Showing results: 286 - 300 of 439 items found.
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2400 -
Photon Kinetics
The 2400 Fiber Geometry System is designed to provide high-speed automated measurements of optical fiber end-face geometry. Repeatable and accurate measurement of parameters such as core and cladding diameter, core and cladding non-circularity, as well as core-cladding concentricity provide invaluable process control information, and ensure that customer demands for low loss fiber splices are satisfied. Measurement options are available for both side view coating geometry measurement and fiber curl characterization.
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AURIGA 4850 -
Focus Microwaves
Auriga’s 4th generation pulsed IV/RF characterization system delivers unparalleled performance, capturing measurements with incredible speed and accuracy. Pulsed IV (current-voltage) measurements have emerged as the preferred method of capturing current-voltage characteristics of active devices such as field effect (FETs) and bipolar junction (BJTs) transistors. With the growing popularity of higher-power devices, like GaN HEMTs, LDMOS, SiC, and graphene, current and voltage requirements are constantly being pushed higher and higher.
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KLA-Tencor Corp
KLA’s metrology systems address a range of chip and substrate manufacturing applications, including verification of design manufacturability, new process characterization and high volume manufacturing process monitoring. By providing precise measurement of pattern dimensions, film thicknesses, layer-to-layer alignment, pattern placement, surface topography and electro-optical properties, our comprehensive set of metrology systems allows chip manufacturers to maintain tight control of their processes for improved device performance and yield.
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AURIGA 4850 -
Mesuro Ltd
Auriga’s 4th generation pulsed IV/RF characterization system delivers unparalleled performance, capturing measurements with incredible speed and accuracy. Pulsed IV (current-voltage) measurements have emerged as the preferred method of capturing current-voltage characteristics of active devices such as field effect (FETs) and bipolar junction (BJTs) transistors. With the growing popularity of higher-power devices, like GaN HEMTs, LDMOS, SiC, and graphene, current and voltage requirements are constantly being pushed higher and higher.
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B2201A -
Keysight Technologies
The B2201A reduces the cost of test by enabling characterization tests to be automated, with only slight compromise to the measurement performance of the semiconductor parameter analyzer. It supports a 4-SMU, full-Kelvin configuration and a capacitance meter, with room for future expansion. Includes 14 inputs, each with a unique internal measurement path, and a distinctive capacitance measurement compensation feature for two of the inputs. Provides front panel control via keypad or optional light pen, and supports instruments such as pulse generators.
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N5234B -
Keysight Technologies
Perform basic analysis of passive components and simple active devices Measure S-parameters with good accuracy up to43.5 GHz in cost-sensitive applications Get the world's best price-to-performance ratio for microwave manufacturing Configure an economical solution for signal-integrity measurements and materials characterization Accelerate insight into component behavior using a multi-touch display and intuitive user interface Every spec verified, adjustments included Lock in support & peak performance from the start
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N5235B -
Keysight Technologies
Perform basic analysis of passive components and simple active devices Measure S-parameters with good accuracy up to50 GHz in cost-sensitive applications Get the world's best price-to-performance ratio for microwave manufacturing Configure an economical solution for signal-integrity measurements and materials characterization Accelerate insight into component behavior using a multi-touch display and intuitive user interface Every spec verified, adjustments included Lock in support & peak performance from the start
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N5232B -
Keysight Technologies
Perform basic analysis of passive components and simple active devices Measure S-parameters with good accuracy up to20 GHz in cost-sensitive applications Get the world's best price-to-performance ratio for microwave manufacturing Configure an economical solution for signal-integrity measurements and materials characterization Accelerate insight into component behavior using a multi-touch display and intuitive user interface Every spec verified, adjustments included Lock in support & peak performance from the start
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N5231B -
Keysight Technologies
Perform basic analysis of passive components and simple active devices Measure S-parameters with good accuracy up to 13.5 GHz in cost-sensitive applications Get the world's best price-to-performance ratio for microwave manufacturing Configure an economical solution for signal-integrity measurements and materials characterization Accelerate insight into component behavior using a multi-touch display and intuitive user interface Every spec verified, adjustments included Lock in support & peak performance from the start
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N5241A -
Keysight Technologies
Reach for unrivaled excellence in your measurements and designs Simplify your test stations by replacing racks and stacks of equipment Increase productivity with the most integrated and flexible single-connection microwave test engine Reduce test time with the worlds widest range of single-connection measurement applications Test linear and nonlinear device characterization more accurately with the world's best PNA-X Every spec verified, adjustments included Lock in support & peak performance from the start
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N5239B -
Keysight Technologies
Perform basic analysis of passive components and simple active devices Measure S-parameters with good accuracy up to8.5 GHz in cost-sensitive applications Get the world's best price-to-performance ratio for microwave manufacturing Configure an economical solution for signal-integrity measurements and materials characterization Accelerate insight into component behavior using a multi-touch display and intuitive user interface Every spec verified, adjustments included Lock in support & peak performance from the start
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Y1800A -
Keysight Technologies
The RF transceiver kit consists of a transmitter unit and a receiver unit in superheterodyne architecture. The transceiver units are made up of various RF building-block modules such as filter, low noise amplifier, power amplifier, mixer and oscillator. The RF transceiver kit is controlled by a Windows-based Control Panel software via USB. A Measurement Automation Program is provided to demonstrate automated characterization and test of RF circuits. A signal generator and a spectrum analyzer are required to run this program.
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B2200A -
Keysight Technologies
The B2200A reduces the cost of test by enabling characterization tests to be automated, without compromising the measurement performance of the semiconductor parameter analyzer. It supports a 4-SMU, full-Kelvin configuration and a capacitance meter, with room for future expansion. Includes 14 inputs, each with a unique internal measurement path, and a distinctive capacitance measurement compensation feature for two of the inputs. Provides front panel control via keypad or optional light pen, and supports instruments such as pulse generators.
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EV-QSFP-174 -
UC Instruments, Corp.
The EV‐QSFP‐174 QSFP/QSFP+ Host Test Board comes complete with Windows based software (Windows XP & above) to enable intuitive memory map programming and testing, controlled via a mini B USB port. It is designed to simulate an ideal environment for QSFP/QSFP+ transceiver module testing, characterization and manufacturing test. Its high speed properties make the host board as electrically transparent as possible, allowing for a more accurate assessment of the module’s performance.
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ESDEMC Technology LLC
Transmission Line Pulse testing, or TLP testing, is a method for semiconductor characterization of Electrostatic Discharge (ESD) protection structures. In the Transmission Line Pulse test, high current pulses are applied to the pin under test (PUT) at successively higher levels through a coaxial cable of specified length. The applied pulses are of a current amplitude and duration representative of the Human Body Model (HBM) event (or a Charged Device Model – CDM – event in the case of Very Fast TLP, or VF-TLP).