| Allicdata Part #: | RT20J-3.9-ND |
| Manufacturer Part#: |
RTO020F3R900JTE3 |
| Price: | $ 4.07 |
| Product Category: | Resistors |
| Manufacturer: | Vishay Sfernice |
| Short Description: | RES 3.9 OHM 20W 5% TO220 |
| More Detail: | 3.9 Ohms ±5% 20W Through Hole Resistor TO-220-2 No... |
| DataSheet: |  RTO020F3R900JTE3 Datasheet/PDF |
| Quantity: | 116 |
| 1 +: | $ 3.69450 |
| 10 +: | $ 3.46140 |
| 100 +: | $ 2.46154 |
| 1000 +: | $ 2.02797 |
| Series: | RTO 20 |
| Packaging: | Tube |
| Part Status: | Active |
| Resistance: | 3.9 Ohms |
| Tolerance: | ±5% |
| Power (Watts): | 20W |
| Composition: | Thick Film |
| Features: | Non-Inductive |
| Temperature Coefficient: | ±150ppm/°C |
| Operating Temperature: | -55°C ~ 155°C |
| Package / Case: | TO-220-2 |
| Supplier Device Package: | TO-220 |
| Size / Dimension: | 0.398" L x 0.177" W (10.10mm x 4.50mm) |
| Height - Seated (Max): | 0.606" (15.40mm) |
| Number of Terminations: | 2 |
| Failure Rate: | -- |
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Through Hole Resistors are components used in a variety of applications. The RTO020F3R900JTE3 is a type of through hole resistor that is widely used in many applications. The main purpose of this component is to serve as a variable resistance that can be adjusted by changing the resistance value.
This type of resistor is typically found in circuits when accurate resistance values are needed such as in voltage regulation applications. It is also used in many other applications such as for current protection or as a voltage divider. This component\'s structure is also known as a radial leaded through hole resistor and it consists of a cylindrical body with two metal leads sticking out of the top and bottom.
The main function of the RTO020F3R900JTE3 is to act as a resistance element in a variety of circuits. That is, when a voltage is applied across the component, it will resist the flow of electrical current. The amount of resistance provided by this component is determined by its construction, which includes the type and size of the resistive material, the size of the component, and the length of the leads. The resistance of the component is usually specified by the manufacturer on the packaging.
The component is typically operated in linear mode, meaning that the resistance remains constant over a given range of current and voltage. The component also exhibits non-linear behavior, meaning that the resistance will vary depending on the magnitude of the current and voltage applied to the leads. This behavior is due to the temperature coefficient of the resistive material. The temperature coefficient is the amount of increase or decrease in resistance caused by an increase or decrease in temperature.
The component is able to maintain its accurate resistance value even when subjected to heat or other environmental factors due to its construction. The body of the component is typically made of an insulating material such as ceramic, plastic, or glass, which helps to keep the leads from coming into contact with each other and helps keep the component\'s resistance value stable. The leads also provide additional protection against environmental factors such as corrosion.
In many cases, the component is also able to dissipate excess heat due to its construction. The body of the component serves as a heat sink by allowing the heat that is produced to disperse into the air. This method of heat dissipation is often used in circuits where a large amount of power is dissipated, such as those found in power supplies.
The RTO020F3R900JTE3 is a reliable and accurate through hole resistor that is used in many electronic circuits. Its design and construction allow it to maintain a stable resistance value even when subjected to environmental factors. This type of resistor is often used in applications where reliable and accurate resistance is required, such as in voltage regulation, current protection, or as a voltage divider.
