5
Y6
Y7
X11
X12
2-POLE
CROSSPOINT
X102
X104
X108
X101
X103
X105
X106
X107
X109
X110
Y102
Y104
Y101
Y103
X202
X204
X208
X201
X203
X205
X206
X207
X209
X210
Y202
Y204
Y201
Y203
X111
X112
X211
X212
MATRIX
CROSSPOINT
X2 X4 X8X1 X3 X5 X6 X7 X12
X9 X10
X11
X14
X16
X13
X15
X17
X18
X19
X20
Y2
Y4
Y1
Y3
X21
X22
X23
X24
MATR
IX
CROSSPOINT
X2 X4 X8X1 X3 X5 X6 X7 X9 X10
Y2
Y4
Y1
Y3
X11
X12
MATRIX
CROSSPOINT
40-510 Matrix 12x4
Supported by eBIRST
This product is supported by eBIRST which tests the switching system using an external tool. eBIRST provides a graphical output of its tests which includes an image showing the location of any defective relay. For more information on eBIRST see 93-000D.pdf
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Switching Specification
Switch Type: Ruthenium Reed
Max Switch Voltage: 150VDC/100VAC
Max Power:Max Switch Current:Max Carry Current:
20W1A1.2A
Initial Path ResistanceOn (single module):
Off (single module):Differential Thermal Offset:
<600mΩ (40-510/511)<1000mΩ (40-512)<800mΩ (40-513)>109Ω
<15µV
Operate Time:Release Time:
<0.5ms, 0.25ms typical<0.5ms, 0.25ms typical
Expected LifeLow power load:Full power load:
1x109 operations>5x106 operations
Isolation and Crosstalk (screened reed versions)
Crosstalk @1MHz: @10MHz: @25MHz:
62dB (typical) 42dB (typical) 40dB (typical)
Isolation @1MHz: @10MHz: @25MHz:
65dB (typical) 49dB (typical) 45dB (typical)
Product Order Codes
Single 12x4 Matrix, 1-Pole 40-510-021Single 12x4 Matrix, 2-Pole 40-510-022
Dual 12x4 Matrix, 1-Pole 40-511-021Dual 12x4 Matrix, 2-Pole 40-511-022
Single 12x8 Matrix, 1-Pole 40-512-021Single 12x8 Matrix, 2-Pole 40-512-022
Single 24x4 Matrix, 1-Pole 40-513-021Single 24x4 Matrix, 2-Pole 40-513-022
Options–S All 1-pole versions are available with screened reed
relays (e.g. 40-512-021-S)
Power Requirements
+3.3V +5V +12V -12V
0 400mA (typ 280mA) 0 0
Mechanical Characteristics
Single slot 3U PXI (CompactPCI card). Module weight: 280g (40-513-021) 260g (40-513-022) 3D models for all versions in a variety of popular file formats are available on request.
Connectors
PXI bus via 32-bit P1/J1 backplane connector.Signals via front panel 68-pin female micro-D connector, pin outs are in the operating manual.
PCB Layout for the 40-510 Matrix Module
Mating Connectors & CablingFor connection accessories for the 40-510 series please refer to the 90-015D 68-pin micro-D Connector Accessories data sheet where a complete list and documentation can be found for accessories, or refer to the Connection Solutions catalog.
Support Products
eBIRST Switching System Test ToolThis product is supported by the eBIRST test tools which simplify the identification of failed relays, the required eBIRST tools are below. For more information see eBIRST.
Product Test Tool AdapterAll Types 93-006-001 93-006-401
Spare Relay KitsKits of replacement relays are available for the majority of Pickering’s PXI switching products, simplifying servicing and reducing down-time.
Product Relay Kit40-510-021 91-100-00340-510-021-S 91-100-01140-510-022 91-100-00840-511-021 91-100-00340-511-021-S 91-100-01140-511-022 91-100-00840-512-021 91-100-00340-512-021-S 91-100-01140-512-022 91-100-00840-513-021 91-100-00340-513-021-S 91-100-01140-513-022 91-100-008
For further assistance, please contact your local Pickering sales office.
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ProgrammingPickering provide kernel, IVI and VISA (NI & Keysight) drivers which are compatible with all Microsoft supported versions of Windows and popular older versions. For a list of all supporting operating systems, please see: www.pickeringtest.com/os The VISA driver is also compatible with Real-Time Operating Systems such as LabVIEW RT. For other RTOS support contact Pickering. These drivers may be used with a variety of programming environments and applications including: Pickering Interfaces Switch Path Manager MTQ Testsolutions Tecap Test & Measurement Suite National Instruments products (LabVIEW, LabWindows/
CVI, Switch Executive, MAX, TestStand, VeriStand, etc.) Microsoft Visual Studio products (Visual Basic, Visual C+) Keysight VEE Mathworks Matlab Marvin ATEasy
Drivers for popular Linux distributions are available, other environments are also supported, please contact Pickering with specific enquiries.
Operating/Storage ConditionsOperating Conditions
Operating Temperature: Humidity: Altitude:
0°C to +55°C Up to 90% non-condensing 5000m
Storage and Transport ConditionsStorage Temperature: Humidity: Altitude:
-20°C to +75°C Up to 90% non-condensing 15000m
PXI & LXI Chassis CompatibilityCompatible with all chassis conforming to the 3U PXI and 3U cPCI specification. Compatible with Legacy and Hybrid peripheral slots in a 3U PXI Express chassis.Compatible with Pickering Interfaces LXI Modular Chassis. For information on driving your switching solution in an LXI environment refer to the LXI Product Guide.
PXI & CompactPCI ComplianceThe module is compliant with the PXI Specification 2.2. Local Bus, Trigger Bus and Star Trigger are not implemented.Uses a 33MHz 32-bit backplane interface.
Safety & CE ComplianceAll modules are fully CE compliant and meet applicable EU directives: Low-voltage safety EN61010-1:2001, EMC Immunity EN61000-6-1:2001, Emissions EN55011:1998.
Please refer to the 200 page Pickering Interfaces “Connection Solutions” catalog for the full list of connector/cabling options, including drawings, photos and specifications. Available in either print or as a download.Alternatively our web site has dynamically linked connector/cabling options, including pricing, for all Pickering PXI modules.
Ever wondered what PXI is all about?Pickering Interfaces’ “PXImate” explains the basics of PXI and provides useful data for engineers working on switch based test systems.The PXImate is available free on request from the Pickering website.
“The Big PXI Catalog” gives full details of Pickering’s entire range of PXI switch modules, instrument modules and support products.At over 500 pages, the Big PXI Catalog is available on request or can be downloaded from the Pickering website.
The “PXI Module Map” - a simple fold-out selection guide to all Pickering’s 1000+ PXI Modules.
The “Cables & Connectors Map” - outlines the cable and connector options available for all PXI Modules.
Latest DetailsPlease refer to our Web Site for Latest Product Details.www.pickeringtest.com
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SECTION 2 - TECHNICAL DESCRIPTION
FUNCTIONAL DESCRIPTION
A functional block diagram is provided in Figure 2.1. The Matrix Module is powered by a +5V input via Compact PCI connector J1. The interface to the user test equipment is via the front panel mounted 68-pin micro-D connector, J2. A bank of relays, which are either single pole, screened single pole or two pole depending on the module type are energised via control signals from storage registers U9 to U20. The storage registers are addressed by PCI bridge U1 to output the required signal. Module configuration, i.e. 12 x 4, 12 x 8, 24 x 4, etc, is determined by hardwired links and data stored in EEPROM U8. PCI Bridge U1 is configured by EEPROM U2.
Figure 2.1 - Matrix Module (40-510/511/512/513): Functional Block Diagram
68-PIN MICRO-D CONNECTOR
J2
STORAGEREGISTERSU9 TO U20
MODULECONFIGURATION
U6, U7 AND U8
PCI BRIDGEU1
PCI BRIDGECONFIGURATION
U2
TERMINATINGRESISTORSR5 TO R16
COMPACT PCIBUS
CONNECTORJ1
+5V
0V
RELAY COILSRELAY CONTACTS
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kg
PREOPERATION CHECKS (UNPACKING)
1. Check the module for transport damage and report any damage immediately to Pickering Interfaces. Do not attempt to install the product if any damage is evident.
