| No. | parte # | Fabricante | Descripción | Hoja de Datos |
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BetaTHERM |
Interchangeable mini-BetaCURVE Probe ¥ Rapid Time Constant (400 milliseconds in liquids). ¥ Standards supplied with +/-0.2oC tolerance (0 to 70oC). ¥ Other tolerances available. ¥ 0.5 mW/oC typ. Dissipation Constant in air at 25oC. ¥ Smaller than regular BetaCURVE Series The mini-BetaC |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (< 1 second typical in liquids). ¥ Standards supplied with 5% and 10% tolerance. ¥ 1% and 2% available upon request. ¥ Surface Mount Capability. ¥ 1 mW/oC Dissipation Constant in air at 25oC. ¥ Uniformly Sized for Pick & Place |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.85mW/ oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80 to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability |
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BetaTHERM |
Chip Thermistors Thermistor C\ onfiguration 32 AWG Tin Plated Copper Alloy Lead Wires Thermally Conductive Epoxy Coating 2.413mm (0.095") Max. Dia. 76.2mm +/-3.3mm (3.00" +/-0.13") Example: BetaCURVE Series VI Part Number 10K 4 A 1 AM Medical Grade Classificat |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.75mW/oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80oC to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability. |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.75mW/oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80oC to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability. |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.75mW/oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80oC to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability. |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.85mW/ oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80 to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (<1 second typical in liquids). ¥ Standards supplied with 5% and 10% tolerance. ¥ 1% and 2% available upon request. ¥ Surface Mount Capability. ¥ 1 mW/oC Dissipation Constant in air at 25oC. ¥ Uniformly Sized for Pick & Place A |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (<1 second typical in liquids). ¥ Standards supplied with 5% and 10% tolerance. ¥ 1% and 2% available upon request. ¥ Surface Mount Capability. ¥ 1 mW/oC Dissipation Constant in air at 25oC. ¥ Uniformly Sized for Pick & Place A |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.75mW/oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80oC to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability. |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.85mW/ oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80 to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.85mW/ oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80 to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1.3 second typical in liquids). ¥ DC (Dissipation Constant) = 2.0mW/oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80oC to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1.5 second, typical in liquids). ¥ DC (Dissipation Constant) = 3.0mW/oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80oC to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliabilit |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.75mW/oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80oC to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability. |
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BetaTHERM |
Sensor he elements, the leads are cut at different lengths for the 36K53A1 composite and are color coded for the D1 composites. T1 T2 6K 30K 6.35mm Max. (0.25") 2.03mm (0.08") Max.dia. 152 Nominal (6.0") 5.35mm (0.25") typ. 34 AWG solid copper (magnet |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (< 1 second typical in liquids). ¥ Standards supplied with 5% and 10% tolerance. ¥ 1% and 2% available upon request. ¥ Surface Mount Capability. ¥ 1 mW/oC Dissipation Constant in air at 25oC. ¥ Uniformly Sized for Pick & Place |
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BetaTHERM |
Chip Thermistors ¥ Rapid Time Response (1 second typical in liquids). ¥ DC (Dissipation Constant) = 0.75mW/oC typical in still air at 25oC. ¥ Min./Max. Temperature Exposure = -80oC to 150oC. ¥ Available in custom probe assemblies. ¥ Proven Stability and Reliability. |
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Desde 2024. D4U Semiconductor.
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