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RS PRO Trimmer Capacitor, Voltage 100 V, Model No 1753543

By RS PRO

₹61   ₹61

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RS PRO Trimmer Capacitor, Voltage 100 V, Model No 1753543 is a type of capacitor that allows for adjustable capacitance. It is designed to fine-tune or adjust the capacitance value in electronic circuits, primarily in applications where precise tuning or frequency adjustment is required.
The construction of a trimmer capacitor is similar to a regular fixed capacitor, consisting of two conductive plates separated by a dielectric material. However, in a trimmer capacitor, one of the plates is movable, allowing for the adjustment of the distance between the plates and hence the capacitance value. The movable plate is connected to a shaft or screw mechanism that enables manual adjustment.
Trimmer capacitors are typically used in applications where frequency adjustments are necessary, such as in radio receivers, oscillators, and tuning circuits. By varying the capacitance, the resonant frequency of the circuit can be fine-tuned to achieve optimal performance. Trimmer capacitors offer a means to adjust the circuit's response to changing conditions, compensate for component variations, or correct for drift over time.
Trimmer capacitors come in various designs and configurations to suit different application requirements. They can be air variable capacitors, where the dielectric is air, or they can utilize solid dielectric materials such as ceramic, mica, or plastic. Some trimmer capacitors have screw mechanisms for adjustment, while others may feature a trimmer tool or a slot for a screwdriver.
One important consideration when using trimmer capacitors is their stability. While trimmer capacitors can provide precise adjustments, their capacitance values may be affected by factors like temperature variations, mechanical stress, or aging. Therefore, careful consideration must be given to selecting trimmer capacitors with appropriate stability characteristics for the specific application.
In summary, trimmer capacitors are variable capacitors used for fine-tuning or adjusting the capacitance value in electronic circuits. They allow for precise frequency adjustments in applications where accurate tuning is required. Trimmer capacitors offer a means to optimize circuit performance and compensate for component variations. Proper selection and consideration of stability factors are important when using trimmer capacitors to ensure reliable and accurate tuning in electronic circuits.

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RS PRO Single Layer Ceramic Capacitor, 470 pF, Voltage 3k V DC, Model No 1805137 (Pack of 100)

By RS PRO

Pack of 100 piece

₹1,108  

RS PRO Single Layer Ceramic Capacitor, Capacitance 470 pF, Voltage 3k V DC, Model No 1805137 (Pack of 100) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 700 mA 3.9 nH Inductance 0.16 GHz, 2567685 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹34  

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RS PRO Surface Mount Inductor Multilayer 700 mA 4.7 nH Inductance 0.16 GHz, 2567687 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹35   ₹36

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RS PRO Surface Mount Inductor Multilayer 500 mA 10 nH Inductance, 2567693 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹64  

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RS PRO Single Layer Ceramic Capacitor, 100 pF, Voltage 2k V DC, Model No 1805126 (Pack of 150 Pcs)

By RS PRO

Pack of 150 piece

₹1,167  

RS PRO Single Layer Ceramic Capacitor, Capacitance 100 pF, Voltage 2k V DC, Model No 1805126 (Pack of 150) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 800 mA 2.4 nH Inductance 0.10 GHz, 2567675P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,887  

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RS PRO Surface Mount Inductor Multilayer 500 mA 10 nH Inductance 0.26 GHz, 2567627 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹35   ₹36

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RS PRO Multilayer Ceramic Capacitor, 1 µF, Voltage 50 V DC, Model No 1805107 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹1,415  

RS PRO Multilayer Ceramic Capacitor, Capacitance 1 µF, Voltage 50 V DC, Model No 1805107 (Pack of 50) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 100 mA 68 nH Inductance 1.00 GHz, 2567621 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹40  

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RS PRO Surface Mount Inductor Multilayer 500 mA 9.1 nH Inductance 0.26 GHz, 2567657P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,887  

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RS PRO Surface Mount Inductor Multilayer 800 mA 1.2 nH Inductance 10.00 GHz, 2567565P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,769  

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RS PRO Mica Capacitor, Capacitance 150 pF, Voltage 500 V DC, Model No 495767 (Pack of 5 Pcs)

By RS PRO

Pack of 5 piece

₹5,427  

RS PRO Mica Capacitor, Capacitance 150 pF, Voltage 500 V DC, Model No 495767 (Pack of 5) is a type of capacitor that uses mica as the dielectric material. Mica is a naturally occurring mineral with excellent electrical insulating properties, making it suitable for capacitor applications that require high stability, low losses, and precise capacitance values.
The construction of a mica capacitor typically involves sandwiching a thin mica sheet between two metal electrodes. The mica sheet acts as the dielectric, providing insulation between the electrodes while allowing the storage and release of electrical charge. The electrodes are usually made of metal foils or metalized coatings.
One of the key advantages of mica capacitors is their high stability. They exhibit low temperature coefficients, meaning their capacitance values remain relatively constant over a wide temperature range. This stability makes mica capacitors well-suited for applications that require accurate and reliable capacitance values, such as in timing circuits, frequency filters, and high-frequency applications.
Mica capacitors also offer low losses, which means they have a high Q-factor. The Q-factor is a measure of the energy stored and dissipated by a capacitor, and a high Q-factor indicates low energy losses. This characteristic makes mica capacitors suitable for applications that require high efficiency and minimal energy loss, such as in RF circuits and resonant circuits.
Another advantage of mica capacitors is their ability to handle high voltages. They have excellent voltage ratings and can withstand high voltage levels without breakdown or failure. This feature makes them suitable for use in power electronics, high-voltage power supplies, and other applications that require reliable voltage handling capabilities.
Mica capacitors are also known for their low dielectric absorption. Dielectric absorption is the phenomenon where a capacitor retains some charge after being discharged. Mica capacitors exhibit minimal dielectric absorption, which is desirable in applications that require quick charging and discharging cycles.
However, mica capacitors also have some limitations. They tend to be physically larger compared to other capacitor types, which can be a disadvantage in space-constrained applications. Additionally, mica capacitors can be more expensive compared to other capacitor types due to the cost of mica as a raw material.
In summary, mica capacitors are known for their high stability, low losses, and accurate capacitance values. They offer excellent temperature stability, low dielectric absorption, and high voltage ratings. While they may be physically larger and relatively more expensive, mica capacitors are preferred in applications that demand precise and reliable performance, particularly in high-frequency and high-voltage circuits.

