NI PXIe-1066DC User Manual
Contents
1. PXI PXI Trigger Bus Trigger Bus Buffer Bridge Buffer Bridge lt PXI Trigger Bus Segment 1 lt Pat rigger Bus Segment gt PXI Trigger Bus Segment 3 gt z s 8 ig jg lel det da al el det ol le el je lg gt lt o LI o LH o Ro LX sp sp s o Xl o 8 ys 5 s s B 3r jS 8 jS aparar 3 3 8 p s al S EE Ew ss ad _ z z ex ex amp l x amp lxlolglolzlolx olxolxlolxlolx o x x x x E Ed Ad a E E pa E E En Ep E E exe 000 a E a LE al jel ll jel le Ja le Jel Jel dE Je Jel lol te x lo jo jo jo lo jo a jo fo E jo o a a H H H H 1000000 9 Q G QD PXI Trigger Bus All slots on the same PXI bus segment share eight PXI trigger lines You can use these trigger lines in a variety of ways For example you can use triggers to synchronize the operation of several different PXI peripheral modules In other applications one module located in the system timing slot can control carefully timed sequences of operations performed on other modules in the system Modules can pass triggers to one another allowing precisely timed responses to asynchronous external events the system is monitoring or controlling The PXI trigger lines from adjacent PXI trigger bus segments can be routed in either direction across the PXI trigger bridges through buffers This allows you to send trigger signals to and receive trigger signals from eve2. Pin Z A B c D E F 7 GND RSV GND V I O RSV RSV GND 6 GND RSV RSV RSV GND RSV GND 5 GND RSV GND V I O RSV RSV GND 4 GND vao 64EN RSV GND RSV GND 3 GND PXI GND PXI LBR8 PXI LBR9 PXI_ GND LBR7 LBR10 2 GND PXI PXI_ UNC PXI LBL7 PXI LBL8 GND LBRII LBRI2 1 GND PXI_ GND PXI PXI_ PXI LBLI2 GND LBL9 LBL10 LBL11 Hybrid Slot Pinouts Table B 11 P1 Connector Pinout for the Hybrid Slot Pin Z A B C D E F 25 GND 5V REQ64 ENUM 3 3V 5V GND 24 GND AD 1 5V V I O AD O ACK644 GND 23 GND 3 3V AD 4 AD 3 5V AD 2 GND 22 GND AD 7 GND 3 3V AD 6 AD 5 GND 21 GND 3 3V AD 9 AD 8 M66EN C BE 0 GND 20 GND AD I2 GND V I O AD 11 AD 10 GND 19 GND 3 3V AD 15 AD 14 GND AD 13 GND 18 GND SERR GND 3 3V PAR C BE 1 GND 17 GND 3 3V IPMB_SCL IPMB_SDA GND PERR GND 16 GND DEVSEL GND V I O STOP LOCK GND 15 GND 3 3V FRAME IRDY BD_SEL TRDY GND 12 to 14 Key Area 11 GND AD 18 AD 17 AD 16 GND C BE 2 GND 10 GND AD 21 GND 3 3V AD 20 AD 19 GND B 8 ni com NI PXle 1066DC User Manual Table B 11 P1 Connector Pinout for the Hybrid Slot Continued Pin Z A B C D E F 9 GND C BE 3 IDSEL AD 23 GND AD 22 GND 8 GND AD 26 GND V I O AD 25 AD 24 GND 7 GND AD 30 AD 29 AD 28
3. B 6 ni com NI PXle 1066DC User Manual Table B 9 P1 Connector Pinout for the Peripheral Slot Continued Pin Z A B C D E F 5 GND BRSVPIAS BRSVPIBS RST GND GNT GND 4 GND IPMB PWR HEALTHY V I O INTP INTS GND 3 GND INTA INTB INTC 5V INTD GND 2 GND TCK 5V TMS TDO TDI GND 1 GND 5V 12V TRST 12V 5V GND Table B 10 P2 Connector Pinout for the Peripheral Slot Pin Z A B c D E F 22 GND GA4 GA3 GA2 GA1 GAO GND 21 GND PXI GND PXI LBR1 PXI LBR2 PXI LBR3 GND LBRO 20 GND PXI PXI LBR5 PXI LBLO GND PXI LBL1 GND LBR4 19 GND PXI GND PXI LBL3 PXI LBL4 PXI LBL5 GND LBL2 18 GND PXI PXI_ PXI_ GND PXI_ GND TRIG3 TRIG4 TRIGS TRIG6 17 GND PXI GND RSV PXI_ PXI_ GND TRIG2 STAR CLK10 16 GND PXI PXI_ RSV GND PXI_ GND TRIG1 TRIGO TRIG7 15 GND PXI GND RSV PXI LBL6 PXI LBR6 GND BRSVAI5 14 GND RSV RSV RSV GND RSV GND 13 GND RSV GND V I O RSV RSV GND 12 GND RSV RSV RSV GND RSV GND 11 GND RSV GND V I O RSV RSV GND 10 GND RSV RSV RSV GND RSV GND 9 GND RSV GND V I O RSV RSV GND 8 GND RSV RSV RSV GND RSV GND O National Instruments B 7 Appendix B Pinouts Table B 10 P2 Connector Pinout for the Peripheral Slot Continued
4. GND 6 GND PXI TRIG2 GND ATNLED PXI STAR PXI CLKIO GND 7 GND PXI TRIGI PXI TRIGO ATNSW GND PXI TRIG7 GND 8 GND RSV GND RSV PXI LBL6 PXI LBR6 GND B 10 ni com NI Services National Instruments provides global services and support as part of our commitment to your success Take advantage of product services in addition to training and certification programs that meet your needs during each phase of the application life cycle from planning and development through deployment and ongoing maintenance To get started register your product at ni com myproducts As a registered NI product user you are entitled to the following benefits Access to applicable product services Easier product management with an online account Receive critical part notifications software updates and service expirations Log in to your National Instruments ni com User Profile to get personalized access to your services Services and Resources Maintenance and Hardware Services NI helps you identify your systems accuracy and reliability requirements and provides warranty sparing and calibration services to help you maintain accuracy and minimize downtime over the life of your system Visit ni com services for more information Warranty and Repair All NI hardware features a one year standard warranty that is extendable up to five years NI offers repair services perfo
5. RSV RSV GND 9 RSV RSV GND RSV RSV GND RSV RSV GND 10 RSV RSV GND RSV RSV GND RSV RSV GND B 2 ni com NI PXle 1066DC User Manual Table B 3 XP3 Connector Pinout for the System Controller Slot Pin A B ab c D cd E F ef 1 RSV RSV GND RSV RSV GND RSV RSV GND 2 RSV RSV GND PWR_OK PS_ON GND LINKCAP PWRBTN GND 3 SMBDAT SMBCLK GND 4RefClk 4RefClk GND 2RefClk 2RefClk GND 4 RSV PERST GND 3RefClk 3RefClk GND IRefClk 1RefClk GND 5 1PETp0 1PETn0 GND IPERpO PERnO GND 1PETp1 1PETn1 GND 6 1PETp2 1PETn2 GND 1PERp2 1PERn2 GND 1PERp1 IPERnl GND 7 1PETp3 1PETn3 GND 1PERp3 1PERn3 GND 2PETpO 2PETnO GND 8 2PETpl 2PETnl GND 2PERp1 2PERn1 GND 2PERpO 2PERn0 GND 9 2PETp2 2PETn2 GND 2PERp2 2PERn2 GND 2PETp3 2PETn3 GND 10 3PETpO 3PETnO GND 3PERpO 3PERnO GND 2PERp3 2PERn3 GND Table B 4 XP4 Connector Pinout for the System Controller Slot Pin Z A B c D E F 1 GND GA4 GA3 GA2 GA1 GAO GND 2 GND 5Vaux GND SYSEN WAKE ALERT GND 3 GND RSV RSV RSV RSV RSV GND 4 GND RSV RSV RSV RSV RSV GND 5 GND PXI TRIG3 PXI TRIG4 PXI TRIG5 GND PXI TRIG6 GND 6 GND PXI TRIG2 GND RSV PXI STAR PXI CLKIO GND 7 GND PXI TRIGI PXI TRIGO RSV GND PXI TRIG7 GND 8 GND RSV GND RSV RSV PXI LBR6 GND National Instruments B 3 Appendix B Pinouts System Timing Slot
6. National Instruments A 9 Appendix A Specifications Figure A 2 NI PXle 1066DC Chassis Dimensions Bottom Dimensions are in inches millimeters A 10 ni com NI PXle 1066DC User Manual Figure A 3 shows the chassis rack mount kit components Figure A 3 NI Chassis Rack Mount Kit Components 1 Front Rack Mount Kit 2 NI Chassis 3 Optional Rear Rack Mount Kit Note For more information about rack mounting the NI PXIe 1066DC chassis refer to the printed installation guide included with your rack mount kit O National Instruments A 11 Pinouts This appendix describes the connector pinouts for the NI PXIe 1066DC chassis backplane Table B 1 shows the XP1 connector pinout for the System Controller slot Table B 2 shows the XP2 connector pinout for the System Controller slot Table B 3 shows the XP3 connector pinout for the System Controller slot Table B 4 shows the XP4 connector pinout for the System Controller slot Table B 5 shows the TP1 connector pinout for the System Controller slot Table B 6 shows the TP2 connector pinout for the System Timing slot Table B 7 shows the XP3 connector pinout for the System Timing slot
7. Y Y Y Y v Y cc cc W cc v a s lt S s zlx amp a a jo fo a jo jajaja Gildo es PS lt DX IX PX xax apa o ol o x oj IL e ero e oj e lollo X o x amp lol lol fal fowl fal Jo E uo uu ol Oo lala Ee O e A a a x a a x x x x x x x x c a oa a 0 0 O a amp HE x e m a el Jel Je i Jef Je x li al l l l l fe x lo a jo fo lal ia aj n reo laj a o H H H H 1000000 OVO OO PXle DSTAR 1 PXle DSTAR 2 PXle DSTAR 3 PXle DSTAR 4 PXle DSTAR 5 PXle DSTAR 6 O National Instruments 1 7 Chapter 1 Getting Started PXI Local Bus The PXI backplane local bus is a daisy chained bus that connects each peripheral slot with adjacent peripheral slots to the left and right as shown in Figure 1 4 The backplane routes the full 13 line PXI Local Bus between adjacent PXI slots slots 2 to 6 and 15 to 18 and PXI Local Bus 6 between all other slots Refer to Figure 1 4 for details The left local bus 6 from slot 1 is not routed anywhere and the right local bus signals from slot 18 are not routed anywhere Local bus signals may range from high speed TTL signals to analog signals as high as 42 V Initialization software uses the configuration information specific to each adjacent peripheral module to evaluate local bus compatibility Figure 1 4 PXI Trigger Bus and Local Bus Connectivity Diagram
8. 1066DC Chassis 1 Measurement amp Automation Explorer Jog Fie Edit View Tools Help 5 Q My System Bh open VISA TestPanel H gt Hide Help a gll Data Neighborhood a dif Devices and Interfaces Slot Model Name Name Serial No Manufacturer lassa Ba tda NIPXIe 8133 Embedded Cont National Instruments 2 lt Unknown Empty gt What can I do with umm tee 7 P PXI1Slot3 00D47FAB National Instruments Y PXI Express Inknowny Mf 3 NL PXI 6608 PXLiSlot3 E pana os RENA A You can view modules W 7 NIPXI 6259 PXI 1Slot7 E lt Unknown Empty gt within the chassis MOSES E RENE 7 NIPXI 6259 PXI1Siot7 0134123C National Instruments Host dian pr Vf 16 NL PXI 4204 PXI iSlot16 8 lt Unknown mpty gt qnd sunfiaure the ilouar A Network Devices 9 lt Unknownfemety gt amp JJ Serial amp Parallel wi io NIPXIe 5122 PXI1Slot10 00E960F7 National Instruments a Gal Traditional NI DAQ Legacy Devices 1 Unknown Empty g 44 Scales 12 lt Unknown Empty gt 6 Software 13 Unknown Empty amp il 1V1 Drivers 14 Unknown Empty amp 43 Remote Systems 15 lt Unknown Empty gt SC NI PXI 4204 PXI1Slot16 01536256 National Instruments 17 lt Unknown Empty gt 18 lt Unknown Empty gt us What Are Chassis Status Messages Chassis status messages report the chassis operational status If the chassis is experiencing reduced functionality or is inoperable a status message explains the cause What Is the pem Chassis
9. Inhibit signal to control the On Off standby state of the chassis the Inhibit Mode switch must be in the Manual position PXI CLK10 Connectors There are two SMA connectors on the front of the NI PXIe 1066DC chassis for PXI CLK10 The connectors are labeled IN and OUT You can use them for supplying the backplane with PXI CLK 10 or routing the backplane s PXI_CLK10 to another chassis Refer to the System Reference Clock section of Chapter 1 Getting Started for details about these signals PXI Express System Configuration with MAX The PXI Platform Services software included with your chassis automatically identifies your PXI Express system components to generate a pxiesys ini file You can configure your entire PXI system and identify PXI 1 chassis through Measurement amp Automation Explorer MAX included with your system controller MAX creates the pxiesys ini and pxisys ini file which define your PXI system parameters MAX also provides an interface to route and reserve triggers so dynamic routing through drivers such as DAQmx avoids double driving and potentially damaging trigger lines For more information about routing and reserving PXI triggers refer to KnowledgeBase 3TJDONDS at ni com support The configuration steps for single or multiple chassis systems are the same O National Instruments 2 15 Chapter 2 Installation and Configuration Figure 2 9 Multichassis Configuration in MAX Ci NI PXIe
10. LIFE SAVING OR LIFE SUSTAINING SYSTEMS OR SUCH OTHER MEDICAL DEVICES OR ANY OTHER APPLICATION IN WHICH THE FAILURE OF THE PRODUCT OR SERVICE COULD LEAD TO DEATH PERSONAL INJURY SEVERE PROPERTY DAMAGE OR ENVIRONMENTAL HARM COLLECTIVELY HIGH RISK USES FURTHER PRUDENT STEPS MUST BE TAKEN TO PROTECT AGAINST FAILURES INCLUDING PROVIDING BACK UP AND SHUT DOWN MECHANISMS NI EXPRESSLY DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY OF FITNESS OF THE PRODUCTS OR SERVICES FOR HIGH RISK USES Compliance Electromagnetic Compatibility Information This hardware has been tested and found to comply with the applicable regulatory requirements and limits for electromagnetic compatibility EMC as indicated in the hardware s Declaration of Conformity DoC These requirements and limits are designed to provide reasonable protection against harmful interference when the hardware is operated in the intended electromagnetic environment In special cases for example when either highly sensitive or noisy hardware is being used in close proximity additional mitigation measures may have to be employed to minimize the potential for electromagnetic interference While this hardware is compliant with the applicable regulatory EMC requirements there is no guarantee that interference will not occur in a particular installation To minimize the potential for the hardware to cause interference to radio and television reception or to experience unacceptable performance
