Allicdata Part #: | TMR5FB5L00-ND |
Manufacturer Part#: |
TMR5FB5L00 |
Price: | $ 1.87 |
Product Category: | Resistors |
Manufacturer: | Stackpole Electronics Inc. |
Short Description: | RES 0.005 OHM 5W 1% 4LEAD |
More Detail: | 5 mOhms ±1% 5W Through Hole Resistor Axial - 4 Lea... |
DataSheet: | TMR5FB5L00 Datasheet/PDF |
Quantity: | 1000 |
100 +: | $ 1.69313 |
Series: | TMR |
Packaging: | Bulk |
Part Status: | Active |
Resistance: | 5 mOhms |
Tolerance: | ±1% |
Power (Watts): | 5W |
Composition: | Metal Foil |
Features: | Current Sense, Moisture Resistant, Non-Inductive, Non-Magnetic |
Temperature Coefficient: | ±40ppm/°C |
Operating Temperature: | -55°C ~ 275°C |
Package / Case: | Axial - 4 Leads |
Supplier Device Package: | Axial |
Size / Dimension: | 0.330" Dia x 0.940" L (8.38mm x 23.88mm) |
Height - Seated (Max): | -- |
Number of Terminations: | 4 |
Failure Rate: | -- |
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Through Hole Resistors, specifically the TMR5FB5L00, are an important electrical component for any automated device or instrument. The majority of these resistors are cylindrically-shaped and made up from resistive wire that is wound around an internal core. The core is usually made of ceramic, but some are made of metal. Each of these resistors have their own characteristics which are important for the device they are used in.
The TMR5FB5L00 in particular is a type of through-hole resistor rated at 5W, which is a higher than average wattage. This makes it suitable for applications that will be operating in higher wattage conditions, such as motors, pumps, and other high-current applications. It has a B5 case (25mm x 5mm) and is oftentimes used in circuits that have temperature sensors, as it has excellent heat-dissipation capabilities. Additionally, its resistance range is from 0.1ohm to 10Mohm, and it has a linear voltage regulation of ±2%, which makes it a great choice for applications that require precise voltage regulation.
To understand the operation of through-hole resistors like the TMR5FB5L00, we must examine how electricity works. Electrical current is made up of particles called electrons, which are driven by a set of universal laws. The rule of Ohm\'s law dictates that if the voltage (V), measured in volts, across a circuit component is increased, then the current (I), measured in amperes, will increase. It also states that if the resistance (R), measured in ohms, is increased, then the current (I) will decrease. This correlation between the elements is known as Ohm\'s law, and it is essential to know when dealing with the TMR5FB5L00.
When a voltage is applied to a circuit containing a resistive element, electrons are repelled by the resistance. They then flow through the circuit, passing the resistive element and following the path of least resistance. This process creates a measurable voltage drop across the component, and this is used to calculate the amount of current that is passing through it. By adjusting the resistance of the component, it is possible to control the amount of current being applied to the circuit.
The TMR5FB5L00 through-hole resistor works in the same way as most other resistors – when an electric current is applied to it, the resistance causes electrons to slow down, allowing it to dissipate the electrical energy in the form of heat. This in turn reduces the amount of current flowing through the circuit, and helps to regulate the voltage applied to it. The heat-dissipation capability of the TMR5FB5L00 is especially useful for applications that may be subjected to high temperatures, as it will help to prevent any damage to the device it is used in.
The TMR5FB5L00 is an essential component for any device or instrument, as it can be used to regulate the amount of current flowing through the circuit. It has high wattage capability, a desirable resistance range, and excellent heat-dissipation properties that make it suitable for use in a variety of applications. The resistor will help to ensure that the device it is used in is operating safely and efficiently, without any damage or other problems.
The specific data is subject to PDF, and the above content is for reference
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