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Astronics OMNIBUS II NI PXIe Скачать руководство пользователя страница 10

OmniBus II NI PXIe User Manual

1-1

1. INTRODUCTION

This manual is the user guide for PXI™ Express (PXIe) models of Astronics
Ballard Technology

®

’s (Ballard) OmniBus

®

II family of products. Throughout this

manual any reference to the PXIe card applies to the OmniBus II PXIe card, and
references to OmniBus and OmniBus II apply generically to all the products in the
designated family. This guide gives the background for the OmniBus II PXIe card,
discusses special features, describes the installation process, and references
programming alternatives.

1.1 OmniBus II Overview

OmniBus II (OB2) is a family of products that enable computer systems to
communicate with avionics databuses for the purpose of testing, simulation, and/or
operation. Each OB2 unit can support more than one protocol and a large number
of channels. They are available as an interface card for popular computer standards
(PCIe, cPCIe/PXIe, etc.) and as a stand-alone bridge to other communications
protocols (USB, Ethernet, etc.). All common avionics databus protocols are
supported, including MIL-STD-1553, ARINC 429, and Discrete I/O. Other
protocols (such as ARINC 575, ARINC 573, ARINC 453, etc.) are also supported.
Upon request, custom protocols can be implemented.

Figure 1.1—OmniBus II PXIe Card

The high-density modular design of the OB2 family provides flexibility that
enables the user to select from many protocol, platform, and channel count com-
binations. Each OB2 product can have at least two modules, and each module has

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Содержание OMNIBUS II NI PXIe

Страница 1: ...uments LV 222 511 442 Manual Get Pricing Availability at ApexWaves com Call Today 1 800 915 6216 Email sales apexwaves com https www apexwaves com modular systems national instruments pxi avionics mul...

Страница 2: ...stronics Ballard Technology www astronics com MA223 20180201 Rev C 1 OMNIBUS II NI PXIe USER MANUAL Interface Card To Avionics Databuses February 1 2018 Rev C 1 Copyright 2018 by Ballard Technology In...

Страница 3: ......

Страница 4: ...assuring suitability and proper use of Ballard products for their particular use or application INTERFERENCE This equipment generates uses and can radiate radio frequency energy and if not installed a...

Страница 5: ...es with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 This device must accept any interference received including...

Страница 6: ...2 3 3 OPERATION 3 1 3 1 CoPilot 3 1 3 2 User Developed Software 3 2 4 OMNIBUS II FEATURES 4 1 4 1 PCI Express Bus 4 1 4 1 1 PXIe Form Factor 4 1 4 2 Built in Test 4 1 4 2 1 Power on Built in Test PBIT...

Страница 7: ...c Waveform 6 4 6 3 2 Configurable Frequency 6 5 6 3 3 Output State 6 5 6 4 Part Number Cross Reference 6 6 7 CONNECTOR PINOUTS 7 1 7 1 Interface Connector 7 1 7 2 General Pinout 7 2 7 3 Module Specifi...

Страница 8: ...1 Figure 4 1 Built in Test and System Monitor Architecture 4 2 Figure 4 2 OmniBus II Discrete Shunt Input Circuit 4 9 Figure 4 3 OmniBus II Discrete Shunt Output Circuit 4 10 Figure 5 1 PXIe Onboard...

Страница 9: ...3 Table 5 3 PXIe Trigger to Protocol Sync Mapping 5 3 Table 5 4 Transitional Protocol Trigger Parameters 5 4 Table 5 5 PXIe Status Parameters 5 4 Table 6 1 OmniBus II PXIe Host Part Numbering 6 1 Tab...

Страница 10: ...communicate with avionics databuses for the purpose of testing simulation and or operation Each OB2 unit can support more than one protocol and a large number of channels They are available as an int...

Страница 11: ...be synchronized in time to each other and to external devices OmniBus II is a newer enhanced generation of the original OmniBus architecture Though there are similarities the components of the two gen...

Страница 12: ...rt number is produced in the factory by mounting protocol specific modules on the required host platform and loading module specific firmware on the FPGAs Note The OB2 is not user configurable You can...

