Allicdata Part #: | LT30J-100-ND |
Manufacturer Part#: |
LTO030F100R0JTE3 |
Price: | $ 3.38 |
Product Category: | Resistors |
Manufacturer: | Vishay Sfernice |
Short Description: | RES 100 OHM 30W 5% TO220 |
More Detail: | 100 Ohms ±5% 30W Through Hole Resistor TO-220-2 No... |
DataSheet: | LTO030F100R0JTE3 Datasheet/PDF |
Quantity: | 96 |
1 +: | $ 3.07350 |
10 +: | $ 2.77785 |
100 +: | $ 2.06860 |
1000 +: | $ 1.55817 |
Series: | LTO 30 |
Packaging: | Tube |
Part Status: | Active |
Resistance: | 100 Ohms |
Tolerance: | ±5% |
Power (Watts): | 30W |
Composition: | Thick Film |
Features: | Non-Inductive |
Temperature Coefficient: | ±150ppm/°C |
Operating Temperature: | -55°C ~ 150°C |
Package / Case: | TO-220-2 |
Supplier Device Package: | TO-220 |
Size / Dimension: | 0.409" L x 0.126" W (10.40mm x 3.20mm) |
Height - Seated (Max): | 0.650" (16.50mm) |
Number of Terminations: | 2 |
Failure Rate: | -- |
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Through Hole Resistors
The LTO030F100R0JTE3 is a through hole resistor that has many common applications. A through hole resistor is placed through a printed circuit board so that the two terminals on either side of the resistor are electrically connected. Through hole resistors provide reliable operation and are relatively inexpensive.
What is a LTO030F100R0JTE3?
The LTO030F100R0JTE3 is a type of through hole resistor. It has two terminals that are inserted into a printed circuit board (PCB), and the current running through it is limited by the physical size of the resistor. The resistor is typically made from a conductive and heat-resistant material such as an alloy of nickel and chromium. The resistance of the resistor is marked on its body, and a variety of resistance values are available to match the application. The resistor is generally housed in an insulated resin housing for protection and easier handling.
Application & Working Principle
A LTO030F100R0JTE3 resistor is most commonly used in electronic circuits, such as consumer electronics, to reduce the amount of current flowing through a circuit. It is often used as a basic safety component in circuits to prevent dangerous potentials from developing in the circuit. It can also be used to regulate power and to act as a noise filter in sensitive circuits.
The working principle of a LTO030F100R0JTE3 resistor is based on Ohm’s Law. This law states that the current (I) in a circuit is directly proportional to the voltage (V) applied to it. By placing a resistor in the circuit, it reduces the amount of current that can pass through the circuit. This is achieved by the resistor creating a voltage drop between the two ends of the resistor, resisting the flow of electrons. The resistance of the resistor is measured in ohms, and the resistance ma be adjusted by increasing or decreasing the physical size of the resistor.
Advantages & Disadvantages
One of the main advantages of using a through hole resistor such as the LTO030F100R0JTE3 is its ease of installation. Through hole resistors are relatively inexpensive and can be quickly installed on a PCB, as they are inserted directly into the circuit board. Additionally, the resistor does not need any special processing or wiring, which can save time when creating a circuit.
One of the main disadvantages of the LTO030F100R0JTE3 is its relatively large size, which may be impractical for circuits that require a high level of miniaturization. Additionally, the resistor is not as precise as other types of resistors, as there may be small variations in the resistance depending on the temperature and humidity of the environment. Finally, since the resistor is housed in an insulated resin housing, it may be difficult to repair or replace if the resistor fails.
Conclusion
The LTO030F100R0JTE3 is a type of through hole resistor that is used in various electronic circuits, such as consumer electronics and safety components. The resistor’s two terminals are inserted into a printed circuit board, and the current is limited by the physical size of the resistor. The resistance of the resistor can be adjusted by changing its physical size. The resistor is relatively easy to install and inexpensive; however, it is not as precise as other types of resistors, and may be difficult to repair or replace if it fails.