11. THE CUSTOMER S SOLE REMEDIES AND SHALL APPLY EVEN IF SUCH REMEDIES FAIL OF THEIR ESSENTIAL PURPOSE EXCEPT AS EXPRESSLY SET FORTH HEREIN PRODUCTS ARE PROVIDED AS IS WITHOUT WARRANTY OF ANY KIND AND NI DISCLAIMS ALL WARRANTIES EXPRESSED OR IMPLIED WITH RESPECT TO THE PRODUCTS INCLUDING ANY IMPLIED WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE TITLE OR NON INFRINGEMENT AND ANY WARRANTIES THAT MAY ARISE FROM USAGE OF TRADE OR COURSE OF DEALING NI DOES NOT WARRANT GUARANTEE OR MAKE ANY REPRESENTATIONS REGARDING THE USE OF OR THE RESULTS OF THE USE OF THE PRODUCTS IN TERMS OF CORRECTNESS ACCURACY RELIABILITY OR OTHERWISE NI DOES NOT WARRANT THAT THE OPERATION OF THE PRODUCTS WILL BE UNINTERRUPTED OR ERROR FREE In the event that you and NI have a separate signed written agreement with warranty terms covering the products then the warranty terms in the separate agreement shall control Copyright Under the copyright laws this publication may not be reproduced or transmitted in any form electronic or mechanical including photocopying recording storing in an information retrieval system or translating in whole or in part without the prior written consent of National Instruments Corporation National Instruments respects the intellectual property of others and we ask our users to do the same NI software is protected by copyright and other intellectual property laws Where NI software may be used to reproduce softwar
12. at least one voltage is out of range Steady red Power supply has failed Power Supply 2 Off Power supply is not installed or is in standby Status Steady green Power supply is active and all voltages are within normal operating ranges Blinking red Power supply is active and at least one voltage is out of range Steady red Power supply has failed O National Instruments 2 13 Chapter 2 Installation and Configuration Each chassis fan assembly has an LED that shows the current health of that fan Table 2 3 describes the chassis fan LED behavior Table 2 3 Chassis Fan LED Behavior LED State Description Individual Fan Status Off Fan is not enabled Steady green Fan is operating normally Steady red Fan has failed Each power supply also has an LED that shows the power supply s current health Table 2 4 describes the power supply LED behaviors Table 2 4 Power Supply LED Behavior LEDs State Description Individual Power Supply Off Power supply is in standby aad Steady green Power supply is operating normally Steady red Power supply has failed Remote Inhibit and Fault Monitoring The NI PXIe 1066DC chassis supports remote inhibit and fault monitoring through a 4 pin terminal block on the chassis front panel Refer to Figure 1 1 Front View of the NI PXIe 1066DC Chassis with Optional Filler Panels to locate this terminal block Table 2 5 shows the termi
13. chassis Front CLK10 I O connectors e Switchless CLK10 routing Optional Features Front and rear rack mount kits Replacement power supply EMC filler panels e Slot blockers for improved cooling performance e Factory installation services 1 2 ni com NI PXle 1066DC User Manual Chassis Description Figures 1 1 and 1 2 show the key features ofthe NI PXIe 1066DC chassis front and back panels Figure 1 1 shows the front view of the NI PXIe 1066DC Figure 1 2 shows the rear view of the NI PXIe 1066DC Figure 1 1 Front View of the NI PXle 1066DC Chassis with Optional Filler Panels Lu gr 06 0 5 m ESAE ESAE Eu ffo M GEE SCE 1T B A o rjo eje e e sil Bjo e e if amp D li 9 1 Power Inhibit Switch 9 Removable Feet 15 PXI Express System 2 LEDs 10 Fan Door Latch Controller Slot 3 Inhibit Fault Connector 11 PXI Peripheral Slots 9x 16 DC Power Connector 4 Backplane Connectors 12 PXI Express System Timing Slot 17 Ethernet Port 5 CIk10 Input 13 PXI Express Hybrid Peripheral 18 Chassis Carry Handle 6 Clk10 Output Slots 4x 19 System Controller Expansion 7 Earth Ground Ter
14. degradation install and use this hardware in strict accordance with the instructions in the hardware documentation and the DoC If this hardware does cause interference with licensed radio communications services or other nearby electronics which can be determined by turning the hardware off and on you are encouraged to try to correct the interference by one or more of the following measures Reorient the antenna of the receiver the device suffering interference Relocate the transmitter the device generating interference with respect to the receiver Plugthe transmitter into a different outlet so that the transmitter and the receiver are on different branch circuits Some hardware may require the use of a metal shielded enclosure windowless version to meet the EMC requirements for special EMC environments such as for marine use or in heavy industrial areas Refer to the hardware s user documentation and the DoC for product installation requirements When the hardware is connected to a test object or to test leads the system may become more sensitive to disturbances or may cause interference in the local electromagnetic environment Operation of this hardware in a residential area is likely to cause harmful interference Users are required to correct the interference at their own expense or cease operation of the hardware Changes or modifications not expressly approved by National Instruments could void the user s righ
15. system controller slot description 1 5 pinouts XP1 connector table B 2 XP2 connector table B 2 XP3 connector table B 3 XP4 connector table B 3 system reference clock 1 9 default behavior figure 1 10 routing figure 1 10 specifications A 6 system timing slot description 1 6 pinouts TP1 connector table B 4 TP2 connector table B 4 XP3 connector table B 5 XP4 connector table B 5 l 4 ni com T trigger bus 1 8 U unpacking the NI PXIe 1066DC chassis 1 1
16. the NI PXIe 1066DC provides you the flexibility to use the following devices in a single PXI Express chassis PXI Express compatible products CompactPCI Express compatible 4 Link system controller products CompactPCI Express compatible Type 2 peripheral products PXI peripheral products Standard CompactPCI peripheral products System Controller Slot The system controller slot is Slot 1 ofthe chassis and is a 4 Link configuration system slot as defined by the CompactPCI Express and PXI Express specifications It has three system controller expansion slots for system controller modules that are wider than one slot These slots allow the system controller to expand to the left to prevent the system controller from using peripheral slots The backplane routes a x4 PCI Express link from the system controller slot to slots 7 and 8 and a x PCI Express link to a PCI Express to PCI Translation Bridge on the backplane The PCI Express to PCI Translation Bridge on the backplane provides a 32 bit 33MHz PCI bus to slots 2 to 7 The second PCI Translation Bridge provides PCI bus to slots 11 12 13 15 16 17 and 18 not to slot 14 A x4 link goes to the PXI Express switch and the PCI Express connectivity of slots 9 to 14 is connected through the switch The system controller slot also has connectivity to some PXI features such as PXI CLK10 PXI Star PXI Trigger Bus and PXI Local Bus 6 By default the system controller will contr
17. the cable to your Ethernet network Note The Ethernet controller can perform automatic crossover thus eliminating the need for crossover cables Through the remote monitoring Ethernet interface ofthe chassis you can access a web page with information about the current chassis operating parameters You can access this page in most browsers Enter the IP address or hostname currently assigned to the chassis into the browser s address bar Figure 2 8 shows an example of the web page Figure 2 8 Chassis Configuration Web Page Windows Internet Explorer aa es BMEREEERER ae iy Favorites PXI Chassis Configuration Network Configuration Fan Monitoring Temperature Monitoring Voltage Monitoring Chassis Information NATIONAL JW INSTRUMENTS Overview Vendor National Instruments Model PXle 1066 Firmware Revision 1 0 1f0 O National Instruments 2 11 Chapter 2 Installation and Configuration The Ethernet connector has two LEDs that indicate the current status of the Ethernet link Table 2 1 describes the behavior of these LEDs Table 2 1 Ethernet LED Behavior LED State Description ACT Link Off Link is not established Steady green Link is established Blinking Chassis is communicating with another device on the green network 10 100 Off 10 Mbps data rate is selected Steady green 100 Mbps data rate is selected Default Configuration Settings The chassis ships from
18. the chassis ini file For detailed information regarding initialization files refer to the PXI Express specification at www pxisa org 2 18 ni com Maintenance This chapter describes basic maintenance procedures you can perform on the NI PXIe 1066DC chassis N Caution Disconnect the power cable prior to servicing a NI PXIe 1066DC chassis Service Interval Clean dust from the chassis exterior and interior as needed based on the operating environment Periodic cleaning increases reliability Preparation The information in this section is designed for use by qualified service personnel Read the Read Me First Safety and Electromagnetic Compatibility document included with your kit before attempting any procedures in this chapter A Caution Many components within the chassis are susceptible to static discharge damage Service the chassis only in a static free environment Observe standard handling precautions for static sensitive devices while servicing the chassis Always wear a grounded wrist strap or equivalent while servicing the chassis Cleaning Cleaning procedures consist of exterior and interior cleaning of the chassis Refer to your module user documentation for information on cleaning the individual CompactPCI or PXI Express modules A Caution Always disconnect all power cables before cleaning or servicing the chassis Interior Cleaning Use a dry low velocity stream of air to clean the interior of t
19. the factory with the following default configuration settings DHCP with Auto IP fallback Default hostname as printed on the product label Chassis LED Indicators The NI PXIe 1066DC chassis has four main LEDs on the front panel next to the Power Inhibit switch Refer to Figure 1 1 Front View of the NI PXIe 1066DC Chassis with Optional Filler Panels to locate these LEDs 2 12 ni com NI PXle 1066DC User Manual You can use the four main LEDs to determine the chassis operating status quickly Table 2 2 describes the behavior of these LEDs Table 2 2 Main Chassis LED Behavior LED State Description Temperature Off Chassis is powered off Status A cmm Steady green Air intake temperature is within chassis operating range Blinking red Air intake temperature is outside of chassis operating range Steady red Air intake or exhaust temperature has reached critical limits Fan Status Off Chassis is powered off Steady green All chassis fans are enabled and operating normally Blinking red One or more chassis fans have failed but chassis can continue to operate Steady red One or more chassis fans have failed and chassis must shut itself down Power Supply 1 Off Power supply is not installed or is in standby Status Steady green Power supply is active and all voltages are within normal operating ranges Blinking red Power supply is active and
20. 066DC User Manual All outputs protected from short circuit and overload with automatic recovery Clamped at 25 to 40 above nominal output voltage Replacement in under 1 minute Force air circulation positive pressurization through six 150 cfm fans three sets of dual stacked fans with High Auto speed selector Bottom of module to top of module Bottom of chassis Along top of chassis Forced air circulation through integrated fan Rear of chassis Top of chassis 4600 m 570 mbar at 25 C ambient Note Fan speed selector must be set to High to meet the maximum altitude specification Pollution Degree For indoor use only Operating Environment Ambient temperature range Relative humidity range Storage Environment Ambient temperature range 0 to 50 C Tested in accordance with IEC 60068 2 1 and IEC 60068 2 2 Meets MIL PRF 28800F Class 3 temperature limits 10 to 9096 noncondensing Tested in accordance with IEC 60068 2 56 40 to 71 C Tested in accordance with IEC 60068 2 1 and IEC 60068 2 2 Meets MIL PRF 28800F Class 3 temperature limits National Instruments A 3 Appendix A Specifications Relative humidity range sse 5 to 95 noncondensing Tested in accordance with IEC 60068 2 56 Shock and Vibration Operational shock sse 30 g peak half sine 11 ms pulse Tested in accordance with IEC 60068 2 27 Meets MIL PRF 28800F Cl
21. 2 ni com NI PXle 1066DC User Manual Figure 2 1 NI PXle 1066DC Cooling Clearances Dimensions are in inches millimeters S Te g li o e e Te o 1 o o k o o o e e e e f o 9 o i o o o i o o o i HO a Os O National Instruments 2 3 Chapter 2 Installation and Configuration Figure 2 2 NI PXle 1066DC Vents ko foo 606 oo foo 60 9 o ol o o TAI o o o MP AZE MDS J 1 Ambient Temperature Sensor 3 Air Exhaust Vent 2 Air Intake Vents 4 Airflow Chassis Ambient Temperature Definition The chassis fan control system uses the intake air temperature as the input for controlling fan speeds when in Auto Fan Speed mode Because of this the chassis ambient temperature is defined as the temperature of the air just outside of the fan intake vents on the bottom of the chassis Note that this temperature may be higher than ambient room temperature depending on the surrounding equipment and or b
22. 7 6 lb With single power supply Chassis materials eese Sheet Aluminum 5052 H32 3003 H14 and 6061 T6 Extruded Aluminum 6060 T6 and Cold Rolled Steel PC ABS Santoprene Nylon Fimis cire reir tre ERR eens Conductive Clear Iridite on Aluminum Electroplated Nickel on Cold Rolled Steel Polyurethane Enamel A 8 ni com NI PXle 1066DC User Manual Figures A 1 and A 2 show the NI PXIe 1066DC chassis dimensions The holes shown are for the installation of the optional rack mount kits You can install those kits on the front or rear of the chassis depending on which end of the chassis you want to face toward the front of the instrument cabinet Notice that the front and rear chassis mounting holes size M4 are symmetrical Figure A 1 NI PXle 1066DC Chassis Dimensions Front and Side Dimensions are in inches millimeters 69 i ba 0 5 17 5 444 5 T 1i 127 puio TOTS 6 6 5 ms Or Om q nre 4 i _ ess rum rus eee eE XE i TOR TI 8 7 q 221 9 BRE A o o6 co o 9 res EE B E _ I 14 35 364 4 i 11 821 By a 1 23 632 49 9 wea i 1 3 qe 10 7 271 82 gt 9 NE s EE i 0 E P i o i o O o O 10 1 l Ul a 256 1 a a ii 17 8 452 7 gt
