Showing results: 436 - 450 of 461 items found.
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JB-(C/D) -
Jinan Testing Equipment IE Corporation
KB- (C/D) common type metallic pendulum impact testing system is the basic model for impact tester. The metallic pendulum impact tester is used to determine the impact resistance of metal materials under dynamic load and capable of doing a large number of impact tests continuously. The display method for the models is different, respectively there are analog dial display, touch screen digital display and computer display. For the later two models, it can display the impact power, impact toughness, and pendulum rotation angle. All the testing reports can be printed out. The metallic pendulum impact testing system is the essential quality control equipment for metal material manufacturers and QC departments, as well as the necessary instrument of research institutes for new material research.
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ATE-2 -
Lisun Electronics Inc.
•This system includes 2 groups (left and right); the 2 groups can work in turn, so that to improve the work efficiency. For example, if the left is on working, then the right can make wire connection. •It can test 4 LED drivers input and output at one time. •The equipment can connect with electronic load and LED load, the two difference loads can be fast switch under the control of computer. •Enable to print out the series number and parameters of sub-quality products by working with a micro-printer, •Enable to achieve the bar-code record function by working with a bar-code scanner. •The test report can be saved as Excel file for consult, statistic and analysis purpose. •Good software interface to freely choose the difference parameters combination, so that to meet different demands. All the parameters can set limit, and with the quality analysis function.
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40-196-101 -
Pickering Interfaces Ltd.
The 40-196 is a 10 Channel 5A Fault Insertion Switch, primarily designed for the simulation of fault conditions in automotive & avionics applications involving the reliability testing of safety critical controllers. It is designed to be able to insert different fault conditions between the test fixture and the equipment under test: Open-Circuit, Short-Circuit between signal pairs, Short-Circuit between signal pairs and user applied fault conditions e.g. Power or GND. Shorting relays on each channel enable UUT signals to be subjected to external user applied fault conditions or to be shorted to the adjacent signal in the same channel. Relays in line with the signal allow open circuit conditions to be simulated on either side or both sides of a channel signal pair. The switching topology of the 40-196 allows channels to be interconnected so that complex fault insertion systems can be constructed.
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40-196-001 -
Pickering Interfaces Ltd.
The 40-196 is a 10 Channel 5A Fault Insertion Switch, primarily designed for the simulation of fault conditions in automotive & avionics applications involving the reliability testing of safety critical controllers. It is designed to be able to insert different fault conditions between the test fixture and the equipment under test: Open-Circuit, Short-Circuit between signal pairs, Short-Circuit between signal pairs and user applied fault conditions e.g. Power or GND. Shorting relays on each channel enable UUT signals to be subjected to external user applied fault conditions or to be shorted to the adjacent signal in the same channel. Relays in line with the signal allow open circuit conditions to be simulated on either side or both sides of a channel signal pair. The switching topology of the 40-196 allows channels to be interconnected so that complex fault insertion systems can be constructed.
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AC2000A -
Laplace Instruments Ltd.
The Laplace Harmonics and Flicker analyser provides the user with a complete system for testing product compliance with IEC61000-3-2 and IEC61000-3-3. Quick and easy to use, the built-in screen provides a clear pass/fail indication of compliance status, plus a full listing of results for each harmonic, in either tabular of bargraph format. The instrument is properly configured to cope with fluctuating harmonics. The Flicker mode provides proper measurement of short term and long term parameters, using algorithms specified in IEC61000-4-15. In addition, inrush current measurements can be automated such that the product under test can be automatically cycled on/off with user entered time profiles.
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780875-01 -
NI
Non-Enclosed, ±10 V, 50 kS/s/ch, 24-Bit, Simultaneous Input, 4-Channel C Series Voltage Input Module - The sbRIO‑9239 performs differential analog input. With channel‑to‑channel isolation, your entire system, including the device under test, is protected from harmful voltage spikes up to the isolation rating. In addition to safety, isolation eliminates measurement errors caused by ground loops because the front end of the module is floating. Designed for both speed and accuracy, the sbRIO‑9239 is an effective general-purpose analog module because of its resolution, sample rate, and input range. Non-enclosed modules are designed for OEM applications.
