Showing results: 241 - 255 of 256 items found.
-
ADSE 744 -
ATEQ Aviation
This tester was specifically designed for the new-generation pitot tubes that integrate sensing probes, pressure sensors and powerful air data computer processing to provide all critical air data parameters including Pitot and static pressure, airspeed, altitude, and angle of attack. This Pitot Static tester is designed primarily for flightline use to cover the testing of all barometric and manometric pressure instrument systems. The AoA Channel behaves as a second Ps channel, in order to create a differential pressure between the 2 Ps Channel, allowing to performsimulations of different Angles of Attack. The large touch screen display, with on-screen help, enables all checks to be carried out easily on the flight deck or in the cockpit, by a single operator. The ADSE 744 is robust and housed in amobile weatherproof case. An attached bag contains the pressure hoses and electrical cables.
-
PCI-C664-V2 -
Avionics Interface Technologies
Supports IEEE 802.3 10/100/1000 Mbit/s Full-Duplex Ethernet links - Utilizes SFPs to support both copper and optical interfacesSimulates multiple ARINC 664 End Systems - VL traffic shaping and input VL redundancy management - Supports up to 4K Output VLs and 4K Input VLs - Supports up to 16K Sampling & Queuing output message ports and up to 16K input Sampling & Queuing message ports - ARINC 653, UDP, IP protocols managed onboard - IRIG-B time code encoder/decoder - Automatic message sequencing & periodic data generated onboardError Injection including Runt Frames, Short IFG, and Invalid MAC FCS - Device driver support: Windows, Linux, LabVIEW Real-Time (others on request) - Compatible with AIT’s Flight Simulyzer GUI Bus Analyzer Software
-
1.3 Meter, VL53L4CD (Qwiic) -
SparkFun Electronics
This SparkFun Distance Sensor Breakout utilizes the VL53L4CD next generation ToF (Time of Flight) sensor module to give you the highly accurate measurements at short ranges for its size. The VL53L4CD from STMicroelectronics uses a VCSEL (Vertical Cavity Surface Emitting Laser) to emit an infrared laser to time the reflection to the target. That means that you will be able to measure the distance to an object from 1mm to 1300mm away with millimeter resolution! To make it even easier to get your readings, all communication is enacted exclusively via I2C, utilizing our handy Qwiic system so no soldering is required to connect it to the rest of your system. However, we still have broken out 0.1”-spaced pins in case you prefer to use a breadboard.
-
4 Meter, VL53L1X (Qwiic) -
SparkFun Electronics
This SparkFun Distance Sensor Breakout utilizes the VL53L1X next generation ToF (Time of Flight) sensor module to give you the highly accurate measurements at long ranges for its size. The VL53L1X from STMicroelectronics uses a VCSEL (Vertical Cavity Surface Emitting Laser) to emit an Infrared laser to time the reflection to the target. That means that you will be able to measure the distance to an object from 40mm to 4m away with millimeter resolution! To make it even easier to get your readings, all communication is enacted exclusively via I2C, utilizing our handy Qwiic system so no soldering is required to connect it to the rest of your system. However, we still have broken out 0.1”-spaced pins in case you prefer to use a breadboard.
-
PXI-C1553 -
Avionics Interface Technologies
Dual redundant, single, dual or quad stream configurationsSoftware selectable Transformer, Direct, and Bus Stub Coupling Modes - Concurrent Bus Controller, 31 Remote Terminals, & Bus monitor operation - Full error injection and detection - Multi-level triggers for capture and filtering - Ten high voltage (up from 30V) programmable DIO lines - IRIG-B time code encoder/decoder with free-wheeling mode - Time Synchronization to PXI 10MHz reference clock - Real-Time recording and physical bus replay - PXI trigger generation on 1553 bus events - Initiate BC, RT Simulation and BM Capture on PXI Triggers - Application interface supporting C, C++, C#, and .NET development - Device driver support: Windows, Linux, LabVIEW Real-Time (others on request) - Compatible with AIT’s Flight Simulyzer GUI Bus Analyzer Software
-
PXIe-C664-V2 -
Avionics Interface Technologies
Supports IEEE 802.3 10/100/1000 Mbit/s Full-Duplex Ethernet links - Utilizes SFPs to support both copper and optical interfaces - Simulates multiple ARINC 664 End Systems - VL traffic shaping and input VL redundancy management - Supports up to 4K - Output VLs and 4K Input VLs - Supports up to 16K Sampling & Queuing output message ports and up to 16K input Sampling & Queuing message ports - ARINC 653, UDP, IP protocols managed onboard - IRIG-B time code encoder/decoder - Automatic message sequencing & periodic data generated onboard - Error Injection including Runt Frames, Short IFG, and Invalid MAC FCSDevice driver support: Windows, Linux, LabVIEW Real-Time (others on request) - Compatible with AIT’s Flight Simulyzer GUI Bus Analyzer Software
