| No. | Partie # | Fabricant | Description | Fiche Technique |
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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 (1.3 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 (1.3 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 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). ¥ 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 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 |
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 |
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). ¥ 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). ¥ 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). ¥ 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) = 0.75mW/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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