Allicdata Part #: | 40F1R0E-ND |
Manufacturer Part#: |
40F1R0E |
Price: | $ 1.00 |
Product Category: | Resistors |
Manufacturer: | Ohmite |
Short Description: | RES 1 OHM 10W 1% AXIAL |
More Detail: | 1 Ohms ±1% 10W Through Hole Resistor Axial Wirewo... |
DataSheet: | 40F1R0E Datasheet/PDF |
Quantity: | 1000 |
250 +: | $ 0.90720 |
Series: | Ohmicone® 40 |
Packaging: | Bulk |
Part Status: | Active |
Resistance: | 1 Ohms |
Tolerance: | ±1% |
Power (Watts): | 10W |
Composition: | Wirewound |
Features: | -- |
Temperature Coefficient: | ±50ppm/°C |
Operating Temperature: | -- |
Package / Case: | Axial |
Supplier Device Package: | Axial |
Size / Dimension: | 0.406" Dia x 1.902" L (10.30mm x 48.30mm) |
Height - Seated (Max): | -- |
Number of Terminations: | 2 |
Failure Rate: | -- |
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Through Hole Resistors, or THRs, are a type of resistor that is used for various electrical systems. In most cases, these resistors are used to stabilize voltage in the system, reduce current overloads, and provide additional protection for sensitive circuits. THRs come in various sizes, shapes, and configurations, with different features, including resistance ratings, wattage, and current ratings. In addition to their various properties, THRs also have several unique features.
One of the most common applications of THRs is in the field of 40F1R0E. This field is based on the principles of the electromagnetism that govern the electrical fields and currents of the environment around us. The 40F1R0E application, which stands for Forty-One Frequency Electric Relations, was developed to study the direction of electrons in specific magnetic fields. It is used to measure the forces that are generated by the interactions between the electromagnetic fields of the environment and the electric fields of the system.
In this field, THRs are used to study how electrons interact with each other in a given magnetic field. This is done by measuring the voltage created by the electron currents when placed in a particular environment. THRs are also used to measure the magnitude of the Magnetic Fields (MFs) associated with certain materials, such as metals. This is done by using THRs as detectors of the magnetic field. This type of measurement is called heuristic sensing.
The working principle of THRs is fairly simple. They use the principle of resistance to convert electrical energy into a physical state. This conversion process is done by connecting the proper electrical components to resistors placed in the circuit. As the current passes through the circuit, it creates an electric field, which is measured by the resistor. The value of the resistors indicates the level of resistance being experienced by the electrical current, and this value is then used to calculate the magnitude of the electric field.
The main advantage of using THRs is that they can be customized to fit specific electronic designs. This enables engineers to build more efficient systems, as they can use the resistors to adjust the impedance, the frequency response, and the power dissipation of the components. This type of flexibility is especially important in systems that require specific characteristics in order to operate correctly.
THRs can also be used to control the power dissipation levels of components such as voltage regulators and servos. This helps to ensure that parts are protected from heat damage and prevents them from becoming over-powered. Furthermore, THRs can be used to reduce the level of noise created by the system. This is due to the ability of the resistors to absorb electrical energy, which helps to reduce the amount of noise that is generated from the system.
In conclusion, THRs are a versatile and reliable type of resistor that are used for a variety of applications. They are especially useful in the 40F1R0E application field, as they are capable of measuring the magnitude of magnetic fields and the electron currents of certain materials. By using THRs, engineers can design more efficient and reliable systems, while also helping to protect components from damage.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
40F10R | Ohmite | 0.8 $ | 1000 | RES 10 OHM 10W 1% AXIAL10... |
40F12K | Ohmite | 0.83 $ | 1000 | RES 12K OHM 10W 1% AXIAL1... |
40F10RE | Ohmite | 0.83 $ | 1000 | RES 10 OHM 10W 1% AXIAL10... |
40F10KE | Ohmite | 0.85 $ | 1000 | RES 10K OHM 10W 1% AXIAL1... |
40F12KE | Ohmite | 0.85 $ | 1000 | RES 12K OHM 10W 1% AXIAL1... |
40F13KE | Ohmite | 0.86 $ | 1000 | RES 13K OHM 10W 1% AXIAL1... |
40F15KE | Ohmite | 0.86 $ | 1000 | RES 15K OHM 10W 1% AXIAL1... |
40F17KE | Ohmite | 0.86 $ | 1000 | RES 17K OHM 10W 1% AXIAL1... |
40F1R0 | Ohmite | 1.1 $ | 1000 | RES 1 OHM 10W 1% AXIAL1 O... |
40F1R0E | Ohmite | 1.0 $ | 1000 | RES 1 OHM 10W 1% AXIAL1 O... |
40F1R5E | Ohmite | 1.0 $ | 1000 | RES 1.5 OHM 10W 1% AXIAL1... |
40F100E | Ohmite | 0.66 $ | 1000 | RES 100 OHM 10W 1% AXIAL1... |
40F120E | Ohmite | 0.66 $ | 1000 | RES 120 OHM 10W 1% AXIAL1... |
40F125E | Ohmite | 0.66 $ | 1000 | RES 125 OHM 10W 1% AXIAL1... |
40F12RE | Ohmite | 0.66 $ | 1000 | RES 12 OHM 10W 1% AXIAL12... |
40F150E | Ohmite | 0.66 $ | 1000 | RES 150 OHM 10W 1% AXIAL1... |
40F15RE | Ohmite | 0.66 $ | 1000 | RES 15 OHM 10W 1% AXIAL15... |
40F180E | Ohmite | 0.66 $ | 1000 | RES 180 OHM 10W 1% AXIAL1... |
40F1K0E | Ohmite | 0.7 $ | 1000 | RES 1K OHM 10W 1% AXIAL1 ... |
40F1K1E | Ohmite | 0.7 $ | 1000 | RES 1.1K OHM 10W 1% AXIAL... |
40F1K2E | Ohmite | 0.7 $ | 1000 | RES 1.2K OHM 10W 1% AXIAL... |
40F1K5E | Ohmite | 0.7 $ | 1000 | RES 1.5K OHM 10W 1% AXIAL... |
40F1K8E | Ohmite | 0.7 $ | 1000 | RES 1.8K OHM 10W 1% AXIAL... |
40F12R | Ohmite | 0.73 $ | 1000 | RES 12 OHM 10W 1% AXIAL12... |
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