Showing results: 826 - 840 of 847 items found.
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SLTM-1 -
Walter G. Legge Company Inc.
SLTM-1 Conductive Footwear Tester checks conductive footwear automatically. The SLTM-1 Conductive Footwear Tester automatically and accurately measures the exact amount of resistance in conductive footwear and body grounding devices, ensuring a static control environment. It is ideal for dangerous, potentially explosive areas or areas in the electronic industry where static can destroy sensitive components. Stand on the foot plates and the unit’s direct-reading dial with graduated, color-coded scale indicates the exact amount of resistance. Shipped complete and ready to operate. Has 8 feet of 18-3 type SJ power cord that plugs into any grounded 120-volt AC power source. This unit measures 17 x 12 inches and weighs less than 6 1/2 lbs. All conductive footwear and body grounding devices, such as LEGSTATS, must be worn in pairs. SLTM-1 passes conductive footwear with resistance less than 2.5 MEG Ohm.
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THL210 -
TMTeck Manufacturing Limited
LCD display of 128×64 matrix with back-light, showing all functions and parameters. Converts to all common hardness scales (HV,HB,HRC,HRB,HRA,HS). English displaying and easy and convenient menu operation. Powerful PC Software available and USB 1.0 interface and USB with Protective Membrane. 7 types of Impact Device optional, which don't need to be recalibrated when changing them. Memory of 600 groups data(impact times:32~1). Lower limit setting and sound alarm. Material of “cast steel” is added; HB values can be read out directly when D/DC impact device is used to measure “cast steel” work piece. Printer be separated from main unit and copies of testing results can be printed as required. Normal battery AAA and big power store while USB connected and charging controlling circuit. Inbuilt function of Software Calibration.
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KLA-Tencor Corp
KLA’s extensive portfolio of packaging solutions accelerates the manufacturing process for outsourced semiconductor assembly and test (OSAT) providers, device manufacturers and foundries for a wide range of packaging applications. Innovations in advanced packaging, such as 2.5D/3D IC integration using through silicon vias (TSVs), wafer-level chip scale packaging (WLCSP), fan-out wafer-level packaging (FOWLP) and heterogeneous integration as well as a wide range of IC substrates create new and evolving process requirements. KLA offers systems for packaging inspection, metrology, die sorting and data analytics focused on meeting quality standards and increasing yield before and after singulation. SPTS provides a broad range of etch and deposition process solutions for advanced packaging applications. Orbotech offers a portfolio of technologies that includes automated optical inspection (AOI), automated optical shaping (AOS), direct imaging (DI), UV laser drilling, inkjet/additive printing and software solutions to ensure manufacture of the highest quality of IC substrates.
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510 -
Elcometer Limited
Automatic hydraulic pump ensures smooth and continuous pressure application for consistent, repeatable adhesion strength resultsFully adjustable pull rates 0.1-1.4MPa/s (14.5-203psi) to meet National and International StandardsCan be used with 10,14.2, 20 and 50mm diameter dolliesUser definable limits with unique pressure hold and release functionUser definable measurement range with an accuracy of ±1% of full scale:10mm dolly: 100MPa (14400psi14.2mm dolly: 50MPa (7200psi)20mm dolly: 25 MPa (3600psi)50mm dolly: 4MPa (580psi)Dust and water resistant rugged design to IP64Interchangeable units: MPa, psi, Nmm2 and NA range of standard and thin substrate actuator skirts (compatible with Elcometer 506) available for adhesive strength testing on thick, thin, flat or convex substratesStore up to 60,000 readings with individual pull graphs in up to 2,500 alpha numerical batches, complete with attribute failure informationUSB and Bluetooth® data output - compatible with ElcoMaster® App for iPhone, iPod, iPad and Android mobile devices
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345B -
Oersted Technology
The Model 300-series magnetizers are designed to handle a variety of magnetizing applications and materials, from small Alnico parts to large blocks of neodymium-iron. Each of these magnetizers feature patented ECS (Electronic Capacitance Switching) technology, which allows the user to change the capacitance of the unit through the front panel. By setting the charging voltage and capacitance of the magnetizer properly, the user can then scale the output energy of the unit to match the magnetizing fixture being used. The 300-series magnetizers also includes a peak current meter, which automatically captures the peak current of the magnetizing pulse once it occurs. A safety circuit internally discharges the capacitor banks if mains power is removed from the magnetizer or if the cabinet is opened during operation. When connected to a suitable magnetizing fixture, the magnetizer is able to disable its front panel controls if the fixture overheats. Other features include a lockout keyswitch and a current sense output jack (this connects to an oscilliscope for viewing of the magnetizing pulse). All 300-series magnetizers can be modified for computer control, photocell trigger, or autocharge operation.
