Allicdata Part #: | RNX050158MFKEE-ND |
Manufacturer Part#: |
RNX050158MFKEE |
Price: | $ 0.85 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RNX-1/2 158M 1% T-1 EE E3 |
More Detail: | 158 MOhms ±1% 1.2W Through Hole Resistor Axial Fla... |
DataSheet: | RNX050158MFKEE Datasheet/PDF |
Quantity: | 1000 |
1000 +: | $ 0.77457 |
2000 +: | $ 0.75938 |
5000 +: | $ 0.74723 |
Series: | RNX |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Resistance: | 158 MOhms |
Tolerance: | ±1% |
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: | -- |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
Through Hole Resistors are used extensively in various electronic circuits as a device to help regulate or limit current flow. The RNX050158MFKEE is an example of a through hole Resistor that consists of a metal or ceramic body with an external metal oxide layer. The body of the resistor is made from a ceramic or metal oxide material that has a good thermal conductivity and is strong enough to hold the resistor in place. The metal oxide layer provides an electrical contact between the body and the internal conductors. This contact provides a mechanism for controlling current flow.
One of the main applications of Through Hole Resistors is in amplifier and oscillator circuits. These circuits require precise control of current flow in order to render accurate results. Through Hole Resistors provide superior stability, precision, and accuracy compared to other resistor types. In addition, Through Hole Resistors are used in power electronics, telecommunications, home audio, and computer applications. They can also be found in automotive applications, such as engine control systems, headlights, and power windows.
The RNX050158MFKEE has a working principle that relies on Ohm\'s Law, which states that "the current through a conductor between two points is directly proportional to the voltage across the two points." This means that if you increase the voltage across the resistor, more current will flow through the resistor. By controlling the amount of current that flows through the resistor, the RNX050158MFKEE is able to regulate the level of current flowing through the circuit.
The RNX050158MFKEE is an NTC (Negative Temperature Coefficient) Resistor. NTC resistors are designed to decrease in resistance as the temperature rises. They are used in circuits where variations in temperature can cause a false signal or undesired current flow. The NTC design ensures that current flow will remain stable and consistent in environments of varying temperatures.
The RNX050158MFKEE has a tolerance of +/- 10 %, which means that the resistor can handle a maximum of 10 % of deviation in the resistance before it needs to be replaced. The RNX050158MFKEE also has a power rating of 0.5W, which means that the maximum power output must not exceed 0.5W.
In summary, the RNX050158MFKEE is an example of a Through Hole Resistor with a working principle based on Ohm\'s Law and an NTC design. It is used in many applications such as amplifiers and oscillators, telecommunications, automotive applications, and power electronics. The RNX050158MFKEE has a tolerance of +/- 10 % and a power rating of 0.5W. By using proper design and installation techniques, the RNX050158MFKEE can offer superior stability and precision to any electronic circuit.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
RNX038100MDKR8 | Vishay Dale | 0.82 $ | 1000 | RNX-3/8 100M .5% T-1 RE81... |
RNX03810M0DKR8 | Vishay Dale | 0.82 $ | 1000 | RNX-3/8 10M .5% T-1 RE810... |
RNX0389M00DKR8 | Vishay Dale | 0.82 $ | 1000 | RNX-3/8 9M .5% T-1 RE89 M... |
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.... |
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 ... |
RNX05022K6FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 22.6K 1% T-1 RE82... |
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... |
RNX0502M20FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 2.2M 1% T-1 RE82.... |
RNX0502M37JKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 2.37M 5% T-1 RE82... |
RNX0503K30FKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 3.3K 1% T-1 RE83.... |
RNX0503K30JKR8 | Vishay Dale | 0.84 $ | 1000 | RNX-1/2 3.3K 5% T-1 RE83.... |
RES WW 7W 5% TH68 kOhms 5% 7W Through Ho...
RES WW 7W 5% TH1.3 Ohms 5% 7W Through Ho...
RES 24.9 OHM 1/4W 1% AXIAL24.9 Ohms 1% 0...
RES 2.8 OHM 3W 0.5% WW AXIAL2.8 Ohms 0.5...
RES 750K OHM 1/4W 1% AXIAL750 kOhms 1% 0...
RES 340 OHM 1W 1% WW AXIAL340 Ohms 1% 1W...