Allicdata Part #: | RNX05010M0JKEE-ND |
Manufacturer Part#: |
RNX05010M0JKEE |
Price: | $ 0.85 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RNX-1/2 10M 5% T-1 EE E3 |
More Detail: | 10 MOhms ±5% 1.2W Through Hole Resistor Axial Flam... |
DataSheet: | RNX05010M0JKEE Datasheet/PDF |
Quantity: | 1000 |
1000 +: | $ 0.77457 |
2000 +: | $ 0.75938 |
5000 +: | $ 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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Through Hole Resistors
A through-hole resistor is a resistor that has leads that are also known as pins that are placed through holes in the printed circuit board (PCB) in order to be securely mounted in place. Through hole resistors are one of the most common types of resistors widely used in the electronics field.
RNX05010M0JKEE application field and working principle
The RNX05010M0JKEE resistor is a direct plug-in replacement for a standard mountable resistor. This specific type of through hole resistor has uses in a variety of applications, such as providing current protection, adjusting current or voltage levels, or controlling power in various electronic components across a wide variety of products. These resistors can be used in stereo system amplifiers, CD and DVD players, HDTVs, and other audio and video equipment.
Performing its basic function, the resistor absorbs the excess power of the device, allowing the current to bypass the component without damaging it. Capacitors and diodes can also be used in this type of application, but resistors provide the most efficient and economic solution for controlling the current or voltage across applications.
The working mechanism of the resistor can be explained in terms of Ohm\'s Law. According to Ohm\'s Law, the resistor is able to reduce the current when it is connected in between an a power source and a load. This is caused by the resistance of the resistor which restricts the current flow. The resistance of an RNX05010M0JKEE resistor is calculated in ohms, by multiplying the voltage across its terminals by its current. The resistance value of the resistor is the same no matter how small or how large the voltage applied to it is.
RNX05010M0JKEE resistors are quite versitle and can be used in a variety of circuit designs. For example, they can be included in a circuit to create an oscillator that can be used to produce a repeating waveform, such as for driving an amplifier or other device. They can also be used in linear and switching power supplies, balancing circuits, and in non-linear circuits like rectifiers and filters. In addition, they can also be used to accurately drive motors or electromechanical devices, and to regulate circuits.
Through hole resistors provide stability and reliability when soldering, as the pin leads are typically designed to be bent in a specific way in order to ensure that they make contact with the circuit board. This also makes them easier to install in a machine, as the soldering process is more effective and precise than it is with other types of resistors. The pin leads also reduce the stress on the component as the solder joint is not so stiff.
Overall, the RNX05010M0JKEE resistor is a reliable and effective way to reduce the flow of current across applications. It is designed to provide reliable performance and stability when soldering and can be used in a variety of circuit designs. This makes it a versatile and ideal choice for a range of different projects, from consumer electronics applications to commercial projects.
The specific data is subject to PDF, and the above content is for reference
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RNX02511M0FHWF | Vishay Dale | 0.83 $ | 1000 | RNX-1/4 11M 1% T-2 RE511 ... |
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... |
RNX025470KFHWF | Vishay Dale | 0.83 $ | 1000 | RNX-1/4 470K 1% T-2 RE547... |
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.... |
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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 ... |
RNX05022K6FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 22.6K 1% T-1 RE82... |
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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... |
RNX0502M20FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 2.2M 1% T-1 RE82.... |
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RNX0503K30JKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 3.3K 5% T-1 RE83.... |
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