Showing product results. 6916 - 6930 of 6943 products found.
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BVS - IBEKO Power AB
DV Power battery voltage supervisor – BVS, is an accurate battery voltage monitoring system that monitors the state of health of battery systems. It records important battery parameters such as battery voltage, inter-cell connection voltage, and ambient temperature. Because of that, it can be a support tool for capacity testing.The BVS voltage supervisor is an integrated system consisting of:BVS Control Unit (BVS-CU)Cell Voltage Modules (CVM)String Voltage Module (SVM) (optional)String Current Module (SCM) (optional)It is an ideal testing tool for maintenance, troubleshooting and performance tests on individual stationary batteries and battery packs in critical backup energy solutions.BVS-CU provides ambient temperature measurements on multiple locations (4 temperature channels). Overall string voltage and string current monitoring can be achieved by using an optional string voltage module (SVM) and string current module (SCM).There are two types of DV Power battery voltage supervisors:BVS – One cell voltage module measures 1 cellBVS-4 – One cell voltage module measures 4 cellsCVM modules detect cells that fail a discharge test based on monitored voltage values. As a result of that, these cells can be safely removed from the battery string.Data acquisition and analysis of data collected from the modules are available in the DV-B Win application software suite. They provide data viewing, tracking, and generation of comprehensive reports.
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Instron
CEAST VisualIMPACT software is designed to control CEAST Pendulums and Drop Tower Series, manage tests and offer a user-friendly interface when using the Data Acquisition System. It records force and absorbed energy data related to impacts, visualizes and helps analyze the results and calculates resilience. The operator is guided through parameters setup by means of tables describing strikers and specimens that are filtered according to the test type and international standard selected. In the case of instrumented tests, many possibilities for data analysis and visualization are made available. The results are shown through comprehensive and customizable graphs and can be filtered by break type (only specimens with a selected break type are shown). Working with groups of test, the software performs a statistical analysis, and the operator can pick and discard single test results. Different measurement units can be selected. It is possible to print reports and to export data totally or partially. Recent improvements include the possibility to set a number of user profiles, including graphic settings, default printing options, advanced parameters for data analysis and so on, switching quickly from one another when looking at results. The introduction of a new Data Acquisition System (CEAST DAS 64K) in the Impact product line has also triggered a number of new capabilities for the SW, which is now able to process a more comprehensive calibration file for instrumented tups and hammers and manage DAS configurations with a wider range of data acquisition channels.
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cExpress-TL - ADLINK Technology Inc.
ADLINK cExpress-TL,based on the 11th Gen Intel® Core™ i7/i5/i3 and Celeron™ processor, is the first COM Express module to support PCI Express Gen 4 at 16 GT/s, effectively doubling the bandwidth of previous generations. Additionally if features support for 2.5GbE Ethernet, leveraging existing Cat5e cable infrastructure being used for 1GbE Ethernet, it supports four USB 3.2 ports with transfer rates up to 10Gb/s. The modules have a configurable power range of 15 to 28 watts, which suits them for fanless space-constrained embedded applications. Typical industries in need of such high-performance/low-power characteristics are transport, medical, industrial automation and control, edge controllers, robotics and multi-camera-based AI. cExpress-TL features the Intel® Iris® Xe, a new graphics core, and supporting AVX-512 Vector Neural Net Instructions (VNNI) can significantly improve the number of elements processed per cycle, providing AI inferencing performance that is up to 3x that of previously available from non-VNNI platforms. Intel® Iris® Xe provides 96 execution units and is able to be configured to support two 8K independent displays or four 4K independent display (HDMI/DP/eDP). Additional support includes In-Band ECC (IBECC), providing ECC level error correction on DDR4 SODIMM memories for mission critical or rugged applications.
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Educated Design & Development, Inc.
