The CMF series of through hole resistors is one of the most common varieties of resistors available on the market. With its remarkable precision, it is widely used in applications where accuracy and reliable performance are essential in order to achieve optimal results. This type of resistor is composed of three components: two ceramic cores and a metal housing. The resistor can be either grounded or floating, but it is best to use a grounded resistor in most devices for safety reasons.

The CMF2039R000GNRE model of through hole resistor is an industrially rated resistor that is rated to withstand up to 1.5 watts when installed in a typically environment. It measures 8.5mm in size and has a Tolerance of ±5%. It is an ideal choice for applications where protection against short circuits, over currents, and overvoltage transients are essential.

The CMF2039R000GNRE through hole resistor’s application field mainly includes circuits requiring high accuracy and precision. It is also widely used in a number of industrial applications such as high-frequency signals, motor control circuits, and pulse-width modulated circuits.

The working principle of the CMF2039R000GNRE is based on the principle of resistor values. The ceramic cores contain special resistor material which changes resistance when exposed to an electric current. The metal housing acts as a heat sink, dissipating heat generated by the cores, ensuring that the resistor operates reliably and that it does not over heat. The resistor also has a voltage rating that sets the maximum voltage that can be applied to the resistor without it being damaged.

To sum it up, the CMF2039R000GNRE through hole resistor is an ideal choice for applications demanding high accuracy and precision, such as high-frequency signals, motor control circuits, and pulse-width modulated circuits. It is rated to 1.5 watts and it has a tolerance of ±5%. The ceramic cores contain special resistor material which changes resistance when exposed to an electric current and the metal housing acts as a heat sink to dissipate heat and ensure maximum reliability.