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RF channel emulation (8-tap) covering V2X standard emulation scenarios. Combinable with V2X communication protocols. Full LabVIEW API for emulation parameter control. Interactive control interface. Applicable to NI software defined radios (USRP or VST Gen. 1). For V2X Add-Ons 802.11p & LTE-V. DetailsThe package is designed to simulate Doppler shift, fading and multipath effects for RF. This software add-on provides the capability to combine all the effects of a signal on 8 different propagation paths (8-tap) in real-time as standalone or in combination with SEA V2X communication add-ons based on NI software defined radios.RF-transmissions are distorted by real world effects altering the wave fronts. These distortions seriously affect the quality and performance of wireless information transmission, especially in traffic oriented RF-applications like V2X. The emulation of these effects is required to test and validate the robustness of receiver setups and chip sets.Typical major physical propagation effects are:attenuationfading by atmospheric effectsDoppler (frequency) shift by relative motion of transmitter and receivermultipath effects resulting from the wavefront being reflected on objects along the propagation pathThe toolkit represents the distorted RF-wavefront of one transmitter (typically vehicle or other traffic object) at the antenna of a receiver. All emulation parameters can be changed actively by a comfortable LabVIEW API.Parameter sets defined by standardization bodies, e.g. ETSI, can be simulated with the CEM toolkit.This toolkit is also available as standalone package or as an integrated component of S.E.A. V2X turnkey test systems for functional testing, RF-behavior measurements and customer specific automated test systems.More Information
Simulate dense traffic/stress LTE-V communication up to the theoretical limit of LTE-V. Catch LTE-V messages for extended monitoring and testing (even invalid frames). Inject erroneous messages overriding MAC control and timing (even with corrupt frame content). Generate precisely timed LTE-V message streams for LTE-V and V2X validation. Get precise timestamps of Rx and Tx activities (coupled to a user-configurable reference clock). Synchronize LTE-V message streams to other signals such as CAN, GNSS simulation, and more. Contains the Channel Emulation function package. DetailsThe LTE-V MONITORING delivers unique access to the 3GPP TS 36.300 (Release 14 / Mode-4 sidelink) standard in LabVIEW™ for the future V2X (Vehicle-To-Anything) communications based on NI™ hardware platform NI USRP. It includes (a) a LabVIEW API (functions palette) incl. examples for programming LTE-V-based applications in LabVIEW and (b) the Host Control Manager (HCM) for interaction with the local communication hardware. It contains the Channel Emulation function package.The MONITORING package enables transmission (send + receive) of regular LTE-V packets (MAC + PHY layer) and offers precise timing of the MPDU-packet output as well as precise time information of the received packets. In addition the package adds features for failure injection by data and timing manipulation (Packet Replay) as well as monitoring of the data traffic using standardized protocol TZSP.At present following hardware is supported:NI USRP-2953NI USRP-2954The package is designed for high-load communication, in-depth stressing and debugging the functionality of LTE-V-capable devices in development, validation and research applications.For the API LabVIEW 2014 or higher (development version) is required. The HCM requires LabVIEW 2015 Run-Time Engine as well as suitable device drivers (NI USRP or NI VST), version 15.More Information
Contains the Channel Emulation function package. DetailsThe LTE-V RF-COMPLIANCE delivers unique access to the 3GPP TS 36.300 standard in LabVIEW™ for the future V2X (Vehicle-To-Anything) communications based on NI™ hardware platform NI USRP. It includes (a) a LabVIEW API (functions pallete) incl. examples for programming LTE-V-based applications in LabVIEW and (b) the Host Control Manager (HCM) for interaction with the local communications hardware. In addition, it contains the Channel Emulation function package.The RF-COMPLIANCE package enables transmission (send + receive) of regular LTE-V packets (MAC + PHY layer) and offers precise timing of the MPDU-packet output and precise time information of the received packets. In addition to this the RF-COMPLIANCE package adds features to measure and validate the RF-signals.At present following hardware is supported:NI USRP-2953NI USRP-2954NI PXIe-5644 (VST)The package is designed for high-load communication, in-depth stressing and debugging the functionality of LTE-V-capable devices in development, validation and research applications.More Information
cRIO module with 3 digital EnDat 2 interfaces to connect absolute digital position encoders from Heidenhain with the CompactRIO™ system from NI™.DetailsThe position can be readout at high speed and with digital accuracy. The build in FPGA supports EnDat Clock Speeds of up to 8 MHz and allows the synchronous read out of 3 axis in parallel. Besides the digital position data also sensor or calibration information can be readout or written. The software driver access to the position data can be done directly within the LabVIEW FPGA software via IO Nodes and Method Nodes. The digital connection and power supply of the sensors can be done directly via the build in M12 connectors. Look for EnDat encoders at http://www.heidenhain.com/en_US/products-and-applications/angle-measurement/rotary-encoders/.Driver software is available via download link.Scope of delivery1 * SEA 9510 (60000006)1 * Printed hardware manual incl. operation instructions, safety guidelines and specificationsAccessorySensor Cable for BiSS/EnDat Modules (61000607), is mandatory for the operationCompactRIO Products Home
cRIO BiSS-C/SSI interface module to connect up to 3 absolute digital position encoders for use with the NI CompactRIO™ system or R Series Expansion chassis.DetailsSEA 9521 BiSS Interface Module with 3 BiSS-C interfaces to connect absolute digital position encoder from various vendors for use with the CompactRIO system from NI™. The position can be readout at high speed and with digital accuracy. The build in FPGA supports BiSS clock speeds of up to 8 MHz and allows the read out of 3 channels. Besides the digital position data also sensor or calibration information can be readout or written. Module supports optional also the SSI protocol. The software driver access to the position data can be done directly within the LabVIEW FPGA software via IO Nodes and Method Nodes. The digital connection and power supply of the sensors can be done directly via the build in M12 connectors.Approved rotary encoder you can get from various vendors e.g. www.hengstler.com or www.renishaw.com.Scope of delivery1 * SEA 9521 (60000069)1 * Printed hardware manual incl. operation instructions, safety guidelines and specifications Accessory Sensor Cable for BiSS/EnDat Modules (61000607), is mandatory for the operationCompactRIO Products Home