Fast - All operator controls are located on the front panel to expedite testing. The entire test can be performed in a matter of seconds! Pays for itself in time and stress savings. Versatile - Measures Leakage Current in accordance with UL, CSA, EN, and IEC/ International Standards. Includes ability to perform open neutral, open ground, and line polarity forward/reverse test conditions. Adaptable - Universal rear panel receptacle allows for testing products with any plug configuration. Accurate - True RMS meter accurately measures both sinusoidal and non-sinusoidal waveshapes. This is important when testing products using a switch mode power supply which can generate non-sinusoidal leakage currents. Calibrated, traceable to NIST. Flexible - A front panel switch permits testing either through the power cord of the product under test, from surface/ patient connection-to-ground, or from surface/ patient connection-to-surface/ patient connection. Portable - Lightweight, with integral handle. Other Features - Product Ground Switching (grounding conductor maintained to device under test when not measuring leakage). Automatic front receptacle disconnect when configured in the 240V test mode (prevents inadvertent connection of 120V when configured for 240V operation). Proven - These are the only leakage current testers designed and supported by Product Safety experts. That is part of the reason why they have become the standard in the industry. Full technical support by experienced safety engineers.
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MS 1125 - Meltronics Systemtech
Fuel Display Unit Test Bench is a compact table-top test bench with front panel controls, indications, built-in signal simulator and necessary power supply for testing the serviceability of Fuel Display Unit of Helicopter. FTB operates on 230 V AC and supplies 28 V DC power to FDU. FTB is housed in a metallic cabinet FTB interfaces with both 61 Pin connector and 6-pin socket mounted on the rear panel of FDU by means of the cable connected to the unit. FTB is fabricated utilizing off-the-shelf standard industrial/commercial components like rotary switches, toggle switches, press switches, test sockets, fuse holders, potentiometer etc. The Frequency generation circuit is integrated into FTB for the simulation of Fuel probe and flow rate signals. The frequency of the signal can be selected by means of a rotary switch Low amplitude sine wave signal is simulated for testing flow rates. Variable voltage DC power supply with a voltage range of 24 to 29 Volts is provided within FTB to power-up FDU. 5 V DC is provided for the operation of signal generating circuit (PIC Frequency Controller Board). An off-the-shelf Hand held battery operated Digital Multimeter (DMM) procured from the prominent manufacturer (FLUKE) is supplied with FTB for setting up and measurement of various parameters like Resistance, Voltage, Frequency etc.
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MEA MSU100 - M.E.A. Testing Systems Ltd.
*MEA MSU100 Series – Fully automatic SURGE testing of 3 phase and single phase stators, armatures, transformers, and motors, ranging from 10 W to 500 kW, and patented Stator/Rotor performance testing.*MEA MSU101 Series – Customized, fully automatic production line testing system with SURGE testing of 3 phase or single phase stators, armatures, transformers, and motors, ranging from 10 W to 500 kW. The system can be also equipped with automatic testing of H.V. and 4-wire resistance, temperature, and patented Stator/Rotor performance testing.*PERFORMANCE TESTING – MEA patented tests – MEA patented performance testing provides fully automatic Stator/Rotor performance tests, showing the UUT performance as it will be after assembled as motor.*Integrated database.*200 V up to 5 kV programmable impulse.*Option for Partial/Low-Energy Discharge.*Go/No Go tests with comparison detection of: Area Size, Diff Zone, Corona Amount, and Corona Number.*Performances tests comparison at cold and hot state (temperature tests via up to 8 thermocouples).*Interfaces: RS-232, USB, Ethernet (for remote control).*Can be controlled via I/O for OEM applications and easy integration for automatic lines.*Special self-calibration function. No need to send back for the vendor's calibration, saving time and costs.*MSU101 integrated and operated with PC having user-friendly Windows 7 interface, with large database for storing test programs and test results.*Barcode reader, individual print-out of test protocols and labels, of H.V. and 4-wire resistance, and temperature measurement can be integrated into the system.