2. Position the chassis relative to any other equipment the module(s) will connect with. Ensure the chassis is not connected to the electrical supply.
3. Ensure that the designated area for the chassis containing the module is of flat and solid construction to withstand and support the combined weight of the module(s) and chassis.
SECTION 3 - INSTALLATION
! Refer to the Warnings and Cautions at the front of this manual
Modular products require installation in a suitable PXI/LXI chassis. The module is designed for indoor use only.
Figure 3.1 - Installing the Module into a PXI/cPCI/LXI Chassis
PXI / LXI Chassis
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SOFTWARE INSTALLATION
First install the appropriate Pickering PXI switch card drivers by running the installer program Setup.exe (provided in a compressed zip file), either from the CD-ROM supplied, or by downloading the latest version from our website pickeringtest.com - the recommended method. Setup is accompanied by a ReadMe file containing additional installation information. A single installation covers all cards in the System 40, System 45 and System 50 ranges.
When installation completes, the installed drivers’ ReadMe file is offered for display. It can also be displayed later using a shortcut on the Programs>>Pickering menu.
If you are not a LabVIEW user you should choose the “full” version, and once that has been installed run the LabVIEW Runtime Engine installer via the shortcut on the Programs>>Pickering menu. In the absence of LabVIEW the Runtime Engine is required to support the Pickering Test Panels application.
!HARDWARE INSTALLATION ELECTRICAL CONNECTION (CHASSIS)
1. The chassis must be electrically installed in accordance with local regional electrical codes by a qualified engineer.
2. The chassis must be grounded.
Electrostatic discharge can damage the components on the module. To avoid such damage in handling the board refer to page VII.
Ensure that there is adequate ventilation.
The module should be installed in accordance with the following procedure:
1. Ensure that the system is turned OFF but still connected to mains so that it remains grounded.
2. Choose an appropriate slot in the rack.
3. Remove the blanking plate for the chosen slot.
4. Ensure that the injector/ejector handle is in its downward position. Align the module with the card guides on the top and bottom of the slot. Do not raise the injector/ejector handle whilst inserting the module as the module will not insert properly.
5. Hold the handle whilst slowly sliding the module into the card guides until the handle catches on the injector/ejector rail (refer to Figure 3.1).
6. Raise the injector/ejector handle until the module firmly seats into the backplane. The front panel of the module should be flush with the front panel of the chassis.
7. Secure the front panel of the module using both screws to the chassis front panel mounting rails.
8. In a system employing a remote control interface to connect an external controller to a PXI chassis or to link multiple chassis, power-up the system as follows:
a. For a system comprising an external controller and one chassis, power up the chassis before powering up the external controller.
b. For a system comprising more than one chassis, turn ON the last chassis in the system followed by the penultimate, etc, and finally turn ON the external controller or chassis containing the system controller.
9. For Pickering Interfaces modular LXI installation there is no requirement to use any particular power up sequence.
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Figure 3.3 - General Soft Front Panel Selector
TESTING OPERATION
After installation of the hardware and Pickering PXI Driver software package start the General Soft Front Panel (GSFP) using the desktop icon or via the Start menu (Start Menu-> Pickering Interfaces Ltd -> General Soft Front Panel).
A selector panel will appear, listing all installed Pickering PCI, PXI or LXI switch cards and resistor cards. Click on the card you wish to control, and a graphical control panel is presented allowing operation of the card. Panels can be opened simultaneously for all the installed cards.
More details how to use the GSFP can be found in the manual, via menu Help\Manual
Figure 3.2 - General Soft Front Panel Icon
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SECTION 4 - PROGRAMMING GUIDE
PROGRAMMING OPTIONS FOR PICKERING INTERFACES PXI CARDSSoftware drivers are supplied for Microsoft Windows operating systems, with specific support for the following development environments:
Microsoft Visual Studio (VB, C++, C#) Borland C++ National Instruments LabWindows/CVI National Instruments LabVIEW and LabVIEW RT
Windows drivers are supplied in the form of Dynamic Link Libraries, which should also be usable in any other development environment that supports them.
Some recent drivers developed for the LXI platform are capable of addressing both PXI and LXI domains. Such duality may be of help to users considering future migration from PXI based systems to LXI based systems, or indeed systems containing both PXI and LXI components.
Programming for PXI
A number of different Windows drivers are available to meet particular system requirements, and should none of these be suitable there is also the option of register-level programming. Drivers are generally ‘universal’, handling all models in the System 40, 45 and 50 ranges; however some models that are not compliant with the Ivi Swtch class cannot be used with the pi40iv IVI driver. The pipx40 and Pilpxi drivers are also applicable to certain models in the System 41 (PXI Instruments) range - see these drivers’ System 41 support list.
Please note that this documentation is available in its most up-to-date form as HTML help files, fully hyperlinked for easy access - both pipx40 and Pilpxi documents are included in the Pipx40vpp software installation.
IVI Driver for Windows - pi40ivThe pi40iv IVI (Interchangeable Virtual Instrument) driver supports all Pickering Interfaces PXI switch cards that are consistent with the Iviswtch class model - as are the great majority of cards in the System 40/45/50 ranges. It integrates well with LabWindows/CVI and LabVIEW, and is fully compatible with Switch Executive. It is also usable in general-purpose programming environments such as Visual C++ and Visual Basic.
Prior installation of the VISA and IviEngine from National Instruments are required for the correct installation and operation of this driver.
VISA Driver for Windows - pipx40The pipx40 driver conforms to the VISA (Virtual Instrument Software Architecture) standard for programmable instrumentation. Instrument control environments such as LabVIEW and LabWindows/CVI are based on VISA, and pipx40 support libraries are provided for them.
Prior installation of VISA from National Instruments is required for the operation of this driver.
Where VISA is available, pipx40 can also be used in general-purpose programming environments such as Visual C++ and Visual Basic. When IVI is not a system requirement this driver will often yield faster operation than the pi40iv driver.
Direct I/O Driver for Windows - PilpxiThe Pilpxi driver accesses cards directly, without using the VISA software layer, while offering similar overall functionality to pipx40. It is most commonly used in general-purpose programming environments such as Visual C++ and Visual Basic. Operating speed of the VISA and Direct I/O drivers is generally comparable.
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Register-level ProgrammingWhere the supplied drivers are not suitable, register-level programming can be employed - for example:
If the functionality of the supplied drivers does not meet the application requirements If security considerations demand full source-code for the application In development environments that have alternate mechanisms for accessing PCI bus For operating systems other than Windows
Programming for LXIWhen Pickering PXI cards are inserted into an LXI Modular Chassis a different set of drivers is available.
IVI Driver for Windows - pi40ivThe pi40iv IVI also supports LXI inserted cards simply by changing the resource string to address string to the appropriate address.
Direct I/O Driver for Windows - PiplxThe piplx driver is based on the PXI Direct I/O driver pilpxi, but with added functionality to deal with the added need to address the chassis using an IP address. It integrates well with LabWindows/CVI and LabVIEW, and is fully compatible with Switch Executive. It is also usable in general-purpose programming environments such as Visual C++ and Visual Basic.
Please note that this driver may also be used in the PXI domain. If the addressed card is in the local computer PCI/PXI system, commands will be passed through to the PXI Direct I/O driver. This mechanism allows the piplx driver to be used for both PXI and LXI cards.
The LXI format offers additional interface options not available in PXI :
.NETA .NET native driver is also available. Once again this may be used for both LXI and PXI card control.
SOAPPickering LXI products include a SOAP interface which is usable from a wide variety of platforms and languages.
SSHPickering LXI products include an SSH interface which allows remote command line access to control cards, or, using a suitable package, programmatic control.
The user is advised to visit the Pickering web site for further details of all the above drivers, where documentation, example programs, and further help with driver choice are available.
