Allicdata Part #: | CMF071M0000JNBF-ND |
Manufacturer Part#: |
CMF071M0000JNBF |
Price: | $ 0.92 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RES 1M OHM 1/2W 5% AXIAL |
More Detail: | 1 MOhms ±5% 0.5W, 1/2W Through Hole Resistor Axial... |
DataSheet: | CMF071M0000JNBF Datasheet/PDF |
Quantity: | 1000 |
100 +: | $ 0.83250 |
300 +: | $ 0.72000 |
500 +: | $ 0.65250 |
1000 +: | $ 0.57375 |
5000 +: | $ 0.55350 |
Series: | CMF |
Packaging: | Bulk |
Part Status: | Active |
Resistance: | 1 MOhms |
Tolerance: | ±5% |
Power (Watts): | 0.5W, 1/2W |
Composition: | Metal Film |
Features: | Flame Retardant Coating, Moisture Resistant, Safety |
Temperature Coefficient: | ±200ppm/°C |
Operating Temperature: | -55°C ~ 175°C |
Package / Case: | Axial |
Supplier Device Package: | Axial |
Size / Dimension: | 0.090" Dia x 0.240" L (2.29mm x 6.10mm) |
Height - Seated (Max): | -- |
Number of Terminations: | 2 |
Failure Rate: | -- |
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Through Hole Resistors, such as CMF071M0000JNBF, are an essential component in electronic circuits. They serve multiple important roles, such as restricting the flow of electricity, shaping current flow, establishing time delays, and providing an easy way to reduce voltage. They perform their various functions by using electrical resistance. While a resistor can have a complex inner structure, its basic concept involves the opposition of current. In the simplest terms, a resistor slows down the flow of current, and even stops it completely if the flow gets too strong.
The application of CMF071M0000JNBF can be found primarily in power supply circuits. These consists of electric power supplied externally, such as that from a wall outlet or battery, to power an entire electrical circuit that includes things like a microcontroller, LEDs, relays, or even motors. Power supply circuits also include protection for the integrated circuits, meaning there must be a certain level of voltage regulation that can only be accomplished with a resistor. It is the job of the resistor to slow the flow of electricity, allowing the circuit to remain stable.
The resistor also helps manage the current in a circuit, as some parts of the circuit require more or less current depending on the task it is completing. A microcontroller might require a moderate amount of current, while a motor might need far more. This is why resistors are essential components when building complex circuits so that the current is managed with precision. CMF071M0000JNBF is able to effectively control the current flow of the circuit, keeping the microcontroller and other components safe from being overused.
Another application of CMF071M0000JNBF is the development of time-delay circuits. This involves a gradual resistance to current to establish a time delay. This type of circuitry can be used to complete a variety of tasks, such as resetting a system or switching on a series of relays. Using a time-delay circuit is safer and more reliable than relying on mechanical timing mechanisms. These time-delay circuits also are very reliable because of the precision of the CMF071M0000JNBF and other resistors exist in the circuit.
The working principle of CMF071M0000JNBF involves the resistance of current. A resistor resists the flow of leads with the help of an internal resistance, known as Ohm\'s Law, which states that the current is directly proportional to the voltage and inversely proportional to the resistance. By increasing the resistance, it will reduce the current. This is why resistors play a vital role in electronic circuits as a way for controlling current flow.
Simply put, CMF071M0000JNBF is one of the most reliable forms of current resistance. They are able to manage the current flow of a circuit, as well as establish a time-delay and voltage protection. As a result, CMF071M0000JNBF and other through hole resistors are extremely important components in many electronic circuits, and are found in most power supply circuits as well as time-delay circuits.
The specific data is subject to PDF, and the above content is for reference
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