23. Caution Use care when selecting which fans to remove as an undesired system shut down can occur Do not remove both fans from the same column as this triggers a system shutdown N Caution Likewise do not remove the working fan from the same column as a failed fan as this also triggers a chassis shutdown N Caution Ifall fans are installed and operating normally you can remove any fan without causing the system to shut down 3 6 ni com NI PXle 1066DC User Manual Figure 3 3 shows the NI PXIe 1066DC chassis with a fan assembly removed Figure 3 3 NI PXle 1066DC Chassis with Fan Assembly Removed 1 Modular Fan Assembly 2 Fan Latch 3 Fan Door Complete the following steps to remove a fan assembly 1 Open the fan door by sliding the door latches inward and rotating the door down 2 Locate the fan to be removed A red LED indicates a failed fan Caution Ifthe fan is still spinning allow the fan to stop before handling The fan will not stop as long as it is in the airflow path 3 Press in the fan latch until it disengages and allows removal by pulling the fan module forward O National Instruments 3 7 Chapter 3 Maintenance Installation Ensure there is no visible damage to the new fan assembly before installing it Verify that there is no foreign material inside the connector on the new fan assembly The fans for this chassis are redundant and hot swappable You can install any fan with main DC power c
24. GND AD 27 GND 6 GND REQ GND 3 3V CLK AD 31 GND 5 GND BRSVPIAS BRSVPIB5 RST GND GNT GND 4 GND IPMB_ HEALTHY V I O INTP INTS GND PWR 3 GND INTA INTB INTC 5V INTD GND 2 GND TCK 5V TMS TDO TDI GND 1 GND 5V 12V TRST 12V 5V GND Table B 12 XP3 Connector Pinout for the Hybrid Slot Pin A B ab C D cd E F ef 1 PXIe C PXle CL GND PXle SY PXle SY GND PXle DS PXIe D GND LK100 K100 NC100 NC100 TARC STARC 2 PRSNT PWREN GND PXle DS PXle DST GND PXle DS PXIe D GND TARB ARB TARA STARA 3 SMBD SMBCL GND RSV RSV GND RSV RSV GND AT K 4 MPWR PERST GND RSV RSV GND 1RefClk IRefClk GND 5 1PETp0 IPETnO GND IPERpO IPERnO GND 1PETp1 PETn GND 6 IPETp2 IPETn2 GND IPERp2 IPERn2 GND IPERpI PERn GND 7 IPETp3 IPETn3 GND IPERp3 IPERn3 GND IPETp4 PETn4 GND 8 IPETpS IPETn5 GND IPERp5 1PERnS GND IPERp4 PERn4 GND 9 IPETp6 IPETn6 GND IPERp6 IPERn6 GND IPETp7 PETn7 GND 10 RSV RSV GND RSV RSV GND IPERp7 PERn7 GND National Instruments B 9 Appendix B Pinouts Table B 13 XP4 Connector Pinout for the Hybrid Slot Pin Z A B c D E F 1 GND GA4 GA3 GA2 GAI GAO GND 2 GND 5Vaux GND SYSEN WAKE ALERT GND 3 GND 12V 12V GND GND GND GND 4 GND GND GND 3 3V 3 3V 3 3V GND 5 GND PXI TRIG3 PXI TRIG4 PXI TRIG5 GND PXI TRIG6
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26. Instruments for replacement part information Installation of parts with those that are not direct replacements may cause harm to personnel operating the chassis Furthermore damage or fire may occur if replacement parts are unsuitable Modification Do not modify any part of the chassis from its original condition Unsuitable modifications may result in safety hazards O National Instruments 2 1 Chapter 2 Installation and Configuration Chassis Cooling Considerations The NI PXIe 1066DC chassis is designed to operate on a bench or in an instrument rack Regardless of the configuration you must provide the cooling clearances as outlined in the following sections Providing Adequate Clearance Apertures in the top bottom and rear of the chassis facilitate power supply and module cooling Air for module cooling enters through a fan intake in the bottom of the chassis and exits through the top of the chassis Air for cooling the power supplies enters through the rear of the chassis andexits through the top ofthe chassis Adequate clearance between the chassis and surrounding equipment or blockages must be maintained to ensure proper cooling of the chassis power supply as well as the modules plugged into the chassis These clearances are outlined in Figure 2 1 The vent locations for the NI PXIe 1066DC chassis are shown in Figure 2 2 Failure to provide these clearances may result in thermal related failures in the chassis or modules 2
27. MAX 2 16 PXIe DSTAR routing figure 1 7 PXIe SYNC CTRL 1 11 specifications A 7 using as restart figure 1 12 R rack mount kit dimensions figure A 11 rack mounting 2 6 kit 1 4 related documentation ix remote inhibit and fault connector pinout table 2 14 remote inhibit and fault monitoring 2 14 remote system monitoring 2 11 NI PXle 1066DC User Manual S safety and caution notices 2 1 safety ground connecting to 2 6 safety specifications A 4 service interval 3 1 setting fan speed 2 5 slot blocker installation 2 5 kit 1 4 specifications A 1 acoustic emissions sound power A 4 sound pressure level at operator position A 4 backplane A 6 10 MHz system reference clock PXI CLK10 A 6 100 MHz Reference Out BNC A 7 100 MHz system reference clock PXIe CLK100 and PXIe SYNCIO00 A 7 CE compliance A 5 chassis cooling A 3 dimensions figure A 9 A 10 electrical DC output A 1 electromagnetic compatibility A 5 environmental operating environment A 3 storage environment A 3 external clock source A 7 mechanical A 8 online product certification A 5 PXI differential star triggers PXIe DSTARA PXIe DSTARB PXIe DSTARC A 8 PXI star trigger A 8 PXle SYNC CTRL A 7 rack mount kit dimensions figure A 11 safety A 4 shock and vibration A 4 system reference clocks A 6 static discharge damage caution 3 1 system configuration file 2 18 O National Instruments 1 3 Index
28. Number General Slot View Triggers Used For x PXI 1 System Configuration 1 2 Launch MAX In the Configuration tree click the Devices and Interfaces branch to expand it If the PXI system controller has not yet been configured it is labeled PXI System Unidentified Right click this entry to display the pop up menu then select the appropriate system controller model from the Identify As submenu Click the PXI system controller The chassis or multiple chassis in a multichassis configuration is listed below it Identify each chassis by right clicking its entry then selecting the appropriate chassis model through the Identify As submenu Further expanding the PXI System branch shows all devices in the system that can be recognized by NI VISA When your system controller and all your chassis are identified the required pxisys ini file is complete The PXI specification allows for many combinations of PXI chassis and system modules To assist system integrators the manufacturers of PXI chassis and system modules must document the capabilities of their products PXI Express devices must provide a driver and ini file for identification These files are provided as part of the PXI Platform Services software included with your system controller The minimum documentation requirements for PXI 1 are contained in ini files which consist of ASCII text System integrators configuration utilities and device drive
29. PXI Express NI PXle 1066DC User Manual October 2014 7 NATIONAL 373547C 01 PEINSTRUMENTS Worldwide Technical Support and Product Information ni com Worldwide Offices Visit ni com niglobal to access the branch office web sites which provide up to date contact information support phone numbers email addresses and current events National Instruments Corporate Headquarters 11500 North Mopac Expressway Austin Texas 78759 3504 USA Tel 512 683 0100 For further support information refer to the MI Services appendix To comment on National Instruments documentation refer to the National Instruments web site at ni com info and enter the Info Code feedback 2012 2014 National Instruments All rights reserved Legal Information Limited Warranty This document is provided as is and is subject to being changed without notice in future editions For the latest version refer to ni com manuals NI reviews this document carefully for technical accuracy however NI MAKES NO EXPRESS OR IMPLIED WARRANTIES AS TO THE ACCURACY OF THE INFORMATION CONTAINED HEREIN AND SHALL NOT BE LIABLE FOR ANY ERRORS NI warrants that its hardware products will be free of defects in materials and workmanship that cause the product to fail to substantially conform to the applicable NI published specifications for one 1 year from the date of invoice For a period of ninety 90 days from the date of invoice NI warrants that 1 its software
30. Pinouts Table B 5 TP1 Connector Pinout for the System Timing Slot Pin A B ab C D cd E F ef 1 PXle PXle GND NC NC GND NC NC GND DSTARA3 DSTARA3 2 PXle PXIe DSTARCA4 GND PXI_ PXI_ GND NC NC GND DSTARC4 STARI2 STARI3 3 PXle PXIe DSTARB4 GND NC NC GND NC NC GND DSTARB4 4 PXle PXle GND NC NC GND NC NC GND DSTARA4 DSTARA4 5 PXIe_ PXIe_DSTARCS GND PXI_ PXI_ GND NC NC GND DSTARCS STARIA STARIS 6 PXle PXIe DSTARBS GND NC NC GND NC NC GND DSTARBS 7 PXIe_ PXle GND NC NC GND NC NC GND DSTARAS DSTARAS 8 PXIe_ PXIe DSTARC6 GND PXI_ RSV GND NC NC GND DSTARC6 STARI6 9 PXle PXIe DSTARB6 GND NC NC GND NC NC GND DSTARB6 10 PXle PXle GND NC NC GND NC NC GND DSTARA6 DSTARA6 Table B 6 TP2 Connector Pinout for the System Timing Slot Pin A B ab C D cd E F ef 1 NC NC GND PXle DS PXle DST GND PXle DST PXle DSTA GND TARC8 ARC8 ARB8 RB8 2 NC NC GND NC NC GND PXIe DST PXle DSTA GND ARA8 RA8 3 NC NC GND PXIe DS PXle DST GND NC NC GND TARCI ARCI 4 PXle DST PXle DST GND PXI_ PXI_ GND NC NC GND ARBI ARBI STARO STARI 5 PXle DST PXle DST GND PXI_ PXI_ GND NC NC GND ARAI ARAI STAR2 STAR3 6 PXle DST PXle DST GND PXI_ PXI GND NC NC GND ARC2 ARC2 STAR4 STARS 7 PXle DST PXle DST GND PXI_ PXI_ GND NC NC GND ARB2 ARB2 STAR6 STAR7 B 4 ni com NI PXle 1066DC User Manual Ta
31. TAR connected from the TP1 and TP2 connectors to the XP3 connector for each PXI Express peripheral or hybrid peripheral slot as well as routed back to the XP3 connector of the system timing slot as shown in Figure 1 3 The PXIe DSTAR pairs can be used for high speed triggering synchronization and clocking Refer to the PXI Express Specification for details The system timing slot also has a single ended PXI Star trigger connected to every slot Refer to Figure 1 3 for details The system timing slot has a pin PXI CLK10 IN through which a system timing module may source a 10MHz clock to which the backplane will phase lock Refer to the System Reference Clock section for details The system timing slot has a pin PXIe SYNC CTRL through which a system timing module can control the PXIe SYNC100 timing Refer to the PXI Express Specification and the PXIe SYNC CTRL section of this chapter for details Figure 1 3 PXle DSTAR and PXI Star Connectivity Diagram PXI STAR 16 PXI STAR 14 PXI STAR 15 PXI STAR 12 PXI STAR 13 PX DSTAR 10 PX STAR 11 PXI STAR 8 PXI STAR 4 PXI STAR 2 PXI STAR 9 PXI STAR 0 PXI STAR 7 PXI STAR 1 PXI STAR 6 PXI STAR 3 PXI STAR 5 Y
32. Table B 8 shows the XP4 connector pinout for the System Timing slot Table B 9 shows the P1 connector pinout for the peripheral slots Table B 10 shows the P2 connector pinout for the peripheral slots Table B 11 shows the P1 connector pinout for the Hybrid peripheral slots Table B 12 shows the XP3 connector pinout for the Hybrid peripheral slots Table B 13 shows the XP4 connector pinout for the Hybrid peripheral slots For more detailed information refer to the PXI 5 PXI Express Hardware Specification Revision 2 0 Contact the PXI Systems Alliance for a copy of the specification O National Instruments B 1 Appendix B Pinouts System Controller Slot Pinouts Table B 1 XP1 Connector Pinout for the System Controller Slot Pins Signals GND 12V 12V GND 5V 3 3V O m mijou niuw GND Table B 2 XP2 Connector Pinout for the System Controller Slot Pin A B ab Cc D cd E F ef 1 3PETpl 3PETnl GND 3PERpl 3PERnI GND 3PETp2 3PETn2 GND 2 3PETp3 3PETn3 GND 3PERp3 3PERn3 GND 3PERp2 3PERn2 GND 3 4PETpO 4PETn0 GND 4PERpO 4PERn0 GND 4PETpl 4PETnI GND 4 4PETp2 4PETn2 GND 4PERp2 4PERn2 GND 4PERpl 4PERnl GND 5 4PETp3 4PETn3 GND 4PERp3 4PERn3 GND RSV RSV GND 6 RSV RSV GND RSV RSV GND RSV RSV GND 7 RSV RSV GND RSV RSV GND RSV RSV GND 8 RSV RSV GND RSV RSV GND
33. V 12V GND GND GND GND 4 GND GND GND 3 3V 3 3V 3 3V GND 5 GND PXI TRIG3 PXI PXI GND PXI_ GND TRIG4 TRIGS TRIG6 O National Instruments B 5 Appendix B Pinouts Table B 8 XP4 Connector Pinout for the System Timing Slot Continued Pin Z A B C D E F 6 GND PXI TRIG2 GND ATNLED PXI PXI GND CLKIO IN CLK10 7 GND PXI TRIGI PXI ATNSW GND PXI GND TRIGO TRIG7 8 GND PXIe SYNC GND RSV PXI LBL6 PXI GND CTRL LBR6 Peripheral Slot Pinouts Table B 9 P1 Connector Pinout for the Peripheral Slot Pin Z A B C D E F 25 GND 5V REQ64 ENUM 3 3V 5V GND 24 GND AD 1 5V V I O AD 0 ACK64 GND 23 GND 3 3V AD 4 AD 3 5V AD 2 GND 22 GND AD 7 GND 3 3V AD 6 AD 5 GND 21 GND 3 3V AD 9 AD 8 M66EN C BE 0 GND 20 GND AD 12 GND V I O AD 11 AD 10 GND 19 GND 33V AD 15 AD 14 GND AD 13 GND 18 GND SERR GND 3 3V PAR C BE 1 GND 17 GND 33V IPMB SCL IPMB SDA GND PERRY GND 16 GND DEVSEL GND V I O STOP LOCK GND 15 GND 3 3V FRAME IRDY BD_SEL TRDY GND 12 to 14 Key Area 11 GND AD 18 AD 17 AD 16 GND C BE 2 GND 10 GND AD 21 GND 3 3V AD 20 AD 19 GND 9 GND C BE 3 IDSEL AD 23 GND AD 22 GND 8 GND AD 26 GND V I O AD 25 AD 24 GND 7 GND AD 30 AD 29 AD 28 GND AD 27 GND 6 GND REQ GND 3 3V CLK AD 31 GND
