Allicdata Part #: | HVW3\420M00JLB-ND |
Manufacturer Part#: |
HVW3\420M00JLB |
Price: | $ 1.37 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | HVW-3/4 20M 5% L05 |
More Detail: | 20 MOhms ±5% 1.5W Through Hole Resistor Axial High... |
DataSheet: | HVW3\420M00JLB Datasheet/PDF |
Quantity: | 1000 |
100 +: | $ 1.23637 |
300 +: | $ 1.05975 |
500 +: | $ 0.97144 |
1000 +: | $ 0.89019 |
5000 +: | $ 0.84780 |
Series: | HVW |
Packaging: | Bulk |
Part Status: | Active |
Resistance: | 20 MOhms |
Tolerance: | ±5% |
Power (Watts): | 1.5W |
Composition: | Carbon Film |
Features: | High Voltage |
Temperature Coefficient: | -- |
Operating Temperature: | -- |
Package / Case: | Axial |
Supplier Device Package: | Axial |
Size / Dimension: | 0.155" Dia x 0.895" L (3.94mm x 22.73mm) |
Height - Seated (Max): | -- |
Number of Terminations: | 2 |
Failure Rate: | -- |
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Through Hole Resistors are an important tool for electrical engineers today. They are the key to designing efficient circuitry and circuits that operate on low power and can run for long periods of time. The HVW3\420M00JLB Application Field and Working Principle is one of the more popular components of resistor technology, and it is important to understand how it works.
The HVW3\420M00JLB Application Field and Working Principle is broken down into two parts: the application field and the working principle. The application field includes the technical specifications and application guidelines for the resistor, allowing users to design circuits that meet their needs. The working principle includes the electrical characteristics of the resistor, such as its resistance value and the power rating for the resistor. Both of these aspects are important when designing circuits and understanding how resistors work.
The application field for the HVW3\420M00JLB consists of two main areas: the operating temperature range of the resistor and the voltage rating for the resistor. The operating temperature range is typically between -25 and +85 degrees Celsius, while the voltage rating is typically between 4 and 15 volts. These specifications work together to ensure that the resistor can operate at its highest efficiency level without exceeding its limits.
The working principle for the HVW3\420M00JLB also consists of two parts: the resistance and the power rating. The resistance is the measure of how much power it takes to make the resistor to produce an electrical current. The higher the resistance, the more power it takes to create a current. The power rating is the measure of the amount of power the resistor can handle without overheating or shorting out. This is an important consideration for any electronic device, as it can have a direct impact on the performance of the device.
In addition to the technical specifications and specifications of the HVW3\420M00JLB, the application field and working principle also include several other aspects. These include the operating temperature rating of the device, the maximum voltage it can handle, the maximum power rating of the device, the minimum power rating of the device, and the allowable temperature range for the device. All of these factors help electrical engineers to design efficient circuits and circuits readily.
The electrical characteristics of the HVW3\420M00JLB are also important. Its resistance is measured in Ohms, and its power rating is measured in Watts. The maximum and minimum power rating are the same as the maximum and minimum voltage ratings, so it is important to ensure that the resistor is properly matched with the circuit design to ensure the best performance from the device. Additionally, the device also has an allowable temperature range for operation, and the device must be wired correctly so that it does not overheat or short out.
The HVW3\420M00JLB Application Field and Working Principle is an important part of resistor technology, and it is important to understand the technical specifications and specifications of the device. Designers must also consider the application field and working principle when designing circuits. This will help them to create circuits that operate efficiently and reliably, and they will be able to create circuits that are within the allowable operating temperature range.
The specific data is subject to PDF, and the above content is for reference
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