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Peltier - Thermoelectric Cooler Modules
Showing 17–32 of 122 results
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VT-127-1.4-1.15-71
Very High Temperature (VT) modules are rated for temperatures up to 200°C whereas all other modules we sell are rated for use up to 80°C. VT series modules can be made in any of our other configurations (standard, high performance, series/parallel, etc.) and they are stocked in our most popular configurations. We may have some stock on other configurations that are not listed below, so check if you want something that is not listed. If you are interested in a VT series module that is not standard stock or otherwise in stock then a 100 piece minimum order applies. Our proprietary “potting” for moisture protection and ruggedizing is available as an option, and for VT series modules it is specially modified for use up to 150°C.
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VT-71-1.4-1.15
Very High Temperature (VT) modules are rated for temperatures up to 200°C whereas all other modules we sell are rated for use up to 80°C. VT series modules can be made in any of our other configurations (standard, high performance, series/parallel, etc.) and they are stocked in our most popular configurations. We may have some stock on other configurations that are not listed below, so check if you want something that is not listed. If you are interested in a VT series module that is not standard stock or otherwise in stock then a 100 piece minimum order applies. Our proprietary “potting” for moisture protection and ruggedizing is available as an option, and for VT series modules it is specially modified for use up to 150°C.
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VT-127-1.0-1.3-71
Very High Temperature (VT) modules are rated for temperatures up to 200°C whereas all other modules we sell are rated for use up to 80°C. VT series modules can be made in any of our other configurations (standard, high performance, series/parallel, etc.) and they are stocked in our most popular configurations. We may have some stock on other configurations that are not listed below, so check if you want something that is not listed. If you are interested in a VT series module that is not standard stock or otherwise in stock then a 100 piece minimum order applies. Our proprietary “potting” for moisture protection and ruggedizing is available as an option, and for VT series modules it is specially modified for use up to 150°C.
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VT-31-1.0-1.3
Very High Temperature (VT) modules are rated for temperatures up to 200°C whereas all other modules we sell are rated for use up to 80°C. VT series modules can be made in any of our other configurations (standard, high performance, series/parallel, etc.) and they are stocked in our most popular configurations. We may have some stock on other configurations that are not listed below, so check if you want something that is not listed. If you are interested in a VT series module that is not standard stock or otherwise in stock then a 100 piece minimum order applies. Our proprietary “potting” for moisture protection and ruggedizing is available as an option, and for VT series modules it is specially modified for use up to 150°C.
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HP-199-1.4-0.8
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-199-1.4-1.15
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-199-1.4-1.5
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-127-1.0-0.8
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-127-1.4-1.15-71
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-127-1.4-1.5-74
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-127-1.4-1.5-72
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-127-1.4-2.5-72
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-119-1.0-0.6
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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HP-127-1.0-1.3-71
High Performance modules have one of two features that set them apart from our standard devices. Some achieve a higher temperature difference (DTmax) through the use of premium quality thermoelectric material. Others have more heat pumping capacity (Qmax) for any given size through the use of shorter thermoelectric elements or higher element packing densities. The higher DTmax is useful for reducing power consumption and achieving ultimate performance when you need a high temperature from the cold plate to the heat sink. Higher Qmax modules are useful for reducing the module count and improving the C.O.P. in systems that have lower temperature differences. These modules are rated for use up to 80°C.
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TE-109-0.6-0.8
Micro modules are devices that have semiconductor element footprints of less than 1.0mm square, allowing higher numbers of couples for a given size module. These modules are metallized (but not solder tinned) on both hot and cold surfaces and they are suitable for mounting with solder or via compression (compression is recommended). TE Technology’s proprietary “potting” for moisture protection and ruggedizing is available as an option. These modules are rated for use up to 80°C.
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TE-65-0.6-0.8
Micro modules are devices that have semiconductor element footprints of less than 1.0mm square, allowing higher numbers of couples for a given size module. These modules are metallized (but not solder tinned) on both hot and cold surfaces and they are suitable for mounting with solder or via compression (compression is recommended). TE Technology’s proprietary “potting” for moisture protection and ruggedizing is available as an option. These modules are rated for use up to 80°C.