WHB150FET Resistors |
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| Allicdata Part #: | WHB150FETR-ND |
| Manufacturer Part#: |
WHB150FET |
| Price: | $ 0.25 |
| Product Category: | Resistors |
| Manufacturer: | Ohmite |
| Short Description: | RES 150 OHM 1W 1% AXIAL |
| More Detail: | 150 Ohms ±1% 1W Through Hole Resistor Axial Wirew... |
| DataSheet: |  WHB150FET Datasheet/PDF |
| Quantity: | 1000 |
| 1000 +: | $ 0.22145 |
| 2000 +: | $ 0.21645 |
| 5000 +: | $ 0.21229 |
| 10000 +: | $ 0.20729 |
| Series: | WH |
| Packaging: | Tape & Reel (TR) |
| Part Status: | Active |
| Resistance: | 150 Ohms |
| Tolerance: | ±1% |
| Power (Watts): | 1W |
| Composition: | Wirewound |
| Features: | -- |
| Temperature Coefficient: | ±20ppm/°C |
| Operating Temperature: | -55°C ~ 150°C |
| Package / Case: | Axial |
| Supplier Device Package: | Axial |
| Size / Dimension: | 0.130" Dia x 0.276" L (3.30mm x 7.00mm) |
| Height - Seated (Max): | -- |
| Number of Terminations: | 2 |
| Failure Rate: | -- |
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Through Hole Resistors are a type of passive electrical component used in electronic circuits to control the flow of electricity based on their resistance. One type of Through Hole Resistor is the WHB150FET, which is used primarily to measure high voltages in electrical systems. The WHB150FET provides a current path for the current to pass through it at the same time as providing resistance against the flow of current. A combination of its features makes it suitable for measuring high voltages, as well as controlling and safeguarding against short circuit conditions in case of a power surge.
The WHB150FET is composed of a pair of resistors. Each one has three leads, two of which are connected to the power source, and the third is a standing point in the current flow path. Depending on the type of resistor, two of the leads may be connected to the ground and the other to the current source or, in some cases, the resistor may be connected directly to the power source. The resistance of the WHB150FET is determined by the size of the resistance value and the distance of the two leads. By adjusting this distance, the resistance value can be set.
The WHB150FET application field includes measuring, controlling and safeguarding in electrical systems where high voltages could damage the system. The WHB150FET can be used to measure the voltage of a power source and current output. This allows it to be used as both a safety feature to protect against voltage surges and as a measuring tool to determine the amount of voltage being supplied by the power source. It also can be used in measuring high voltages in motor and transformer circuits.
The working principle of the WHB150FET is based on its ohmic resistance. This resistance is determined by the size of the resistance value and the distance between the two leads. When the two leads are close together, the resistance is high and when the leads are further apart, the resistance drops. The voltage across the two leads is determined by the distance between the leads. As the current flows between the two leads, the voltage is proportional to the current and the distance between the two leads.
The resistance of the WHB150FET is also determined by the material that it is made from. Most materials have an inherent resistance value. However, by changing this material, the resistance of the WHB150FET can be altered. Materials such as graphite, silicon, and carbon are commonly used to make WHB150FETs, with each material providing a different resistance level. In addition, different resistors will have different power ratings – the higher the rating, the more current that can be passed through the resistor without any adverse effect.
The WHB150FET is a versatile and reliable tool for measuring and controlling high voltages in electrical systems. Its ohmic resistance ensures both accuracy in measuring high voltages as well as protection against power surges. Its flexibility in material makes it suitable for almost any application. And its ability to be reliable even at high currents makes it a vital component in any circuit design. In short, the WHB150FET is an essential component in any circuit design.
The specific data is subject to PDF, and the above content is for reference
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