34. al that does not connect to PXIe CLK100 there is no clock being driven on the pair to that slot An independent buffer drives PXIe SYNCIOO to the PXI Express peripheral slots hybrid peripheral slots and system timing slot Refer to Figure 1 5 for the routing configuration of PXIe SYNC100 The differential pair must be terminated on the peripheral with LVPECL termination for the buffer to drive PXIe SYNCIOO so that when there is no peripheral or a peripheral that does not connect to PXIe SYNC100 there is no SYNC100 signal being driven on the pair to that slot O National Instruments 1 9 Chapter 1 Getting Started Figure 1 5 Distribution of PXI CLK10 PXle CLK100 and PXle SYNC100 10 MHz 10 MHz REF IN REF OUT PXI CLK10 IN PXI CLK10 af F A q SZ an S 2 y ul y vvv y amp a Je E Je jz E x x x x x x x x x e e e e e e e e e N N N N a a a a a a a a a N N N N x a A a a a x x x x x x x x a a a a 00 Q au i E x E al el da el lol Je ll Jz Je fe Jef Je x o a a a a B o a a H A n a a A O OOOO DOCS OO PXI CLK10 PXIe CLK100 and PXIe SYNC100 have the default timing relationship described in Figure 1 6 Figure 1 6 System Reference Clock De
35. ass 2 limits Random Vibration Operating essere 5 to 500 Hz 0 3 Sans INOBODerating eode ere ceinte inet ep aera dep 5 to 500 Hz 2 4 gu Tested in accordance with IEC 60068 2 64 Nonoperating test profile exceeds the requirements of MIL PRF 28800F Class 3 Acoustic Emissions Sound Pressure Level at Operator Position Tested in accordance with ISO 7779 Meets MIL PRF 28800F requirements Auto fan up to 30 C ambient 57 0 dBA High fan tenerte eie ito 69 0 dBA Sound Power Auto fan up to 30 C ambient 61 7 dBA High fan ee err rir i o karen 79 3 dBA Note Specifications are subject to change without notice Safety This product is designed to meet the requirements of the following standards of safety for information technology equipment TEC 61010 1 EN 61010 1 e UL 61010 1 CSA 61010 1 Note For UL and other safety certifications refer to the product label or the Online Product Certification section A 4 ni com NI PXle 1066DC User Manual Electromagnetic Compatibility This product meets the requirements of the following EMC standards for electrical equipment for measurement control and laboratory use EN 61326 1 IEC 61326 1 Class A emissions Basic immunity e EN 55011 CISPR 11 Group 1 Class A emissions e AS NZS CISPR 11 Group 1 Class A emissions FCC 47 CFR Part 15B Class A emissions e CES 001 Class A emissions Note Inthe United Sta
36. ate the drawer levers to eject the drawer from the chassis frame 4 Pull the drawer about halfway out until the side latches engage Press in the side latches on both sides to release the drawer and continue to pull out the drawer O National Instruments 3 5 Chapter 3 Maintenance A Caution Before handling the power supply allow the fan to stop spinning Place the drawer on a table surface to install the power supply Slide the power supply into an empty slot with the connector facing toward the chassis until it engages Fold down the collapsible handle on the power supply 9 Tighten the two captive screws on the rear of the power supply to 11 5 Ib in torque with a flat blade screwdriver 10 Reinstall the power drawer When reinstalling the drawer tighten the drawer lever captive screws to 11 5 Ib in torque Replacing a Modular Fan Assembly This section describes how to remove and install a modular fan assembly for the NI PXIe 1066DC chassis N Caution Do not use a fan assembly from another chassis Doing so may damage your chassis and the fan assembly Removal The NI PXIe 1066DC fan assembly part number 782107 01 is a replacement part for the NI PXIe 1066DC chassis Before attempting to replace a fan assembly verify that there is adequate clearance in front of the chassis The fans for this chassis are redundant and hot swappable You can remove the fans with main DC power connected to the system N
37. ble B 6 TP2 Connector Pinout for the System Timing Slot Continued Pin A B ab Cc D cd E F ef 8 PXle DST PXle DST GND PXI_ PXI_ GND PXle DST PXIe DSTA GND ARA2 ARA2 STAR8 STAR9 ARCII RCII 9 PXle DST PXle DST GND PRL PXI_ GND PXle DST PXle DSTA GND ARC3 ARC3 STARIO STARII ARAII RAII 10 PXle DST PXle DST GND NC NC GND PXle DST PXle DSTA GND ARB3 ARB3 ARBII RBII1 Table B 7 XP3 Connector Pinout for the System Timing Slot Pin A B ab c D cd E F ef 1 PXle C PXle CL GND PXIe SY PXIe SY GND PXle DS PXIe D GND LK100 K100 NC100 NC100 TARC STARC 2 PRSNT PWREN GND PXIe DS PXIe DS GND PXle DS PXIe D GND TARB TARB TARA STARA 3 SMBDA SMBCLK GND RSV RSV GND RSV RSV GND T 4 MPWR PERST GND RSV RSV GND IRefClk IRefClk GND GD 5 1PETp0 1PETn0 GND 1PERp0 1PERn0 GND 1PETp1 1PETn1 GND 6 1PETp2 1PETn2 GND 1PERp2 1PERn2 GND 1PERp1 1PERn1 GND 7 1PETp3 1PETn3 GND 1PERp3 1PERn3 GND 1PETp4 1PETn4 GND 8 1PETp5 1PETnS GND 1PERpS 1PERnS GND 1PERp4 1PERn4 GND 9 1PETp6 1PETn6 GND 1PERp6 1PERn6 GND 1PETp7 1PETn7 GND 10 RSV RSV GND RSV RSV GND 1PERp7 1PERn7 GND Table B 8 XP4 Connector Pinout for the System Timing Slot Pin Z A B C D E F 1 GND GA4 GA3 GA2 GAI GAO GND 2 GND 5Vaux GND SYSEN WAKE ALERT GND 3 GND 12
38. contact your local office at ni com contact You also can visit the Worldwide Offices section of ni com niglobal to access the branch office websites which provide up to date contact information support phone numbers email addresses and current events C 2 ni com Glossary Symbol Prefix Value p pico 10 12 n nano 10 u micro 10 6 m milli 10 3 k kilo 103 M mega 106 G giga 10 T tera 1012 Symbols 2 Degrees Equal or greater than lt Equal or less than Percent A A Amperes AC Alternating current ANSI American National Standards Institute Auto Automatic fan speed control AWG American Wire Gauge National Instruments G 1 Glossary B backplane BNC cfm CFR cm CompactPCI CSA D daisy chain DB 9 DC DoC D SUB G 2 ni com An assembly typically a printed circuit board with connectors and signal paths that bus the connector pins Bayonet Neill Concelman connector a commonly used coaxial connector Celsius Cubic feet per minute Code of Federal Regulations Centimeters An adaptation of the Peripheral Component Interconnect PCI Specification 2 1 or later for industrial and or embedded applications requiring a more robust mechanical form factor than desktop PCI It uses industry standard mechanical components and high performance connector technologies to provide an optimized system intended for rugged app
39. e Our Environmental Impact web page at ni com environment This page contains the environmental regulations and directives with which NI complies as well as other environmental information not included in this document O National Instruments A 5 Appendix A Specifications Waste Electrical and Electronic Equipment WEEE EU Customers At the end of the product life cycle all products must be sent to a WEEE recycling center For more information about WEEE recycling centers National Instruments WEEE initiatives and compliance with WEEE Directive 2002 96 EC on Waste and Electronic Equipment visit ni com environment weee EFASE RSA BEDE CHE RoHS QO AESA National Instruments 46 P Ed E TAA SU i P PAUL RE a BS RoHS XT National Instruments HE RoHS GRIPE AM EEE ni com environment rohs china For information about China RoHS compliance go to ni com environment rohs china Backplane Jo M REN 3U sized one system slot with three system expansion slots and 17 peripheral slots Compliant with IEEE 1101 10 mechanical packaging PXI Express Specification compliant Accepts both PXI Express and CompactPCI PICMG 2 0 R 3 0 3U modules Backplane bare board material UL 94 V 0 Recognized Backplane connectors sesssessss Conforms to IEC 917 and IEC 1076 4 101 and are UL 94 V 0 rated System Synchronization Clocks PXI CLK10 PXle CLK100 PXle SYNC100 10 MHz Sys
40. e independent For example if trigger line 3 is asserted on trigger bus 0 by default it will not be automatically asserted on any other trigger bus Complete the following steps to reserve these trigger lines in MAX 1 Inthe Configuration tree click on the PXI chassis branch you want to configure 2 Then in the right hand pane toward the bottom click on the Triggers tab 3 Select which trigger lines you would like to statically reserve 4 Click the Apply button PXI Trigger Bus Routing The NI PXIe 1066DC chassis can route triggers from one bus to others within the same chassis using the Trigger Routing tab in MAX as shown in Figure 2 9 Note Selecting any non disabled routing automatically reserves the line in all trigger buses being routed to If you are using NI DAQmx it will reserve and route trigger lines for you so you won t have to route trigger lines manually Complete the following steps to configure trigger routings in MAX 1 Inthe Configuration tree select the chassis in which you want to route trigger lines 2 Inthe right hand pane select the Trigger Routing tab near the bottom 3 For each trigger line select Route Right Route Outward From Middle or Route Left to route triggers on that line in the described direction or select Disabled for the default behavior with no manual routing 4 Click the Apply button O National Instruments 2 17 Chapter 2 Installation and Configuration Using System Config
41. e or other materials belonging to others you may use NI software only to reproduce materials that you may reproduce in accordance with the terms of any applicable license or other legal restriction End User License Agreements and Third Party Legal Notices You can find end user license agreements EULAs and third party legal notices in the following locations Notices are located in the National Instruments V Legal Information and National Instruments directories e EULASs are located in the National Instruments M Shared MMDFVLegalMlicense directory e Review National Instruments V Legal Information txt for information on including legal information in installers built with NI products U S Government Restricted Rights If you are an agency department or other entity of the United States Government Government the use duplication reproduction release modification disclosure or transfer of the technical data included in this manual is governed by the Restricted Rights provisions under Federal Acquisition Regulation 52 227 14 for civilian agencies and Defense Federal Acquisition Regulation Supplement Section 252 227 7014 and 252 227 7015 for military agencies Trademarks Refer to the NI Trademarks and Logo Guidelines at ni com trademarks for more information on National Instruments trademarks ARM Keil and Vision are trademarks or registered of ARM Ltd or its subsidiaries LEGO the LEGO logo WEDO and M
42. e second power supply without first disconnecting main DC power from the system If no power supplies are installed or functional in the system you must remove main power from the system by disconnecting the power cable from the DC power connector on the chassis front panel Complete the following steps to install a power supply from the rear of the chassis 1 Slide the power supply into an empty slot with the connector facing toward the chassis until it engages 2 Fold down the collapsible handle on the power supply Tighten the two captive screws on the rear of the power supply to 11 5 Ib in torque with a flat blade screwdriver If access to the rear of the chassis is not available you still can install power supplies by removing the entire power drawer from the chassis The power drawer is shown in Figure 3 2 Note Ifyou are using the NI PXIe 1066DC and NI SC Express modules with front mounting terminal blocks together you must remove the SC Express module front mount terminal blocks to access the power drawer Refer to your module documentation for more information about removing the terminal blocks Complete the following steps to remove the power drawer N Caution You must disconnect DC power before removing the power drawer 1 Disconnect DC power by pressing the release button on the power cord 2 Loosen the drawer lever captive screws with a flat blade screwdriver until the threads disengage from the chassis frame Rot
43. e specifications A 5 chassis ambient temperature definitions 2 4 chassis configuration Web page figure 2 11 chassis cooling considerations ambient temperature definitions 2 4 clearances 2 2 figure 2 3 vents figure 2 4 chassis description 1 3 chassis fan LED behavior table 2 14 chassis initialization file 2 18 chassis LED indicators 2 12 chassis ventilation figure 2 4 cleaning chassis 3 1 clearances for chassis cooling 2 2 figure 2 3 CLK10 rear connectors 2 15 CompactPCI interoperability with NI PXIe 1066DC backplane 1 5 configuration in MAX figure 2 16 configuration See installation configuration and operation cooling air cooling of NI PXIe 1066DC chassis 2 2 filler panel installation 2 5 setting fan speed 2 5 slot blocker installation 2 5 D DC input connector figure 2 6 default configuration settings 2 12 dimensions figure A 9 A 10 documentation related ix E electromagnetic compatibility A 5 EMC filler panel kit 1 4 Ethernet LED behavior figure 2 12 external clock source specifications A 7 F fan access door clearance figure 2 5 fan assembly figure 3 7 fan setting speed 2 5 filler panel installation 2 5 H hybrid peripheral slots description 1 6 hybrid slot pinouts P1 connector table B 8 XP3 connector table B 9 XP4 connector table B 10 IEC 320 inlet 1 4 3 3 3 4 3 7 inhibit mode switch 2 15 installation configurati