The specific data is subject to PDF, and the above content is for reference
| Part Number | Manufacturer | Price | Quantity | Description |
|---|
| RTO020F10R00JTE3 | Vishay Sfern... | 4.07 $ | 159 | RES 10 OHM 20W 5% TO22010... |
| RTO050F3R900JTE1 | Vishay Sfern... | 4.75 $ | 1083 | RES 3.9 OHM 50W 5% TO2203... |
| RTO020F100R0JTE3 | Vishay Sfern... | 4.07 $ | 616 | RES 100 OHM 20W 5% TO2201... |
| RTO020F470R0JTE3 | Vishay Sfern... | 4.07 $ | 588 | RES 470 OHM 20W 5% TO2204... |
| RTO020F47R00JTE3 | Vishay Sfern... | 4.07 $ | 63 | RES 47 OHM 20W 5% TO22047... |
| RTO020F10001JTE3 | Vishay Sfern... | 4.07 $ | 391 | RES 10K OHM 20W 5% TO2201... |
| RTO020F47000JTE3 | Vishay Sfern... | 4.07 $ | 220 | RES 4.7K OHM 20W 5% TO220... |
| RTO020F1R000JTE3 | Vishay Sfern... | 4.07 $ | 151 | RES 1 OHM 20W 5% TO2201 O... |
| RTO020F22000JTE3 | Vishay Sfern... | 4.07 $ | 124 | RES 2.2K OHM 20W 5% TO220... |
| RTO020F3R900JTE3 | Vishay Sfern... | 4.07 $ | 116 | RES 3.9 OHM 20W 5% TO2203... |
| RTO050F15R00JTE1 | Vishay Sfern... | -- | 1528 | RES 15 OHM 50W 5% TO22015... |
| RTO050F12R00JTE1 | Vishay Sfern... | 4.75 $ | 1314 | RES 12 OHM 50W 5% TO22012... |
| RTO050F2R000JTE1 | Vishay Sfern... | 4.75 $ | 880 | RES 2 OHM 50W 5% TO2202 O... |
| RTO050F100R0JTE1 | Vishay Sfern... | 4.75 $ | 211 | RES 100 OHM 50W 5% TO2201... |
| RTO050F4R700JTE1 | Vishay Sfern... | 4.75 $ | 140 | RES 4.7 OHM 50W 5% TO2204... |
| RTO050F15000JTE1 | Vishay Sfern... | 4.75 $ | 104 | RES 1.5K OHM 50W 5% TO220... |
| RTO020FR1000JTE3 | Vishay Sfern... | -- | 1005 | RES 0.1 OHM 20W 5% TO2201... |
| RTO020FR0680JTE3 | Vishay Sfern... | 4.87 $ | 163 | RES 0.068 OHM 20W 5% TO22... |
| RTO020F4R700JTE3 | Vishay Sfern... | 4.07 $ | 1000 | RES 4.7 OHM 20W 5% TO2204... |
| RTO020F22R00JTE3 | Vishay Sfern... | 4.07 $ | 1000 | RES 22 OHM 20W 5% TO22022... |
| RTO050F10R00JTE1 | Vishay Sfern... | 4.75 $ | 1000 | RES 10 OHM 50W 5% TO22010... |
| RTO020F2R200JTE3 | Vishay Sfern... | 4.07 $ | 11 | RES 2.2 OHM 20W 5% TO2202... |
| RTO020F56R00JTE3 | Vishay Sfern... | 4.07 $ | 1000 | RES 56 OHM 20W 5% TO22056... |
| RTO050F330R0JTE1 | Vishay Sfern... | 4.75 $ | 1000 | RES 330 OHM 50W 5% TO2203... |
| RTO050F47R00JTE1 | Vishay Sfern... | 4.75 $ | 1000 | RES 47 OHM 50W 5% TO22047... |
| RTO050FR2000JTE1 | Vishay Sfern... | 4.75 $ | 26 | RES 0.2 OHM 50W 5% TO2202... |
| RTO020F220R0JTE3 | Vishay Sfern... | 4.07 $ | 100 | RES 220 OHM 20W 5% TO2202... |
| RTO020F12R00JTE3 | Vishay Sfern... | 4.07 $ | 1000 | RES 12 OHM 20W 5% TO22012... |
| RTO020F10002JTE3 | Vishay Sfern... | 4.07 $ | 45 | RES 100K OHM 20W 5% TO220... |
| RTO050F22R00JTE1 | Vishay Sfern... | 4.75 $ | 78 | RES 22 OHM 50W 5% TO22022... |
| RTO050F56R00JTE1 | Vishay Sfern... | 4.75 $ | 46 | RES 56 OHM 50W 5% TO22056... |
| RTO050F10000JTE1 | Vishay Sfern... | 4.75 $ | 40 | RES 1K OHM 50W 5% TO2201 ... |
| RTO050F47000JTE1 | Vishay Sfern... | 4.75 $ | 34 | RES 4.7K OHM 50W 5% TO220... |
| RTO050FR1000JTE1 | Vishay Sfern... | 5.7 $ | 54 | RES 0.1 OHM 50W 5% TO2201... |
| RTO020F15R00JTE3 | Vishay Sfern... | 4.07 $ | 78 | RES 15 OHM 20W 5% TO22015... |
| RTO020F680R0JTE3 | Vishay Sfern... | 4.07 $ | 35 | RES 680 OHM 20W 5% TO2206... |
| RTO050F2R200JTE1 | Vishay Sfern... | 4.75 $ | 40 | RES 2.2 OHM 50W 5% TO2202... |
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