National Instruments NI sbRIO-960x User's Manual
Contents
1. Pressing the Reset button reboots the processor The FPGA continues to run unless you select the Autoload VI on Device Reboot boot option Refer to the Boot Options section for more information Understanding LED Indications FPGA LED USER LED POWER LED STATUS LED 0 3l 1 FPGA 3 2 USER 4 STATUS Figure 11 sbRIO 960x LEDs You can use the FPGA LED to help debug your application or easily retrieve application status Use the LabVIEW FPGA Module and NI RIO software to define the FPGA LED to meet the needs of your application Refer to LabVIEW Help for information about programming this LED You can define the USER LED to meet the needs of your application To define the LED use the RT LEDs VI in LabVIEW For more information about the RT LEDs VI refer to the LabVIEW Help The POWER LED is lit while the sbRIO device is powered on This LED indicates that the 5 V and 3 3 V rails are stable The STATUS LED is off during normal operation The sbRIO device indicates specific error conditions by flashing the STATUS LED a certain number of times as shown in Table 4 National Instruments Corporation 17 NI sbRIO 960x Table 4 Status LED Indications Number of Flashes Indication 1 The device is unconfigured Use MAX to configure the device Refer to the Measurement amp Automation Explorer Help for information about configuring the device The2. USER GUIDE NI sbRIO 960x Single Board RIO OEM Devices This document provides dimensions pinouts connectivity information and specifications for the National Instruments sbRIO 9601 and sbRIO 9602 The devices are referred to inclusively in this document as the sbRIO 960x gt Caution National Instruments makes no product safety electromagnetic compatibility EMC or CE marking compliance claims for the sbRIO 960x The end product supplier is responsible for conformity to any and all compliance requirements N Caution Exercise caution when placing the sbRIO 960x inside an enclosure Auxiliary cooling may be necessary to keep the device under the maximum ambient temperature rating of 55 C The following figure shows the sbRIO 960x Figure 1 sbRIO 960x NATIONAL p INSTRUMENTS What You Need to Get Started This section lists the software and hardware you need to start programming the sbRIO 960x Software Requirements You need a development computer with the following software installed on it Go to ni com info and enter the info code rdsoftwareversion for information about software version compatibility LabVIEW LabVIEW Real Time Module LabVIEW FPGA Module NI RIO Software Hardware Requirements You need the following hardware to use the sbRIO device sbRIO 960x C 19 30 VDC power supply L Ethernet cable NI sbRIO 960x 2 ni com Dimensions This
3. 4 Compile the FPGA VI Connecting Serial Devices to the SbRIO Device The sbRIO 960x has an RS 232 serial port to which you can connect devices such as displays or input devices Use the Serial VIs to read from and write to the serial port from a LabVIEW RT application For more information about using the Serial VIs refer to the Serial VIs and Functions topic of the LabVIEW Help Using the Internal Real Time Clock The system clock of the sbRIO device gets the date and time from the internal real time clock at startup This synchronization provides timestamp data to the device NI sbRIO 960x 14 ni com Configuring DIP Switches AMP 0650 1 5435802 7 1 SAFE MODE 3 IP RESET 5 USER 2 CONSOLE OUT 4 NO APP 6 NOFPGA Figure 10 DIP Switches All of the DIP switches are in the OFF up position when the sbRIO device is shipped from National Instruments SAFE MODE Switch The position of the SAFE MODE switch determines whether the embedded LabVIEW Real Time engine launches at startup If the switch is in the OFF position the LabVIEW Real Time engine launches Keep this switch in the OFF position during normal operation If the switch is in the ON position at startup the sbRIO device launches only the essential services required for updating its configuration and installing software The LabVIEW Real Time engine does not launch Push the SAFE MODE switch to the ON position if the software on the SbRIO