44. f Microsoft Corporation in the United States and other countries Other product and company names mentioned herein are trademarks or trade names of their respective companies Members of the National Instruments Alliance Partner Program are business entities independent from National Instruments and have no agency partnership or joint venture relationship with National Instruments Patents For patents covering National Instruments products technology refer to the appropriate location Help Patents in your software the patents txt file on your media or the National Instruments Patent Notice at ni com patents Export Compliance Information Refer to the Export Compliance Information at ni com legal export compliance for the National Instruments global trade compliance policy and how to obtain relevant HTS codes ECCNs and other import export data WARNING REGARDING USE OF NATIONAL INSTRUMENTS PRODUCTS YOU ARE ULTIMATELY RESPONSIBLE FOR VERIFYING AND VALIDATING THE SUITABILITY AND RELIABILITY OF THE PRODUCTS WHENEVER THE PRODUCTS ARE INCORPORATED IN YOUR SYSTEM OR APPLICATION INCLUDING THE APPROPRIATE DESIGN PROCESS AND SAFETY LEVEL OF SUCH SYSTEM OR APPLICATION PRODUCTS ARE NOT DESIGNED MANUFACTURED OR TESTED FOR USE IN LIFE OR SAFETY CRITICAL SYSTEMS HAZARDOUS ENVIRONMENTS OR ANY OTHER ENVIRONMENTS REQUIRING FAIL SAFE PERFORMANCE INCLUDING IN THE OPERATION OF NUCLEAR FACILITIES AIRCRAFT NAVIGATION AIR TRAFFIC CONTROL SYSTEMS
45. fault Behavior 101112181415161718191011121314151617181910111213141516171819 co Ja PXLCLKIO SU qui ipa qu pau PXe SYNC100 PJP titi tt ppt iret rtt To synchronize the system to an external clock you can drive PXI CLK10 from an external source through the PXI CLK10 IN pin on the System Timing Slot Refer to Table B 8 XP4 Connector Pinout for the System Timing Slot for the pinout When a 10 MHz clock is detected on this pin the backplane automatically phase locks the PXI CLK10 PXIe CLK100 and PXIe SYNCIOO signals to this external clock and distributes these signals to the slots refer to Figure 1 5 for the distribution of PXI CLK10 PXIe CLK100 and PXIe SYNC100 Refer to Appendix A Specifications for the specification information for an external clock provided on the PXI CLK10 IN pin of the system timing slot You also can drive a 10 MHz clock on the 10 MHz REF IN connector on the front of the chassis When a 10 MHz clock is detected on this connector the backplane automatically phase locks the PXI CLK10 PXIe CLK100 and PXIe SYNC100 signals to this external clock and 1 10 ni com NI PXle 1066DC User Manual distributes these signals to the slots refer to Figure 1 5 for the distribution of PXI CLK10 PXIe CLK100 and PXIe SYNC100 Refer to Appendix A Specifications for the specification information for an external clock provided on the 10 MHz REF IN connector on the rear pa
46. g a PXI Express system controller in a NI PXIe 1066DC chassis Refer to your PXI Express system controller user manual for specific instructions and warnings To install a system controller complete the following steps 1 Ensure that the chassis is properly grounded to protect it from electrical damage while you install the system controller 2 Install the system controller into the system controller slot slot 1 indicated by the red card guides by first placing the system controller PCB into the front of the card guides top and bottom Slide the system controller to the rear of the chassis making sure that the injector ejector handle is pushed down as shown in Figure 2 5 O National Instruments 2 7 Chapter 2 Installation and Configuration Figure 2 5 Installing a PXI Express System Controller na System Controller Front Panel Mounting Screws 4x 3 Injector Ejector Handle NI PXI Express System Controller 4 NI PXle 1066DC Chassis 2 8 When you begin to feel resistance pull up on the injector ejector handle to seat the system controller fully into the chassis frame Secure the system controller front panel to the chassis using the system controller front panel mounting screws Connect the keyboard mouse and monitor to the appropriate connectors Connect devices to ports as required by your system configuration Power on the chassis Verify that the system controller boots If the system controller does no
47. he SC Express module front mount terminal blocks to access the power drawer Refer to your module documentation for more information about removing the terminal blocks Complete the following steps to remove the power drawer N Caution You must disconnect DC power before removing the power drawer 1 Disconnect DC power by pressing the release button on the power cord 2 Loosen the drawer lever captive screws with a flat blade screwdriver until the threads disengage from the chassis frame Rotate the drawer levers to eject the drawer from the chassis frame 4 Pull the drawer about halfway out until the side latches engage Press in the side latches on both sides to release the drawer and continue to pull out the drawer N Caution Before handling the power supply allow the fan to stop spinning 3 4 ni com NI PXle 1066DC User Manual Place the drawer on a table surface to remove the power supply Remove the two screws on the rear of the power supply with a flat blade screwdriver Refer to Figure 3 1 8 Extend the collapsible handle and pull the power supply out of the chassis Refer to Figure 3 1 Installation Ensure there is no visible damage to the new power supply before installing it Verify that there is no foreign material inside the connector on the new power supply The power supplies for this chassis are redundant and hot swappable If one power supply already is installed and functional you can install th
48. he chassis Use a soft bristle brush for cleaning around components O National Instruments 3 1 Chapter 3 Maintenance Exterior Cleaning Clean the exterior surfaces of the chassis with a dry lint free cloth or a soft bristle brush If any dirt remains wipe with a cloth moistened in a mild soap solution Remove any soap residue by wiping with a cloth moistened with clear water Do not use abrasive compounds on any part of the chassis N Caution Avoid getting moisture inside the chassis during exterior cleaning especially through the top vents Use just enough moisture to dampen the cloth N Caution Do not wash the front or rear panel connectors or switches Cover these components while cleaning the chassis N Caution Do not use harsh chemical cleaning agents they may damage the chassis Avoid chemicals that contain benzene toluene xylene acetone or similar solvents Replacing a Modular Power Supply This section describes how to remove and install a modular power supply for the NI PXIe 1066DC chassis N Caution Do not use a power supply from another chassis Doing so may damage your chassis and the power supply Removal The NI PXIe 1066DC power supply part number 782106 01 is a replacement part for the NI PXIe 1066DC chassis Before attempting to replace a power supply verify that there is adequate clearance behind the chassis The power supplies for this chassis are redundant and hot swappable If both power
49. he default for n is 1 giving PXIe SYNCIOO a 100 ns period However the backplane allows n to be programmed to other integers For instance setting n 3 gives a PXIe SYNC100 with a 300 ns period while still maintaining its phase relationship to PXI CLK10 The value for n may be set to any positive integer from 1 to 255 The system timing slot has a control pin for PXIe SYNC100 called PXIe SYNC CTRL for use when n gt 1 Refer to Table B 7 XP3 Connector Pinout for the System Timing Slot for system timing slot pinout Refer to Appendix A Specifications for the PXQIe SYNC CTRL input specifications O National Instruments 1 11 Chapter 1 Getting Started By default a high level detected by the backplane on the PXIe SYNC CTRL pin causes a synchronous restart for the PXIe SYNCI00 signal On the next PXI CLK10 edge the PXIe SYNC100 signal will restart This will allow several chassis to have their PXIe SYNCIOO in phase with each other Refer to Figure 1 7 for timing details with this method Figure 1 7 PXle SYNC100 at 3 33 MHz Using PXle SYNC CTRL as Restart PXI_CLK10 TITITITITLITILTILILTLTLTI PXle SYNC CTRL m PXle SYNC100 Jl l SYNC100 Divider Restarted Here 1 12 ni com Installation and Configuration This chapter describes how to prepare and operate the NI PXIe 1066DC chassis Before connecting the chassis to a power source read this chapter and the Read Me First Safety and Electromagnetic Compa
50. iles ee 2 18 Chapter 3 Maintenance Service Interval Preparation Cleaning sra Interior Cleaning eesessseeseseeeseee eren nne nne nnntnntne trennen nennen nennen 3 1 Exterior Cleaning cu ese eec tei rie I hene ni te are rear regret dA dia dc 3 2 Replacing a Modular Power Supply essent 3 2 C sans 3 2 Installation oeste vote scc ote AME e id A 3 5 Replacing a Modular Fan Assembly essere eene 3 6 Removal nn Installation Appendix A Specifications Appendix B Pinouts Appendix C NI Services Glossary Index viii ni com About This Manual The NI PXIe 1066DC User Manual describes the features of the NI PXIe 1066DC chassis and contains information about configuring the chassis installing the modules and operating the chassis Related Documentation The following documents contain information that you might find helpful as you read this manual IEEE 1101 1 1991 JEEE Standard for Mechanical Core Specifications for Microcomputers Using IEC 603 2 Connectors IEEE 1101 10 JEEE Standard for Additional Mechanical Specifications for Microcomputers Using IEEE 1101 1 Equipment Practice PICMG EXP 0 R1 0 CompactPCI Express Specification PCI Industrial Computers Manufacturers Group PCI Express Base Specification Revision 1 1 PCI Special Inte
51. lications It is electrically compatible with the PCI Specification which enables low cost PCI components to be utilized in a mechanical form factor suited for rugged environments Canadian Standards Association A method of propagating signals along a bus in which the devices are prioritized on the basis of their position on the bus A 9 pin D SUB connector Direct current Declaration of Conformity Subminiature D connector E efficiency EIA EMC EMI F FCC filler panel G GPIB ERMS IEC IEEE NI PXle 1066DC User Manual Ratio of output power to input power expressed as a percentage Electronic Industries Association Electromagnetic Compatibility Electromagnetic Interference Federal Communications Commission A blank module front panel used to fill empty slots in the chassis 1 grams 2 a measure of acceleration equal to 9 8 m s General Purpose Interface Bus IEEE 488 A measure of random vibration The root mean square of acceleration levels in a random vibration test profile Hours Hertz cycles per second International Electrotechnical Commission an organization that sets international electrical and electronics standards Institute of Electrical and Electronics Engineers Mainframe peak current Inches O National Instruments G 3 Glossary inhibit jitter kg L Ib LED line regulation load regulation MTBF MTTR G 4 ni com To turn
52. lockages present It is the user s responsibility to ensure 2 4 ni com NI PXle 1066DC User Manual that this ambient temperature does not exceed the rated ambient temperature as stated in Appendix A Specifications 1f the temperature exceeds the stated spec the front panel temperature LED blinks red as discussed in the Chassis LED Indicators section of this chapter Setting Fan Speed The fan speed selector switch is on the rear panel of the NI PXIe 1066DC chassis Refer to Figure 1 2 Rear View of the NI PXIe 1066DC Chassis to locate the fan speed selector switch Select High for maximum cooling performance or Auto for improved acoustic performance When set to Auto the fan speed is determined by the chassis intake air temperature Installing Filler Panels To maintain proper module cooling performance install filler panels provided with the chassis in unused or empty slots Secure with the captive mounting screws provided Installing Slot Blockers The cooling performance of the chassis can be improved by installing optional slot blockers Refer to ni com for more details Fan Access Door Clearance When installing the NI PXIe 1066DC chassis you also must provide the proper clearance for the fan access door to open fully as shown in Figure 2 3 Figure 2 3 Fan Access Door Clearance Dimensions are in inches millimeters EN d o IN Ss National Instruments 2 5 Chapter 2 Installati
53. mina 14 PXI Express Peripheral Slots 8 PXI Filler Panels Optional Slots 3x O National Instruments 1 3 Chapter 1 Getting Started Figure 1 2 Rear View of the NI PXle 1066DC Chassis 1 Power Supply Cooling Fan 3 Chassis Ground Screw 5 Fan Speed Selector Switch 2 Power Supply Handle 4 Inhibit Mode Selector Switch Optional Equipment Contact National Instruments to order the following options for the NI PXIe 1066DC chassis EMC Filler Panels Optional EMC filler panel kits are available from National Instruments Rack Mount Kit There are two optional kits for mounting the NI PXIe 1066DC chassis into a rack The first option is a pair of mounting brackets for use on the front of the chassis The second option is a rear rack mount kit The rear rack mount kit differs from the front kit to allow for easier installation into the rack For more information refer to Figure A 3 MI Chassis Rack Mount Kit Components Slot Blockers Optional slot blocker kits are available from National Instruments for improved thermal performance when all slots are not used 1 4 ni com NI PXle 1066DC User Manual NI PXle 1066DC Chassis Backplane Overview This section provides an overview of the backplane features for the NI PXIe 1066DC chassis Interoperability with CompactPCI The design of
