Page: 1

Parts by Number Top

Part # Distributor Manufacturer Product Category Description
TC646B Microchip Technology, Inc. Microchip Technology, Inc. Not Provided The TC646B is a new version of the existing TC646 fan speed controller. This device is a switch mode fan speed controller, which incorporates a new fan auto restart function. Temperature proportional speed control is accomplished using pulse width modulation. A thermistor (or other voltage output...
TC642B Microchip Technology, Inc. Microchip Technology, Inc. Not Provided The TC642B is a new version of the existing TC642 fan speed controller. This device is a switch mode fan speed controller, which incorporates a new fan auto restart function. Temperature proportional speed control is accomplished using pulse width modulation. A thermistor (or other voltage output...
TC648B Microchip Technology, Inc. Microchip Technology, Inc. Not Provided The TC648B is a new version of the existing TC648 fan speed controller. This device is a switch mode fan speed controller, which incorporates a new fan auto restart function. Temperature proportional speed control is accomplished using pulse width modulation. A thermistor (or other voltage output...

Conduct Research Top

  • Thermistors in Single Supply Temperature Sensing Circuits
    . From this discussion, various linearization resistor networks will be shown with error analysis included. Finally, the signal conditioning path for the thermistor system will be covered with complete application circuits from sensor or microprocessor.
  • Building a 10-Bit Bridge Sensing Circuit Using the PIC16C6XX and MCP601Operational Amplifier
    Sensors that use Wheatstone bridge configurations, such as pressure sensors, load cells, or thermistors have a great deal of commonality when it comes to the signal conditioning circuit. This application note delves into the inner workings of the electronics of the signal conditioning path
  • Building a 10-Bit Bridge Sensing Circuit Using the PIC16C6XX and MCP601Operational Amplifier
    Sensors that use Wheatstone bridge configurations, such as pressure sensors, load cells, or thermistors have a great deal of commonality when it comes to the signal conditioning circuit. This application note delves into the inner workings of the electronics of the signal conditioning path
  • Single Supply Temperature Sensing with Thermocouples
    , and silicon based sensors. For an overview and comparison of these sensors, refer to Microchips AN679, Temperature Sensing Technologies. This application note focuses on circuit solutions that use thermocouples in the design. The signal conditioning path for the thermocouple system will be discussed
  • Interfacing a TC1047A Analog Output Temperature Sensor to a PICmicro (R) Microcontroller
    Analog output silicon temperature sensors offer an easy-to-use alternative to traditional temperature sensors, such as thermistors. The TC1047A offers many system-level advantages, including the integration of the temperature sensor and signal conditioning circuitry on a single chip. Analog output
  • Interfacing a TC1047A Analog Output Temperature Sensor to a PICmicro (R) Microcontroller
    Analog output silicon temperature sensors offer an easy-to-use alternative to traditional temperature sensors, such as thermistors. The TC1047A offers many system-level advantages, including the integration of the temperature sensor and signal conditioning circuitry on a single chip. Analog output
  • Appliance sensors become hot stuff
    Solid-state liquid-level and flow detection are boosting the reliability of smart appliances. The prototype liquid-level sensor before encapsulation shows the placement of the individual resistive heaters, the constantan thermocouple wires, and the signal-conditioning electronics. As liquid level

More Information Top

Lock Indicates content that may require registration and/or purchase. Powered by IHS Goldfire