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TDEMI Mobile+ series - Gauss Instruments
The new benchmark for your fastest product pre-certifications on the planet. The new TDEMI Mobile+ (TDEMI M+) receiver series of GAUSS INSTRUMENTS is a very compact and robust designed instrument for optimum mobility and outdoor use as well as on developers workbench in your lab. It provides a vast variety of functionalities. The TDEMI M+ receiver series is equipped with a +12V supply - so it can be easily used for on-board testing, e. g. in vehicles or aircrafts and so on. By its integrated touch-sensitive and high resolution screen and the embedded PC the TDEMI M+ is a fully stand-alone instrument independent from any control or host or display unit e. g. as a PC or laptop. Thus it provides even more flexibility for your emission measurements. Furthermore the instrument can be powered by a battery pack (Option BAT-UG) making it even more flexible and easy to carry it around without any need of an external power supply. Especially designed for your todays challenging pre-certification tasks the TDEMI M+ provides the absolutely unrivaled advantages in speed and performance of the well known and market approved GAUSS INSTRUMENTS time-domain and RF technology. Thus, your pre-certification measurements and investigations can be performed up to 16000 times faster than by conventional receivers. The instruments of the TDEMI M+ receiver series are available for the frequency ranges up to 1 GHz, 3 GHz, 6 GHz or 7 GHz starting from 9 kHz each. Additionally these blazing fast measurements can be carried out even starting from 10 Hz optionally (Option MIL/DO-UG).
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CAT Handheld Series - IBEKO Power AB
When it’s not practical to use conventional robust circuit breaker analyzers, a handheld circuit breaker analyzer and timer may come handy. DV Power has developed a unique CAT Handheld series. It is specially designed for testing of circuit breakers with one break per phase. Their compact and ergonomic design can provide a wide range of features and reliable operations in low, medium and high-voltage substations or in industrial environments.CAT Handheld series consists of two models, CAT-P and CAT-H. Both of them have a large (5,7 in) colored touch screen display. Because of that, test results are visible in dark places as well as in bright sunlight.Powerful internal Li-Ion battery of the instruments can last up to 8 hours of testing without recharging.CAT Handheld series records:main contacts operating times,contact synchronization,sequence time,a resistance of pre-insertion resistors,open and close coil currents,main contacts bounce time,auxiliary contact time,DC Voltage.Multiple operations, such as Open-Close and Open-Close-Open, can be initiated by using a predefined delay time or by triggering signal from current clamps connected to circuit breaker coil.CAT-H is capable of performing a coil control, while this feature is optional at CAT-P instrument. In contrast to CAT-H, CAT-P instrument can execute “First Trip” test.Both instruments display numerical and graphical results. Because of that, a user can easily overlay up to 4 records in the graphical form and make a quick on-site analysis of potential defects.A user can download test results to a PC via Bluetooth interface for more detailed analysis using DV Win software.
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UPCONVERTER 10 GHz LXI - Holding Informtest
UPCONVERTER 10 GHz осуществляет программно управляемый перенос вверх спектра шириной 150 МГц, поступающего на вход сигнала, в любую точку спектрального диапазона от 10 МГц до 10 ГГц. Перенос спектра осуществляется по супергетеродинному принципу с тремя ступенями переноса. Благодаря этому во всем рабочем диапазоне спектра достигаются высокие уровни подавления несущей частоты и зеркального канала. Также UPCONVERTER 10 GHz обладает уникальной возможностью, не имеющей аналогов среди приборов подобного типа – задавать значение промежуточной частоты (входного сигнала) для переноса в диапазоне от 50 до 400 МГц. Помимо этого, прибор позволяет передавать входной сигнал частотой от 0,1 до 400 МГц напрямую на выход, без переноса. Благодаря этому, совместно с UPCONVERTER 10 GHz в качестве генератора промежуточной частоты может быть использован широкий спектр генераторов зарубежного и отечественного производства. Холдинг «Информтест» предлагает потребителям генераторы собственной разработки MGKS and MGVCh , as well as the first Russian MT transceiver module , which are fully compatible with the input characteristics of UPCONVERTER 10 GHz. Together with generators produced by the holding "Informtest" UPCONVERTER 10 GHz under the control of a common software shell makes up a synthetic instrument - a ready-made solution for testing microwave devices and radio reception channels.