54. n and Configuration Safety Information ede rime e asian aden ee RO Cri po eret ben dbed 2 1 Chassis Cooling Considerations sess eerte nnne 2 2 Providing Adequate Clearance esee ener 2 2 Chassis Ambient Temperature Definition essere enenetnne 2 4 Setting Fan Speed sssssssss Installing Filler Panels Installing Slot Blockers 3 Fan Access Door Clearance aa ee Sit ira eh n er ee ede REESE Rack Mounting epe t EE ERI CREER RR SU dee e E ue eases Connecting to Safety Ground and Power Source sese 2 6 Power On T63st 5 epe rere EE IER RUM MER De e ER 2 7 Installing a PXI Express System Controller 2 7 Installing Peripheral Modules 1 2 9 Remote System Monitoring 2 11 Default Configuration Settings ee eene entren 2 12 O National Instruments vii Contents Chassis LED IndiCatots zs ii ete terre re rm rere ee HERE P Ren Remote Inhibit and Fault Monitoring eeseseseseeeeeeee eene ntn Inhibit Mode SWiteB nie eene RR TR CER RAT Ue red PXI CLKI0 Connectors eseeeeee PXI Express System Configuration with MAX PXI 1 System Configuration Trigger Configuration in MAX sesseseseseserereressseseeeersresesesereseseserererenessserereessssseee PXI Trigger Bus Routing i dee pta Creed pe RH DIRE Re E Using System Configuration and Initialization F
55. nal block pinout Table 2 5 Remote Inhibit and Fault Connector Pinout Pin Signal 1 Remote Inhibit active low 2 Ground 3 Remote Fault active high 4 Ground When the chassis Inhibit Mode switch is in the Manual position you can use the Remote Inhibit signal to control the chassis power supplies Refer to Inhibit Mode Switch for more details The Remote Fault signal is an output signal that is asserted high when any chassis fault is detected You can use this signal to monitor the overall chassis health 2 14 ni com NI PXle 1066DC User Manual Inhibit Mode Switch On the rear panel of the chassis there is an Inhibit Mode switch Refer to Figure 1 2 Rear View of the NI PXIe 1066DC Chassis for the location The Inhibit Mode switch should be in the Default position when normal power inhibit switch functionality is desired If the user needs to power on a chassis without a system controller installed the switch should be in the Manual position When the Inhibit Mode switch is set to the Manual position the power supplies are enabled and you can use the Inhibit signal active low on pin 1 ofthe Remote Inhibit and Fault connector to power off the chassis To power off the chassis remotely connect the Inhibit pin pin 1 to a Logic Ground pin pin 2 As long as this connection exists the chassis will remain off standby when you remove this connection the chassis turns on Note For the Remote
56. nel of the chassis If the 10 MHz clock is present on both the PXI CLK10 IN pin of the System Timing Slot and the 10 MHz REF IN connector on the front of the chassis the signal on the System Timing Slot is selected Refer to Table 1 1 which explains how the 10 MHz clocks are selected by the backplane Table 1 1 Backplane External Clock Input Truth Table System Timing Slot PXI CLK10 IN Front Chassis Panel 10 MHz REF IN Backplane PXI CLK10 PXle CLK100 and PXle SYNC100 No clock present No clock present Backplane generates its own clocks No clock present 10 MHz clock present PXI CLK10 PXIe CLK100 and PXIe SYNC100 all phase locked to Rear Chassis Panel 10 MHz REF IN 10 MHz clock present No clock present PXI CLK10 PXIe CLK100 and PXIe SYNC100 all phase locked to System Timing Slot PXI CLK10 IN 10 MHz clock present 10 MHz clock present PXI CLK10 PXIe CLK100 and PXIe SYNC100 all phase locked to System Timing Slot PXI CLK10 IN A copy of the backplane s PXI_CLK10 is exported to the 10 MHz REF OUT connector on the front of the chassis This clock is driven by an independent buffer Refer to Appendix A Specifications for the specification information for the 10 MHz REF OUT signal on the front panel of the chassis PXle SYNC CTRL PXIe SYNC100 is by default a 10 ns pulse synchronous to PXI CLK10 The frequency of PXIe SYNCIOO is 10 n MHz where n is a positive integer T
57. nsures a high level of maintainability resulting in a very low mean time to repair MTTR The chassis also features O National Instruments 1 1 Chapter 1 Getting Started redundant power supplies and fans designed to maximize system availability The NI PXIe 1066DC chassis fully complies with the PXI 5 PXI Express Hardware Specification offering advanced timing and synchronization features The key features of the NI PXIe 1066DC chassis include the following High Performance for Instrumentation Requirements Upto 1 GB s single direction per PXI Express slot dedicated bandwidth x4 PCIe 38 W per slot cooling meets increased PXI Express cooling requirements Low jitter internal 10 MHz reference clock for PXI slots with 25 ppm stability e Low jtter internal 100 MHz reference clock for PXI Express slots with 25 ppm stability Quiet operation for 0 to 30 C at 49 8 dBA Variable speed fan controller optimizes cooling and acoustic emissions Remote power inhibit control e Complies with PXI and CompactPCI Specifications High Reliability e Oto 50 C operating temperature range e Power supply temperature and fan monitoring HALT tested for increased reliability Ethernet interface for remote monitoring High Availability Dual redundant hot swappable power supplies e Redundant hot swappable chassis fans Multi Chassis Support PXI Express System Timing Slot for tight synchronization across
58. off A measure of the small rapid variations in clock transition times from their nominal regular intervals Units seconds RMS Kilograms Kilometers Pounds Light emitting diode The maximum steady state percentage that a DC voltage output will change as a result of a specified change in input AC voltage step change from 90 to 132 VAC or 180 to 264 VAC The maximum steady state percentage that a DC voltage output will change as a result of a step change from no load to full load output current Meters Megahertz One million Hertz one Hertz equals one cycle per second Miles Milliseconds Mean time between failure Mean time to repair NEMA NI P power supply shuttle PXI PXI CLKIO R RH RMS S s skew slot blocker standby System controller NI PXle 1066DC User Manual National Electrical Manufacturers Association National Instruments A removable module that contains the chassis power supply PCI eXtensions for Instrumentation 10 MHz PXI system reference clock Relative humidity Root mean square Seconds Deviation in signal transmission times An assembly installed into an empty slot to improve the airflow in adjacent slots The backplane is unpowered off but the chassis is still connected to AC power mains A module configured for installation in Slot 1of a PXI chassis This device is unique in the PXI system in that it performs the system con
59. ol the power supply with the PS ON signal A logic low on this line will turn the power supply on Note The Inhibit Mode switch on the rear of the chassis must be in the Default position for the system controller to have control of the power supply Refer to the Inhibit Mode Switch section of Chapter 2 Installation and Configuration for details about the Inhibit Mode switch O National Instruments 1 5 Chapter 1 Getting Started Hybrid Peripheral Slots The chassis provides four hybrid peripheral slots as defined by the PXI 5 PXI Express Hardware Specification slot 7 and slots 11 to 13 A hybrid peripheral slot can accept the following peripheral modules A PXI Express Peripheral with x4 or x1 PCI Express link to the system slot or through a switch to the system slot A CompactPCI Express Type 2 Peripheral with x4 or x1 PCI Express link to the system slot or through a switch to the system slot A hybrid compatible PXI Peripheral module that has been modified by replacing the J2 connector with an XJ4 connector installed in the upper eight rows of J2 Refer to the PXI Express Specification for details The PXI Peripheral communicates through the backplane s 32 bit PCI bus A CompactPCI 32 bit peripheral on the backplane s 32 bit PCI bus The hybrid peripheral slots provide full PXI Express functionality and 32 bit PXI functionality except for PXI Local Bus The hybrid peripheral slot only connects to PXI Local Bus 6 left and
60. on and operation chassis initialization file 2 18 configuration in MAX figure 2 16 filler panel installation 2 5 O National Instruments I 1 Index installing a PXI Express system controller 2 7 figure 2 8 module installation CompactPCI or PXI modules figure 2 10 peripheral module installation 2 9 figure 2 10 PXI Express configuration in MAX 2 15 PXI Express system controller installed in a NI PXIe 1066DC chassis figure 2 9 PXI trigger bus routing 2 17 PXI 1 configuration in MAX 2 16 rack mounting 2 6 setting fan speed 2 5 site considerations 2 2 slot blocker installation 2 5 testing power up 2 6 trigger configuration in MAX 2 17 unpacking the NI PXIe 1066DC 1 1 installing a PXI Express system controller figure 2 8 interoperability with CompactPCI 1 5 K key features 1 1 kit contents 1 1 L local bus routing figure 1 8 M main chassis LED behavior table 2 13 maintenance of NI PXIe 1066DC chassis 3 1 cleaning 3 1 exterior cleaning 3 2 interior cleaning 3 1 fan assembly replacing 3 6 power supply replacing 3 2 preparation 3 1 service interval 3 1 static discharge damage caution 3 1 l 2 ni com N NI PXIe 1066DC fan assembly replacing 3 6 fan speed setting 2 5 front view figure 1 3 installation See installation configuration and operation key features 1 1 maintenance See maintenance of NI PXIe 1066DC chassis optional equipment 1 4 power drawe
61. on and Configuration Rack Mounting Rack mount applications require the optional rack mount kits available from National Instruments Refer to the instructions supplied with the rack mount kits to install your NI PXIe 1066DC chassis in an instrument rack Refer to Figure A 3 NI Chassis Rack Mount Kit Components Note You may want to remove the feet and handle from the NI PXIe 1066DC chassis when rack mounting To do so remove the screws holding the feet and handle in place Connecting to Safety Ground and Power Source The NI PXIe 1066DC chassis has a single DC Input connector that supplies input power to both chassis power supplies The DC Input connector is on the front panel as shown in Figure 1 1 Front View of the NI PXIe 1066DC Chassis with Optional Filler Panels The chassis ships with an NI PXIe 1066DC power cord The cord is a 3 m three conductor 18 AWG cord that requires custom termination Figure 2 4 shows the cord connector pinout You can order an additional or replacement cord from National Instruments part number 782108 01 Caution Connecting Safety Ground Protective Earth The NI PXIe 1066DC chassis must have a safety ground protective earth which is connected by the installer to the premise safety ground system for safe operation The supplied power cord has a green ground wire for this purpose The safety ground method shall be reliable and meet applicable safety codes Figure 2 4 DC Input Connecto
62. onnected to the system Complete the following steps to install a fan assembly 1 Open the fan door by sliding the door latches inward and rotating the door down 2 Slide the fan module into an empty fan slot with the connector facing the chassis until it latches 3 Verify that the fan is properly installed by pulling it forward with a light force without pressing the latch If the fan does not slide out without pressing in the latch it is installed correctly 4 Close the fan door 9 8 ni com Specifications This appendix contains specifications for the NI PXIe 1066DC chassis N Caution Specifications are subject to change without notice Electrical Input voltage range see 210 to 300 VDC Input current rating 3 5t06 0A Over current protection sss 10 A power supply fuse nonreplaceable 70 typical The DC power cable provides main power disconnect The front panel power switch causes the internal chassis power supply to provide DC power to the CompactPCI PXI Express backplane You also can use the front panel terminal block 4 pin connector and power mode switch to control the internal chassis power Efficiency Power disconnect supply DC Output DC current capacity Imp Voltage Maximum Current 33 V 50 A 5 V 42 A 12 V 50A 12 V 4A 5 Vaux 1 5 A Note Maximum combined 12 V and 12 V power is 588 W a Note Maximum total available
63. power is 880 W O National Instruments A 1 Appendix A Specifications Backplane slot current capacity Slot 5V V O 3 3V 42V 12V 5Vaux System Controller Slot ISA ISA 30 A 1A System Timing Slot 6A 4A 1A Hybrid Peripheral Slot with 6A 5A 6A 1A 1A PXI 1 Peripheral Hybrid Peripheral Slot with 6A 4A 1A PXI 5 Peripheral PXI 1 Peripheral Slot 6A HA 6A 1A 1A Note Total system slot current should not exceed 45 A Note PCI V I O pins in PXI 1 peripheral slots and hybrid peripheral slots are connected to 5 V Note The maximum power dissipated in the system slot should not exceed 140 W Hn da Note The maximum power dissipated in a peripheral slot should not exceed 38 25 W Load regulation Voltage Load Regulation T33V 596 12 V lt 5 5 V lt 5 12 V lt 5 Maximum ripple and noise 20 MHz bandwidth Voltage Maximum Ripple and Noise 3 3 V 50 mV pp 12 V 120 mV p 5 V 50 mV pp 12 V 120 mV A 2 ni com Over current protection Over voltage protection 3 3 V and 5 V Power supply MTTR Chassis Cooling Module cooling system NI PXIe 1066DC Slot airflow direction Module cooling intake Module cooling exhaust Power supply cooling system Power supply cooling intake Power supply cooling exhaust Environmental Maximum altitude NI PXle 1