LabVIEW, LabWindows/CVI and Switch Executive are trademarks of National Instruments Corporation.
General Pickering Card ArchitectureWith most drivers, before programming a Pickering card it is important to understand the basic architecture of Pickering cards.
The switches on a Pickering card are organized into logical sub-units, each sub-unit containing a set of objects of similar type and use. These objects may be switches, digital outputs, digital inputs, resistors, power supplies etc, depending on the nature of the specific card.
For example a simple matrix card will usually contain a single sub-unit containing the switches arranged in a 2-dimensional array. However a similar card with additional isolating relays connected to the matrix will contain additional sub-units containing those isolation relays.
Low level drivers include functions to allow the programmer to query the card to ascertain the number of sub-units, and the size and type of each sub-unit.
For full details of the driver functions available the programmer should refer to the documentation provided.
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MODULE ARCHITECTURE 40-510
One sub-unit is used to control all the module’s relays as shown below. Enabling a particular bit closes the contacts of that crosspoint and creates a signal path. For 2-pole versions, both poles are closed simultaneously.
40-510-021 12x4 Matrix (48 x SPST)
Sub-Unit OpBit Bit
OpCrosspoint (Row,Column)
40-510-021 Signal Path (with relay energised)
1 1 1,1 X1 to Y11 2 1,2 X2 to Y11 3 1,3 X3 to Y11 4 1,4 X4 to Y11 5 1,5 X5 to Y11 6 1,6 X6 to Y11 7 1,7 X7 to Y11 8 1,8 X8 to Y11 9 1,9 X9 to Y11 10 1,10 X10 to Y11 11 1,11 X11 to Y11 12 1,12 X12 to Y11 13 2,1 X1 to Y21 14 2,2 X2 to Y21 15 2,3 X3 to Y21 16 2,4 X4 to Y21 17 2,5 X5 to Y21 18 2,6 X6 to Y21 19 2,7 X7 to Y21 20 2,8 X8 to Y21 21 2,9 X9 to Y21 22 2,10 X10 to Y21 23 2,11 X11 to Y21 24 2,12 X12 to Y21 25 3,1 X1 to Y31 26 3,2 X2 to Y31 27 3,3 X3 to Y31 28 3,4 X4 to Y31 29 3,5 X5 to Y31 30 3,6 X6 to Y31 31 3,7 X7 to Y31 32 3,8 X8 to Y31 33 3,9 X9 to Y31 34 3,10 X10 to Y31 35 3,11 X11 to Y31 36 3,12 X12 to Y31 37 4,1 X1 to Y41 38 4,2 X2 to Y41 39 4,3 X3 to Y41 40 4,4 X4 to Y41 41 4,5 X5 to Y41 42 4,6 X6 to Y41 43 4,7 X7 to Y41 44 4,8 X8 to Y41 45 4,9 X9 to Y41 46 4,10 X10 to Y41 47 4,11 X11 to Y41 48 4,12 X12 to Y4
The 40-510-021 is an array of 48 single pole relays, and the 40-510-022 an array of 48 double pole relays. In the default state all relays are open circuit. Energising a particular relay creates a signal path between its C and A terminals. The 40-510-021 module’s switching architecture is shown in its default state in the diagram below:
X2 X4 X8X1 X3 X5 X6 X7 X9 X10
Y2
Y4
Y1
Y3
X11
X12
MATRIX
CROSSPOINT
A1
C1
SPST Relay contacts
Page 4.4 MATRIX MODULE 40-510/511/512/513
pickeringSECTION 4 - PROGRAMMING GUIDE
X102
X104
X108
X101
X103
X105
X106
X107
X109
X110
Y102
Y104
Y101
Y103
X202
X204
X208
X201
X203
X205
X206
X207
X209
X210
Y202
Y204
Y201
Y203
X111
X112
X211
X212
MATRIX
CROSSPOINT
MODULE ARCHITECTURE 40-511
Two sub-units are used to control the module’s relays as shown below. Enabling a particular bit or crosspoint closes the contacts of that relay and creates a signal path. For 2-pole versions, both poles are closed simultaneously.
40-511-021 Dual 12x4 Matrix
(96 x SPST)
Sub-Unit OpBit Bit
OpCrosspoint (Row,Column)
40-511-021 Signal Path (with relay energised)
1 1 1,1 X101 to Y1011 2 1,2 X102 to Y1011 3 1,3 X103 to Y1011 4 1,4 X104 to Y1011 5 1,5 X105 to Y1011 6 1,6 X106 to Y1011 7 1,7 X107 to Y1011 8 1,8 X108 to Y1011 9 1,9 X109 to Y1011 10 1,10 X110 to Y1011 11 1,11 X111 to Y1011 12 1,12 X112 to Y1011 13 2,1 X101 to Y1021 14 2,2 X102 to Y1021 15 2,3 X103 to Y1021 16 2,4 X104 to Y1021 17 2,5 X105 to Y1021 18 2,6 X106 to Y1021 19 2,7 X107 to Y1021 20 2,8 X108 to Y1021 21 2,9 X109 to Y1021 22 2,10 X110 to Y1021 23 2,11 X111 to Y1021 24 2,12 X112 to Y1021 25 3,1 X101 to Y1031 26 3,2 X102 to Y1031 27 3,3 X103 to Y1031 28 3,4 X104 to Y1031 29 3,5 X105 to Y1031 30 3,6 X106 to Y1031 31 3,7 X107 to Y1031 32 3,8 X108 to Y1031 33 3,9 X109 to Y1031 34 3,10 X110 to Y1031 35 3,11 X111 to Y1031 36 3,12 X112 to Y1031 37 4,1 X101 to Y1041 38 4,2 X102 to Y1041 39 4,3 X103 to Y1041 40 4,4 X104 to Y1041 41 4,5 X105 to Y1041 42 4,6 X106 to Y1041 43 4,7 X107 to Y1041 44 4,8 X108 to Y1041 45 4,9 X109 to Y1041 46 4,10 X110 to Y1041 47 4,11 X111 to Y1041 48 4,12 X112 to Y104
The 40-511-021 is an array of 96 single pole relays, and the 40-511-022 an array of 96 double pole relays. In the default state all relays are open circuit. Energising a particular relay creates a signal path between its C and A terminals. The 40-511-021 module’s switching architecture is shown in its default state in the diagram below:
Sub-Unit OpBit Bit
OpCrosspoint (Row,Column)
40-511-021 Signal Path (with relay energised)
2 1 1,1 X201 to Y2012 2 1,2 X202 to Y2012 3 1,3 X203 to Y2012 4 1,4 X204 to Y2012 5 1,5 X205 to Y2012 6 1,6 X206 to Y2012 7 1,7 X207 to Y2012 8 1,8 X208 to Y2012 9 1,9 X209 to Y2012 10 1,10 X210 to Y2012 11 1,11 X211 to Y2012 12 1,12 X212 to Y2012 13 2,1 X201 to Y2022 14 2,2 X202 to Y2022 15 2,3 X203 to Y2022 16 2,4 X204 to Y2022 17 2,5 X205 to Y2022 18 2,6 X206 to Y2022 19 2,7 X207 to Y2022 20 2,8 X208 to Y2022 21 2,9 X209 to Y2022 22 2,10 X210 to Y2022 23 2,11 X211 to Y2022 24 2,12 X212 to Y2022 25 3,1 X201 to Y2032 26 3,2 X202 to Y2032 27 3,3 X203 to Y2032 28 3,4 X204 to Y2032 29 3,5 X205 to Y2032 30 3,6 X206 to Y2032 31 3,7 X207 to Y2032 32 3,8 X208 to Y2032 33 3,9 X209 to Y2032 34 3,10 X210 to Y2032 35 3,11 X211 to Y2032 36 3,12 X212 to Y2032 37 4,1 X201 to Y2042 38 4,2 X202 to Y2042 39 4,3 X203 to Y2042 40 4,4 X204 to Y2042 41 4,5 X205 to Y2042 42 4,6 X206 to Y2042 43 4,7 X207 to Y2042 44 4,8 X208 to Y2042 45 4,9 X209 to Y2042 46 4,10 X210 to Y2042 47 4,11 X211 to Y2042 48 4,12 X212 to Y204
A1
C1
SPST Relay contacts
Page 4.5MATRIX MODULE 40-510/511/512/513
pickering SECTION 4 - PROGRAMMING GUIDE
MODULE ARCHITECTURE 40-512
One sub-unit is used to control all the module’s relays as shown below. Enabling a particular bit or crosspoint closes the contacts of that relay and creates a signal path. For 2-pole versions, both poles are closed simultaneously.
