Allicdata Part #: | RNX05010M0JKR8-ND |
Manufacturer Part#: |
RNX05010M0JKR8 |
Price: | $ 0.84 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RNX-1/2 10M 5% T-1 RE8 |
More Detail: | 10 MOhms ±5% 1.2W Through Hole Resistor Axial Flam... |
DataSheet: | RNX05010M0JKR8 Datasheet/PDF |
Quantity: | 1000 |
2000 +: | $ 0.75938 |
6000 +: | $ 0.74723 |
Series: | RNX |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Resistance: | 10 MOhms |
Tolerance: | ±5% |
Power (Watts): | 1.2W |
Composition: | Metal Oxide Film |
Features: | Flame Proof, High Voltage, Safety |
Temperature Coefficient: | ±100ppm/°C |
Operating Temperature: | -55°C ~ 225°C |
Package / Case: | Axial |
Supplier Device Package: | Axial |
Size / Dimension: | 0.140" Dia x 0.540" L (3.56mm x 13.72mm) |
Height - Seated (Max): | -- |
Number of Terminations: | 2 |
Failure Rate: | -- |
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Introduction on Through Hole Resistors
Through-hole resistors are a traditional form of resistor that are used for various applications. They are designed around the concept of using a conductive material to provide resistance between two points on a circuit board. The design has been around since the early days of electronics and still provide excellent service today. Through hole resistors are typically constructed from a metal wire which is then secured in place using various techniques such as soldering. They can also be made from other materials including ceramic and polymeric. The most common type of through hole resistor is the axial form which has two wires extending from either side of the body.
Application of RNX05010M0JKR8
RNX05010M0JKR8 is a through hole resistor that is used in a variety of applications. It can be used for a range of voltage and power ratings, ranging from 5W to 300W. This resistor is most commonly used in audio applications as a volume control or as a signal routing device. It is also used in automotive applications in order to regulate voltage and current. In addition, through hole resistors are commonly used in the manufacture of various forms of heating elements and thermal protection devices.
Working Principle of RNX05010M0JKR8
The working principle of RNX05010M0JKR8 is based on the concept of Ohm’s Law. Ohm’s Law is a fundamental law of electronics that states that the current (I) between two points in a circuit is proportional to the voltage (V) across them, provided the temperature and resistance remain constant (R). In this case, the resistance will be provided by the RNX05010M0JKR8 as it provides a uniform resistive path between the two points. When the voltage across the resistor increases, the current passing through the resistor will also increase in proportion. This means that the RNX05010M0JKR8 will regulate the current passing through it depending on the voltage applied to it.
Advantage and Disadvantage of RNX05010M0JKR8
The major benefit of using the RNX05010M0JKR8 is that its simple design allows for relatively easy installation and is cheaper compared to other types of resistors. Additionally, the through-hole resistor is much less prone to failures due to its robust design. Another advantage of the RNX05010M0JKR8 is its low power consumption, which allows it to be used in applications that require less power.The major disadvantage of using the RNX05010M0JKR8 is its relatively low power rating. This means that the resistor cannot be used in applications that require higher power ratings. Additionally, the resistor is not suitable for high-frequency applications due to its relatively low frequency response. Additionally, the installation process of through-hole resistors requires more time and cost as compared to modern surface mount resistors.
Conclusion
The RNX05010M0JKR8 is a through hole resistor that provides excellent service in various applications. It is a simple and cost-effective device that provides a constant resistance between two points on a circuit board. The resistor works based on the concept of Ohm’s law where the current between two points is proportional to the voltage applied across them. The major advantage of using the RNX05010M0JKR8 is its affordability, while its contrast disadvantage is its limited power and frequency ratings. In summary, the RNX05010M0JKR8 is a great choice for a variety of applications where its economical nature and efficient design make it the ideal solution.
The specific data is subject to PDF, and the above content is for reference
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RNX02512M0FHWF | Vishay Dale | 0.83 $ | 1000 | RNX-1/4 12M 1% T-2 RE512 ... |
RNX0251M10FHWF | Vishay Dale | 0.83 $ | 1000 | RNX-1/4 1.1M 1% T-2 RE51.... |
RNX02520M0FHWF | Vishay Dale | 0.83 $ | 1000 | RNX-1/4 20M 1% T-2 RE520 ... |
RNX025249KFHWF | Vishay Dale | 0.83 $ | 1000 | RNX-1/4 249K 1% T-2 RE524... |
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RNX0256M30FHWF | Vishay Dale | 0.83 $ | 1000 | RNX-1/4 6.3M 1% T-2 RE56.... |
RNX038100MDKR6 | Vishay Dale | 0.84 $ | 1000 | RNX-3/8 100M .5% T-1 RE61... |
RNX038100MDKR7 | Vishay Dale | 0.84 $ | 1000 | RNX-3/8 100M .5% T-1 RE71... |
RNX03810M0DKR6 | Vishay Dale | 0.84 $ | 1000 | RNX-3/8 10M .5% T-1 RE610... |
RNX03810M0DKR7 | Vishay Dale | 0.84 $ | 1000 | RNX-3/8 10M .5% T-1 RE710... |
RNX0389M00DKR6 | Vishay Dale | 0.84 $ | 1000 | RNX-3/8 9M .5% T-1 RE69 M... |
RNX0389M00DKR7 | Vishay Dale | 0.84 $ | 1000 | RNX-3/8 9M .5% T-1 RE79 M... |
RNX050100KFKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 100K 1% T-1 RE810... |
RNX050100MFKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 100M 1% T-1 RE810... |
RNX05010K0FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 10K 1% T-1 RE810 ... |
RNX05010K0JKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 10K 5% T-1 RE810 ... |
RNX05010M0FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 10M 1% T-1 RE810 ... |
RNX05010M0JKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 10M 5% T-1 RE810 ... |
RNX050125MJKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 125M 5% T-1 RE812... |
RNX05012M7FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 12.7M 1% T-1 RE81... |
RNX050150MFKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 150M 1% T-1 RE815... |
RNX0501K00FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 1K 1% T-1 RE81 kO... |
RNX0501M00FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 1M 1% T-1 RE81 MO... |
RNX0501M20FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 1.2M 1% T-1 RE81.... |
RNX050200MFKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 200M 1% T-1 RE820... |
RNX050205KFKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 205K 1% T-1 RE820... |
RNX05020M0FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 20M 1% T-1 RE820 ... |
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RNX050250MFKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 250M 1% T-1 RE825... |
RNX0502K00FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 2K 1% T-1 RE82 kO... |
RNX0502M00FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 2M 1% T-1 RE82 MO... |
RNX0502M00JKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 2M 5% T-1 RE82 MO... |
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