64. products will perform substantially in accordance with the applicable documentation provided with the software and ii the software media will be free from defects in materials and workmanship If NI receives notice of a defect or non conformance during the applicable warranty period NI will in its discretion i repair or replace the affected product or ii refund the fees paid for the affected product Repaired or replaced Hardware will be warranted for the remainder of the original warranty period or ninety 90 days whichever is longer If NI elects to repair or replace the product NI may use new or refurbished parts or products that are equivalent to new in performance and reliability and are at least functionally equivalent to the original part or product You must obtain an RMA number from NI before returning any product to NI NI reserves the right to charge a fee for examining and testing Hardware not covered by the Limited Warranty This Limited Warranty does not apply if the defect of the product resulted from improper or inadequate maintenance installation repair or calibration performed by a party other than NI unauthorized modification improper environment use of an improper hardware or software key improper use or operation outside of the specification for the product improper voltages accident abuse or neglect or a hazard such as lightning flood or other act of nature THE REMEDIES SET FORTH ABOVE ARE EXCLUSIVE AND
65. r 1 1 Ground 2 Power 3 Power 2 6 ni com NI PXle 1066DC User Manual Caution To ensure the specified EMC performance with a second chassis power AN supply install a snap on ferrite bead NI part number 711849 01 onto the DC power cord as close to the DC input connector as possible You can order this ferrite bead directly from NI using the Order By Part Number link on the home page at ni com Order the following part number 781233 02 EMI suppression ferrite 10 2 mm includes NI part number 711849 01 Fair Rite 0443167251 type 43 round cable 10 2 mm 0 402 in ID 225 Q 100 MHz Power On Test N Caution Do not install modules prior to performing the following power on test N Caution To completely remove power you must disconnect all power cables The NI PXIe 1066DC chassis has two slots for inserting power supplies on the rear of the chassis A power supply must be installed in one or both of these slots to power on the chassis Use the Inhibit Mode switch to power on the chassis or place it in standby mode Set the Inhibit Mode switch on the back of the chassis to the Manual position Observe that all fans become operational and that all chassis LEDs are steady green Set the Inhibit Mode switch back to the Default position to allow the system controller to control the power supply Installing a PXI Express System Controller This section contains general installation instructions for installin
66. r figure 3 4 power supply replacing 3 2 rack mounting 2 6 rear view figure 1 4 removing power supply figure 3 3 unpacking 1 1 with fan assembly removed figure 3 7 NI PXIe 1066DC backplane backplane external clock input truth table 1 11 hybrid peripheral slots 1 6 interoperability with CompactPCI 1 5 overview 1 5 PXI Express peripheral slots 1 6 PXI local bus routing 1 8 PXI peripheral slots 1 6 PXle SYNC CTRL 1 11 using as restart figure 1 12 specifications A 6 system controller slot 1 5 system reference clock 1 9 default behavior figure 1 10 routing figure 1 10 system timing slot 1 6 trigger bus 1 8 O optional equipment 1 4 P peripheral module installation 2 9 figure 2 10 peripheral slot pinouts P1 connector table B 6 P2 connector table B 7 pinouts B 1 power drawer figure 3 4 power source connecting to 2 6 power supply connecting to 2 6 LED behavior table 2 14 removing figure 3 3 replacing 3 2 power up testing 2 6 power on test 2 7 PXI differential star trigger specifications PXIe DSTARA PXIe DSTARB PXIe DSTARC A 8 PXI Express configuration in MAX 2 15 PXI Express peripheral slots description 1 6 PXI Express system controller 2 7 figure 2 8 installing in a NI PXIe 1066DC chassis figure 2 9 PXI local bus routing 1 8 PXI peripheral slots description 1 6 PXI star trigger specifications A 8 PXI star routing 1 7 PXI 1 configuration in
67. rest Group PXI 5 PXI Express Hardware Specification Revision 2 0 PXI Systems Alliance O National Instruments ix Getting Started This chapter describes the key features of the NI PXIe 1066DC chassis and lists the kit contents and optional equipment you can order from National Instruments Unpacking Carefully inspect the shipping container and the chassis for damage Check for visible damage to the metal work Check to make sure all handles hardware and switches are undamaged Inspect the inner chassis for any possible damage debris or detached components If damage appears to have been caused during shipment file a claim with the carrier Retain the packing material for possible inspection and or reshipment What You Need to Get Started The NI PXIe 1066DC chassis kit contains the following items NI PXIe 1066DC chassis Filler panels DC power cable NI PXIe 1066DC User Manual Software media with PXI Platform Services 2 0 or higher Read Me First Safety and Electromagnetic Compatibility Chassis number labels Inhibit fault cable connector Ferrite bead for use with redundant power supplies Key Features The NI PXIe 1066DC chassis combines a high performance 18 slot PXI Express backplane with a high output power supply and a structural design that has been optimized for maximum usability in a wide range of applications The chassis modular design e
68. right PXI Peripheral Slots There are nine PXI peripheral slots which will accept PXI or CompactPCI peripherals slots 2 to 6 and slots 15 to 18 These slots are on the backplane s 32 bit PCI busses These slots offer full PXI functionality but have no PXI Express features The 64 bit PCI signals on the P2 connectors are not connected PXI Express Peripheral Slots There are three PXI Express peripheral slots slots 8 to 10 Slot 8 is directly connected to the system slot with a x4 PCI Express link Slots 9 and 10 are connected to the system slot through a PCI Express switch PXI Express peripheral slots can accept the following modules A PXI Express Peripheral with x4 or x1 PCI Express link to the system slot or through a switch to the system slot A CompactPCI Express Type 2 Peripheral with x4 or x1 PCI Express link to the system slot or through a switch to the system slot System Timing Slot The System Timing Slot is slot 14 The system timing slot will accept the following peripheral modules A PXI Express System Timing Module with x4 or x1 PCI Express link to the system slot through a PCIe switch A PXI Express Peripheral with x4 or x1 PCI Express link to the system slot through a PCIe switch A CompactPCI Express Type 2 Peripheral with x4 or x1 PCI Express link to the system slot through a PCIe switch 1 6 ni com NI PXle 1066DC User Manual The system timing slot has 3 dedicated differential pairs PXIe DS
69. rmed in a timely manner by highly trained factory technicians using only original parts at a National Instruments service center Calibration Through regular calibration you can quantify and improve the measurement performance of an instrument NI provides state of the art calibration services If your product supports calibration you can obtain the calibration certificate for your product at ni com calibration System Integration If you have time constraints limited in house technical resources or other project challenges National Instruments Alliance Partner members can help To learn more call your local NI office or visit ni com alliance O National Instruments C 1 Appendix C NI Services Training and Certification The NI training and certification program is the most effective way to increase application development proficiency and productivity Visit ni com training for more information The Skills Guide assists you in identifying the proficiency requirements of your current application and gives you options for obtaining those skills consistent with your time and budget constraints and personal learning preferences Visit ni com skills guide to see these custom paths Nlofferscoursesinseverallanguagesandformatsincludinginstructor ledclassesatfacilities worldwide courseson siteatyourfacility andonlinecoursestoserveyourindividualneeds Technical Support Support at ni com support includes the following reso
70. ront of the card guides top and bottom as shown in Figure 2 7 Slide the module to the rear of the chassis making sure that the injector ejector handle is pushed down as shown in Figure 2 7 4 When you begin to feel resistance push up on the injector ejector handle to fully seat the module into the chassis frame Secure the module front panel to the chassis using the module front panel mounting screws Figure 2 7 Installing PXI PXI Express or CompactPCI Peripheral Modules 1 Injector Ejector Handle 4 NI PXI Express System Controller 2 PXI Peripheral Module 5 NI PXle 1066DC Chassis 3 Peripheral Module Front Panel Mounting Screws 2x 6 Injector Ejector Rail 2 10 ni com NI PXle 1066DC User Manual Remote System Monitoring The NI PXIe 1066DC chassis provides an Ethernet port on the front panel of the chassis You can use this Ethernet port to monitor the chassis operating parameters remotely over a network Refer to Figure 1 1 Front View of the NI PXIe 1066DC Chassis with Optional Filler Panels to locate the Ethernet connector The Ethernet port on the chassis supports communication speeds of 10 Mbps and 100 Mbps Contact your network administrator to determine whether your network supports DHCP If your network uses DHCP the network configuration is performed automatically To use the remote monitoring interface connect one end of an Ethernet cable to your NI PXIe 1066DC chassis Connect the other end of
71. rs can use these ini files 2 16 ni com NI PXle 1066DC User Manual The capability documentation for a PXI 1 chassis is contained ina chassis ini file provided by the chassis manufacturer The information in this file is combined with information about the system controller to create a single PXI 1 system initialization file called pxisys ini PXI System Initialization The NI system controller uses MAX to generate the pxisys ini file from the chassis ini file Device drivers and other utility software read the pxiesys ini and pxisys ini file to obtain system information For detailed information about initialization files refer to the PXI specification at www pxisa org Trigger Configuration in MAX Each chassis has one or more trigger buses each with eight lines numbered 0 through 7 that can be reserved and routed statically or dynamically Static reservation pre allocates a trigger line to prevent its configuration by a user program Dynamic reservation routing deallocation is on the fly within a user program based upon National Instruments APIs such as NI DAQmx Static reservation of trigger lines can be implemented by the user in MAX through the Triggers tab Reserved trigger lines will not be used by PXI modules dynamically configured by programs such as NI DAQmx This prevents the instruments from double driving the trigger lines possibly damaging devices in the chassis In the default configuration trigger lines on each bus ar
72. ry slot in the chassis Static trigger routing user specified line 1 8 ni com NI PXle 1066DC User Manual and directional assignments can be configured through Measurement amp Automation Explorer MAX Dynamic routing of triggers automatic line assignments is supported through certain National Instruments drivers like NI DAQmx Note Although any trigger line may be routed in either direction it cannot be routed in more than one direction at a time System Reference Clock The NI PXIe 1066DC chassis supplies the PXI 10 MHz system clock signal PXI CLK10 independently driven to each peripheral slot and PXIe CLK100 and PXIe SYNC100 to the PXI Express slots hybrid slots and system timing slot An independent buffer having a source impedance matched to the backplane and a skew of less than 1 ns between slots drives PXI CLK10 to each peripheral slot Refer to Figure 1 5 for the routing configuration of PXI CLK10 You can use this common reference clock signal to synchronize multiple modules in a measurement or control system An independent buffer drives PXIe CLK100 to the PXI Express peripheral slots hybrid peripheral slots and system timing slot Refer to Figure 1 5 for the routing configuration of PXIe CLK100 These clocks are matched in skew to less than 100 ps The differential pair must be terminated on the peripheral with LVPECL termination for the buffer to drive PXIe CLK100 so that when there is no peripheral or a peripher