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330B -
Oersted Technology
The Model 300-series magnetizers are designed to handle a variety of magnetizing applications and materials, from small Alnico parts to large blocks of neodymium-iron. Each of these magnetizers feature patented ECS (Electronic Capacitance Switching) technology, which allows the user to change the capacitance of the unit through the front panel. By setting the charging voltage and capacitance of the magnetizer properly, the user can then scale the output energy of the unit to match the magnetizing fixture being used. The 300-series magnetizers also includes a peak current meter, which automatically captures the peak current of the magnetizing pulse once it occurs. A safety circuit internally discharges the capacitor banks if mains power is removed from the magnetizer or if the cabinet is opened during operation. When connected to a suitable magnetizing fixture, the magnetizer is able to disable its front panel controls if the fixture overheats. Other features include a lockout keyswitch and a current sense output jack (this connects to an oscilliscope for viewing of the magnetizing pulse). All 300-series magnetizers can be modified for computer control, photocell trigger, or autocharge operation.
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350B -
Oersted Technology
The Model 300-series magnetizers are designed to handle a variety of magnetizing applications and materials, from small Alnico parts to large blocks of neodymium-iron. Each of these magnetizers feature patented ECS (Electronic Capacitance Switching) technology, which allows the user to change the capacitance of the unit through the front panel. By setting the charging voltage and capacitance of the magnetizer properly, the user can then scale the output energy of the unit to match the magnetizing fixture being used. The 300-series magnetizers also includes a peak current meter, which automatically captures the peak current of the magnetizing pulse once it occurs. A safety circuit internally discharges the capacitor banks if mains power is removed from the magnetizer or if the cabinet is opened during operation. When connected to a suitable magnetizing fixture, the magnetizer is able to disable its front panel controls if the fixture overheats. Other features include a lockout keyswitch and a current sense output jack (this connects to an oscilliscope for viewing of the magnetizing pulse). All 300-series magnetizers can be modified for computer control, photocell trigger, or autocharge operation.
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340B -
Oersted Technology
The Model 300-series magnetizers are designed to handle a variety of magnetizing applications and materials, from small Alnico parts to large blocks of neodymium-iron. Each of these magnetizers feature patented ECS (Electronic Capacitance Switching) technology, which allows the user to change the capacitance of the unit through the front panel. By setting the charging voltage and capacitance of the magnetizer properly, the user can then scale the output energy of the unit to match the magnetizing fixture being used. The 300-series magnetizers also includes a peak current meter, which automatically captures the peak current of the magnetizing pulse once it occurs. A safety circuit internally discharges the capacitor banks if mains power is removed from the magnetizer or if the cabinet is opened during operation. When connected to a suitable magnetizing fixture, the magnetizer is able to disable its front panel controls if the fixture overheats. Other features include a lockout keyswitch and a current sense output jack (this connects to an oscilliscope for viewing of the magnetizing pulse). All 300-series magnetizers can be modified for computer control, photocell trigger, or autocharge operation.
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Model 4013 -
Jinan Testing Equipment IE Corporation
The Model 4013 extensometer meets the requirements of ASTM D5656 for measuring the strain properties of an adhesive in shear. It uses different contact point spacing compared to the extensometer shown in D5656. This makes it much easier to mount and eliminates the slippage problems associated with the design shown in the ASTM standard. The Model 4013 is available with all of Epsilon’s temperature configurations. It has a 3.0 mm (0.12 inches) full scale measuring range. The conical point contacts included with the extensometer are made from tungsten carbide.The Model 4013 extensometers are strain gaged devices, making them compatible with any electronics designed for strain gaged transducers. Most often they are connected to a test machine controller. The signal conditioning electronics for the extensometer is typically included with the test machine controller or may often be added. In this case the extensometer is shipped with the proper connector and wiring to plug directly into the electronics. For systems lacking the required electronics, Epsilon can provide a variety of solutions, allowing the extensometer output to be connected to data acquisition boards, chart recorders or other equipment.
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8601 -
Hydraulic Technology, Inc.
The Radiator Flow Test Machine P/N 8601 meets all requirements of military specification MIL-F-45955A (AL). It is completely self contained and requires only connection to a source of shop electrical power to place in operation. A power cable complete with three prong grounding plug is permanently attached to the machine for this purpose. The unit consists of a water storage tank, a pumping system, a flow measuring system, a support and workstation, and the required hose adapters for connection to different size radiators. The complete unit is mounted on swiveling casters. The flow rate is infinitely adjustable from 0 to 120 gallons per minute by means of a panel mounted control valve. The machine is constructed from heavy 10 gauge steel, is double welded and is coated externally and internally with a water-resistant epoxy coating. Flow measurement is accomplished by a digital panel meter with a calibrated accuracy of plus or minus 3 percent of scale between 5 and 120 gallons per minute. Higher flows available on request.
