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          Applications

          Avionics System Integration & Test

          Avionics System Integration and Test in Less Time

          Comprehensive Avionics System Network Test Is Essential

          Before an avionics system can be installed in an aircraft, designers and lab managers must verify exactly how it will operate under every conceivable condition that may occur during flight. There can be no surprises aloft.

          System integration and test tools must be comprehensive but also straightforward to deploy in order to minimize test development and product verification time. All while guaranteeing full coverage of every potential fault condition.

          AIT hardware and software products are the ideal solution for creating Hardware-in-Loop (HIL) simulation tests, as well as testing the switched networks such as ARINC-664/Ethernet and Fibre Channel variants that interconnect modern aircraft systems.

          AIT’s Hardware-in-Loop Test Solutions.

          Whether used in a flight simulator or in real-time process systems such as simulating engine dynamics, successful HIL testing relies on AIT avionics hardware and tools including its unsurpassed variety of network interfaces.

          HIL implementation software tools include drivers for LabVIEW RealTime, QNX, and Linux in addition to Windows.

          AIT also provides Shared Memory products necessary to handle the enormous amounts of data requires for successful HIL system simulation and test.

          Avionics Network Switch Testing

          Older bus technologies such as MIL-STD-1553 and ARINC-429 are giving way to switched networks such as ARINC-664/Ethernet and Fibre Channel in newer avionics systems. These high bandwidth networks present sophisticated test challenges.

          Avionics suppliers everywhere turn to AIT for ARINC-664/Ethernet and Fibre Channel test instruments as well as Network Simulator Systems.

          System Test and Integration of ARINC-664/AFDX Avionics Systems

          ARINC-664/Ethernet is employed in advanced aircraft, including Boeing 787, Airbus A380 and A350 as well as on several new military aircraft such as the KC-46.

          A wide variety of AIT ARINC-664 products is used for verification and system integration testing power systems, engine controllers, and other avionics systems on these aircraft.

          Click “Read More” for information about ARINC-664 testing.

          READ MORE  ▸ ▾
          The ARINC-664 specification defines aircraft data networks that use Ethernet (IEEE 802.3) and upper layer protocols such as UDP, IP, and A653. Data rates for ARINC-664 networks range from 10Mbps to 1Gbps. Physical network interfaces may be copper or fiber optic.

          Originally developed for the Airbus A380 program, many avionics systems now employ Full Duplex Switched (AFDX™) Ethernet. AFDX is used on other Airbus aircraft and has been adopted by other advanced aircraft programs, including Boeing 787 and military aircraft such as the KC-46.

          AIT’s ARINC-664 test hardware and software provide complete test and simulation of all network functions and interconnections. VL traffic shaping, redundancy management, and IP fragmentation and reassembly are all handled by the test system.

          Key ARINC-664 Test System Features

          • Supports IEEE 802.3 10/100/1000 Mbit/s Full‐Duplex Ethernet links
          • Simulates multiple ARINC-664 End Systems, including VL traffic shaping and input VL redundancy management
          • Supports up to 128 Output VLs and 512 Input VLs
          • Supports up to 1024 Sampling & Queuing output message ports and up to 4096 input Sampling & Queuing message
          • IRIG‐B Time Synchronization
          • Provides network statistics including VL message counts and data rates
          • Automatic message sequencing & periodic data generated onboard
          • Includes Windows XP/7/8, Linux, VxWorks and LabVIEW Real Time Drivers and APIs

          LINK:    More Information about AIT ARINC-664 test solutions [http://www.aviftech.com/products/arinc-664p7]

          System Test and Integration of Fibre Channel Avionics Systems

          Fibre Channel is deployed on several new military aircraft programs including F-18, F-35, F-22 and is also used in cockpit display & video systems on several of the newer commercial aircraft.

          AIT supplies Fibre Channel interface products for testing upper layer protocols, including Asynchronous Subscriber Messaging (ASM), Remote Direct Memory Access (RDMA), as well as in weapons systems (HS1760) and ARINC-818 /FC-AV display systems.

          More about AIT’s Practical Fibre Channel Test Tools. 

          READ MORE  ▸ ▾

          The AIT APG-FC2 test interface board and associated software, as well as other PCI, PCIe, PXIe boards from AIT, provide everything necessary to conduct comprehensive tests of Fibre Channel applications, ranging from simple End-System to demanding testing and verification of End Systems and/or switches.

