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Here’s a detailed description for the 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF:
The 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF is a high-precision, medium-power resistor designed for applications where accuracy and reliable power dissipation are essential. Made with Metal Oxide Film (MOF) technology, this resistor ensures excellent stability under varying electrical and environmental conditions, providing consistent performance across a wide range of applications. With a 1% tolerance, this resistor is ideal for circuits that require tight resistance accuracy and precise control over current flow.
This resistor has a 2,700 ohm (2.7kΩ) resistance, which is commonly used in applications where moderate resistance is required to regulate current flow, set voltage levels, or implement signal conditioning. The 2.7kΩ value is ideal for circuits that need a balance between low and high resistance. It is frequently used in voltage divider networks, feedback loops, biasing circuits, and filtering applications.
Voltage Dividers: In voltage divider configurations, the 2.7kΩ resistor can be paired with another resistor to achieve specific voltage levels, which is useful for applications like sensor interfacing, measurement systems, or signal scaling.
Signal Conditioning: The resistor is well-suited for use in RC circuits, where it contributes to setting the time constant of filters or shaping the response in analog signal processing, audio circuits, or RF signal conditioning.
The 2W power rating means this resistor can dissipate up to 2 watts of heat without overheating or losing performance. It is designed for medium-power applications, making it ideal for circuits that may experience moderate current levels or power dissipation. This resistor can handle moderate current flows and helps avoid thermal stress, ensuring long-term reliability in voltage regulation, signal conditioning, and current-limiting circuits.
The 2W rating makes it suitable for use in DC-DC converters, power supplies, LED drivers, and current-limiting applications, where moderate amounts of power need to be dissipated without excessive heating.
With a 1% tolerance, the resistor guarantees that its actual resistance will be within ±1% of the nominal 2.7kΩ value. This ensures high precision, which is particularly important in applications where small variations in resistance could affect the overall performance of the circuit. The 1% tolerance makes this resistor suitable for applications like precision voltage dividers, feedback networks, and biasing of active components such as transistors and operational amplifiers.
The axial through-hole mounting design features leads extending from both ends of the resistor, allowing it to pass through holes in the printed circuit board (PCB) and be soldered on the other side. This mounting style is known for providing mechanical strength, secure electrical connections, and long-term durability. The through-hole design is particularly useful in high-reliability applications where secure mounting is critical, such as in high-power circuits or equipment requiring frequent repairs.
This type of resistor is easy to integrate into prototype circuits, testing boards, or production designs due to its robust mounting style.
The Metal Oxide Film (MOF) construction offers significant advantages over traditional carbon film resistors, such as superior voltage resistance, higher power dissipation capacity, and better thermal stability. MOF resistors are also more resistant to overvoltage spikes, thermal overload, and mechanical stress, making them ideal for reliable long-term operation in medium-power circuits. The MOF technology provides low drift and better accuracy over time, making the resistor an excellent choice for high-precision applications.
Current Limiting: The 2.7kΩ 2W resistor can be used in current-limiting circuits, where it helps regulate the flow of current through sensitive components. It is suitable for LED drivers, power supplies, and motor control circuits, where moderate current regulation is necessary to prevent damage to components.
Voltage Divider Networks: As part of a voltage divider, the 2.7kΩ resistor can help create specific voltage levels. This is essential in applications where precise voltage references are needed for sensor interfacing, signal processing, or calibration circuits.
Signal Processing and Filtering: This resistor can be used in RC (Resistor-Capacitor) or RL (Resistor-Inductor) filter circuits to manage and filter signals. It is suitable for audio processing, RF signal filtering, low-pass and high-pass filters, and any application that requires the shaping of signal frequencies or attenuation of unwanted noise.
Biasing Networks: The 2.7kΩ resistor is commonly used in biasing circuits for transistors or op-amps. It sets the correct operating point for active components, ensuring stable operation in amplifiers, oscillators, and other active circuits.