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F-Series -
Emite Ingeniería SL. Ed
The F large-size hybrid Reverberation/Anechoic Chamber represents the most versatile OTA test system in the market today. With the same unique test features of their E Series RC counterparts, the F-Series can also test large form-factor devices under test (DUTs) like laptops, large TV sets, solar and trash compactors, drones, fridges or washing and vending machines, among others. With up to 16x16, 8DLCC and DUTs up to 2m and 500 kg including full-body phantoms in a turntable, the F Series also expands the frequency range down to cover 200 MHz up to 40 GHz frequency ranges and the test modes to include EMC, BS, small cell, eNodeB and Virtual Drive Testing over the air (VDT-OTA). In an again unheard-of feature, the F-Series is also reverse-convertible into an Anechoic chamber, allowing Far Field (FF) and Spherical Near Field (SNF) radiation patterns, efficiency and gain measurements and pre-5G testing of antennas and devices. Conversion from RC to AC or vice versa can be performed within half a day.
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Echola Systems LLC
Echola's Optical Patch Panel Automation switch allows test engineers/system developers to dynamically reconfigure testbed connections from remote. It reduces test configuration time as they don't need to make any physical fiber connections for each set of tests, so more testing can be performed with fewer resources. It provides all-optical connectivity with zero latency and can be used with any protocols and speed. Unlike O-E-O (optical to electrical to optical conversion) switches you don't need expensive transceivers for each port. The all-optical connectivity also allows systems under test to be tested without introducing another variable (ie, another conversion layer which could introduce significant latency). The patch panel automation switch allows users to configure, control and monitor the device from remote using any standard internet browser, a command line interface (CLI) via Telnet or SSH and SNMP v2c. The event notifications are supported through Syslog. It can be automated using TCL based scripts.
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Techsquare -
Techimp HQ S.r.L
New IEC standards, IEC 60034-18-41 and IEC 60034-18-42, have been issued to define the procedures for testing partial discharge inception voltage and the long-term performance (endurance) of Type I and Type II insulation systems used in rotating machines fed from voltage converters. Voltage impulse generators are required at least to test turn insulation, but they would be recommended for any testing under power electronics supply because of their capability to simulate the real electrical stress conditions. More generally, any type of electrical insulation system when subject to impulsive voltage waveform during life should be carefully evaluated in terms of partial discharge and endurance behaviour. This is why voltage impulse generators able to provide impulses with controlled amplitude and frequency are needed to face this new testing challenge.
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RP4030 -
Teledyne LeCroy
The Teledyne LeCroy RP4030 Power Rail Probe meets the specific requirements of those who need to acquire a low-voltage DC signal as part of a:-Comprehensive power integrity, digital power management IC (PMIC), voltage regulator module (VMR), point-of-load (POL) switching regulator, or low-dropout regulator testing- Complete embedded power management system that includes PMICs, VRMs, POLs, and LDOsThe RP4030 will faithfully acquire a low-impedance, low-voltage DC power/voltage rail signal without unduly loading the device under test (DUT), while providing high offset to allow DC power/voltage rail signal display on an oscilloscope with high gain.
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ITS-9050 -
Innovative Technical Systems
The Innovative Technical Systems ITS-9050 Detector is a sensitive, harmonic mixing detector designed to measure millimeter-wave free-space radiation. It is ideal for measuring radiation patterns of antennas inboth the near and far-field. The ITS-9050 employs a free-running dielectric resonator oscillator (DRO) and an integrated harmonic mixer with a waveguide RF input that either connects directly to a circuit under test or to an antenna for radiation detection. The resulting IF is amplified and detected by an IF log-detector that drives a front panel LCD voltmeter to provide an indication of signal strength. A DC output voltage from the log detector is available on a BNC connector to drive external data acquisition instrumentation. Also, a sample of the IF output is provided for measurement on a spectrum analyzer.