          AIT products may be used with the most popular avionics Upper Layer protocols including FC-AE-ASM, FC-AE-1553, FC-AE-RDMA and FC-AE-AV.

          All AIT Fibre Channel modules employ multiple processors with large onboard RAM. An onboard processor runs the driver software, minimizing host CPU interaction, enabling autonomous operation with minimal interaction during time-critical applications.

          Key Features

          • Dual Port Data Generator operating at full line rates
          • Dual Port Analyzer with nanosecond resolution
          • IRIG-B Time Code Encoder/Decoder for synchronization
          • Physical Bus Replay to reconstruct previously recorded data
          • Live Data Capture to display FC data in real-time
          • fcXplorerTest, Analysis, and Visualization Tool
          • Data Corruptor™ for dynamically changing FC data on a link.

          LINK:  Explore AIT Fibre Channel test solutions in greater detail [http://www.aviftech.com/products/fibre-channel/]

          Application: Hardware-In-Loop [HIL] Avionics Test Solutions

          Hardware-in-Loop [HIL] tests avionics by simulating the dynamic environment in which the system will be operating.

          HIL testing of avionics can range from a mockup of the cockpit such as a flight simulator. Or it can simulate environments such as engine or power system dynamics. Simulated data are fed to the system-under-test via the avionics bus, including ARINC-429 or MIL-STD-1553. Newer systems are connected via ARINC-664 or Fibre Channel.

          A real time processor runs a mathematical model of the dynamics of the system-under-test and is connected to the control system via numerous analog and digital channels.

          HIL Test Hardware

          HIL systems are commonly based on multiple PXI- and PXI Express chassis running real time operating systems. Many are able to handle more than 70,000 aircraft parameters connected via thousands of analog and digital channels to the [avionics] system under test.

          READ MORE  ▸ ▾
          Real-time simulation systems often require a test platform consisting of multiple test chassis, typically PXI or PXI Express systems. PXI provides built-in support for clock distribution and triggering for intra-chassis synchronization between the I/O interfaces and the real time processor.

          AIT also provides real-time drivers for operating systems, including Windows, LabVIEW Real-time, QNX, and Linux are also available form AIT.

          LINK(S):        Avionics Interfaces from AIT for Every Bus and Network [link to one or multiple pages of AIT’s MIL-STD-1553, ARINC-429, ARINC-664, and Fibre Channel PXI/PXIe and PCI/PCIe interface boards]

          Shared/Reflective Memory

          shared-memory-network
          Shared memory network

          The enormous amount of data involved in HIL test of avionics systems requires a single bank of memory-shared multiple processing units [hosts].

          READ MORE  ▸ ▾
            A ring/loop network of interconnected processors is connected via fiber optics running at 2.125Gbps with up to 256 nodes in the network.

          Shared memory is straightforward to implement by using off-the-shelf PCI/PCIe or PXI/PXIe modules available from AIT.

          LINK:             Learn more about AIT Shared Memory Solutions [link to a shared memory page]

           

          Application: Network Switch Testing for ARINC-664/Ethernet and Fibre Channel

          High speed data networks such as ARINC-664/Ethernet and Fibre Channel are the standard interconnection means in newer avionics systems.

          Ethernet data rates can range from 10Mbit/sec up to 10Gbit/sec. 1Gbit/sec Fibre Channel us common, but 2Gbit/sec and 4Gbit/sec data rates are on the near term horizon.

          A single aircraft will typically include a mix of both copper and optical interfaces as well as multiple data link bit rates. This technology — often referred to as “switching fabrics”—leads to challenging functional testing requirements, especially when  compared to simpler data buses such as ARINC-429 or MIL-STD-1553.

          Both Ethernet and Fibre Channel test require tester capabilities that include:

          • Both copper and optical interfaces
          • Embedded data generation
          • Adaptable Ethernet and Fibre Channel protocol cores

          AIT supplies ARINC-664/Ethernet and Fibre Channel PXIe-based instruments that can support testing up to 30-port switches.

          Ethernet Test Applications

          Standard Ethernet (carrying UDP/IP) is sufficient for point-to-point applications where only two avionics devices are in communication, eliminating the need for a switch.