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ACMAS Technologies Pvt. Ltd.
WEIBER walk in Solar Spectrum Test Chambers are one of solutions to be utilized in large scale PV testing program. We offer customized as well as standard multidimensional test program for PV modules in reasonable prices. This system delivers the weathering stress representative of long term outdoor exposure.Our flexible system can be designed according to our test requirements, to suit environmental test conditions like volume, temperature, humidity solar radiation intensity and other measuring instruments. It is also called Walk in Solar Radiation Test Chamber.WEIBER solar test system are recognized for superior solar simulation environmental Testing, evaluating outdoor use product reliability, quality & safety. This technology allows for very high concentrations of UV energy without excessive heating of test samples. Custom mounting and cooling can be added depending upon specific material exposure requirements. MHGs (metal halide global lamps) are used as radiation source. Solar spectrum chamber also known as Walk in Solar Simulation Test Chamber
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ACMAS Technologies Pvt. Ltd.
WEIBER Solar Spectrum Test Chambers are one of solutions to be utilized in large scale PV testing program. We offer customized as well as standard multidimensional test program for PV modules in reasonable prices. This system delivers the weathering stress representative of long term outdoor exposure.Our flexible system can be designed according to our test requirements, to suit environmental test conditions like volume, temperature, humidity solar radiation intensity and other measuring instruments. Weiber provide Solar Radiation Test Chamber.WEIBER solar test system are recognized for superior solar simulation environmental Testing, evaluating outdoor use product reliability, quality & safety. This technology allows for very high concentrations of UV energy without excessive heating of test samples. Custom mounting and cooling can be added depending upon specific material exposure requirements. MHGs (metal halide global lamps) are used as radiation source. Weiber provide Solar Simulation Test Chamber.
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DL136 -
Advance Plus Trading Co., Ltd.
Model Number: DL136 Key Specifications/Special Features: Torpedo Digital Level with level bubbles,LED technology for the brightest display, IP65 standards 1. 25.4cm 10 inch level with 2 bubbles, 254*28*58.8mm(L*W*H);2. Resolution: 0.01° at 0° and 90°, 0.05° at the rest°;3. Horizontal level measuring range: 0 to 360°;4. Accuracy: ±0.1° at 0° and 90°: ±0.2° at the rest;5. Measures angle in degrees, IN/FT, % slope or pitch;6. Audible tone at level, plump and setting angle;7. Automatic shut-off after 3 minutes;8. Backlight LCD;9. Self checking accuracy;10. Self calibration;11. Hold-function to freeze the measurement;12. Memory recall (9 measurements);13. With magnets in the bottom;14. With scales at the front bottom alumimum side;15. Operated by DC 3V (2*LR03 AAA 1.5V batteries, not included); 16. IP65 waterproof & dusyproof industrial standard.
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Analog Devices Inc.
Isolated LVDS (low voltage differential signaling) devices couple differential signals applied to the LVDS receiver inputs across the isolation barrier to the outputs on the other side and re-transmits the bit stream or clock as LVDS. Analog Devices' drop-in LVDS isolators offer designers robust, high speed differential signaling for point-to-point and multidrop applications. Extending iCoupler® chip scale transformer technology for ultrahigh speed data encoding, these LVDS isolators support a a data rate of up to 2.5 Gigabits per channel for a total bandwidth of 10 Gbps. In contrast to expensive fiber implementations, deserialized links over standard digital isolators or optocouplers, and design-intensive bespoke solutions using transformers or high voltage capacitors, ADI Gigabit Digital LVDS isolators offer the only integrated comprehensive, high performance isolation at 10 Gbps. High performance galvanic isolation for applications include analog front-end (AFE), processor to processor serial communication, or video and imaging data (such as HDMI isolators) as well as isolation between boards, or at a cable interface for LVDS or CML signal chains.
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Pegasus Verification System -
Cadence Design Systems
The Cadence® Pegasus® Verification System is a cloud-ready physical verification signoff solution, which enables engineers to deliver advanced-node integrated circuits (ICs) to market faster. The groundbreaking technology delivers up to 10X improved performance on DRC runs and reduces turnaround time from days to hours. The Pegasus system’s innovative architecture and native cloud processing provides an elastic and flexible computing environment. Customers can now achieve complete full-chip signoff DRC on advanced-node designs in a matter of hours, helping designers deliver products to market faster, or easily run multiple DRC signoff iterations, if needed, at the time of tapeout. The Pegasus system provides a massively parallel architecture. It is the first solution to combine a pipelined infrastructure with stream processing delivering near-linear scalability across 100s of CPUs. The Pegasus system’s gigascale technology enables full-chip signoff DRC in just a few hours versus days. As many designs continue to grow in complexity, the Pegasus system can scale to meet customers’ stringent time-to-market requirements.