4. T l oto 8 200 208 28 E 000 285 7 23 6 442 163 63 Figure 3 sbRIO 960x with C Series Modules Dimensions in Inches Millimeters Note To maintain isolation clearances the Series modules do not use mounting hardware larger than 0 240 in 6 1 mm in diameter and maintain an air gap of at least 0 200 in 5 0 mm from the modules to anything else National Instruments Corporation NI sbRIO 960x 1 0 and Other Connectors on the sbRIO Device The following figure shows the locations of parts on the sbRIO device 6 P5 3 3 V Digital I O 7 J10 Connector for C Series Module 8 P4 3 3 V Digital I O 9 J9 Connector for C Series Module 1 Backup Battery P2 3 3 V Digital I O J5 RJ 45 Ethernet Port 0 J1 RS 232 Serial Port e e Y e e Y EE a i 8 2 E 4 12 411 Connector for C Series Module DIP Switches 11 Reset Button 12 P1 Ground Lug 13 LEDs 14 J3 Power Connector 15 3 3 V Digital I O NI sbRIO 960x Figure 4 sbRIO 960x Parts Locator Diagram ni com The following table lists and describes the connectors on sbRIO devi
5. the device runs a power on self test POST During the POST the Power and Status LEDs turn on The Status LED turns off indicating that the POST is complete If the LEDs do not behave in this way when the system powers on refer to the Understanding LED Indications section You can configure the device to launch an embedded stand alone LabVIEW RT application each time it is booted Refer to the Running a Stand Alone Real Time Application RT Module topic of the LabVIEW Help for more information National Instruments Corporation 13 NI sbRIO 960x Boot Options Table 3 lists the reset options available on sbRIO devices These options determine how the FPGA behaves when the device is reset in various conditions Table 3 sbRIO Reset Options Reset Option Behavior Do Not Autoload VI Does not load the FPGA bit stream from flash memory Autoload VI on Device Power Up Loads the FPGA bit stream from flash memory to the FPGA when the device powers on Autoload VI on Device Reboot Loads the FPGA bit stream from flash to the FPGA when you reboot the device either with or without cycling power ER Note If you want a VI to run when loaded to the FPGA complete the following steps 1 Right click the FPGA Target item in the Project Explorer window in LabVIEW 2 Select Properties 3 Inthe General category of the FPGA Target Properties dialog box place a check in the Run when loaded to FPGA checkbox
6. DIO1 GND 24 23 Port6 DIOO Port6 DIOCTL 22 21 Port6 DIO9 D GND 20 19 Port5 DIO8 18 17 Port5 DIO7 Bm D GND 16 15 Port5 DIO6 419 D GND 14 113 Port5 DIO5 S D GND 12 11 5 0104 22 i 5V 10 9 Port5 DIOS C A 1 D GND 7 Port5 DIO2 9 5V 6 5 Port5 DIO1 Port5 DIO9 4 3 Port5 DIOO Port5 DIOCTL 2 1 Figure 5 Pinout of 1 0 Connector P2 3 3 V Digital 1 0 NI sbRIO 960x 6 ni com D GND aa 5V D GND 5V D GND D GND D GND D GND D GND 1 Port9 DIOCTL D GND D GND D GND D GND D GND D GND D GND e D GND D GND Port8 DIOCTL D GND D GND D GND D GND Port7 DIO4 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 E o Port9 DIO8 Port9 DIO7 Port9 DIO6 Port9 DIO5 Port9 DIO4 Port9 DIO3 Port9 DIO2 Port9 DIO1 Port9 DIOO Port9 DIO9 Port8 DIO8 Port8 DIO7 Port8 DIO6
7. Port8 DIO5 Port8 DIO4 Port8 DIO3 Port8 DIO2 Port8 DIO1 Port8 DIOO Port8 DIO9 Port7 DIO8 Port7 DIO7 Port7 DIO6 Port7 DIO5 D GND National Instruments Corporation Figure 6 Pinout of 1 0 Connector 3 3 V Digital 1 0 NI sbRIO 960x 50 1 D GND D GND D GND D GND Port2 DIOCTL D GND D GND D GND D GND D GND D GND D GND D GND D GND Port1 DIOCTL D GND D GND D GND D GND D GND 5V D GND 5V Port0 DIO9 Port0 DIOCTL 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 11 o Port2 DIO3 Port2 DIO2 Port2 DIO1 Port2 DIOO Port2 DIO9 Port1 DIO8 Port1 DIO7 Port1 DIO6 Port1 DIO5 Port1 DIO4 Port1 DIO3 Port1 DIO2 Port1 DIO1 Port1 DIOO Port1 DIO9 Port0 DIO8 Port0 DIO7 Port0 DIO6 Port0 DIO5 10 4 Port0 DIO3 Port0 DIO2 PortO DIO1 Port0 DIOO D GND NI sbRIO 960x Figure 7 Pinout of 1