40-512-022 12x8 Matrix (96 x DPST)
Sub-Unit OpBit Bit
OpCrosspoint (Row,Column)
40-512-021 Signal Path (with relay energised)
1 1 1,1 X1 to Y11 2 1,2 X2 to Y11 3 1,3 X3 to Y11 4 1,4 X4 to Y11 5 1,5 X5 to Y11 6 1,6 X6 to Y11 7 1,7 X7 to Y11 8 1,8 X8 to Y11 9 1,8 X9 to Y11 10 1,10 X10 to Y11 11 1,11 X11 to Y11 12 1,12 X12 to Y11 13 2,1 X1 to Y21 14 2,2 X2 to Y21 15 2,3 X3 to Y21 16 2,4 X4 to Y21 17 2,5 X5 to Y21 18 2,6 X6 to Y21 19 2,7 X7 to Y21 20 2,8 X8 to Y21 21 2,9 X9 to Y21 22 2,10 X10 to Y21 23 2,11 X11 to Y21 24 2,12 X12 to Y21 25 3,1 X1 to Y31 26 3,2 X2 to Y31 27 3,3 X3 to Y31 28 3,4 X4 to Y31 29 3,5 X5 to Y31 30 3,6 X6 to Y31 31 3,7 X7 to Y31 32 3,8 X8 to Y31 33 3,9 X9 to Y31 34 3,10 X10 to Y31 35 3,11 X11 to Y31 36 3,12 X12 to Y31 37 4,1 X1 to Y41 38 4,2 X2 to Y41 39 4,3 X3 to Y41 40 4,4 X4 to Y41 41 4,5 X5 to Y41 42 4,6 X6 to Y41 43 4,7 X7 to Y41 44 4,8 X8 to Y41 45 4,9 X9 to Y41 46 4,10 X10 to Y41 47 4,11 X11 to Y41 48 4,12 X12 to Y4
The 40-512-021 is an array of 96 single pole relays, and the 40-512-022 an array of 96 double pole relays. In the default state all relays are open circuit. Energising a particular relay creates a signal path between its C and A terminals. The 40-512-022 module’s switching architecture is shown in its default state in the diagram below:
Sub-Unit OpBit Bit
OpCrosspoint (Row,Column)
40-512-021 Signal Path (with relay energised)
1 49 5,1 X1 to Y51 50 5,2 X2 to Y51 51 5,3 X3 to Y51 52 5,4 X4 to Y51 53 5,5 X5 to Y51 54 5,6 X6 to Y51 55 5,7 X7 to Y51 56 5,8 X8 to Y51 57 5,9 X9 to Y51 58 5,10 X10 to Y51 59 5,11 X11 to Y51 60 5,12 X12 to Y51 61 6,1 X1 to Y61 62 6,2 X2 to Y61 63 6,3 X3 to Y61 64 6,4 X4 to Y61 65 6,5 X5 to Y61 66 6,6 X6 to Y61 67 6,7 X7 to Y61 68 6,8 X8 to Y61 69 6,9 X9 to Y61 70 6,10 X10 to Y61 71 6,11 X11 to Y61 72 6,12 X12 to Y61 73 7,1 X1 to Y71 74 7,2 X2 to Y71 75 7,3 X3 to Y71 76 7,4 X4 to Y71 77 7,5 X5 to Y71 78 7,6 X6 to Y71 79 7,7 X7 to Y71 80 7,8 X8 to Y71 81 7,9 X9 to Y71 82 7,10 X10 to Y71 83 7,11 X11 to Y71 84 7,12 X12 to Y71 85 8,1 X1 to Y81 86 8,2 X2 to Y81 87 8,3 X3 to Y81 88 8,4 X4 to Y81 89 8,5 X5 to Y81 90 8,6 X6 to Y81 91 8,7 X7 to Y81 92 8,8 X8 to Y81 93 8,9 X9 to Y81 94 8,10 X10 to Y81 95 8,11 X11 to Y81 96 8,12 X12 to Y8
X2 X4 X8X1 X3 X5 X6 X7 X9 X10
Y2
Y4
Y8
Y1
Y3
Y5
Y6
Y7
X11
X12
2-POLE
CROSSPOINT
A1
C1
A2
C2
DPST Relay contacts
Page 4.6 MATRIX MODULE 40-510/511/512/513
pickeringSECTION 4 - PROGRAMMING GUIDE
MODULE ARCHITECTURE 40-513
One sub-unit is used to control all the module’s relays as shown below. Enabling a particular bit or crosspoint closes the contacts of that relay and creates a signal path. For 2-pole versions, both poles are closed simultaneously.
40-513-021 24x4 Matrix (96 x SPST)
Sub-Unit OpBit Bit
OpCrosspoint (Row,Column)
40-512-021 Signal Path (with relay energised)
1 1 1,1 X1 to Y11 2 1,2 X2 to Y11 3 1,3 X3 to Y11 4 1,4 X4 to Y11 5 1,5 X5 to Y11 6 1,6 X6 to Y11 7 1,7 X7 to Y11 8 1,8 X8 to Y11 9 1,9 X9 to Y11 10 1,10 X10 to Y11 11 1,11 X11 to Y11 12 1,12 X12 to Y11 13 1,13 X13 to Y11 14 1,14 X14 to Y11 15 1,15 X15 to Y11 16 1,16 X16 to Y11 17 1,17 X17 to Y11 18 1,18 X18 to Y11 19 1,19 X19 to Y11 20 1,20 X20 to Y11 21 1,21 X21 to Y11 22 1,22 X22 to Y11 23 1,23 X23 to Y11 24 1,24 X24 to Y11 25 2,1 X1 to Y21 26 2,2 X2 to Y21 27 2,3 X3 to Y21 28 2,4 X4 to Y21 29 2,5 X5 to Y21 30 2,6 X6 to Y21 31 2,7 X7 to Y21 32 2,8 X8 to Y21 33 2,9 X9 to Y21 34 2,10 X10 to Y21 35 2,11 X11 to Y21 36 2,12 X12 to Y21 37 2,13 X13 to Y21 38 2,14 X14 to Y21 39 2,15 X15 to Y21 40 2,16 X16 to Y21 41 2,17 X17 to Y21 42 2,18 X18 to Y21 43 2,19 X19 to Y21 44 2,20 X20 to Y21 45 2,21 X21 to Y21 46 2,22 X22 to Y21 47 2,23 X23 to Y21 48 2,24 X24 to Y2
The 40-513-021 is an array of 96 single pole relays, and the 40-513-022 an array of 96 double pole relays. In the default state all relays are open circuit. Energising a particular relay creates a signal path between its C and A terminals. The 40-513-021 module’s switching architecture is shown in its default state in the diagram below:
Sub-Unit OpBit Bit
OpCrosspoint (Row,Column)
40-512-021 Signal Path (with relay energised)
1 49 3,1 X1 to Y31 50 3,2 X2 to Y31 51 3,3 X3 to Y31 52 3,4 X4 to Y31 53 3,5 X5 to Y31 54 3,6 X6 to Y31 55 3,7 X7 to Y31 56 3,8 X8 to Y31 57 3,9 X9 to Y31 58 3,10 X10 to Y31 59 3,11 X11 to Y31 60 3,12 X12 to Y31 61 3,13 X13 to Y31 62 3,14 X14 to Y31 63 3,15 X15 to Y31 64 3,16 X16 to Y31 65 3,17 X17 to Y31 66 3,18 X18 to Y31 67 3,19 X19 to Y31 68 3,20 X20 to Y31 69 3,21 X21 to Y31 70 3,22 X22 to Y31 71 3,23 X23 to Y31 72 3,24 X24 to Y31 73 4,1 X1 to Y41 74 4,2 X2 to Y41 75 4,3 X3 to Y41 76 4,4 X4 to Y41 77 4,5 X5 to Y41 78 4,6 X6 to Y41 79 4,7 X7 to Y41 80 4,8 X8 to Y41 81 4,9 X9 to Y41 82 4,10 X10 to Y41 83 4,11 X11 to Y41 84 4,12 X12 to Y41 85 4,13 X13 to Y41 86 4,14 X14 to Y41 87 4,15 X15 to Y41 88 4,16 X16 to Y41 89 4,17 X17 to Y41 90 4,18 X18 to Y41 91 4,19 X19 to Y41 92 4,20 X20 to Y41 93 4,21 X21 to Y41 94 4,22 X22 to y41 95 4,23 X23 to Y41 96 4,24 X24 to Y4
X2 X4 X8X1 X3 X5 X6 X7 X12
X9 X10
X11
X14
X16
X13
X15
X17
X18
X19
X20
Y2
Y4
Y1
Y3
X21
X22
X23
X24
MATRIX
CROSSPOINT
A1
C1
SPST Relay contacts
Page 4.7MATRIX MODULE 40-510/511/512/513
pickering SECTION 4 - PROGRAMMING GUIDE
Using PIPX40setChannelStateViUInt32 sub_unit = 1; //select bank 1 (dual matrix) or whole matrix (single matrix) pipx40_setChannelState(vi, sub_unit, 1, VI_ON); // Operates the X1/Y1 relay pipx40_setChannelState(vi, sub_unit, 1, VI_OFF); // Releases the X1/Y1 relay pipx40_setChannelState(vi, sub_unit, 6, VI_ON); // Operates the X6/Y1 relay