-
PCIe-C664-V2 -
Avionics Interface Technologies
Supports IEEE 802.3 10/100/1000 Mbit/s Full-Duplex Ethernet links - Utilizes SFPs to support both copper and optical interfaces - Simulates multiple ARINC 664 End Systems - VL traffic shaping and input VL redundancy management - Supports up to 4K Output VLs and 4K Input VLs - Supports up to 16K Sampling & Queuing output message ports and up to 16K input Sampling & Queuing message ports - ARINC 653, UDP, IP protocols managed onboard - IRIG-B time code encoder/decoder - Automatic message sequencing & periodic data generated onboard - Error Injection including Runt Frames, Short IFG, and Invalid MAC FCSDevice driver support: Windows, Linux, LabVIEW Real-Time (others on request) - Compatible with AIT’s Flight Simulyzer GUI Bus Analyzer Software
-
XMC-664-V2 -
Avionics Interface Technologies
Supports IEEE 802.3 10/100/1000 Mbit/s Full-Duplex Ethernet links - Utilizes SFPs to support both copper and optical interfaces - Simulates multiple ARINC 664 End Systems - VL traffic shaping and input VL redundancy management - Supports up to 4K Output VLs and 4K Input VLs - Supports up to 16K Sampling & Queuing output message ports and up to 16K input Sampling & Queuing message ports - ARINC 653, UDP, IP protocols managed onboard - IRIG-B time code encoder/decoder - Automatic message sequencing & periodic data generated onboard - Error Injection including Runt Frames, Short IFG, and Invalid MAC FCSDevice driver support: Windows, Linux, LabVIEW Real-Time (others on request) - Compatible with AIT’s Flight Simulyzer GUI Bus Analyzer Software
-
VL53L1 -
Pure Engineering, llc
The VL53L1 is a state-of-art Time-of-Flight (ToF) laser-ranging miniature sensor. Housed in a miniature and reflowable package, it integrates a SPAD (Single Photon Avalanche Diodes) array, physical infrared filters and optics to achieve the best ranging performance in various ambient lighting conditions, with range of cover glass options.Unlike conventional IR sensors, VL53L1 uses ST’s latest generation direct ToF technology which allows absolute distance measurement whatever the target color and reflectance. It provides accurate ranging up to 4m and can work at fast speed (60Hz), which makes it the fastest miniature ToF sensor on the market.With patented algorithms and ingenious module construction, VL53L1 is also able to detect different objects within the Field-of-View with depth information (histogram) at 60Hz. Scene browsing and multi-zone detection is now possible with VL53L1, thanks to software customizable detection array for quicker “touch-to-focus” or mini depth-map use cases.
-
Razor Express 12 CompuScope - PCIe -
GaGe
Available in 4-CH and 2-CH models featuring 17 software selectable A/D sampling rates from minimum 1 kS/s to maximum 200 MS/s per channel with input bandwidth of 125 MHz. ADC data can be captured in quad, dual, or single channel modes. Full-featured front-end with software selectable DC/AC coupling and 50Ω / 1MΩ inputs. Ease of integration with External or Reference Clock In & Clock Out. External Trigger In & Trigger Out with advanced triggering operations. PCIe Gen2 x8 data streaming rates at 1.6 GB/s. Programming-free operation with GaGeScope PC oscilloscope software. Software Development Kits available for C/C#, LabVIEW and MATLAB for custom application development. Ideal for applications such as Automatic Test Equipment (ATE), Wideband RF Signal Analysis & Recording, RADAR, Electronic Warfare (EW), Ultrasonic Non-Destructive Testing (NDT), LIDAR, Communications, Spectroscopy, High-Performance Imaging, Time of Flight (TOF), Life Sciences, Particle Physics, and more.
-
Oscar Express 16 CompuScope - PCIe -
GaGe
Available in 4-CH and 2-CH models featuring 16 software selectable A/D sampling rates from minimum 1 kS/s to maximum 100 MS/s per channel with input bandwidth of 65 MHz. ADC data can be captured in quad, dual, or single channel modes. Full-featured front-end with software selectable DC/AC coupling and 50Ω / 1MΩ inputs. Ease of integration with External or Reference Clock In & Clock Out. External Trigger In & Trigger Out with advanced triggering operations. PCIe Gen2 x8 data streaming rates at 800 MB/s. Programming-free operation with GaGeScope PC oscilloscope software. Software Development Kits available for C/C#, LabVIEW and MATLAB for custom application development. Ideal for applications such as Automatic Test Equipment (ATE), Wideband RF Signal Analysis & Recording, RADAR, Electronic Warfare (EW), Ultrasonic Non-Destructive Testing (NDT), LIDAR, Communications, Spectroscopy, High-Performance Imaging, Time of Flight (TOF), Life Sciences, Particle Physics, and more.