Страница 13: ...ucts support the most common protocols which are briefly described below MIL STD 1553 is the protocol for military aircraft and other military and commercial applications It is a digital command respo...

Страница 14: ...information files and resources 1 5 Support and Service National Instruments provides support for these products They have the most familiarity and experience with the LabVIEW platform and will be ab...

Страница 15: ...INTRODUCTION 1 6 OmniBus II NI PXIe User Manual This page intentionally blank...

Страница 16: ...t do the following For a PXIe System Shut down the system On the card select the required clock by sliding the onboard switch left or right With the injector handle in the down position insert the car...

Страница 17: ...d the Instrument Driver VI files will be compiled for the latest supported version of LabVIEW automatically If you encounter problems or have installation questions please reboot the controller prior...

Страница 18: ...time to determine or reassign the card number If you need further assistance contact Customer Support see Section 1 5 2 4 Step 4 Connect to Databus s I O Connect the databuses to the PXIe card accordi...

Страница 19: ...INSTALLATION 2 4 OmniBus II NI PXIe User Manual This page intentionally blank...

Страница 20: ...data CoPilot is a Windows based program that features a user friendly GUI Graphical User Interface and many timesaving features For example you can automatically detect bus messages post them in the...

Страница 21: ...alls and process messages to and from the avionics databus Functions include routines for transmitting receiving scheduling recording data manipulation and time tagging bus messages Although most task...

Страница 22: ...er 5 4 2 Built in Test The OB2 family includes onboard circuitry to test card operation and provide health information to the user application Three types of built in testing are supported Power on In...

Страница 23: ...ect the system if the temperature sensor measurements exceed built in system limits Figure 4 1 Built in Test and System Monitor Architecture 4 3 System Time Synchronization Systems with high reliabili...

Страница 24: ...le 4 1 I O Combinations for System Synchronization The TSM logic is activated only in Core A of an OB2 family device and all TSM configuration API calls must be directed to Core A BTICARD_TSM function...

Страница 25: ...me through a broadcast system time message and shared oscillator The default timer rollover is one year but is user adjustable to account for leap years BTICard_CardReset does not reset the core timer...

Страница 26: ...n operate as a PCM master PCM slave AM master and AM slave There are a number of formats for IRIG timing The OB2 family supports the IRIG formats indicated in Table 4 3 The characteristics of the exte...

Страница 27: ...he OB2 PPS circuit as either a master or a slave The bidirectional buffer drives the PPS only when you configure the PPS circuit as a master When you configure the PPS circuit as a slave it will expec...

Страница 28: ...input relative the local clock oscillator and adjust the frequency of the local clock to follow the input 10 MHz signal 10 MHz Input Characteristics Min input impedance at 1 kHz 10 k Max input amplitu...

Страница 29: ...er be used as a discrete output or input More than one core discrete each with an individually specified polarity may be used in combination to define a sync or trigger state For instance a trigger ma...

Страница 30: ...put for the pin 4 5 1 Shunt Inputs A shunt input circuit pin is pulled up to a voltage source through a resistor A load resistance applied between the pin and ground will shunt current from the source...

Страница 31: ...oviding self monitor capabilities Figure 4 3 OmniBus II Discrete Shunt Output Circuit 4 5 4 Shunt Output Considerations Limits The OB2 1553 discrete outputs are open ground switches capable of sinking...

Страница 32: ...e output remains disabled until both the fault condition is cleared and the user drives the output again Thus it is important that the user corrects fault conditions before attempting to drive the out...

Страница 33: ...cription LFH Pin LFH Pin Name API dionum ADIO0 Avionics DIO 0 7 BUS4P 17 ADIO1 Avionics DIO 1 6 BUS4N 18 ADIO2 Avionics DIO 2 24 BUS5P 19 ADIO3 Avionics DIO 3 25 BUS5N 20 ADIO4 Avionics DIO 4 9 BUS6P...