The specific data is subject to PDF, and the above content is for referencePart Number | Manufacturer | Price | Quantity | Description |
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LTO030F5R000JTE3 | Vishay Sfern... | -- | 1000 | RES 5 OHM 30W 5% TO2205 O... |
LTO030F10000JTE3 | Vishay Sfern... | 2.6 $ | 1000 | RES 1K OHM 30W 5% TO2201 ... |
LTO030F2R200JTE3 | Vishay Sfern... | 2.6 $ | 1000 | RES 2.2 OHM 30W 5% TO2202... |
LTO030FR4700JTE3 | Vishay Sfern... | 2.6 $ | 1000 | RES 0.47 OHM 30W 5% TO220... |
LTO050F10R00JTE3 | Vishay Sfern... | -- | 4709 | RES 10 OHM 50W 5% TO22010... |
LTO050F10000JTE3 | Vishay Sfern... | 3.81 $ | 1381 | RES 1K OHM 50W 5% TO2201 ... |
LTO050FR0100JTE3 | Vishay Sfern... | 5.48 $ | 172 | RES 0.01 OHM 50W 5% TO220... |
LTO050F100R0JTE3 | Vishay Sfern... | 3.81 $ | 2637 | RES 100 OHM 50W 5% TO2201... |
LTO050F4R700JTE3 | Vishay Sfern... | 3.81 $ | 1609 | RES 4.7 OHM 50W 5% TO2204... |
LTO050F10001JTE3 | Vishay Sfern... | 3.81 $ | 520 | RES 10K OHM 50W 5% TO2201... |
LTO050F5R000JTE3 | Vishay Sfern... | 4.19 $ | 468 | RES 5 OHM 50W 5% TO2205 O... |
LTO050F2R200FTE3 | Vishay Sfern... | 5.71 $ | 268 | RES 2.2 OHM 50W 1% TO2202... |
LTO030F15R00JTE3 | Vishay Sfern... | 3.38 $ | 766 | RES 15 OHM 30W 5% TO22015... |
LTO030F22R00JTE3 | Vishay Sfern... | 3.38 $ | 137 | RES 22 OHM 30W 5% TO22022... |
LTO030F10R00JTE3 | Vishay Sfern... | 3.38 $ | 118 | RES 10 OHM 30W 5% TO22010... |
LTO030F4R700JTE3 | Vishay Sfern... | 3.38 $ | 102 | RES 4.7 OHM 30W 5% TO2204... |
LTO030FR1000JTE3 | Vishay Sfern... | 3.75 $ | 104 | RES 0.1 OHM 30W 5% TO2201... |
LTO050F22R00JTE3 | Vishay Sfern... | 3.81 $ | 1985 | RES 22 OHM 50W 5% TO22022... |
LTO050F2R200JTE3 | Vishay Sfern... | 3.81 $ | 1521 | RES 2.2 OHM 50W 5% TO2202... |
LTO050F47R00JTE3 | Vishay Sfern... | 3.81 $ | 286 | RES 47 OHM 50W 5% TO22047... |
LTO050FR4700JTE3 | Vishay Sfern... | 3.81 $ | 199 | RES 0.47 OHM 50W 5% TO220... |
LTO030FR0150JTE3 | Vishay Sfern... | 4.5 $ | 157 | RES 0.015 OHM 30W 5% TO22... |
LTO030FR0100JTE3 | Vishay Sfern... | -- | 111 | RES 0.01 OHM 30W 5% TO220... |
LTO030FR0100FTE3 | Vishay Sfern... | 6.19 $ | 226 | RES 0.01 OHM 30W 1% TO220... |
LTO050FR1000FTE3 | Vishay Sfern... | 6.28 $ | 488 | RES 0.1 OHM 50W 1% TO2201... |
LTO050FR0100FTE3 | Vishay Sfern... | 7.53 $ | 194 | RES 0.01 OHM 50W 1% TO220... |
LTO030F47R00JTE3 | Vishay Sfern... | 3.38 $ | 154 | RES 47 OHM 30W 5% TO22047... |
LTO030F1R000JTE3 | Vishay Sfern... | -- | 1 | RES 1 OHM 30W 5% TO2201 O... |
LTO050F1R000JTE3 | Vishay Sfern... | 3.81 $ | 3 | RES 1 OHM 50W 5% TO2201 O... |
LTO030F100R0JTE3 | Vishay Sfern... | 3.38 $ | 96 | RES 100 OHM 30W 5% TO2201... |
LTO030FR0500JTE3 | Vishay Sfern... | 4.12 $ | 46 | RES 0.05 OHM 30W 5% TO220... |
LTO050FR0680JTE3 | Vishay Sfern... | -- | 47 | RES 0.068 OHM 50W 5% TO22... |
LTO050F100R0FTE3 | Vishay Sfern... | 5.71 $ | 66 | RES 100 OHM 50W 1% TO2201... |
LTO030F10001JTE3 | Vishay Sfern... | -- | 83 | RES 10K OHM 30W 5% TO2201... |
LTO030FR0470JTE3 | Vishay Sfern... | -- | 99 | RES 0.047 OHM 30W 5% TO22... |
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