Allicdata Part #: | OF184KE-ND |
Manufacturer Part#: |
OF184KE |
Price: | $ 0.17 |
Product Category: | Resistors |
Manufacturer: | Ohmite |
Short Description: | RES 180K OHM 1/2W 10% AXIAL |
More Detail: | 180 kOhms ±10% 0.5W, 1/2W Through Hole Resistor Ax... |
DataSheet: | OF184KE Datasheet/PDF |
Quantity: | 1000 |
2500 +: | $ 0.15210 |
Series: | Little Demon® OF |
Packaging: | Cut Strip |
Part Status: | Active |
Resistance: | 180 kOhms |
Tolerance: | ±10% |
Power (Watts): | 0.5W, 1/2W |
Composition: | Carbon Composition |
Features: | Pulse Withstanding |
Temperature Coefficient: | -- |
Operating Temperature: | -- |
Package / Case: | Axial |
Supplier Device Package: | Axial |
Size / Dimension: | 0.150" Dia x 0.406" L (3.80mm x 10.30mm) |
Height - Seated (Max): | -- |
Number of Terminations: | 2 |
Failure Rate: | -- |
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Through Hole Resistors are integral to the field of OF184KE applications. By understanding the principles behind these components, we can ensure they are used for the best possible results. In order to optimise the performance of an OF184KE system, one must understand the working principle behind Through Hole Resistors.
At its most basic level, the working of a Through Hole Resistor (THR) is simple. The main elements are a steel core, two metal plates and a hidden resistor. The steel core is fastened atop the two metal plates and a fixed resistor, or thermal resistor, is placed between the plates. An electrical current is then passed between the plates, with the current either limited by the resistor or modulated by the resistor.
This is done by changing the voltage drop across the resistor. When the voltage drops, the current is limited or the resistance increases, which results in a decrease in the amount of current passing through the THR. This helps to control the flow of electricity through the device, regulating the power of the device as required.
THRs are commonly used in OF184KE applications such as digital and analog signal transmission, computer interfacing, instrumentation and data communications. Their working principle enables them to be used to provide a voltage reference, impedance matching, filtering and control signals. THRs are also used in power supplies, regulators and oscillators for AC/DC conversions.
The use of THRs in OF184KE applications can be broadly categorised into two classes: those used to control the electrical current and those used to regulate the power. THRs which regulate the current are typically referred to as variable resistors. The main parts of a variable resistor are the conducting contact point, the constant-current resistor and the fixed resistor. The conducting contact point is connected to either the fixed or the constant-current resistor, thus controlling the flow of current through the device.
Though Hole Resistors used to regulate power are generally referred to as power limiting resistors. The working principle of a power limiting resistor is slightly different from that of a variable resistor. This device is basically composed of two parts: the power limiting resistor and the voltage dividers. The power limiting resistor is connected to a voltage source such as a battery or an AC grid, while the voltage dividers are connected in series between the power limiting resistor and the load. The power limiting resistors limits the amount of current which flows through the device and regulates the power by controlling the voltage across the load.
Through Hole Resistors are also used in various safety applications. For instance, a THR can protect an application from a short circuit by limiting the current in the event of a short circuit. In addition, certain THRs can also act as a fuse, helping to prevent a circuit from overheating by preventing the flow of too much current. Furthermore, THR\'s have the ability to withstand high voltages, allowing them to be used in applications such as high-voltage transformers or high-voltage relays.
The use of THR\'s in OF184KE applications is essential for ensuring maximum performance. By understanding the working principles behind THR\'s, one can ensure they are used in the best possible way to achieve the desired results. Furthermore, the various safety applications offered by THR\'s can be used in order to protect an application and ensure it operates reliably and safely.
The specific data is subject to PDF, and the above content is for reference
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