Страница 34: ...h is not a jumper thus the switch cannot be removed from the card Refer to Section 5 4 for more information about reading the clock switch status Figure 5 1 PXIe Onboard Clock Switch If the card does...

Страница 35: ...ed when tristating with this function Only one core can drive a particular bidirectional signal at a time If both cores are driving the same trigger the value most recently written will be driven on t...

Страница 36: ...XIe Trigger to Protocol Trigger Mapping Protocol Sync PXIe Signal Sync Mask Parameter A PXI_TRIG 0 SYNCMASK_PXITRIGA B PXI_TRIG 1 SYNCMASK_PXITRIGB C PXI_TRIG 2 SYNCMASK_PXITRIGC PXI_STAR SYNCMASK_PXI...

Страница 37: ...polarity for trigger line C TRIGPOL_TRIGCH Sets active high polarity for trigger line C TRIGPOL_TRIGCF Sets active on falling edge of trigger line C TRIGPOL_TRIGCR Sets active on rising edge of trigg...

Страница 38: ...PXI Express Peripheral Slot or a PXI Express System Timing Slot These slot types will be marked on the system chassis with one of the three Glyphs from Figure 5 2 Note While the PXIe card will operate...

Страница 39: ...OMNIBUS II PXIE SPECIFIC FEATURES 5 6 OmniBus II NI PXIe User Manual This page intentionally blank...

Страница 40: ...e w 2 cores Table 6 1 OmniBus II PXIe Host Part Numbering 6 2 MIL STD 1553 Modules MIL STD 1553 modules can have one or two dual redundant databuses chan nels The part numbers for 1553 modules start w...

Страница 41: ...6 2 2 Configurable RT Response Time The RT response time of MIL STD 1553 OB2 modules may be individually set in software for each 1553 channel You can measure the response from the mid bit zero cross...

Страница 42: ...G1553_AMPLHI 0V 26V 101 dacval 4 PARAMCFG1553_AMPLLO 0V 4 9V 019 dacval 4 Table 6 5 MIL STD 1553 ParamAmplitudeConfig Output Drive Since the actual amplitude and linearity depend on both the line driv...

Страница 43: ...oth receive and transmit channels may be independently set for low or high speed 12 5 or 100 Kbps and support varying the bit rate for non standard applications As shown in the Table 6 7 some ARINC 42...

Страница 44: ...s either side of signal to be outside the 10 V to 10 V range Table 6 7 ARINC 429 Parametric Waveform Characteristics 6 3 2 Configurable Frequency You can operate parametric ARINC 429 modules at non st...

Страница 45: ...n connectors for test interconnect NI Cable Part Number Ballard Cable Part Number Photo Description 784808 01 16036 LFH to 2 DB25 connectors Mostly used in ARINC 429 applications This cable brings all...

Страница 46: ...ard P N NI P N Cable Core A Cable Core B LV 222 441 000 784802 01 784808 01 LV 222 442 000 784803 01 784808 01 LV 222 442 442 784804 01 784808 01 784808 01 LV 222 510 000 784796 01 784807 01 LV 222 51...

Страница 47: ...MODULE CONFIGURATIONS 6 8 OmniBus II NI PXIe User Manual This page intentionally blank...

Страница 48: ...nnector or a module not listed here please consult other documentation provided with the product or call Customer Support see Section 1 5 Ballard offers a number of special cable assemblies to facilit...

Страница 49: ...GND 13 CDIO4 43 CDIO7 7 14 CGND 22 44 CGND 15 NC 5VA 45 NC 5VA 8 16 GND 23 46 GND 17 IRIG 47 IRIG 10MHZ 9 18 GND 24 48 GND 19 CDIO5 49 CDIO6 10 20 GND 25 50 GND 21 CDIO1 51 CDIO2 11 22 BUS7P 26 52 BU...

Страница 50: ...oupled 2 4 P2 16 BUS2N CH0BX BUS B transformer coupled 13 26 P2 5 BUS3P CH0BXR BUS B transformer coupled 13 27 P2 17 BUS3N n a CH1 CH1AD BUS A direct coupled 29 58 P3 2 BUS9P CH1ADR BUS A direct coupl...

