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Office and home appliances like printers, copy machines, and air conditioners use high-voltage resistors. Such products reduce set circuit signal inconsistencies and make final products more reliable by providing high resistance and low deviation values.
Linear resistors are resistors whose values fluctuate with applied temperature and voltage. Linear resistors come in two varieties:
Fixed resistors: These resistors have a particular value that cannot be altered. The various types of fixed resistors are as follows.
Variable resistors: Wire-wound resistors, thin film resistors, thick film resistors, and carbon composition resistors These resistors don’t have a set value, but you can change their values with a dial, knob, or screw.
In radio receivers, these resistors are used to control tone and volume.The various varieties of variable resistors are as follows.
Potentiometers, rheostats, and trimmers The resistor values do not depend on Ohm’s law because they change with temperature and voltage. The various kinds of non-linear resistors are as follows: Varisters, photo resistors, and thermometers
The Global High Voltage Resistors market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
Digi-Key Electronics, a leading provider of electronic component selection, availability, and delivery, is a global distributor of electronic components.
Vishay Intertechnology, Inc. is one of the largest producers of passive electronic components and discrete semiconductors (such as diodes, MOSFETs, and infrared optoelectronics) in the world.
In the industrial, power supplies, automotive, computing, consumer, telecommunications, military, aerospace, and medical markets, these components are utilized in virtually every kind of electronic equipment and devices.
Vishay has established itself as a global market leader thanks to its innovative products, successful acquisition strategy, and “one-stop shop” service.
The resistor’s operation can be illustrated with water flowing through the pipe. Take into consideration a water pipe. Now, the water flow will decrease as the pipe’s diameter decreases.
Additionally, as the pressure rises, the water’s force rises, and energy is dispersed as heat.The force applied to the water in this example is comparable to the current that flows through the resistance.The applied pressure may resemble the voltage.
By lowering the voltage, the resistor slows down the flow of electricity and absorbs the electrical energy before releasing it as heat.The heat dissipation in electronic circuits today typically amounts to a tenth of a watt.
