Through Hole Resistors have long been used in a variety of applications, such as power control and temperature control. One of the most popular of these types of resistors is the FMP100JB-52-3R6 series. This series of axial lead type of resistors is designed specifically for space-limited applications. It is capable of handling up to 1.5 watts of power and is rated for an operating temperature of -55 to +125 degrees Celsius.
The FMP100JB-52-3R6 resistor has a standard body size of 0.48”x0.48”x0.5” with a wide range of achievable resistance values from 1 ohm up to 10K ohms and tolerances of either 5 or 10%. It is also available in 10 different temperature coefficients, which varies according to the type of resistor purchased.
The application fields for this resistor is quite extensive, and can be used in any number of automated systems, including digital and analogue equipment, computer mainframes, and even medical devices. Due to its compact size, this resistor can be used in situations where space is limited. It offers superior performance, reliability, and long-term stability, making it an ideal choice when precision and durability are a must.
The working principle of the FMP100JB-52-3R6 is simple to understand. It operates on the principle of Ohm\'s Law, which states that the current passing through a resistor is equal to the voltage across it divided by the resistance value. This is known as the fundamental law of electricity and is at the heart of the operation of the FMP100JB-52-3R6. As such, it is designed to limit and control the amount of current passing through the resistor in order to maintain a predetermined voltage value.
The FMP100JB-52-3R6 is a reliable resistor that is suited for many applications. It has a wide range of achievable resistance values, is able to handle up to 1.5 watts of power, and is rated for a temperature range of -55 to +125 degrees Celsius. It offers superior performance, reliability, and long-term stability, making it an ideal choice when precision and durability are a must. Moreover, its working principle is based on the fundamental law of electricity – Ohm’s Law, and its compact form factor makes it perfect for space-limited applications.