          However, multiple devices and network points with real-time, deterministic requirements must use specialized Ethernet variants such as network path redundancy and partitioning for sharing of network bandwidth.

          Avionics networks typically employ an avionics-specific protocol such as ARINC-664 or Time-Triggered Ethernet (TTE) that define special data frames and configurable data rates. In addition, the functional test system must be able to generate high data rates (up to 10Gbit/sec) on anywhere from 16 to 24 Ethernet interfaces.

          Advanced aircraft such as B787, A380, and A330 use Ethernet-based avionics networks such as ARINC-664/AFDXTM™ and Time Triggered Ethernet (SAE AS6802)

          Explore more details of system test of ARINC-664/ AFDX™ Networks.

          READ MORE  ▸ ▾

          The ARINC-664 specification defines aircraft data networks that use Ethernet (IEEE 802.3) and upper layer protocols such as UDP, IP, and A653. Data rates for ARINC-664 networks range from 10Mbps to 1Gbps. Physical network interfaces may be copper or fiber optic.

          Originally developed for the Airbus A380 program, many avionics systems now employ Full Duplex Switched (AFDX™) Ethernet. AFDX is used on other Airbus aircraft and has been adopted by other advanced aircraft programs, including Boeing 787 and military aircraft such as the KC-46.

          AIT’s ARINC-664 test hardware and software provide complete test and simulation of all network functions and interconnections. VL traffic shaping, redundancy management, and IP fragmentation and reassembly are all handled by the test system.

           

          Key ARINC-664 Test System Features

          • Supports IEEE 802.3 10/100/1000 Mbit/s Full‐Duplex Ethernet links
          • Simulates multiple ARINC-664 End Systems, including VL traffic shaping and input VL redundancy management
          • Supports up to 128 Output VLs and 512 Input VLs
          • Supports up to 1024 Sampling & Queuing output message ports and up to 4096 input Sampling & Queuing message
          • IRIG‐B Time Synchronization
          • Provides network statistics including VL message counts and data rates
          • Automatic message sequencing & periodic data generated onboard
          • Includes Windows XP/7/8, Linux, VxWorks and LabVIEW Real Time Drivers and APIs

          BUTTON:      Get more Information about AIT ARINC-664 test solutions [http://www.aviftech.com/products/arinc-664p7]

          Fibre Channel Test Applications

          Originally arising out of the commercial Storage Area Network (SAN) market, Fibre Channel has been widely adopted to avionics applications. It can support point-to-point, star network, and ring network topologies using optical or electrical network interfaces.

          The most common application of Fibre Channel point-to-point topology is ARINC-818-based system, which stream data from a video source to display devices. While this is not a switched fabric architecture, high video data rates require test equipment that can be configured for data rates from 5Gbit/sec to 30Gbit/sec.

          Fibre Channel is employed in a variety of ways on several new military aircraft programs, including cockpit display systems and Asynchronous Subscriber Messaging (ASM) and Remote Direct Memory Access (RDMA) applications.

          Fibre Channel also has been adopted for other applications, resulting in new avionics standards such as ARINC-818 specification for avionics displays as well as MIL-STD-1553 implemented over Fibre Channel as the HS1760    specification for military aircraft stores applications.

          Explore system test of Fibre Channel avionics systems.

          READ MORE  ▸ ▾

          Fibre Channel System Integration and Test Requirements

          Each of these protocols present substantial testing challenges. Given the high bit rates of a Fibre Channel network, traditional data logging approaches such as those used for MIL-STD-1553 simply don’t work.

          For example, a Fibre Channel link operating at 1.065Gbps will generate 200Mbp, which would create just under 7 terabytes of data in an hour. A typical 24 port Fibre Channel switch would generate upwards of 168 terabytes of data in an hour.

          Rather than simply data collection, a new test strategy and instrumentation needs to include the following:

          • Both optical and copper interfaces must be supported
          • Embedded on-board data generation is required to stimulate and measure the high data rates and real time response requirements.
          • Ethernet and Fibre Channel protocol cores must be available in order to be able to modify commercial protocols for specific support of avionics adaptations.

          AIT Provides Practical Fibre Channel Test Tools

          The AIT APG-FC2 test interface board and associated software, as well as other PCI, PCIe, PXIe boards from AIT, provide everything necessary to conduct comprehensive tests of Fibre Channel applications, ranging from simple End-System to demanding testing and verification of End Systems and/or switches.