8. device has detected an error in its software This usually occurs when an attempt to upgrade the software is interrupted Reinstall software on the device Refer to the Measurement amp Automation Explorer Help for information about installing software on the device The device is in safe mode because the Safe Mode DIP switch is in the ON position Refer to the Configuring DIP Switches section for information about the Safe Mode DIP switch The software has crashed twice without rebooting or cycling power between crashes This usually occurs when the device runs out of memory Review your RT VI and check the memory usage Modify the VI as necessary to solve the memory usage issue Continuous flashing or solid The device may be configured for DHCP but unable to get an IP address because of a problem with the DHCP server Check the network connection and try again If the problem persists contact National Instruments Resetting the Network Configuration of the sbRIO Device NI sbRIO 960x If the sbRIO device is not able to communicate with the network you can use the IP RESET switch to manually restore the device to the factory network settings When you restore the device to the factory network settings the IP address subnet mask DNS address gateway and Time Server IP are set to 0 0 0 0 Power on defaults watchdog settings and VIs are unaffected Complete the following steps to restore the device to the
9. device is corrupted Even if the switch is not in the ON position if there is no software installed on the device the device automatically boots into safe mode The SAFE MODE switch must be in the ON position to reformat the drive on the device Refer to the Measurement amp Automation Explorer Help for more about installing software and reformatting the drive CONSOLE OUT Switch With a serial port terminal program you can use the serial port to read the IP address and firmware version of the sbRIO device Use a null modem cable to connect the serial port on the device to a computer Push the CONSOLE OUT switch to the ON position Make sure that the serial port terminal program is configured to the following settings e 9 600 bits per second e Eight data bits e No parity National Instruments Corporation 15 NI sbRIO 960x IP RESET Switch NO APP Switch USER1 Switch NO FPGA Switch NI sbRIO 960x e One stop bit No flow control Keep this switch in the OFF position during normal operation If CONSOLE OUT is enabled LabVIEW RT cannot communicate with the serial port Push the IP RESET switch to the ON position and reboot the sbRIO device to reset the IP address to 0 0 0 0 If the device is on your local subnet and the IP RESET switch is in the ON position the device appears in MAX with IP address 0 0 0 0 You can configure a new IP address for the device in MAX Refer to the Resetting the Network Configuration of t
10. factory network settings 1 Move the IP RESET DIP switch to the ON position 2 Press the Reset button 3 Move the IP RESET switch to the OFF position 18 ni com The network settings are restored You can reconfigure the settings in MAX from a computer on the same subnet Refer to the Measurement amp Automation Explorer Help for more information about configuring the device 5 Note If the device is restored to the factory network settings the Lab VIEW run time engine does not load You must reconfigure the network settings and reboot the device for the LabVIEW run time engine to load Integrated 3 3 V Digital 1 0 The four 40 pin IDC headers P2 P5 provide connections for 110 low voltage DIO channels 82 DGND and eight 5 V voltage outputs The following figure represents a single DIO channel 5 D1 Spartan FPGA U1 2 Connection D2 1 U1 5V to 3 3 V Level Shifter SN74CBTD3384CDGV from Texas Instruments 2 D1 D2 ESD Rated Protection Diodes NUPA302MR6T1G from On Semiconductor 3 R1 Current Limiting Posistor PRG18BB330MS1RB from Murata Figure 12 Circuitry of One 3 3 V DIO Channel 1 0 Protection The 33 Q current limiting posistor R1 and the protection diodes D1 and D2 protect each DIO channel against externally applied voltages of 20 V and ESD events The combination of R1 and D1 protects against overvoltage and the combinat
11. of the four DIO headers has two pins to provide 5 V power for external applications This 5 V outputs are referenced to DGND on the headers and are connected directly to the internal 5 V power plane of the sbRIO device The 5 V source has current limiting and overvoltage clamps Nevertheless sudden current steps and noisy loads can inject high frequency transients into the power planes of the device Such transients can cause intermittent failures in the digital timing and lead to unexpected behavior Add filters and or additional current limiting between the external load and the 5 V output if the external load is not a quiet slowly ramping DC load An LC filter of 6 8 and 100 uF 200 mA load should be sufficient but the OEM user is responsible for final requirements and testing The sbRIO power supply is designed for a total of 2 A external load at 5 V This total includes 200 mA per installed C Series module For example if three C Series modules are installed only 2 A 3x 0 2 1 4 A is available for use on headers 2 5 Each pin on the headers is rated for 2 but a typical 28 AWG ribbon cable is rated for only 225 mA per conductor 20 ni com The OEM user is responsible for determining cabling requirements and ensuring that current limits are not exceeded Specifications The following specifications are typical for the range 20 to 55 C unless otherwise noted Network Network interface eee ences
