WHB250FET Resistors |
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Allicdata Part #: | WHB250FETR-ND |
Manufacturer Part#: |
WHB250FET |
Price: | $ 0.25 |
Product Category: | Resistors |
Manufacturer: | Ohmite |
Short Description: | RES 250 OHM 1W 1% AXIAL |
More Detail: | 250 Ohms ±1% 1W Through Hole Resistor Axial Wirew... |
DataSheet: | WHB250FET 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: | 250 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 widely used in the majority of electronic devices including devices from various scales such as industrial and commercial equipment, power systems and communications networks. An important part of this type of resistor is the WHB250FET. This component is a standard four-terminal device for use in power factor correction in high-frequency DC/AC applications.
The WHB250FET uses a surface-mounted structure, which provides a much faster signal conduction and reduces the physical size of the resistor for efficient packaging. The four terminals are designed to be electrically insulated which increases the safety of the device. The four terminals also allow the resistor to be connected to different circuits, thus joining different parts of an electrical circuit. It also allows the current to pass through the resistor in more than one direction, which ensures that the device can handle high power applications.
The WHB250FET is composed of four layers. The outermost layer is composed of an insulation material. This material serves to keep the device protected from external environmental factors, such as dust, moisture, and heat. The second layer is made up of an electrically conductive material, which is typically a metal. This layer serves to conduct electricity from the power input source to the rest of the device. The third layer is composed of a ceramic material, which acts as an insulating barrier between the two conductive layers. The fourth layer is made up of a semiconductor material, which helps to regulate the performance of the device.
The WHB250FET is able to efficiently transfer energy between power supply sources and electrical loads. It works by utilizing the principles of a resonant power factor correction circuit, which allows energy to be transferred more efficiently between power sources and loads. The device also prevents power loss due to the mismatch of impedance between the power source and the load.
The device has a high frequency operation, which ensures that the energy transfer is greater than that of devices with lower frequency operation. Additionally, the device is able to withstand higher voltage and temperature levels without any damage. The WHB250FET also has a high tolerance to both inductive and capacitive loads, which increases its flexibility in a wide range of applications.
The WHB250FET is mainly used in power factor correction systems where high-frequency AC/DC power sources are being used. This component is designed to convert power modules into more efficient energy transfer systems, as well as providing safe and reliable operation. Additionally, this device is also used in communication networks, where it serves to reduce power consumption and enhance system performance.
In conclusion, the WHB250FET plays an important role in the design and operation of power systems. This four-terminal device is ideal for use in high-frequency AC/DC circuits, and will provide reliable power factor correction performance. It is also designed to prevent power loss due to mismatching impedances between power sources and loads, and provides efficient power transfer. Overall, the WHB250FET is an essential addition to any electronic device, from industrial equipment to communication networks.
The specific data is subject to PDF, and the above content is for reference
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