-
Titan Enterprises Ltd
Titan’s range of inline ultrasonic flow meters, now with ASCII streaming, is a genuine breakthrough in flowmeter technology. Utilising our patented ‘time-of-flight’ ultrasonic technology, the flow measurement devices are able to operate with excellent accuracy over wide liquid flow ranges.Work on developing a viable, accurate ultrasonic meter began in 2001 with a corporate decision to develop the best non-invasive small bore flow meter in the world as part of a long-term strategic plan. One of the foremost fluid engineering establishments (The Cranfield Institute of Technology) was commissioned to develop the device in collaboration with our R&D team at Titan. The resulting patented ultrasonic technology has led to an expanding line of Atrato ultrasonic flowmeters which have the adaptability to provide solutions for a number of OEM issues.Titan’s development of unique algorithms and techniques has resulted in a new generation of ultrasonic flowmeters that work well at low flow and deliver accurate measurements within a wide range of industrial processes.
-
VUVAS-10X -
McPherson, Inc.
A new ultraviolet spectrophotometer system for optical metrology just arrived at NASA Goddard! The VUVAS-10X spectrophotometer works best in the 90 to 160 nanometer wavelength range, also known as deep or vacuum ultraviolet (VUV) region. It uses a windowless hydrogen plasma light source and differential pump section to reach many wavelengths beyond those of conventional deuterium lamps. The source also works with other gases, or gas mixtures, for atomic spectral line emission from about 30 nanometers (double ionized Helium gas) up to the Visible light range. The new spectrophotometer system, McPherson VUVAS-10X, uses a one-meter focal length high-resolution monochromator with the special light source, scintillated detector and Model 121 goniometric sample chamber. The system is ideal for optical transmission, absorbance and specular reflectance at incident angles up to 60 degrees. This McPherson spectrophotometer system will help develop, inspect and qualify optical materials and coatings used for very high altitude and extraterrestrial space flight missions.
-
ATE -
Frontier Electronic Systems Corp.
The design, development, manufacture and integration of Automated Test Equipment (ATE) systems is a core technology focus for FES. Our engineers have designed and manufactured complex flight line test systems for military aircraft such as the F-15, F-18, C-17, B-1, B-52 and OV-22 aircraft. In 1994, FES developed the Common Core Test Set to test space systems electronics for the Defense Support Program (DSP). This open-architecture, high-reliability electronics test set has been upgraded over the last 20 years with new hardware and graphics-based software to accommodate the complex testing requirements associated with the International Space Station Rotary Joint Motor Controller and other satellite electronics. Maritime ATE systems designed and manufactured by FES include Radar & Video Distribution factory test systems supporting US and Canadian Navy customer production requirements. Core components of FES-developed ATE systems include the use of PXI/PCI/VXI/VME technologies, National Instruments Test Stand software, Agilent Technologies instrumentation, and Virginia Panel interface hardware. The FES ATE design team employs CMMI level 3 compliant processes throughout the design process from Systems Requirements Analysis through verification and validation of ATE compliance with customer hardware, software, and documentation requirements.
-
64206 -
Parallax Inc.
Parallax speeds the process of Propeller 2 development through our partnership with MikroE, who has created a family of 850+ Clicks for most I/O functions you may envision. For each of the Click boards stocked by Parallax, you will find a documented Spin 2 code example on our Propeller GitHub Object Exchange. Connect your Click boards to the Propeller 2 Evaluation Board or P2-EC Edge Breakout Breadboard using the #64008 P2 to MikroBus Click Adapter. Light Ranger 4 click is an accurate distance measurement Click board™ based on a ToF (Time of Flight) measurement principle. The FlightSense™ enabled VL53L1X rangefinder module from STMicroelectronics is a complete measurement stack on the chip. It is surprisingly easy to work with, as this highly integrated range finder module exposes only I2C interface, XSH and INT pins to the host controller. It features the invisible Class1 laser emitter, used to emit a narrow band of a harmless modulated light beam in the IR range (940 nm), physical infrared filters and optics to achieve the best ranging performance in various ambient lighting conditions with a range of cover window options. It can measure distances up to 4000mm, with up to 50 Hz ranging frequency.