12. section contains dimensional drawings of the sbRIO devices For three dimensional models go to com singleboard and look on the Resource tab for the sbRIO device you are using Note The plated mounting holes are all connected to P1 the ground lug Connect 1 or one of the plated mounting holes securely to earth ground National Instruments Corporation 3 NI sbRIO 960x The following figure shows the dimensions of the sbRIO 960x 26 to S 2 S 5 5 5 e i i i 7X 134 3 4 i 94 E i SERE HBT 3 520 89 41 3 520 89 41 1 e e un TTT 2 440 61 98 4 EIDGIICIIDHEESNIDIIEN O 550 13 97 Ny 275 6 99 7 140 3 56 __ 4 ee b 6 Ra 450 1143 MOD nent era CETUR j mT i N N 8 58 8 3 gt UY T e 27 S 469 11 91 n aE 000 0 i i
13. 0 Connector P4 3 3 V Digital 1 0 10 ni com sn D GND 50 49 Port4 DIO8 WA 5V 48 47 Port4 DIO7 Pin 50 D GND 46 45 Port4 DIO6 eire 5V 44 43 Port4 DIO5 L GND 42 41 Port4 DIO4 D GND 40 39 Port4 DIO3 P D GND 38 37 Port4 DIO2 D GND 36 35 Port4 DIO1 ls 34 33 Port4 DIOO Pin Port4 DIOCTL 32 31 Port4 DIO9 D GND 30 29 Port3 DIO8 ES HIII D GND 28 27 Port3 DIO7 211 GND 26 25 Port3 DIO6 D GND 24 23 Port3 DIO5 uen D GND 22 21 Port3 DIO4 D GND 20 19 Port3 DIO3 5 D GND 18 17 Port3 DIO2 D GND 16 15 Port3 DIO1 D GND 14 13 Port3 DIOO Port3 DIOCTL 12 11 Port3 DIO9 D GND 10 9 Port7 DIO3 2 D GND 7 Port7 DIO2 _ D GND 6 5 Port7 DIO1 Port7 DIO9 4 3 Port7 DIOO Port7 DIOCTL 2 1 D GND Figure 8 Pinout of 1 0 Connector P5 3 3 V Digital 1 0 The following figure and table show the signals on J1 the RS 232 serial port Pint Pin5 Pin 6 Pin 9 Figure 9 J1 RS 232 Serial Port National Instruments Corporation 11 NI sbRIO 960x Table 2 RS 232 Serial Po
14. 10BaseT and 100BaseTX Ethernet Compatibility eene IEEE 802 3 Communication rates 10 Mbps 100 Mbps auto negotiated Maximum cabling distance 100 m segment Processor Speed SbRIO 9601 5 2 tiun 266 MHz SbRIO 9602 essere 400 MHz Memory Non volatile memory 5 9601 128 5 9602 256 System memory SbRIO 9601 eee 64 MB 9602 eene 128 MB Xilinx Spartan 3 Reconfigurable FPGA Number of logic cells 9601 17 280 9602 46 080 Available embedded RAM 9601 432 kbits sbRIO 9602 eee 720 kbits National Instruments Corporation 21 NI sbRIO 960x 3 3 V Digital 1 0 NI sbRIO 960x Number of DIO channels 110 Maximum tested current per channel 3 mA Maximum total current all lines 330 mA Maximum tested DIO frequency 10 MHz Input logic levels Input high voltage Vr 2 0 V min 5 25 V max Input low voltage Vy 0 V min 0 8 V max Output logic levels Output high voltage sourcing 3 MA sse 2 7 V min 3 3 V max Output low voltage VoL sinki
15. ces and lists the part number and manufacturer of each connector Refer to the manufacturer for information about using and matching these connectors Table 1 sbRIO Connector Descriptions Connector Description Part Number and Manufacturer J3 Power 2 position MINI COMBICON header 1727566 from Phoenix Contact and plug 0 285 in 7 24 mm high accepts 1714977 from Phoenix Contact Included J1 RS 232 9 Pin DSUB plug 0 318 in 8 08 mm 5747840 6 from Amphenol Serial Port high with 4 40 jacksockets P2 P3 P4 P5 50 pin polarized header plug N2550 6002RB from 3M 0 100 x 0 100 in 2 54 x 2 54 mm National Instruments Corporation 7 NI sbRIO 960x The following figures show the pinouts of the I O connectors on the sbRIO devices O D GND 50 49 Port2 DIO8 WA D GND 48 47 Port2 DIO7 6 D GND 46 45 Port2 DIOG D GND 44 43 Port2 DIO5 D GND 42 41 Port2 DIO4 D GND 40 39 Port6 DIO8 D GND 38 37 Port6 DIO7 D GND 36 35 Port6 DIOG d D GND 33 Porte DIO5 D GND 32 31 Port6 DIO4 D GND 30 29 Port6 DIO3 50 D GND 28 27 Porte DIO2 D GND 26 25 Port6