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DM-4M.2-3U -
Conduant express
The Big River™ DM-4M.2-3U PXI Express storage unit provides up to 3.8TB* of M.2 SSD storage capacity. With a PCIe x8 Gen3 host interface, the DM-4M.2 delivers high-speed data rates for sequential writes of 3.25GB/s** and sequential reads of 3.41GB/s** to PXI Express based systems. The single slot design of the DM-4M.2 increases the availability of valuable chassis space, allows for maximum storage flexibility. The DM-4M.2 complies with PCIe Gen3 protocol standards. The product is commonly used in the industrial control, test and measurement fields. The DM-4M.2 operates under Windows, Linux, Unix, Solaris and VxWorks.
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CAMI Research Inc. (CableEye®)
A USB Type-C test interface board for CableEye® cable and harness testing systems. Consisting of a daughter board, populated with two USB-C female connectors, it allows users to continuity-check USB Type-C terminated cables using the CableEye tester while seeing the connectors-under-test rendered graphically. The CB26U fits all CableEye models. Configuration A leader in development of PC-based cable and wire harness, continuity, resistance and hipot test systems for over 20 years, CAMI offers the CableEye suite of products complete with accessories – including “connector boards”. The selection of these test fixture boards is constantly growing and is currently numbering over 60 – most of which are populated with ‘families’ of connectors. When pre-populated boards are used, the tester GUI automatically displays a graphic of the connectors under test. Sold as a set of two boards, each CB26U accepts two USB Type-C connectors. In addition to the latest CableEye software, it requires the CB26 small-frame motherboard (Item 756) for operation, and plugs into one of two available slots – two USB-C-connectors can be tested simultaneously. The CB26 (with CB26U) attaches to the tester like a regular connector board. Contact sales@camiresearch.com or +1 (978) 266-2655 for a quote.
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Radiant Technologies, Inc.
Radiant's Chamber/Pyroelectric Task sets the sample to a series of temperatures by performingGPIB control of an external thermal device. At each temperature it captures the sample’s polarization response and/or small-signalcapacitance. These are combined to calculate the pyroelectric coefficient. The Pyroelectric Task is to be used with a Radiant Test System and a Linkam Stage (-196C to 600C), Thermal Chambers, Hot Chucks, or a Furnace to automatically measure the Pulse Polarization response and Small Signal Capacitance of a Pyroelectric material that is being heated and/or cooled. Radiant's Pyroelectric measurement Task can be added to Vision at additional cost. This measurement suite fully characterizes the pyroelectric charge (polarization) response of the sample under test. The Pyroelectric Task suite controls various thermal controllers such as Quantum Design, Lake Shore, Delta Design, and many others. Detailed Listing of Thermal Controllers Registered in Vision. The Chamber/Pyroelectric Task is quoted upon request.
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MD-AWD-500-AC/EC-100/250 -
Mustang Dynamometer
The key to designing an AWD dynamometer properly is to understand the methods currently being used by manufacturers in the field of AWD drivetrain technology. A dynamometer that can accommodate various types of AWD vehicle transmissions and wheelbases without excessive complication and, more importantly, without risking damage to a client’s AWD system is paramount. Full time AWD vehicles are designed to provide maximum performance regardless of road conditions. In cases where traction is less than ideal, a vehicle may be designed to improve stability and traction at the expense of power. This means adding torque to a spinning wheel or retarding of timing. In order to properly test an AWD vehicle for peak performance, an AWD chassis dynamometer must be able to simulate ideal road-load conditions to the vehicle. This approach allows the vehicle to be evaluated under “optimum” operational conditions; whereby torque is distributed to the vehicle’s tires in the same manner that would normally occur when a vehicle has equal traction at all four drive wheels, and is therefore operating at peak efficiency. To achieve this, Mustang’s AWD-500 Series incorporates an internal drive system that synchronizes the front and back rollers to simulate a flat, dry road condition. Synchronization, or linkage, insures that the front and rear rollers are always spinning at precisely the same road speed. This process eliminates the possibility of activating a vehicle’s traction control system and also insures that a vehicle’s torque management system is operating under the assumption that the vehicle is not skidding, turning or slipping. Mustang’s AWD-500 can be operated in AWD Mode while testing two-wheel drive vehicles. This process allows the non-driven axle to be spun by the dynamometer rollers at the same speed as the driven axle, eliminating the speed differential that occurs on two-wheel drive dynamometers – problem solved.