Feedback and Control Circuits: In feedback systems, particularly for op-amps or voltage control loops, the 2.7kΩ resistor helps determine the gain or response characteristics. It also plays a role in ensuring stability and accurate control in circuits like voltage regulators or precision amplifiers.
Power Supply Regulation: This resistor can be used in voltage regulation circuits, such as those found in DC-DC converters or linear regulators, where the 2W power rating allows it to handle moderate power dissipation. It ensures that the voltage output remains stable for downstream components.
With its axial through-hole design, the 2.7kΩ 2W resistor is easy to handle, solder, and replace, making it a preferred choice for prototyping, testing, and repair work. The MOF construction ensures durability, so it can withstand the heat generated during soldering and maintain reliable performance over the long term.
The 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF is a high-precision, medium-power resistor designed for applications that require accurate resistance values, moderate power dissipation, and long-term reliability. Its 1% tolerance, 2W power rating, and Metal Oxide Film (MOF) construction make it ideal for use in current limiting, voltage division, signal processing, biasing networks, and feedback loops. The axial through-hole design ensures secure and stable installation on PCBs, making it perfect for use in medium-power applications that require precision, reliability, and long-term durability.
This resistor is a great choice for applications in power supplies, signal processing circuits, filtering applications, and voltage regulation, ensuring consistent performance and stable operation in demanding circuits.
₹ 414.00 ₹ 460.00
₹ 3,680.00 ₹ 4,600.00
Here’s a detailed description for the 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF:
The 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF is a high-precision, medium-power resistor designed for applications where accuracy and reliable power dissipation are essential. Made with Metal Oxide Film (MOF) technology, this resistor ensures excellent stability under varying electrical and environmental conditions, providing consistent performance across a wide range of applications. With a 1% tolerance, this resistor is ideal for circuits that require tight resistance accuracy and precise control over current flow.
This resistor has a 2,700 ohm (2.7kΩ) resistance, which is commonly used in applications where moderate resistance is required to regulate current flow, set voltage levels, or implement signal conditioning. The 2.7kΩ value is ideal for circuits that need a balance between low and high resistance. It is frequently used in voltage divider networks, feedback loops, biasing circuits, and filtering applications.
Voltage Dividers: In voltage divider configurations, the 2.7kΩ resistor can be paired with another resistor to achieve specific voltage levels, which is useful for applications like sensor interfacing, measurement systems, or signal scaling.
Signal Conditioning: The resistor is well-suited for use in RC circuits, where it contributes to setting the time constant of filters or shaping the response in analog signal processing, audio circuits, or RF signal conditioning.
The 2W power rating means this resistor can dissipate up to 2 watts of heat without overheating or losing performance. It is designed for medium-power applications, making it ideal for circuits that may experience moderate current levels or power dissipation. This resistor can handle moderate current flows and helps avoid thermal stress, ensuring long-term reliability in voltage regulation, signal conditioning, and current-limiting circuits.
The 2W rating makes it suitable for use in DC-DC converters, power supplies, LED drivers, and current-limiting applications, where moderate amounts of power need to be dissipated without excessive heating.
With a 1% tolerance, the resistor guarantees that its actual resistance will be within ±1% of the nominal 2.7kΩ value. This ensures high precision, which is particularly important in applications where small variations in resistance could affect the overall performance of the circuit. The 1% tolerance makes this resistor suitable for applications like precision voltage dividers, feedback networks, and biasing of active components such as transistors and operational amplifiers.
The axial through-hole mounting design features leads extending from both ends of the resistor, allowing it to pass through holes in the printed circuit board (PCB) and be soldered on the other side. This mounting style is known for providing mechanical strength, secure electrical connections, and long-term durability. The through-hole design is particularly useful in high-reliability applications where secure mounting is critical, such as in high-power circuits or equipment requiring frequent repairs.
This type of resistor is easy to integrate into prototype circuits, testing boards, or production designs due to its robust mounting style.