          AIT products may be used with the most popular avionics Upper Layer protocols including FC-AE-ASM, FC-AE-1553, FC-AE-RDMA and FC-AE-AV.

          All AIT Fibre Channel modules employ multiple processors with large onboard RAM. An onboard processor runs the driver software, minimizing host CPU interaction, enabling autonomous operation with minimal interaction during time-critical applications.

          Key Features

          • Dual Port Data Generator operating at full line rates
          • Dual Port Analyzer with nanosecond resolution
          • IRIG-B Time Code Encoder/Decoder for synchronization
          • Physical Bus Replay to reconstruct previously recorded data
          • Live Data Capture to display FC data in real-time
          • fcXplorerTest, Analysis, and Visualization Tool
          • Data Corruptor™ for dynamically changing FC data on a link

          Explore AIT Fibre Channel test solutions in greater detail [http://www.aviftech.com/products/fibre-channel/]

          Network Data Simulation

          For both Ethernet and Fibre Channel switched network testing, a real-time network simulation system is a far more efficient and cost effective solution than attempting to create a customized network to create such complex test data.

          LINK:    Explore AIT Network Simulator Systems [this product will go into the Integrated Avionics System Solutions product area of the new website [. http://info.aviftech.com/rfi-network-simulators]

          Application: System Test and Integration of ARINC-664/AFDX Avionics Systems

          The ARINC-664 specification defines aircraft data networks that use Ethernet (IEEE 802.3) and upper layer protocols such as UDP, IP, and A653. Data rates for ARINC-664 networks range from 10Mbps to 1Gbps. Physical network interfaces may be copper or fiber optic.

          Originally developed for the Airbus A380 program, many avionics systems now employ Full Duplex Switched (AFDX™) Ethernet. AFDX is used on other Airbus aircraft and has been adopted by other advanced aircraft programs, including Boeing 787 and military aircraft such as the KC-46.

          AIT’s ARINC-664 test hardware and software provide complete test and simulation of all network functions and interconnections. VL traffic shaping, redundancy management, and IP fragmentation and reassembly are all handled by the test system.

          Key ARINC-664 Test System Features

          • Supports IEEE 802.3 10/100/1000 Mbit/s Full‐Duplex Ethernet links
          • Simulates multiple ARINC-664 End Systems, including VL traffic shaping and input VL redundancy management
          • Supports up to 128 Output VLs and 512 Input VLs
          • Supports up to 1024 Sampling & Queuing output message ports and up to 4096 input Sampling & Queuing message
          • IRIG‐B Time Synchronization
          • Provides network statistics including VL message counts and data rates
          • Automatic message sequencing & periodic data generated onboard
          • Includes Windows XP/7/8, Linux, VxWorks and LabVIEW Real Time Drivers and APIs

          LINK:   More Information about AIT ARINC-664 test solutions [http://www.aviftech.com/products/arinc-664p7]

          Application: Fibre Channel System Integration and Test

          Fibre Channel Overview

          Growing numbers of military and commercial aircraft programs have adopted a Fibre Channel avionics communication architecture. Since it is a deterministic system[1], it provides highly reliable data transfer between devices using several different Upper Layer Protocols (ULP).

          There are three popular applications of Fibre Channel in recent avionics and video systems.

          1. FC-ASM and FC-RDMA Upper Layer Protocols

          Anonymous Subscriber Messaging (ASM) protocol used on the F-35, and Remote Direct Memory Access (RDMA), used on the F-18.

          Learn more about testing upper layer protocols such as ASM and RDMA.

          READ MORE  ▸ ▾

          ASM/RDMA Protocol Test

          Fibre Channel is the network used by two avionics system communication protocols.

          Anonymous Subscriber Messaging (FC-ASM) and Remote Direct Memory Access (FC-RDMA) are have been defined by the Fibre Channel T11 Standards Group.

          ASM is a new protocol and RDMA is similar to the Small Computer System Interface (SCSI).

          ASM is used for avionics applications designed to be run at periodic rates where both source and recipient of the data are anonymous. Nor does ASM require a master controller. Its most notable use is on F-35 avionics systems.