16. he sbRIO Device section for more information about resetting the IP address Push the NO APP switch to the ON position to prevent a LabVIEW RT startup application from running at startup If you want to permanently disable a LabVIEW RT application from running at startup you must disable it in LabVIEW To run an application at startup push the NO APP switch to the OFF position create an application using the LabVIEW Application Builder and configure the application in LabVIEW to launch at startup For more information about automatically launching VIs at startup and disabling VIs from launching at startup refer to the Running a Stand Alone Real Time Application RT Module topic of the LabVIEW Help You can define the USERI switch for your application To define the purpose of this switch in your embedded application use the RT Read Switch VI in your LabVIEW RT embedded VI For more information about the RT Read Switch VI refer to the LabVIEW Help Push the NO FPGA switch to the ON position to prevent a LabVIEW FPGA application from loading at startup The NO FPGA switch overrides the options described in the Boot Options section After startup you can download bit files to flash memory from a LabVIEW project regardless of switch position If you already have an application configured to launch at startup and you push the NO FPGA switch from ON to OFF the startup application is automatically enabled 16 ni com Using the Reset Button
17. ion of R1 and D2 protects against undervoltage The resistance of R1 increases rapidly with temperature National Instruments Corporation 19 NI sbRIO 960x Drive Strength Signal Integrity During overvoltage conditions high current flows through R1 and into the protection diodes High current causes internal heating in the posistor which increases the resistance and limits the current Refer to the Specifications section for current limiting and resistance values The sbRIO devices were tested with all 110 DIO channels driving 3 mA DC loads for a total of 330 mA sourcing from the FPGA The FPGA uses minimum 8 mA drivers but the devices are not characterized for loads higher than 3 mA The sbRIO boards were designed with 60 Q characteristic trace impedance The characteristic impedance of most IDC ribbon cables is 110 Q which is grossly mismatched from the board However headers P2 P5 were designed such that the signals are interwoven with ground signal ground signal ground etc which greatly improves the signal integrity This is sufficient for most applications For the best possible signal integrity use 3M ribbon cable 3353 which has a characteristic impedance of 65 This cable has a ground plane that connects to the ground plane of the board at pin 1 and pin 50 The internal ground plane of this cable also reduces noise and radiated emissions Using 5 V Power from 3 3 V DIO Headers 2 5 NI sbRIO 960x Each
18. ng 2 0 07 V min 0 54 V max Overvoltage protection 3t 20 to 70 C aine ete 20 V maximum 2 pins in overvoltage Posistor PRG18BB330MS1RB from Murata Maximum peak abnormal condition current 760 mA Maximum hold current at 25 36 mA Maximum hold current at 70 20 mA Trip current at 25 71 mA Resistance at 25 33 20 22 ni com Resistance temperature characteristics typical curve Graph 1 Resistance Temperature Characteristics Typical Curve Szu u eoueisised 140 160 60 80 100 120 40 Temperature C NI sbRIO 960x 23 National Instruments Corporation Power Requirements 3 The sbRIO device requires a power supply connected to connector J3 Refer to Figure 4 for the location of J3 Refer to the Powering the sbRIO Device section for information about connecting the power supply Power supply voltage range 19 30 VDC Power supply current limit 18 Power connector internal fuse 2 A non replaceable Total power requirement Pint Ppro Psy Pcser where Pint 18 the consumption by sbRIO internal operation is the consumption by the 3 3 V DIO Psy is the consumption by the 5 V voltage output Pcser 18 the consumption by installed board only C Series modules Note You must add 20 to the calc
19. nited Kingdom 44 0 1635 523545 National Instruments NI ni com and LabVIEW are trademarks of National Instruments Corporation Refer to the Terms of Use section on ni com 1legal for more information about National Instruments trademarks Other product and company names mentioned herein are trademarks or trade names of their respective companies For patents covering National Instruments products refer to the appropriate location Help Patents in your software the patents txt file on your media or ni com patents 2008 National Instruments Corporation All rights reserved 374991A 01 Aug08