Страница 51: ...BUS2P CH2N 2 4 P2 16 BUS2N R T R R T CH3 CH19 CH3P 13 26 P2 5 BUS3P CH3N 13 27 P2 17 BUS3N R T R R T CH4 CH20 CH4P 3 7 P2 6 BUS4P CH4N 3 6 P2 18 BUS4N R T R R T CH5 CH21 CH5P 12 24 P2 8 BUS5P CH5N 12...

Страница 52: ...lf to the other D sub thus giving similar signals on the corresponding pins of both D subs The wire pairs on the 16036 are different from those on the 16035 Table 7 4 below shows the wiring for the 16...

Страница 53: ...e four cables are available for single or dual channel modules and with or without a D sub connector All of them provide a twinax cable from the LFH connector to a PL 75 for each of the transformer co...

Страница 54: ...annel MIL STD 1553 OB2modules Pair Name From LFH Pin To DB25S Pin 1 CDIO0 11 1 1 GND 10 14 2 CDIO1 21 2 2 GND 20 15 3 CDIO2 51 3 3 GND 50 16 4 CDIO3 41 4 4 GND 40 17 5 CDIO7 43 6 5 GND 42 19 6 CDIO4 1...

Страница 55: ...CONNECTOR PINOUTS 7 8 OmniBus II NI PXIe User Manual This page intentionally blank...

Страница 56: ...tabus A 2 Transformer versus Direct Coupling MIL STD 1553 can be either direct or transformer coupled Most military MIL STD 1553 systems are transformer coupled Both coupling methods have a transforme...

Страница 57: ...COUPLING AND TERMINATION A 2 OmniBus II NI PXIe User Manual Figure A 1 Transformer Coupling to a Dual Redundant Databus...

Страница 58: ...NI PXIe User Manual A 3 Figure A 2 Direct Connection to a Dual Redundant Databus Bus A Bus B 78 78 78 78 UNIT UNDER T ES T S T UB A S T UB B T RANS CEIVER A T RANS CEIVER B T erminal T EEADAPT ERS BT...

Страница 59: ...COUPLING AND TERMINATION A 4 OmniBus II NI PXIe User Manual This page intentionally blank...

Страница 60: ...olled transmit scheduling CH TA SA message filtering Sequential monitor and time stamping Error injection including MBZC shifting Playback with errors Amplitude controls 16 Open GND avionics discrete...

Страница 61: ...ential pk pk Advanced Timing IRIG 64 bit hardware time tag 1 ns resolution IRIG A B input and output AM PWM o Generate or synchronize timer o Synchronize hardware time tags 10 MHz and PPS o Frame sync...

Страница 62: ...ght 3 5 lbs 1 6 kg Physical Dimensions See the following diagrams for the dimensions of the OB2 PXIe Card Figure B 1 Dimensions of OmniBus II PXIe Card Environmental Component temperature 40 to 85 C S...

Страница 63: ...5 7 W 12V 3 8 W 5 1 W 6 3 W 3 8 W 10 6 W 18 0 W Total 9 4 W 10 8 W 12 0 W 9 4 W 16 3 W 23 7 W PXIe MIL STD 1553 Model 222 544 544 Typical Maximum Core A Idle Active Active Idle Active Active Core B I...

Страница 64: ...9 databus when power is removed from the OB2 This can result in an attenuated bus signal for other powered devices on the 429 databus This errata does not apply to Advanced ARINC 429 Modules 45x 42x 4...

Страница 65: ...ERRATA SHEET C 2 OmniBus II PCIe PXIe User Manual This page intentionally blank...

Страница 66: ...ons Corrected Installation Procedure Removed references to 708 717 Serial Minor copy update Rev C 0 Date December 13 2017 Added Section 1 7 Mean Time Between Failure added Appendix B Specifications in...

Страница 67: ...REVISION HISTORY D 2 OmniBus II NI PXIe User Manual This page intentionally blank...

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