          RDMA is a fault-tolerant protocol that enables low latency data transfers where data is transferred to the target, which sends a status sequence back to the initiating device after the sequence is received. RDMA is employed by the F-18’s avionics system.

          Learn more about ASM/ RDMA testing [Link: to APGFC2_Protocol_support.pdf]

          2. MIL-STD-1553 Mapped to Fibre Channel

          MIL-STD-1553 (implemented in Fibre Channel as FC-AE-1553), used for weapons systems implemented using MIL-STD-HS1760

          Learn more about testing MIL-STD-1553 over Fibre Channel.

          READ MORE  ▸ ▾

          Testing HS1760 MIL-STD-1553 Mapped to Fibre Channel

          MIL-STD-1760 standardized electrical and fiber optic interconnect between an aircraft and its stores such as weapons systems, as well as standard MIL-STD-1553 data bus.

          Increasing bandwidth requirements between aircraft and its stores led in 2007 to MIL-STD-1760E, which defines the MIL-STD-1553 data bus implemented on a Fibre Channel network as the FC-AE-1553 Upper Layer Protocol, which is used for command/control and file transfer over the aircraft to store interfaces.

          FC-AE-1553 is a full duplex system with bit rates at 1GBPS and an expanded address range.

          Test scenarios must consider that there are several interfaces to be tested within the HS1760 system: N-port, F-port, F/AE port.

          Test equipment for HS1760 requires the ability to support both FC-AE-1553 Network Controller (NC) and Network Terminals (NT) as well as the avionics environment switch interfaces.

          The test system must be able to interface to HS1760 systems via a 75 Ohm coaxial cable interface with 2.5Vp-p signaling at 1.0625 Gbit/sec rather than the optical media used in most Fibre Channel systems.

          Because of high data rates, a PXI Express based system is an ideal solution which can provide up to 8GB/sec of dedicated bandwidth to each test instrument. The PXI Express instruments should be used to provide FC-AE-1553 NC and NT functions.

          LINK:    Read about HS1760 testing in detail [Link to white paper: Considerations for Testing and Simulation of MIL-STD-1760E/HS1760 Avionics Interfaces]

          3. ARINC-818 Avionics Digital Video Bus (ADVB)

          ARINC-818 is an industry standard that defines a digital video interface link and protocol used for high-speed digital video display data communications.

          The ARINC-818 protocol is being adopted widely for display systems and is the bus connecting mission and video processors to a variety of displays. High-resolution radars and IR and optical sensors also use ARINC-818.

          Read more about testing ARINC-818 over Fibre Channel.

          READ MORE  ▸ ▾

          Testing ARINC-818 Avionics Digital Video Bus over Fibre Channel

          The ARINC-818 specification enables data generation units and display devices working in aerospace applications to utilize a common link and protocols that support high-bandwidth data specifically for digital video applications.

          Video formats differ in frame rates, resolution, pixel density, and interlacing techniques. The ARINC-818 Specification defines how these various video formats are built and mapped to Fibre Channel

          ARINC-818 has been implemented in both civilian and military programs, including the B787, A400M, KC-46A, A350-XWB, and B737 Max.

          A key benefit of ARINC-818 is its ability to deliver uncompressed video with very low latency, which is important in real-time cockpit displays, especially heads-up displays (HUD) where differences between the HUD display images and real-world background can cause vertigo or motion sickness in the pilot.

          Another benefit of ARINC-818 is that it is straightforward to implement. Since it employs Fibre Channel, ARINC-818 data speeds will increase as increasing bandwidth implementations of Fibre Channel become available.

          ARINC -818 Test Strategies

          The test system should perform:

          • Traffic generation
          • Traffic monitoring
          • Digital display (receive) operation

          It’s important to understand how packet data moves of the ARINC-818 network, as well as understanding what data is being passed. This means the individual End Systems must be tested both in standalone mode as well as integrated into the ARINC-818 network.

          An ARINC-818 test system requires use of interfaces specifically designed for Fibre Channel and digital display applications.

          The test system will perform necessary protocol analysis, as well as examining Fibre Channel link information and object frame data in the payload in real time.

          LINK:             Examine ARINC-818 performance and testing in greater detail. [Link to White Paper: ARINC-818 TESTING FOR AVIONICS APPLICATIONS]