setChannelPattern// Sub-unit is 48 bits wide, so 2 ViUInt32 value is needed to hold the entire pattern
ViUInt32 data[2]; data[0] = 1; // Sets lowest bit to 1, X1/Y1 relay pipx40_setChannelPattern( vi, sub_unit, data);
data[0] = 0x20; // Sets 6th bit, X6/Y1 relay //Allotherrelaysaresettooff pipx40_setChannelPattern( vi, sub_unit, data);
PROGRAMMING THE MODULEHere are examples of using the drivers with the 40-510 series of modules. These show sub-unit 1 being selected, which corresponds to the whole matrix of a single matrix module, or bank 1 of a dual matrix module. If bank 2 of a dual matrix were to be selected, sub-unit 2 would be specified.
Using PILPXITo operate a relay the user could use the simple OpCrosspoint, OpBit or the WriteSub commands
OpCrosspointDWORD sub_unit = 1; //select bank 1 (dual matrix) or whole matrix (single matrix) PIL_OpCrosspoint( card_num, sub_unit, 1, 1, 1); // Operates the X1/Y1 relay PIL_OpCrosspoint( card_num, sub_unit, 1, 1, 0); // Releases the X1/Y1 relay PIL_OpCrosspoint( card_num, sub_unit, 1, 6, 1); // Operates the X6/Y1 relay
OpBit DWORD sub_unit = 1; //select bank 1 (dual matrix) or whole matrix (single matrix) PIL_OpBit( card_num, sub_unit, 1, 1); // Operates the X1/Y1 relay PIL_OpBit( card_num, sub_unit, 1, 0); // Releases the X1/Y1 relay PIL_OpBit( card_num, sub_unit, 6, 1); // Operates the X6/Y1 relay
WriteSub// Sub-unit is 48 bits wide, so 2 DWORD is needed to hold the pattern DWORD data[2]; data[0] = 1; // Sets lowest bit to 1, X1/Y1 relay PIL_WriteSub( card_num, sub_unit, data);
data[0] = 0x20; // Sets 6th bit, X6/Y1 relay //Allotherrelaysaresettooff PIL_WriteSub( card_num, sub_unit, data);
Page 4.8 MATRIX MODULE 40-510/511/512/513
pickeringSECTION 4 - PROGRAMMING GUIDE
Using pi40ivThe IVI driver has no special labelling for this card and treats the array of switches as a simple array, labelling the channels using the normal X,Y labelling tags.Note: the following example is for bank 1 of a dual matrix. Bank 1 is identified as A, bank 2 would be identified as B, and a single matrix would have no letter identifier.
pi40iv_Connect(vi, xA1, yA1); // Operates the X1/Y1 relay
pi40iv_Disconnect(vi, xA1, yA1); // Releases the X1/Y1 relay
pi40iv_Connect(vi, xA6, yA1); // Operates the X6/Y1 relay
The IVI Swtch driver specification contains no bulk setting capabilities.
Page 5.1MATRIX MODULE 40-510/511/512/513
pickering SECTION 5 - CONNECTOR INFORMATION
SECTION 5 - CONNECTOR INFORMATION
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110
987654321
X1.1X2.1X3.1X4.1X5.1X6.1X7.1X8.1X9.1
X10.1X11.1X12.1
Y1.1Y2.1Y3.1Y4.1
------------------
X1.2X2.2X3.2X4.2X5.2X6.2X7.2X8.2X9.2X10.2X11.2X12.2Y1.2Y2.2Y3.2Y4.2GND----------------GND
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110
987654321
X1X2X3X4X5X6X7X8X9
X10X11X12
Y1Y2Y3Y4
------------------
----------------GND----------------GND
40-510-022 40-510-021
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110
987654321
X1X2X3X4X5X6X7X8X9
X10X11X12
Y1Y2Y3Y4
------------------
SSSSSSSSSSSSSSSSGND----------------GND
40-510-021-S
Figure 5.1 - Matrix Module 40-510: Pinouts (68-pin Female Micro-D Connector Viewed From Front of Module)
Page 5.2 MATRIX MODULE 40-510/511/512/513
pickeringSECTION 5 - CONNECTOR INFORMATION
Figure 5.2 - Matrix Module 40-511: Pinouts (68-pin Female Micro-D Connector Viewed From Front of Module)
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110
987654321
X101.1X102.1X103.1X104.1X105.1X106.1X107.1X108.1X109.1X110.1X111.1X112.1Y101.1Y102.1Y103.1Y104.1
-X201.1X202.1X203.1X204.1X205.1X206.1X207.1X208.1X209.1X210.1X211.1X212.1Y201.1Y202.1Y203.1Y204.1
-
X101.2X102.2X103.2X104.2X105.2X106.2X107.2X108.2X109.2X110.2X111.2X112.2Y101.2Y102.2Y103.2Y104.2GNDX201.2X202.2X203.2X204.2X205.2X206.2X207.2X208.2X209.2X210.2X211.2X212.2Y201.2Y202.2Y203.2Y204.2GND
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110
987654321
40-511-022
X101X102X103X104X105X106X107X108X109X110X111X112Y101Y102Y103Y104
-X201X202X203X204X205X206X207X208X209X210X211X212Y201Y202Y203Y204
-
----------------GND----------------GND
40-511-021
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110
987654321
X101X102X103X104X105X106X107X108X109X110X111X112Y101Y102Y103Y104
-X201X202X203X204X205X206X207X208X209X210X211X212Y201Y202Y203Y204
-
SSSSSSSSSSSSSSSSGNDSSSSSSSSSSSSSSSSGND
40-511-021-S
Page 5.3MATRIX MODULE 40-510/511/512/513
pickering SECTION 5 - CONNECTOR INFORMATION
Figure 5.3 - Matrix Module 40-512: Pinouts(68-pin Female Micro-D Connector Viewed From Front of Module)
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110987654321
X1.1X2.1X3.1X4.1X5.1X6.1X7.1X8.1X9.1X10.1X11.1X12.1Y1.1Y2.1Y3.1Y4.1
-------------
Y5.1Y6.1Y7.1Y8.1
-
X1.2X2.2X3.2X4.2X5.2X6.2X7.2X8.2X9.2X10.2X11.2X12.2Y1.2Y2.2Y3.2Y4.2GND------------Y5.2Y6.2Y7.2Y8.2GND
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110987654321
X1X2X3X4X5X6X7X8X9X10X11X12Y1Y2Y3Y4-------------
Y5Y6Y7Y8-
----------------GND----------------GND
40-512-022 40-512-021
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110987654321
X1X2X3X4X5X6X7X8X9X10X11X12Y1Y2Y3Y4-------------
Y5Y6Y7Y8-
SSSSSSSSSSSSSSSSGND------------SSSSGND
40-512-021-S
Page 5.4 MATRIX MODULE 40-510/511/512/513
pickeringSECTION 5 - CONNECTOR INFORMATION
Figure 3.4 - Matrix Module 40-513: Pinouts (68-pin Female Micro-D Connector Viewed From Front of Module)
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110987654321
X1.1X2.1X3.1X4.1X5.1X6.1X7.1X8.1X9.1X10.1X11.1X12.1Y1.1Y2.1Y3.1Y4.1