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Xeltek
Features:Until now,Support IC manufacturer, pcs devices and keeps growing.1)High speed thanks to the flexible hardware engine. Programming speed adjustable for complicated application environments brought by user target board, length of ISP cable etc.2)Stand-alone and PC-Hosted (USB2.0 High Speed) dual mode;3)Supports ISP programming of devices with I2C, SPI, UART, BDM, MON, MW, JTAG, CAN, ICC, RS232 and any other serial port.4)ATE interface;5)Over-current and ESD protection to protect your equipment;6)DLL and API for easy integration into customers’ system.Hardware Specifications:1) ISP cable integrates I2C, SPI, UART, BDM, MON, MW, JTAG, CAN, ICC, RS232 interfaces。2) VDD (0-5.5V /0.5A) and Vpp (0-15V / 0.2A) lines provided to power the target board and the target devices.3) Cable driver circuit supports target devices of voltage level 1.5-5V and is ESD protected.4) USB 2.0 (high speed) interface for PC hosted mode and management of project files on SD card.5) A 20 Characters x 4 lines LCD and a 6-key keypad are built with it for stand-alone operation. In stand-alone mode project files are stored on the SD card (up to 16GB). The number of the project files is limited only by the capacity of the SD card.6) ATE interface is built for easy external hardware control. 6 lines SEL0-SEL5 are for project selection (maximum 64 files); 2 command lines START and STOP; 3 STATUS lines PASS, FAIL and BUSY. All signals are optical-isolated.7) A universal AC adaptor of DC12V/2A is included for power supply.8)WINDOWS XP/Vista/Win7/Win8/Win10 32/64bit compatibility.Software Specifications:1) Supports almost all devices with ISP interface.2) Supports Jam and Staple files from ACTEL and ALTERA; Direct C files from ACTEL.3) Programming speed selectable (High, Normal and Low) for complicated applications such as different cable lengths, different target load characters.4) Dynamic buffer function. Application examples include device S/N, MAC address, frequency or transducer calibration etc.5) File format on SD: FAT16, FAT32.6) Functions for IP protection: Project security, SD security, batch control, administration management etc. 7) API and DLL provided for easy integration into customers’ system like ICT and ATE.8) Software provides the features for multiple units to work concurrently controlled by USB HUB.Applications:1)R&D application like in-circuit test and debug.2)Volume production. Devices may be programmed after the board is fully assembled. One example is the serial number writing to an on-board serial device.3)Field application. Comes with portability, stand-alone mode and mobile data storage media (SD card), it is suitable for field test, debug and data acquisition.4)Third application modules. Friend s/w interface (DLL and Virtual Com communication command set) and h/w interface ( ATE and USB) are provided and make it very easy for customers to integrate ISP01 as a functional module into their systems. One example is the ICT equipment. With this integration user can finish in-circuit test and in-circuit programming in one step.
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B&W Tek, Inc.
We offer a full suite of software for spectroscopic data collection and analysis designed for users at all levels, and varying applications. Our standard BWSpec® spectral data acquisition software allows for easy collection of data from our Raman systems and modular spectrometers. It includes tools for instrument control for data collection and spectral manipulation. The raw data and corrected data are stored and can be easily viewed. Data manipulation tools include smoothing, baseline correction and derivatives. Data can be saved in different formats for use in additional application software. For spectral identification against Raman spectral libraries with a simple interface for immediate identification for verification with a pass/fail result, our BWID® software provides qualitative analysis. Users of BWID software can create their own Raman spectral libraries, or select from our numerous ready to use libraries. For identification with portable Raman in regulated environments, the US FDA 21 CFR part 11- complaint version of BWID can be used. B&W Tek’s unique see-through identification using the STRam® can also be done using the BWID software operating on the embedded tablet computer of the STRam system. For quantitative analysis, data collected with BWSpec or other packages can be imported into the BWIQ® multivariate data analysis software, offering a full suite of data preprocessing, regression and classification analysis algorithms. PLS regression models from the BWIQ software an be used in rel-time in our BWAnalyst software, for use with the QTRam , as well as in Metrohm’s Vision® software. The i-Raman series portable Raman instruments can also be operated for single acquisition, or for real-time analysis in the Routine Analysis mode of the Vision software.
