construction moxies are a family of variable resistance thermal sensors having a highly specific transition region. within this transition region the devices typically exhibit a negative temperature coefficient ranging from 40 % per c to 300 % per c. below the transition region they exhibit a linear thermistor characteristic of C2 to C4%/ c. moxies are available in a to C 18 transistor package (code ts 3) with two lead-wires, or as individual, trimmed clips. the moxie is a solid state component produced by thin film technology. a sapphire die is mounted on a gold plated header and connected to the therminals by gold-wire bonding. applications sensors for temperature protection, control and limiting. voltage, current and frequency limiters in electronics. examples: overtemperature protector for power semi-conductors, such as transi- stors, power output stages, amplifiers. temperature control of electronic appliances and electric equipment. temperature sensor for signalling systems and fire detectors . control of componentry in industrial and entertainment electronics. protection of electronic circuit s , such as computers or batte r y charger s . dimensions thermal sensors moxie ? (ntc) features C high sensitivity C quick reaction C hysteresis approx. 3C6 c C excellent reliablility C long service life C no selecting, no adjusting C no corrosion of contact surface as semi-conductor C no +/C polarity C can be used as logical control element C isolated casing C easy installation C can be delivered in chip form ts3 ts3 b3 ts3 c3 10-04-01 1000-y-600 ts3 ts3 8415 mountain sights avenue ?montreal (quebec), h4p 2b8, canada c a nthe rm t el: (514) 739-3274 ?1-800-561-7207 ?fax: (514) 739-290 e-mail : sales@cantherm.com ?website: www.cantherm.com
10-04-01 1000-y-600 2
10-04-01 1000-y-600 3
ts3-xx ts3-xxc3 ts3-xxb3
technical data and availability are subject to change without notice. 8415 mountain sights avenue ?montreal (quebec), h4p 2b8, canada c a nthe rm t el: (514) 739-3274 ?1-800-561-7207 ?fax: (514) 739-290 e-mail : sales@cantherm.com ?website: www.cantherm.com
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