-X13.1X14.1X15.1X16.1X17.1X18.1X19.1X20.1X21.1X22.1X23.1X24.1Y1.1Y2.1Y3.1Y4.1
-
X1.2X2.2X3.2X4.2X5.2X6.2X7.2X8.2X9.2X10.2X11.2X12.2Y1.2Y2.2Y3.2Y4.2GNDX13.2X14.2X15.2X16.2X17.2X18.2X19.2X20.2X21.2X22.2X23.2X24.2Y1.2Y2.2Y3.2Y4.2GND
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110987654321
40-513-022
X1X2X3X4X5X6X7X8X9X10X11X12Y1Y2Y3Y4-
X13X14X15X16X17X18X19X20X21X22X23X24Y1Y2Y3Y4-
----------------GND----------------GND
40-513-021
68676665646362616059585756555453525150494847464544434241403938373635
34333231302928272625242322212019181716151413121110987654321
X1X2X3X4X5X6X7X8X9X10X11X12Y1Y2Y3Y4-
X13X14X15X16X17X18X19X20X21X22X23X24Y1Y2Y3Y4-
SSSSSSSSSSSSSSSSGNDSSSSSSSSSSSSSSSSGND
40-513-021-S
MATRIX MODULE 40-510/511/512/513 Page 6.1
pickering SECTION 6 - TROUBLE SHOOTING
REED RELAY MODULE 40-110/115/120/125 Page 6.1
pickering SECTION 6 - TROUBLE SHOOTING
INSTALLATION PROBLEMSThe Plug & Play functionality of Pickering switch cards generally ensures trouble-free installation.
If you do experience any installation problems you should first ensure that all cards are properly seated in their slots. Improperly mated cards may go undetected by the operating system, or may be detected as a card of an unknown type. They can also cause the computer to freeze at various stages in the boot sequence.
If your system employs a remote control interface you should check the integrity of all remote control interface links. When the system is powered up, and during Windows start-up, you should expect to see periodic activity on the remote control interface RX/TX (yellow) indicators, clearing to leave only the PWR/LNK (green) LEDs illuminated. The RX/TX indicators should show activity when you attempt to access a card.
DIAGNOSTIC UTILITYThe Pickering Diagnostic Utility (accessible through the Programs>>Pickering>>PXI Utilities menu) generates a diagnostic report of the system’s PCI configuration, highlighting any potential configuration problems. Specific details of all installed Pickering switch cards are included. All the installed Pickering switch cards should be listed in the “Pilpxi information” section - if one or more cards is missing it may be possible to determine the reason by referring to the PCI configuration dump contained in the report, but interpretation of this information is far from straightforward, and the best course is to contact Pickering support: [email protected], if possible including a copy of the diagnostic report.
In the “VISA information” section, if VISA is not installed its absence will be reported. This does not affect operation using the Direct I/O driver, and is not a problem unless you wish to use VISA. VISA is a component of National Instruments LabWindows/CVI and LabVIEW, or is available as a standalone environment.
If VISA is present and is of a sufficiently recent version, the section “Pipx40 information” should present a listing similar to “Pilpxi information”.
Please note that the Diagnostic Utility cannot access cards if they are currently opened by some other application, such as the Test Panels or Terminal Monitor.
SECTION 6 - TROUBLE SHOOTING
!Refer to the Warnings and Cautions at the front of this manual
SWITCHING SYSTEM TEST TOOLSPlease refer to Section 7 - Maintenance Information.
MATRIX MODULE 40-510/511/512/513Page 6.2
pickeringSECTION 6 - TROUBLE SHOOTING
THIS PAGE INTENTIONALLY BLANK
Page 7.1MATRIX MODULE 40-510/511/512/513
pickering SECTION 7 - MAINTENANCE INFORMATION
SECTION 7 - MAINTENANCE INFORMATION
Note: Module versions -022 utilise double pole relays in the relay positions shown in the tables. See Section 1.
Page 7.1REED RELAY MODULE 40-110/115/120/125
pickering SECTION 7 - MAINTENANCE INFORMATION
GENERAL CLEANING• Isolate the electrical power from the chassis and ensure that no user I/O signals are being applied.
• Wipe the product & chassis surfaces with a clean dry anti-static cloth only.
SOFTWARE UPDATEFor PXI modules operating in a PXI chassis, no module software updates are required. For the latest version of the driver please refer to our web site pickeringtest.com where links to our Software Download page will provide the latest version of the driver software for the various programming environments encountered.
For PXI modules which are supported in one of Pickering Interfaces’ Modular LXI Chassis (such as the 60-102B and 60-103B) no module software update is required. If the module was introduced after the LXI chassis was manufactured the module may not be recognized, in this case the chassis firmware may need upgrading. This is a simple process which is described in the manual for the Modular LXI Chassis.
SWITCHING SYSTEM TEST TOOLSWe recommend the use of eBIRST to provide a check of the correct operation of relays and to identify the location of any faulty relay. For more information on eBIRST click here.
SECTION 7 - MAINTENANCE INFORMATION
PERIODIC MAINTENANCEThis product and its corresponding chassis do not require any periodic maintenance.
!Refer to the Warnings and Cautions at the front of this manual
RELAY LOOK-UP TABLESThe following pages provide a cross reference between the signal paths of the product and the physical relays on the PCB. The tables can be used in the fault finding process and should be used in conjunction with the corresponding PCB layout diagrams to identify the position of faulty relays. Users of eBIRST switching system test tools do not need to use this information to locate faulty relays.