20. o 55 C Storage temperature 60068 2 1 IEC 60068 2 2 40 to 85 C Operating humidity 60068 2 56 10 to 90 RH noncondensing Storage humidity 60068 2 56 5 to 95 RH noncondensing Maximum altitude esee 2 000 m Pollution Degree 60664 2 Physical Characteristics Torque for screw terminals on J3 0 5 to 0 6 N m 4 4 to 5 3 Ib in 198 45 g 7 0 oz NI sbRIO 960x 26 ni com Cabling Table 5 shows the standard Ethernet cable wiring connections for both normal and crossover cables Table 5 Ethernet Cable Wiring Connections Connector 2 Connector 2 Pin Connector 1 Normal Crossover 1 white orange white orange white green 2 orange orange green 3 white green white green white orange 4 blue blue blue 5 white blue white blue white blue 6 green green orange 7 white brown white brown white brown 8 brown brown brown Connector 1 Connector 2 Pin 1 8 1 8 Figure 13 Ethernet Connector Pinout National Instruments Corporation 27 NI sbRIO 960x Where to Go for Support The National Instruments Web site is your complete resource for technical support At ni com s
21. on Do not connect the system to signals or use for measurements within Measurement Categories II III or IV Environmental Management National Instruments is committed to designing and manufacturing products in an environmentally responsible manner NI recognizes that eliminating certain hazardous substances from our products is beneficial not only to the environment but also to NI customers National Instruments Corporation 25 NI sbRIO 960x For additional environmental information refer to the and the Environment 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 Waste Electrical and Electronic Equipment WEEE EU Customers At the end of their life cycle all products must be sent to a WEEE recycling center For more information about WEEE recycling centers and National Instruments WEEE initiatives visit ni com environment weee htm Dx EFAA mis Rib SIME CHE ROHS SU HARA National Instruments rrt EL PLB LEO gt ROHS XT National Instruments RoHS TAS ni com environment rohs_china For information about China RoHS compliance go to ni com environment rohs china Environmental The sbRIO 960x is intended for indoor use only Ambient temperature in enclosure IEC 60068 2 1 60068 2 2 20 t
22. pply voltage and current must meet the specifications in the Power Requirements section of this document but the actual power requirement depends on how the device is physically configured programmed and used To determine the power requirement of your application you must measure the power consumption during execution and add 20 to your estimates to account for transient and startup conditions Note Select a high quality power supply with less than 20 mV ripple The sbRIO device has some internal power supply filtering on the positive side but a low quality power supply can inject noise into the ground path which is unfiltered Four elements of the sbRIO device can require power sbRIO internal operation 3 3 V DIO 5 V output and board only C Series modules installed on the device Refer to the Power Requirements section for formulas and examples for calculating power requirements for different configurations and application types Complete the following steps to connect a power supply to the device 1 Remove the MINI COMBICON plug from connector J3 of the SbRIO 960x Refer to Figure 4 for the location of J3 2 Connect the positive lead of the power supply to the V terminal of the MINI COMBICON plug 3 Connect the negative lead of the power supply to the C terminal of the MINI COMBICON plug 4 Re install the MINI COMBICON connector in connector J3 Powering On the sbRIO Device When you apply power to sbRIO 960x
23. ro Se c3 i o eV 2 a a SS 5 RI I 2 5 7 2MM CLEARANCE REQUIRED ABOVE THIS CAPACITOR 2X 4 40 THREADS 380 9 65 365 9 28 651 16 54 625 15 88 220 5 59 1 11 22022 xd Pee 327 8 31 I 242 6 16 180 457 i 3 DS 080 2 08 eR oF eo 5 io 000 0 e TF T 9 o o OON 8 2 RR 3 2 2 8 8 88 2 SS gt Figure 2 sbRIO 960x Dimensions in Inches Millimeters NI sbRIO 960x 4 ni com You can install up to three board only C Series I O modules on the sbRIO 960x The following figure shows the dimensions of the sb RIO 960x with three board only C Series I O modules installed oo or N o MOM BS zz 4 So oo gt or ON 2 eoo No NN 10 LO pn 6 565 166 75 Mi 5 515 140 08 5 1 4 265 108 33 e e e e a 1 3 965 100 71 X 8X 125 3 18 2 885 73 28 2 514 63 86 9 512 13 1212070 000 0 471 q Lo
