Showing results: 46 - 60 of 70 items found.
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Infinity Machine International Inc.
Environmental Test Chambers by Infinity Machine International Inc. - for applications such as hydrostatic test chamber for soles, thermal shock chambers, temperature and humidity test chambers, rainproof testers, UV light testing, and more.
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ATSS Series -
Thermotron Industries
Thermotron's Automated Thermal Stress Systems (ATSS) facilitate extremely rapid product temperature change rates in a space-saving, self-contained design that accelerate a Thermal Stress test. Thermotron's ATSS chambers meet the latest MIL-STD 883E and MIL-STD 202F thermal shock specifications as well as JEDEC and IPC test methods. ATSS chambers are capable of the following: Rapid thermal shocking, Accelerated product stressing, Controlled thermal cycling in a self-contained, compact design. With separate hot and cold zones, the Automated Thermal Stress System was designed with a patented retractable product transfer carrier that makes full use of the available working volume in both temperature zones for increased product loading and throughput. The product transfer carrier reduces the overall height requirements of the chamber and is made as light as possible to minimize thermal loading restraints. Thermotron ATSS chambers can be used as part of most commercial reliability and quality control programs, helping to determine:
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ST150 Quad -
Dexter Research Center, Inc.
A four-channel silicon-based thermopile detector in a TO-8 package. Each active area size is 1.5mm x 1.5mm. Affordable four-channel design with strong output and a very low Temperature Coefficient of Responsivity of -0.04%/C. This detector has a very short thermal shock response to ambient temperature change.
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ST120 Quad -
Dexter Research Center, Inc.
A four-channel silicon-based thermopile in a TO-5 package. Each small active area is 1.2mm x 1.2mm . Time constant of 25ms with Nitrogen encapsulation gas. Delivers a very low Temperature Coefficient of Responsivity of -0.04%/C. This detector has a very short thermal shock response to ambient temperature change.
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ST120 Dual -
Dexter Research Center, Inc.
A two-channel silicon-based thermopile in a TO-5 package. Each small active area is 1.2mm x 1.2mm . Time constant of 25ms with Nitrogen encapsulation gas. Delivers a very low Temperature Coefficient of Responsivity of -0.04%/C. This detector has a very short thermal shock response to ambient temperature change.
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Innovative Testing Solutions, Inc.
We have multiple chamber capabilities of simulation most environmental conditions. Our chamber range in capacity from 1 ft3 to 64 ft3 volume. Specialty chambers include air-to-air thermal shock, inert gas injection oven, high/low pressure water spray and direct-injection LN2 chambers.
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ST60 LCC -
Dexter Research Center, Inc.
A single-channel silicon-based thermopile in a LCC package for surface mount assembly in a small active area of 0.61mm x 0.61mm. Time constant of 18ms with Nitrogen encapsulation gas. Delivers a very low Temperature Coefficient of Responsivity of -0.04%/C. This detector has a very short thermal shock response to ambient temperature chang
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ST120 TO-5 -
Dexter Research Center, Inc.
A single-channel silicon-based thermopile provides lowest cost solutions in a small active area of 1.2mm x 1.2mm in a TO-5 package. Time constant of 25ms with Nitrogen encapsulation gas. Delivers a very low Temperature Coefficient of Responsivity of -0.04%/C. This detector has a very short thermal shock response to ambient temperature change.
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ST150 With Diffractive Lens -
Dexter Research Center, Inc.
A single-channel silicon-based thermopile with integrated diffractive lens and internal baffle that delivers a very low Temperature Coefficient of Responsivity of -0.04%/C with a high output voltage, 19.5 FOV and a quick time constant of 38ms. This Low-cost detector comes in a TO-5 package and has a very short thermal shock response to ambient temperature change.
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ST60 TO-5 -
Dexter Research Center, Inc.
A single-channel silicon-based thermopile provides lowest cost solutions in a small active area of 0.61mm x 0.61mm in a TO-5 package. Time constant of 18ms with Nitrogen encapsulation gas. Delivers a very low Temperature Coefficient of Responsivity of -0.04%/C. This detector has a very short thermal shock response to ambient temperature change.
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ST60 TO-18 -
Dexter Research Center, Inc.
A single-channel silicon-based thermopile provides lowest cost solutions in a small active area of 0.61mm x 0.61mm in a small TO-18 package. Time constant of 18ms with Nitrogen encapsulation gas. Delivers a very low Temperature Coefficient of Responsivity of -0.04%/C. This detector has a very short thermal shock response to ambient temperature change.
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AH 1100 -
Andeen-Hagerling, Inc.
The AH 1100 capacitance standard frame containing from one to four AH 11A fused-silica capacitance standards provides reference capacitors of unexcelled stability. The inherent stability of this system when subjected to mechanical or thermal shock makes it the ideal transfer standard for capacitance. The built-in precision temperature controllers make it a simple, reliable system to use.
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TA Instruments
The Light Flash technique provides information on a material’s ability to store and transfer heat through measurements of thermal diffusivity, thermal conductivity, and specific heat capacity. Thorough understanding of these properties is critical for any process or material which experiences a large or fast temperature gradient, or for which the tolerance for temperature change is exacting. Accurate values of these properties are essential for modeling and managing heat, whether the component of interest is called on to insulate, conduct, or simply withstand temperature changes. Information about these properties is routinely used in heat transfer models of all complexities. Heat transfer property measurements also reflect important information about material composition, purity and structure, as well as secondary performance characteristics such as tolerance to thermal shock.
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TA Instruments
Thermal conductivity defines a material’s ability to transfer heat. A precise and accurate measurement is critical for any process or material experiencing large or fast temperature gradients, or for which the tolerance for temperature changes is exacting. Accurate values are essential for modeling and managing heat, whether the component of interest is called on to insulate, conduct, or simply withstand temperature changes. Information about these properties are routinely used in heat transfer models of all complexities. Thermophysical property measurements also reflect important information about material composition, purity and structure, as well as secondary performance characteristics such as tolerance to thermal shock.
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ST60 Quad -
Dexter Research Center, Inc.
A four-channel silicon-based thermopile detector in a TO-5 package. Each small active area size is 0.61mm x 0.61mm. This is our lowest-cost and fastest time constant four-channel detector. It delivers a time constant of 18ms with Nitrogen encapsulation gas combined with a very low Temperature Coefficient of Responsivity of -0.04%/C. This detector has a very short thermal shock response to ambient temperature change.