The Metal Oxide Film (MOF) construction offers significant advantages over traditional carbon film resistors, such as superior voltage resistance, higher power dissipation capacity, and better thermal stability. MOF resistors are also more resistant to overvoltage spikes, thermal overload, and mechanical stress, making them ideal for reliable long-term operation in medium-power circuits. The MOF technology provides low drift and better accuracy over time, making the resistor an excellent choice for high-precision applications.
Current Limiting: The 2.7kΩ 2W resistor can be used in current-limiting circuits, where it helps regulate the flow of current through sensitive components. It is suitable for LED drivers, power supplies, and motor control circuits, where moderate current regulation is necessary to prevent damage to components.
Voltage Divider Networks: As part of a voltage divider, the 2.7kΩ resistor can help create specific voltage levels. This is essential in applications where precise voltage references are needed for sensor interfacing, signal processing, or calibration circuits.
Signal Processing and Filtering: This resistor can be used in RC (Resistor-Capacitor) or RL (Resistor-Inductor) filter circuits to manage and filter signals. It is suitable for audio processing, RF signal filtering, low-pass and high-pass filters, and any application that requires the shaping of signal frequencies or attenuation of unwanted noise.
Biasing Networks: The 2.7kΩ resistor is commonly used in biasing circuits for transistors or op-amps. It sets the correct operating point for active components, ensuring stable operation in amplifiers, oscillators, and other active circuits.
Feedback and Control Circuits: In feedback systems, particularly for op-amps or voltage control loops, the 2.7kΩ resistor helps determine the gain or response characteristics. It also plays a role in ensuring stability and accurate control in circuits like voltage regulators or precision amplifiers.
Power Supply Regulation: This resistor can be used in voltage regulation circuits, such as those found in DC-DC converters or linear regulators, where the 2W power rating allows it to handle moderate power dissipation. It ensures that the voltage output remains stable for downstream components.
With its axial through-hole design, the 2.7kΩ 2W resistor is easy to handle, solder, and replace, making it a preferred choice for prototyping, testing, and repair work. The MOF construction ensures durability, so it can withstand the heat generated during soldering and maintain reliable performance over the long term.
The 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF is a high-precision, medium-power resistor designed for applications that require accurate resistance values, moderate power dissipation, and long-term reliability. Its 1% tolerance, 2W power rating, and Metal Oxide Film (MOF) construction make it ideal for use in current limiting, voltage division, signal processing, biasing networks, and feedback loops. The axial through-hole design ensures secure and stable installation on PCBs, making it perfect for use in medium-power applications that require precision, reliability, and long-term durability.
This resistor is a great choice for applications in power supplies, signal processing circuits, filtering applications, and voltage regulation, ensuring consistent performance and stable operation in demanding circuits.
Here’s a detailed description for the 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF:
The 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF is a high-precision, medium-power resistor designed for applications where accuracy and reliable power dissipation are essential. Made with Metal Oxide Film (MOF) technology, this resistor ensures excellent stability under varying electrical and environmental conditions, providing consistent performance across a wide range of applications. With a 1% tolerance, this resistor is ideal for circuits that require tight resistance accuracy and precise control over current flow.
This resistor has a 2,700 ohm (2.7kΩ) resistance, which is commonly used in applications where moderate resistance is required to regulate current flow, set voltage levels, or implement signal conditioning. The 2.7kΩ value is ideal for circuits that need a balance between low and high resistance. It is frequently used in voltage divider networks, feedback loops, biasing circuits, and filtering applications.
Voltage Dividers: In voltage divider configurations, the 2.7kΩ resistor can be paired with another resistor to achieve specific voltage levels, which is useful for applications like sensor interfacing, measurement systems, or signal scaling.
Signal Conditioning: The resistor is well-suited for use in RC circuits, where it contributes to setting the time constant of filters or shaping the response in analog signal processing, audio circuits, or RF signal conditioning.
The 2W power rating means this resistor can dissipate up to 2 watts of heat without overheating or losing performance. It is designed for medium-power applications, making it ideal for circuits that may experience moderate current levels or power dissipation. This resistor can handle moderate current flows and helps avoid thermal stress, ensuring long-term reliability in voltage regulation, signal conditioning, and current-limiting circuits.