Page 7.2 MATRIX MODULE 40-510/511/512/513
pickeringSECTION 7 - MAINTENANCE INFORMATION
Figure 7.1 - Matrix Module 40-510-021/022:Component Layout
U1
U2
U3
U4
U6
U7
U8
U10
U11
U12
U13
U14
U9
R1
R2
R5
R6R7R8R9
R10R11R12
R13R14
C1 C2
++
R4
C3
C4
C5
C6
C7
C8C9
C10
C11
C12
C13
C15C16
C14
C17
C18
C19 C20
C21 C22
C23 C24
pickering
1
C26 U5
R3
R15R16
U15
U16
U17
U18
U20spare relays
RL97RL98
200r008/98
123456789
101112131415161718192021222324
Lk1 Lk3Lk4
Lk5Lk6
Lk7Lk8
A B C D1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
C25 C26
C27 C28
C29 C30
Lk2
U19
J2
J1
A1 B1 C1 D1A2 B2 C2 D2A3 B3 C3 D3A4 B4 C4 D4A5 B5 C5 D5A6 B6 C6 D6A7 B7 C7 D7A8 B8 C8 D8A9 B9 C9 D9
A10 B10 C10 D10A11 B11 C11 D11A12 B12 C12 D12
SPARESPARE
TABLE 7.1 - Single 12 x 4 Matrix 40-510-021: Relay Numbering
Matrix Module 40-510-021: Signal paths (with relay energised) Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint
A1 1 X1,Y1 B1 13 X1,Y2 C1 25 X1,Y3 D1 37 X1,Y4
A2 2 X2,Y1 B2 14 X2,Y2 C2 26 X2,Y3 D2 38 X2,Y4
A3 3 X3,Y1 B3 15 X3,Y2 C3 27 X3,Y3 D3 39 X3,Y4
A4 4 X4,Y1 B4 16 X4,Y2 C4 28 X4,Y3 D4 40 X4,Y4
A5 5 X5,Y1 B5 17 X5,Y2 C5 29 X5,Y3 D5 41 X5,Y4
A6 6 X6,Y1 B6 18 X6,Y2 C6 30 X6,Y3 D6 42 X6,Y4
A7 7 X7,Y1 B7 19 X7,Y2 C7 31 X7,Y3 D7 43 X7,Y4
A8 8 X8,Y1 B8 20 X8,Y2 C8 32 X8,Y3 D8 44 X8,Y4
A9 9 X9,Y1 B9 21 X9,Y2 C9 33 X9,Y3 D9 45 X9,Y4
A10 10 X10,Y1 B10 22 X10,Y2 C10 34 X10,Y3 D10 46 X10,Y4
A11 11 X11,Y1 B11 23 X11,Y2 C11 35 X11,Y3 D11 47 X11,Y4
A12 12 X12,Y1 B12 24 X12,Y2 C12 36 X12,Y3 D12 48 X12,Y4
Page 7.3MATRIX MODULE 40-510/511/512/513
pickering SECTION 7 - MAINTENANCE INFORMATION
Figure 7.2 - Matrix Module 40-511-021/022:Component Layout
U1
U2
U3
U4
U6
U7
U8
U10
U11
U12
U13
U14
U9
R1
R2
R5
R6R7R8R9
R10R11R12
R13R14
C1 C2
++
R4
C3
C4
C5
C6
C7
C8C9
C10
C11
C12
C13
C15C16
C14
C17
C18
C19 C20
C21 C22
C23 C24
pickering
1
C26 U5
R3
R15R16
U15
U16
U17
U18
U20spare relays
RL97RL98
200r008/98
123456789
101112131415161718192021222324
Lk1 Lk3Lk4
Lk5Lk6
Lk7Lk8
A B C D1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
C25 C26
C27 C28
C29 C30
Lk2
U19
J2
J1
A1 B1 C1 D1A2 B2 C2 D2A3 B3 C3 D3A4 B4 C4 D4A5 B5 C5 D5A6 B6 C6 D6A7 B7 C7 D7A8 B8 C8 D8A9 B9 C9 D9
A10 B10 C10 D10A11 B11 C11 D11A12 B12 C12 D12
A13 B13 C13 D13A14 B14 C14 D14A15 B15 C15 D15A16 B16 C16 D16A17 B17 C17 D17A18 B18 C18 D18A19 B19 C19 D19A20 B20 C20 D20A21 B21 C21 D21A22 B22 C22 D22A23 B23 C23 D23A24 B24 C24 D24
SPARESPARE
TABLE 7.2 - Dual 12 x 4 Matrix 40-511-021: Relay Numbering
Matrix Module 40-511-021: Bank 1 Signal paths (with relay energised) Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint
A1 1 X101,Y101 B1 13 X101,Y102 C1 25 X101,Y103 D1 37 X101,Y104
A2 2 X102,Y101 B2 14 X102,Y102 C2 26 X102,Y103 D2 38 X102,Y104
A3 3 X103,Y101 B3 15 X103,Y102 C3 27 X103,Y103 D3 39 X103,Y104
A4 4 X104,Y101 B4 16 X104,Y102 C4 28 X104,Y103 D4 40 X104,Y104
A5 5 X105,Y101 B5 17 X105,Y102 C5 29 X105,Y103 D5 41 X105,Y104
A6 6 X106,Y101 B6 18 X106,Y102 C6 30 X106,Y103 D6 42 X106,Y104
A7 7 X107,Y101 B7 19 X107,Y102 C7 31 X107,Y103 D7 43 X107,Y104
A8 8 X108,Y101 B8 20 X108,Y102 C8 32 X108,Y103 D8 44 X108,Y104
A9 9 X109,Y101 B9 21 X109,Y102 C9 33 X109,Y103 D9 45 X109,Y104
A10 10 X110,Y101 B10 22 X110,Y102 C10 34 X110,Y103 D10 46 X110,Y104
A11 11 X111,Y101 B11 23 X111,Y102 C11 35 X111,Y103 D11 47 X111,Y104
A12 12 X112,Y101 B12 24 X112,Y102 C12 36 X112,Y103 D12 48 X112,Y104
Matrix Module 40-511-021: Bank 2 Signal paths (with relay energised) Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint
A13 1 X201,Y201 B13 13 X201,Y202 C13 25 X201,Y203 D13 37 X201,Y204
A14 2 X202,Y201 B14 14 X202,Y202 C14 26 X202,Y203 D14 38 X202,Y204
A15 3 X203,Y201 B15 15 X203,Y202 C15 27 X203,Y203 D15 39 X203,Y204
A16 4 X204,Y201 B16 16 X204,Y202 C16 28 X204,Y203 D16 40 X204,Y204
A17 5 X205,Y201 B17 17 X205,Y202 C17 29 X205,Y203 D17 41 X205,Y204
A18 6 X206,Y201 B18 18 X206,Y202 C18 30 X206,Y203 D18 42 X206,Y204
A19 7 X207,Y201 B19 19 X207,Y202 C19 31 X207,Y203 D19 43 X207,Y204
A20 8 X208,Y201 B20 20 X208,Y202 C20 32 X208,Y203 D20 44 X208,Y204
A21 9 X209,Y201 B21 21 X209,Y202 C21 33 X209,Y203 D21 45 X209,Y204
A22 10 X210,Y201 B22 22 X210,Y202 C22 34 X210,Y203 D22 46 X210,Y204
A23 11 X211,Y201 B23 23 X211,Y202 C23 35 X211,Y203 D23 47 X211,Y204
A24 12 X212,Y201 B24 24 X212,Y202 C24 36 X212,Y203 D24 48 X212,Y204
Page 7.4 MATRIX MODULE 40-510/511/512/513
pickeringSECTION 7 - MAINTENANCE INFORMATION
Figure 7.3 - Matrix Module 40-512-021/022:Component Layout
U1
U2
U3
U4
U6
U7
U8
U10
U11
U12
U13
U14
U9
R1
R2
R5
R6R7R8R9
R10R11R12
R13R14
C1 C2
++
R4
C3
C4
C5
C6
C7
C8C9
C10
C11
C12
C13
C15C16
C14
C17
C18
C19 C20
C21 C22
C23 C24
pickering
1
C26 U5
R3
R15R16
U15
U16
U17
U18
U20spare relays
RL97RL98
200r008/98
123456789