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CLIOQC Model V - Audiomatica
The QCBOX Model 5 is a non-conventional unit designed to fulfil actual and future needs of an electro-acoustical analyzer like the CLIO system. It is USB linked to a PC and can be configured, with dedicated software controls, to assist frequency response and impedance measurements or to perform DC measurements. Using it for frequency response measurements acts as 50W power amplifier to drive the speaker or network under test while routing one-of-four inputs to the analyzer as well the current sensing output. The four inputs are able to provide a phantom power supply both for Audiomatica or general purpose microphones (0-24 V range, software controlled). Impedance measurements can be done either switching the D.U.T.’s load across the analyzer’s input or using a dedicated output, ISENSE, thus allowing impedance measurements in constant voltage mode as well voice coil current distortion analysis. An internal ADC measures the DC current into the voice coil. Thanks to an internal software controlled voltage generator the speaker can be driven with a superimposed DC voltage (±20V), allowing for measurements of large signal parameters. Two ADC converters with a ±2.5 V and ±5 V are available at inputs 3 and 4 to measure the displacement with a laser sensor or any other DC signal. A dedicated digital input handles an external foot pedal switch (or TTL signal) to be connected and triggers QC operations. A 6 bit output – 5 bit input TTL digital port is available to interface the QCBOX and driving software with external hardware (like turntables for example).The QCBOX Model 5 finds use both in laboratory for R&D applications and in production lines setups.
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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.
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DEM60C - IBEKO Power AB
After a DC current test, such as winding resistance measurement, the magnetic core of a power or instrument transformer may be magnetized (remnant magnetism). It can cause various problems such as wrong diagnostics, inaccurate measurements on a transformer, inrush current at the start-up of a power transformer, or incorrect operation of protective relays due to magnetized CT cores. The best way to eliminate this source of potential problems is to use demagnetizer on the power or instrument transformer.The DEM60C is a fully automatic test instrument which performs three-phase transformer demagnetization. Transformer magnetic core demagnetization requires the application of AC current with magnitude decreasing to zero. DEM60C provides this AC current by internally changing the polarity of a controlled DC current. During the demagnetization process, the instrument supplies the current at decreasing magnitude for each step, following a proprietary algorithm. It can demagnetize single-phase and three-phase power transformers.The instrument can be connected to all three phases of a power transformer to be demagnetized, on either the primary or the secondary side. If a user selects specific vector diagrams for different types of transformers, DEM60C will run a specific demagnetization procedure for each transformer type (i.e., single phase, delta, wye/star, zig-zag.) without switching the test leads.DEM60C enables safe and efficient power transformer demagnetization. The instrument automatically regulates the injection of current and discharging energy from the inductance. During and after the operation, an intrinsically safe discharge circuit with an indicator rapidly dissipates the stored magnetic energy. The discharging circuit is independent of the power supply, which improves its reliability in case of loss of power.Test currents of up to 60 A DC enable efficient demagnetization of even the largest power transformers. Using a DV Win software, it is possible to control DEM60C externally.
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MIC-3398 - Advantech Co. Ltd.
The MIC-3398 is a Low-Power 6U CompactPCI® CPU blade with best in class price/performance ratio tailored for applications that require a state of the art processor platform based on Intel® Architecture with full IO capability at an attractive cost point. The MIC-3398 supports Intel® Atom™ E3845 and Celeron N2930, J1900 SoC (system on a chip) family previously codenamed Bay trail with a maximum of quad-core 2.00 GHz processing performance. Intel® Atom™ technology provides significant increases in performance and energy efficiency by using the 22nm Intel® manufacturing process making it an ideal choice for control and workstation applications that require passive cooling with a power dissipation as low as 10W. Up to 8GB, dual channel 1333 MHz DDR3L memory with ECC support provide a high performance and robust memory interface for demanding applications. With built-in graphics based on Intel® HD Graphics Technology this blade offers a significant improvement in graphics performance compared to previous generation platforms. Support for an onboard 2.5” SATA-II drive as well as CFast SSDs adds comprehensive mass storage support. On the system side, the MIC-3398 supports 32-bit, 33MHz and 64-bit, 66MHz PCI bus interfaces to a CompactPCI backplane. A rich set of I/O interfaces such as DVI-D, USB3.0/2.0, Gigabit Ethernet and RS-232/422/485 ports round off the feature set. In addition to the single slot wide (4HP) board offering, a dual slot wide (8HP) version of the blade offers additional network connectivity by increasing Gigabit Ethernet port count from two to four.