73. supplies are installed and functional you can remove either without disconnecting main DC power from the system If both power supplies are installed and one has failed you can remove the failed supply without disconnecting main DC power from the system If only one power supply is installed and functional you must remove main power from the system by disconnecting the power cable from the DC power connector on the chassis front panel Complete the following steps to remove a power supply from the rear of the chassis as shown in Figure 3 1 N Caution Before handling the power supply allow the fan to stop spinning 1 Remove the two screws on the rear of the power supply with a flat blade screwdriver 2 Extend the collapsible handle and pull the power supply out of the chassis 3 2 ni com NI PXle 1066DC User Manual Figure 3 1 Removing Power Supply from NI PXle 1066DC Chassis 1 Power Supply 2 Captive Screw 3 Collapsible Handle National Instruments 3 3 Chapter 3 Maintenance If access to the rear of the chassis is not available you still can remove the power supplies by removing the entire power drawer from the chassis The power drawer is shown in Figure 3 2 Figure 3 2 NI PXle 1066DC Power Drawer 1 Captive Screw 2 Power Drawer Lever 3 Side Latch 4 Power Supply Note Ifyou are using the NI PXIe 1066DC and NI SC Express modules with front mounting terminal blocks together you must remove t
74. t boot refer to your system controller user manual ni com NI PXle 1066DC User Manual Figure 2 6 shows a PXI Express system controller installed in the system controller slot of a NI PXIe 1066DC chassis You can place CompactPCI CompactPCI Express PXI or PXI Express modules in other slots depending on the slot type Figure 2 6 NI PXI Express System Controller Installed in an NI PXle 1066DC Chassis 1 NI PXle 1066DC Chassis 2 NI PXI Express System Controller 3 Injector Ejector Rail Installing Peripheral Modules A Caution The NI PXIe 1066DC chassis has been designed to accept a variety of peripheral module types in different slots To prevent damage to the chassis ensure that the peripheral module is being installed into a slot designed to accept it Refer to Chapter 1 Getting Started for a description of the various slot types National Instruments 2 9 Chapter 2 Installation and Configuration This section contains general installation instructions for installing a peripheral module in a NI PXIe 1066DC chassis Refer to your peripheral module user manual for specific instructions and warnings To install a module complete the following steps 1 Ensure that the chassis is properly grounded to protect it from electrical damage while you install the module 2 Ensure that the chassis is powered off Install a module into a chassis slot by first placing the module card PCB into the f
75. t to operate the hardware under the local regulatory rules The Declaration of Conformity DoC contains important EMC compliance information and instructions for the user or installer To obtain the DoC for this product visit ni com certification search by model number or product line and click the appropriate link in the Certification column Contents About This Manual Related Documentation idees x nee cn aan RENS a aaa pa andina ada anna ix Chapter 1 Getting Started Uripa kigi 25 araras RII GN enn ss 1 1 What You Need to Get Started ee nennen nennen eren 1 1 Key Features sess 1 1 Chassis Description 1 3 Optional Equipment 1 4 EMC Fillet Panels 5 irem Re Perrier rete ROB E Sao Gone 1 4 Rack Mount Kit iere e td ed e ir Eher cab Hee dee ns 1 4 DIOP BIOCK c EQ 1 4 NI PXIe 1066DC Chassis Backplane Overview eese 1 5 Interoperability with CompactPCl 1 5 System Controller Slot 1 5 Hybrid Peripheral Slots 1 6 PXI P ripheral Slots or oe ELS Re ede ed ES eoe 1 6 PXI Express Peripheral Slots essent nene 1 6 System Tining Slot 3 3 ss IR Ere eret e reb ed atest eH eredi eps 1 6 PXI Local BUS 2 2 2 2 reet p EROS He ri e eie tet les 1 8 PXI Trigger Bus 1 8 System Reference Clock 1 9 PXIesSYNCZ CERE otic M eeu reet e tr ru Eb ee 1 11 Chapter 2 Installatio
76. tem Reference Clock PXI_CLK10 Maximum slot to slot skew 500 ps Puce M 25 ppm max guaranteed over the operating temperature range Maximum Jitter iieri eee ino toit Lobo 5 ps RMS phase jitter 10 Hz to 1 MHz range DutysfactOE c impri etie 45 to 55 Unloaded signal swing sss 3 3 V 40 3 V a Note For other specifications refer to the PXI 1 Hardware Specification A 6 ni com NI PXle 1066DC User Manual 100 MHz System Reference Clock PXle CLK100 and PXle SYNC100 Maximum slot to slot skew dire Maximum jitter Duty factor for PXIe CLK100 Absolute single ended voltage swing When each line in the differential pair has 50 W termination to 1 30 V or Th venin equivalent 25 ppm max guaranteed over the operating temperature range 3 ps RMS phase jitter 10 Hz to 12 kHz range 2 ps RMS phase jitter 12 kHz to 20 MHz range 45 to 55 400 to 1000 mV Note For other specifications refer to the PXI 5 PXI Express Hardware Specification External 10 MHz Reference Out SMA on front panel of chassis Edi Maximum jitter Output amplitude Output impedance External Clock Source Freguengy scosse segevashastas EATS Input amplitude Front panel SMA System timing slot PXI CLKIO IN Front panel SMA input impedance Maximum jitter introduced by backplane PXle SYNC CTRL 25 ppm ma
77. tes per FCC 47 CFR Class A equipment is intended for use in commercial light industrial and heavy industrial locations In Europe Canada Australia and New Zealand per CISPR 11 Class A equipment is intended for use only in heavy industrial locations Note Group 1 equipment per CISPR 11 is any industrial scientific or medical equipment that does not intentionally generate radio frequency energy for the treatment of material or inspection analysis purposes Note For EMC declarations and certifications and additional information refer to the Online Product Certification section CE Compliance Ce This product meets the essential requirements of applicable European Directives as follows 2006 95 EC Low Voltage Directive safety e 2004 108 EC Electromagnetic Compatibility Directive EMC Online Product Certification Refer to the product Declaration of Conformity DoC for additional regulatory compliance information To obtain product certifications and the DoC for this product visit ni com certification search by model number or product line and click the appropriate link in the Certification column Environmental Management Nl is committed to designing and manufacturing products in an environmentally responsible manner NI recognizes that eliminating certain hazardous substances from our products is beneficial to the environment and to NI customers For additional environmental information refer to the Minimiz
78. tibility document included with your kit Safety Information N Caution Before undertaking any troubleshooting maintenance or exploratory procedure carefully read the following caution notices Protection equipment may be impaired if equipment is not used in the manner specified This equipment contains voltage hazardous to human life and safety and is capable of inflicting personal injury Chassis Grounding The chassis requires a connection from the premise wire safety ground to the chassis ground The earth safety ground must be connected during use of this equipment to minimize shock hazards Refer to the Connecting to Safety Ground and Power Source section for instructions on connecting safety ground Live Circuits Operating personnel and service personnel must not remove protective covers when operating or servicing the chassis Adjustments and service to internal components must be undertaken by qualified service technicians During service of this product the mains connector to the premise wiring must be disconnected Dangerous voltages may be present under certain conditions use extreme caution Explosive Atmosphere Do not operate the chassis in conditions where flammable gases are present Under such conditions this equipment is unsafe and may ignite the gases or gas fumes Part Replacement Only service this equipment with parts that are exact replacements both electrically and mechanically Contact National
79. troller functions including clock sourcing and arbitration for data transfers across the backplane Installing such a device into any other slot can damage the device the PXI backplane or both O National Instruments G 5 Glossary system reference clock System Timing slot TTL UL VAC Vpp G 6 ni com A 10 MHz clock also called PXI CLK10 that is distributed to all peripheral slots in the chassis as well as a BNC connector on the rear of chassis labeled 10 MHz REF OUT The system reference clock can be used for synchronization of multiple modules in a measurement or control system The 10 MHz REF IN and OUT BNC connectors on the rear of the chassis can be used to synchronize multiple chassis to one reference clock The PXI backplane specification defines implementation guidelines for PXI CLK10 This slot is located at slot 4 and has dedicated trigger lines to other slots Transistor transistor logic Underwriter s Laboratories Volts Volts alternating current Peak to peak voltage Watts Index B backplane hybrid peripheral slots 1 6 interoperability with CompactPCI 1 5 overview 1 5 PXI Express peripheral slots 1 6 PXI local bus routing 1 8 PXI peripheral slots 1 6 PXIe SYNC CTRL 1 11 1 12 specifications A 6 system controller slot 1 5 system reference clock 1 9 default behavior figure 1 10 routing figure 1 10 system timing slot 1 6 trigger bus 1 8 C CE complianc
80. uration and Initialization Files The PXI Express specification allows many combinations of PXI Express chassis and system modules To assist system integrators the manufacturers of PXI Express chassis and system modules must document the capabilities of their products The minimum documentation requirements are contained in ini files which consist of ASCII text System integrators configuration utilities and device drivers can use these ini files The capability documentation for the NI PXIe 1066DC chassis is contained in the chassis ini file on the software media that comes with the chassis The information in this file is combined with information about the system controller to create a single system initialization file called pxisys ini PXI System Initialization The system controller manufacturer either provides a pxisys ini file for the particular chassis model that contains the system controller or provides a utility that can read an arbitrary chassis ini file and generate the corresponding pxisys ini file System controllers from NI provide the pxisys ini file for the NI PXIe 1066DC chassis so you should not need to use the chassis ini file Refer to the documentation provided with the system controller or to ni com support for more information on pxisys ini and chassis ini files Device drivers and other utility software read the pxisys ini file to obtain system information The device drivers should have no need to directly read
81. urces Self Help Technical Resources Visit ni com support for software drivers and updates a searchable KnowledgeBase product manuals step by step troubleshooting wizards thousands of example programs tutorials application notes instrument drivers and so on Registered users also receive access to the NI Discussion Forums at ni com forums NI Applications Engineers make sure every question submitted online receives an answer Software Support Service Membership the Standard Service Program SSP is a renewable one year subscription included with almost every NI software product including NI Developer Suite This program entitles members to direct access to NI Applications Engineers through phone and email for one to one technical support as well as exclusive access to online training modules at ni com self paced training NI also offers flexible extended contract options that guarantee your SSP benefits are available without interruption for as long as you need them Visit ni com ssp for more information Declaration of Conformity DoC A DoC is our claim of compliance with the Council of the European Communities using the manufacturer s declaration of conformity This system affords the user protection for electromagnetic compatibility EMC and product safety You can obtain the DoC for your product by visiting ni com certification For information about other technical support options in your area visit ni com services or
82. x guaranteed over the operating temperature range 5 ps RMS phase jitter 10 Hz to 1 MHz range 1 Vpp 20 square wave into 50 Q 2 Vpp unloaded 502450 10 MHz 4 100 PPM 200 mV pp to 5 Vpp square wave or sine wave 5 V or 3 3 V TTL signal 502450 1 ps RMS phase jitter 10 Hz to 1 MHz range 2 0 to 5 5 V Oto 0 8 V National Instruments A 7 Appendix A Specifications PXI Star Trigger Maximum slot to slot skew Backplane characteristic impedance Note For PXI slot to PXI Star mapping refer to the System Timing Slot section of Chapter 1 Getting Started For other specifications refer to the PX7 1 Hardware Specification PXI Differential Star Triggers PXle DSTARA PXle DSTARB PXle DSTARC Maximum slot to slot skew Maximum differential skew Backplane differential impedance 10 Note For PXI Express slot to PXI DSTAR mapping refer to the System Timing Slot section of Chapter 1 Getting Started For other specifications the NI PXIe 1066DC complies with the PX7 5 PXI Express Hardware Specification Mechanical Overall dimensions Standard chassis Height e eere 10 59 in 268 7 mm Widths rinia 18 39 in 467 1 mm Depth s 18 76 in 476 5 mm Note 1 84 in 46 8 mm is added to height when feet are installed Weight With two power supplies 3
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