101112131415161718192021222324
Lk1 Lk3Lk4
Lk5Lk6
Lk7Lk8
A B C D1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
C25 C26
C27 C28
C29 C30
Lk2
U19
J2
J1
A1 B1 C1 D1A2 B2 C2 D2A3 B3 C3 D3A4 B4 C4 D4A5 B5 C5 D5A6 B6 C6 D6A7 B7 C7 D7A8 B8 C8 D8A9 B9 C9 D9
A10 B10 C10 D10A11 B11 C11 D11A12 B12 C12 D12
A13 B13 C13 D13A14 B14 C14 D14A15 B15 C15 D15A16 B16 C16 D16A17 B17 C17 D17A18 B18 C18 D18A19 B19 C19 D19A20 B20 C20 D20A21 B21 C21 D21A22 B22 C22 D22A23 B23 C23 D23A24 B24 C24 D24
SPARESPARE
TABLE 7.3 - Single 12 x 8 Matrix 40-512-021: Relay Numbering
Matrix Module 40-512-021: Signal paths (with relay energised) Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint
A1 1 X1,Y1 B1 13 X1,Y2 C1 25 X1,Y3 D1 37 X1,Y4
A2 2 X2,Y1 B2 14 X2,Y2 C2 26 X2,Y3 D2 38 X2,Y4
A3 3 X3,Y1 B3 15 X3,Y2 C3 27 X3,Y3 D3 39 X3,Y4
A4 4 X4,Y1 B4 16 X4,Y2 C4 28 X4,Y3 D4 40 X4,Y4
A5 5 X5,Y1 B5 17 X5,Y2 C5 29 X5,Y3 D5 41 X5,Y4
A6 6 X6,Y1 B6 18 X6,Y2 C6 30 X6,Y3 D6 42 X6,Y4
A7 7 X7,Y1 B7 19 X7,Y2 C7 31 X7,Y3 D7 43 X7,Y4
A8 8 X8,Y1 B8 20 X8,Y2 C8 32 X8,Y3 D8 44 X8,Y4
A9 9 X9,Y1 B9 21 X9,Y2 C9 33 X9,Y3 D9 45 X9,Y4
A10 10 X10,Y1 B10 22 X10,Y2 C10 34 X10,Y3 D10 46 X10,Y4
A11 11 X11,Y1 B11 23 X11,Y2 C11 35 X11,Y3 D11 47 X11,Y4
A12 12 X12,Y1 B12 24 X12,Y2 C12 36 X12,Y3 D12 48 X12,Y4
Matrix Module 40-512-021: Signal paths (with relay energised) - Continued Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint
A13 49 X1,Y5 B13 61 X1,Y6 C13 73 X1,Y7 D13 85 X1,Y8
A14 50 X2,Y5 B14 62 X2,Y6 C14 74 X2,Y7 D14 86 X2,Y8
A15 51 X3,Y5 B15 63 X3,Y6 C15 75 X3,Y7 D15 87 X3,Y8
A16 52 X4,Y5 B16 64 X4,Y6 C16 76 X4,Y7 D16 88 X4,Y8
A17 53 X5,Y5 B17 65 X5,Y6 C17 77 X5,Y7 D17 89 X5,Y8
A18 54 X6,Y5 B18 66 X6,Y6 C18 78 X6,Y7 D18 90 X6,Y8
A19 55 X7,Y5 B19 67 X7,Y6 C19 79 X7,Y7 D19 91 X7,Y8
A20 56 X8,Y5 B20 68 X8,Y6 C20 80 X8,Y7 D20 92 X8,Y8
A21 57 X9,Y5 B21 69 X9,Y6 C21 81 X9,Y7 D21 93 X9,Y8
A22 58 X10,Y5 B22 70 X10,Y6 C22 82 X10,Y7 D22 94 X10,Y8
A23 59 X11,Y5 B23 71 X11,Y6 C23 83 X11,Y7 D23 95 X11,Y8
A24 60 X12,Y5 B24 72 X12,Y6 C24 84 X12,Y7 D24 96 X12,Y8
Page 7.5MATRIX MODULE 40-510/511/512/513
pickering SECTION 7 - MAINTENANCE INFORMATION
Figure 7.4 - Matrix Module 40-513-021/022:Component Layout
U1
U2
U3
U4
U6
U7
U8
U10
U11
U12
U13
U14
U9
R1
R2
R5
R6R7R8R9
R10R11R12
R13R14
C1 C2
++
R4
C3
C4
C5
C6
C7
C8C9
C10
C11
C12
C13
C15C16
C14
C17
C18
C19 C20
C21 C22
C23 C24
pickering
1
C26 U5
R3
R15R16
U15
U16
U17
U18
U20spare relays
RL97RL98
200r008/98
123456789
101112131415161718192021222324
Lk1 Lk3Lk4
Lk5Lk6
Lk7Lk8
A B C D1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
C25 C26
C27 C28
C29 C30
Lk2
U19
J2
J1
A1 B1 C1 D1A2 B2 C2 D2A3 B3 C3 D3A4 B4 C4 D4A5 B5 C5 D5A6 B6 C6 D6A7 B7 C7 D7A8 B8 C8 D8A9 B9 C9 D9
A10 B10 C10 D10A11 B11 C11 D11A12 B12 C12 D12
A13 B13 C13 D13A14 B14 C14 D14A15 B15 C15 D15A16 B16 C16 D16A17 B17 C17 D17A18 B18 C18 D18A19 B19 C19 D19A20 B20 C20 D20A21 B21 C21 D21A22 B22 C22 D22A23 B23 C23 D23A24 B24 C24 D24
SPARESPARE
TABLE 7.4 - Single 24 x 4 Matrix 40-513-021: Relay Numbering
Matrix Module 40-513-021: Signal paths (with relay energised) Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint
A1 1 X1,Y1 B1 25 X1,Y2 C1 49 X1,Y3 D1 73 X1,Y4
A2 2 X2,Y1 B2 26 X2,Y2 C2 50 X2,Y3 D2 74 X2,Y4
A3 3 X3,Y1 B3 27 X3,Y2 C3 51 X3,Y3 D3 75 X3,Y4
A4 4 X4,Y1 B4 28 X4,Y2 C4 52 X4,Y3 D4 76 X4,Y4
A5 5 X5,Y1 B5 29 X5,Y2 C5 53 X5,Y3 D5 77 X5,Y4
A6 6 X6,Y1 B6 30 X6,Y2 C6 54 X6,Y3 D6 78 X6,Y4
A7 7 X7,Y1 B7 31 X7,Y2 C7 55 X7,Y3 D7 79 X7,Y4
A8 8 X8,Y1 B8 32 X8,Y2 C8 56 X8,Y3 D8 80 X8,Y4
A9 9 X9,Y1 B9 33 X9,Y2 C9 57 X9,Y3 D9 81 X9,Y4
A10 10 X10,Y1 B10 34 X10,Y2 C10 58 X10,Y3 D10 82 X10,Y4
A11 11 X11,Y1 B11 35 X11,Y2 C11 59 X11,Y3 D11 83 X11,Y4
A12 12 X12,Y1 B12 36 X12,Y2 C12 60 X12,Y3 D12 84 X12,Y4
Matrix Module 40-513-021: Signal paths (with relay energised) - ContinuedRelay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint Relay
PositionRelay
Number Crosspoint Relay Position
Relay Number Crosspoint
A13 13 X13,Y1 B13 37 X13,Y2 C13 61 X13,Y3 D13 85 X13,Y4
A14 14 X14,Y1 B14 38 X14,Y2 C14 62 X14,Y3 D14 86 X14,Y4
A15 15 X15,Y1 B15 39 X15,Y2 C15 63 X15,Y3 D15 87 X15,Y4
A16 16 X16,Y1 B16 40 X16,Y2 C16 64 X16,Y3 D16 88 X16,Y4
A17 17 X17,Y1 B17 41 X17,Y2 C17 65 X17,Y3 D17 89 X17,Y4
A18 18 X18,Y1 B18 42 X18,Y2 C18 66 X18,Y3 D18 90 X18,Y4
A19 19 X19,Y1 B19 43 X19,Y2 C19 67 X19,Y3 D19 91 X19,Y4
A20 20 X20,Y1 B20 44 X20,Y2 C20 68 X20,Y3 D20 92 X20,Y4
A21 21 X21,Y1 B21 45 X21,Y2 C21 69 X21,Y3 D21 93 X21,Y4
A22 22 Y22,Y1 B22 46 X22,Y2 C22 70 X22,Y3 D22 94 X22,Y4
A23 23 X23,Y1 B23 47 X23,Y2 C23 71 X23,Y3 D23 95 X23,Y4
A24 24 X24,Y1 B24 48 X24,Y2 C24 72 X24,Y3 D24 96 X24,Y4
Page 7.6 MATRIX MODULE 40-510/511/512/513
pickeringSECTION 7 - MAINTENANCE INFORMATION
Figure 7.5 - Matrix Module 40-513-021