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Part # Distributor Manufacturer Product Category Description
MCP1754S Microchip Technology, Inc. Microchip Technology, Inc. Not Provided entire temperature range. Stable with minimum 1.0 μF output capacitance. Power Good Output. Shutdown Input. True Current Foldback Protection. Short-Circuit Protection. Overtemperature Protection...
MCP1640 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided PFM Mode. Internal Synchronous Rectifier. Internal Compensation. Inrush Current Limiting and Internal Soft-Start. True Load Disconnect Shutdown. Shutdown Current (All States): < 1 μA. Low Noise, Anti-Ringing Control. Overtemperature Protection. SOT23-6 or 2x3 8-Lead DFN packages...
MCP9501 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided MCP9501/2/3/4 family of devices are temperature switches with ±1 °C (typical) accurate factory set output thresholds. These devices are ideal for high power supply systems where an overtemperature protection circuit is needed. These devices do not require external components, consume 25...
P3-16TD3P Not Provided Programmable Controllers / Productivity3000 (Programmable Automation Controller) / DC I-z-O 16-point, 12-24 VDC current sinking/sourcing output module for Productivity3000 PAC, 4 commons (non-isolated), 0.5A/point continuous, overcurrent trip 1.2A min, 2.4A max, independent overtemperature protection for each output. Requires one pre-wired cable and one ZIPLink module (sold separately...
F2-16TD1P Not Provided Programmable Controllers / DirectLogic Series PLCs (Micro to Small, Brick & Modular) / DirectLogic 205 (Micro Modular PLC) / DC I-z-O 16-point, 12-24 VDC current sinking output module, 2 common terminals, 0.25A/point continuous, overcurrent trip 0.6A min, 1.2A max, independent overtemperature protection for each output, removable terminal block. Not compatible with D2-230, D2-240, and D2-250 CPUs.
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Conduct Research Top

  • Circuit Protection Solution for Lithium Cells (.pdf)
    cycle life, with no memory effect. Lithium cells are sensitive to faults caused by overcurrent and. overtemperature conditions that may result from accidental shorting of the cell terminals and, in the case of rechargeable lithium cells, abusive charging or charger failure. For this reason, lithium
  • Optimum Li-ion Battery Pack Short Circuit and Overcharge Protection with Low Temperature Polymeric PTC Devices While Maximixing Battery Pack Run Time
    , manufacturers reduce warranty return costs and enhance customer satisfaction. Rechargeable Li chemistry-based battery cells and packs are particularly sensitive to overcurrent/overtemperature conditions caused by accidental shorting and abusive or runaway charging. These conditions can raise the battery
  • Multi-layer Slow Blow Fuses Help Protect Automotive Infotainment (.pdf)
    across all definable environments. Many devices, once exposed to repeated overtemperature conditions, may no longer perform to specification and may begin to draw higher and higher currents in order to maintain functionality. With enough of these degraded components incorporated into a system design
  • NTC Thermistor Application Guide
    thermistors are the most sensitive of all temperature sensing elements they are popular in temperature control systems. By using a thermistor in a voltage comparator circuit basic on-off temperature control as well as over-temperature protection can be incorporated. Temperature compensation Many
  • MCP1701 vs MCP1701A vs MCP1702 Technical Brief
    voltage of 12 volts at an ambient following major enhancements over its predecessors: temperature of 34°C. * Thermal Protection Output Current Rated Overtemperature Wider Input Operating Voltage 2.7V to 13.2V -40°C to +125°C Output Current Rated Over Temperature: - -40°C to +125°C The MCP1702 now

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