24. rt Pin Descriptions Pin Signal 1 DCD 2 RXD 3 TXD 4 DTR 5 GND 6 DSR 7 RTS 8 CTS 9 RI Connecting the sbRIO Device to a Network Use a standard Category 5 CAT 5 or better Ethernet cable to connect the RJ 45 Ethernet port to an Ethernet network Caution prevent data loss and to maintain the integrity of your Ethernet installation do not use a cable longer than 100 m NI sbRIO 960x If you need to build your own cable refer to the Cabling section for more information about Ethernet cable wiring connections The host computer communicates with the device over a standard Ethernet connection If the host computer is on a network you must configure the device on the same subnet as the host computer If neither the host computer nor the device is connected to a network you can connect the two directly using a crossover cable If you want to use the device on a subnet other than the one the host computer is on first connect the device on the same subnet as the host computer Use DHCP to assign an IP address or reassign a static IP address for the subnet where you want it to be and physically move it to the other subnet Refer to the Measurement amp Automation Explorer Help for more information about configuring the device in Measurement amp Automation Explorer MAX 12 ni com Powering the sbRIO Device The sbRIO device requires a power supply connected to J3 The su
25. ulated or measured total power requirement to account for transient and startup conditions Maximum P ceste rer et 6 0 W Maximum P pio eee 1 28 W Ppio Total DIO Current x 3 3 V 0 85 Maximum 11 1 W Psy Total 5 V Output Current x 5 V 0 9 Maximum Pes treten 3 3 W each installed C Series module consumes up to 1 1 W The sbRIO device is 1 2 more efficient with a 19 V supply than with a 30 V supply NI sbRIO 960x 24 ni com Example power requirement calculations For an sbRIO 9602 with three installed board only C Series modules 20 mA total current through 3 3 V DIO pins and A of current through 5 V output calculate the total power requirement as follows 6 0 Pese 3 30 W 0 08 W Psy 5 55 W Adding 20 for transient conditions 14 93 W x 1 2 17 92 W Total power requirement 17 92 W For an sbRIO 9601 with one installed board only C Series module 330 mA total current through 3 3 V DIO pins and no 5 V output used calculate the total power requirement as follows 6 0 W Pese 1 10 W Ppjo 1 28 W Psy 0 00 W Adding 20 for transient conditions 8 38 W x 1 2 10 06 W Total power requirement 10 06 W Backup battery 3 V lithium coin cell BR2032 Working 1 0 Voltages Connect only voltages that are within these limits V terminal to C terminal 35 VDC max Measurement Category I N Cauti
26. upport you have access to everything from troubleshooting and application development self help resources to email and phone assistance from NI Application Engineers National Instruments corporate headquarters is located at 11500 North Mopac Expressway Austin Texas 78759 3504 National Instruments also has offices located around the world to help address your support needs For telephone support in the United States create your service request at ni com support and follow the calling instructions or dial 512 795 8248 For telephone support outside the United States contact your local branch office Australia 1800 300 800 Austria 43 662 457990 0 Belgium 32 0 2 757 0020 Brazil 55 11 3262 3599 Canada 800 433 3488 China 86 21 5050 9800 Czech Republic 420 224 235 774 Denmark 45 45 76 26 00 Finland 358 0 9 725 72511 France 01 57 66 24 24 Germany 49 89 7413130 India 91 80 41190000 Israel 972 3 6393737 Italy 39 02 41309277 Japan 0120 527196 Korea 82 02 3451 3400 Lebanon 961 0 1 33 28 28 Malaysia 1800 887710 Mexico 01 800 010 0793 Netherlands 31 0 348 433 466 New Zealand 0800 553 322 Norway 47 0 66 90 76 60 Poland 48 22 3390150 Portugal 351 210 311 210 Russia 7 495 783 6851 Singapore 1800 226 5886 Slovenia 386 3 425 42 00 South Africa 27 0 11 805 8197 Spain 34 91 640 0085 Sweden 46 0 8 587 895 00 Switzerland 41 56 2005151 Taiwan 886 02 2377 2222 Thailand 662 278 6777 Turkey 90 212 279 3031 U
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