The 2W rating makes it suitable for use in DC-DC converters, power supplies, LED drivers, and current-limiting applications, where moderate amounts of power need to be dissipated without excessive heating.
With a 1% tolerance, the resistor guarantees that its actual resistance will be within ±1% of the nominal 2.7kΩ value. This ensures high precision, which is particularly important in applications where small variations in resistance could affect the overall performance of the circuit. The 1% tolerance makes this resistor suitable for applications like precision voltage dividers, feedback networks, and biasing of active components such as transistors and operational amplifiers.
The axial through-hole mounting design features leads extending from both ends of the resistor, allowing it to pass through holes in the printed circuit board (PCB) and be soldered on the other side. This mounting style is known for providing mechanical strength, secure electrical connections, and long-term durability. The through-hole design is particularly useful in high-reliability applications where secure mounting is critical, such as in high-power circuits or equipment requiring frequent repairs.
This type of resistor is easy to integrate into prototype circuits, testing boards, or production designs due to its robust mounting style.
The Metal Oxide Film (MOF) construction offers significant advantages over traditional carbon film resistors, such as superior voltage resistance, higher power dissipation capacity, and better thermal stability. MOF resistors are also more resistant to overvoltage spikes, thermal overload, and mechanical stress, making them ideal for reliable long-term operation in medium-power circuits. The MOF technology provides low drift and better accuracy over time, making the resistor an excellent choice for high-precision applications.
Current Limiting: The 2.7kΩ 2W resistor can be used in current-limiting circuits, where it helps regulate the flow of current through sensitive components. It is suitable for LED drivers, power supplies, and motor control circuits, where moderate current regulation is necessary to prevent damage to components.
Voltage Divider Networks: As part of a voltage divider, the 2.7kΩ resistor can help create specific voltage levels. This is essential in applications where precise voltage references are needed for sensor interfacing, signal processing, or calibration circuits.
Signal Processing and Filtering: This resistor can be used in RC (Resistor-Capacitor) or RL (Resistor-Inductor) filter circuits to manage and filter signals. It is suitable for audio processing, RF signal filtering, low-pass and high-pass filters, and any application that requires the shaping of signal frequencies or attenuation of unwanted noise.
Biasing Networks: The 2.7kΩ resistor is commonly used in biasing circuits for transistors or op-amps. It sets the correct operating point for active components, ensuring stable operation in amplifiers, oscillators, and other active circuits.
Feedback and Control Circuits: In feedback systems, particularly for op-amps or voltage control loops, the 2.7kΩ resistor helps determine the gain or response characteristics. It also plays a role in ensuring stability and accurate control in circuits like voltage regulators or precision amplifiers.
Power Supply Regulation: This resistor can be used in voltage regulation circuits, such as those found in DC-DC converters or linear regulators, where the 2W power rating allows it to handle moderate power dissipation. It ensures that the voltage output remains stable for downstream components.
With its axial through-hole design, the 2.7kΩ 2W resistor is easy to handle, solder, and replace, making it a preferred choice for prototyping, testing, and repair work. The MOF construction ensures durability, so it can withstand the heat generated during soldering and maintain reliable performance over the long term.
The 2.7K Ohm (2.7kΩ) 2W 1% Axial Through Hole Resistor - MOF is a high-precision, medium-power resistor designed for applications that require accurate resistance values, moderate power dissipation, and long-term reliability. Its 1% tolerance, 2W power rating, and Metal Oxide Film (MOF) construction make it ideal for use in current limiting, voltage division, signal processing, biasing networks, and feedback loops. The axial through-hole design ensures secure and stable installation on PCBs, making it perfect for use in medium-power applications that require precision, reliability, and long-term durability.
This resistor is a great choice for applications in power supplies, signal processing circuits, filtering applications, and voltage regulation, ensuring consistent performance and stable operation in demanding circuits.
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