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RS PRO Single Layer Ceramic Capacitor, 2.2 nF, Voltage 3k V DC, Model No 1805134 (Pack of 100)

By RS PRO

Pack of 100 piece

₹1,651  

RS PRO Single Layer Ceramic Capacitor, Capacitance 2.2 nF, Voltage 3k V DC, Model No 1805134 (Pack of 100) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 800 mA 3.0 nH Inductance 0.12 GHz, 2567679P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,769  

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RS PRO Surface Mount Inductor Multilayer 200 mA 82 nH Inductance, 2567709P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹3,303  

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RS PRO Surface Mount Inductor Multilayer 700 mA 4.7 nH Inductance, 2567719 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹64  

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RS PRO Single Layer Ceramic Capacitor, 1 nF, Voltage 3k V DC, Model No 1805130 (Pack of 100)

By RS PRO

Pack of 100 piece

₹1,167  

RS PRO Single Layer Ceramic Capacitor, Capacitance 1 nF, Voltage 3k V DC, Model No 1805130 (Pack of 100) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Single Layer Ceramic Capacitor, 4.7 nF, Voltage 2k V DC, Model No 1804830 (Bag of 500 Pcs)

By RS PRO

Bag of 500 piece

₹12,979  

RS PRO Single Layer Ceramic Capacitor, Capacitance 4.7 nF, Voltage 2k V DC, Model No 1804830 (Bag of 500) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 500 mA 7.5 nH Inductance 0.24 GHz, 2567651 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹35   ₹36

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RS PRO Surface Mount Inductor Multilayer 140 mA 27 nH Inductance 2.20 GHz, 2567601P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,887  

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RS PRO Surface Mount Inductor Multilayer 900 mA 2.2 nH Inductance 0.09 GHz, 2567673 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹78  

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RS PRO Surface Mount Inductor Multilayer 800 mA 3.3 nH Inductance 0.13 GHz, 2567681 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹35   ₹36

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RS PRO Surface Mount Inductor Multilayer 350 mA 4.7 nH Inductance 6.00 GHz, 2567589 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹35   ₹36

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RS PRO Single Layer Ceramic Capacitor, 4.7 nF, Voltage 2k V DC, Model No 1805125 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹2,359  

RS PRO Single Layer Ceramic Capacitor, Capacitance 4.7 nF, Voltage 2k V DC, Model No 1805125 (Pack of 50) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 200 mA 68 nH Inductance 1.40 GHz, 2567647P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,769  

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RS PRO Single Layer Ceramic Capacitor, 100 pF, Voltage 2k V DC, Model No 1805106 (Pack of 150 Pcs)

By RS PRO

Pack of 150 piece

₹931  

RS PRO Single Layer Ceramic Capacitor, Capacitance 100 pF, Voltage 2k V DC, Model No 1805106 (Pack of 150) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 500 mA 9.1 nH Inductance 0.26 GHz, 2567657 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹35   ₹36

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RS PRO Surface Mount Inductor Multilayer 550 mA 2.4 nH Inductance 7.50 GHz, 2567575P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,769  

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RS PRO Surface Mount Inductor Multilayer 250 mA 12 nH Inductance 3.50 GHz, 2567609 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹34  

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RS PRO Surface Mount Inductor Multilayer 200 mA 18 nH Inductance 3.00 GHz, 2567613P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,769  

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RS PRO Surface Mount Inductor Multilayer 700 mA 3.9 nH Inductance, 2567717 (Pack of 50 Pcs)

By RS PRO

Pack of 50 piece

₹64  

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RS PRO Single Layer Ceramic Capacitor, 1.5 nF, Voltage 2k V DC, Model No 1805123 (Pack of 100)

By RS PRO

Pack of 100 piece

₹919  

RS PRO Single Layer Ceramic Capacitor, Capacitance 1.5 nF, Voltage 2k V DC, Model No 1805123 (Pack of 100) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 700 mA 4.7 nH Inductance, 2567719P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹3,303  

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RS PRO Mica Capacitor 33 pF 500 V DC ±0.5 pF Tolerance Radial, 495688

By RS PRO

₹589  

The RS PRO Mica Capacitor 33 pF 500 V DC ±0.5 pF Tolerance Radial, 495688 is a critical and dependable electronic component designed to store and discharge electrical energy in a wide range of applications. Crafted with meticulous precision and a focus on superior quality, this mica capacitor has established itself as an essential element across diverse industries and electronic projects. Engineered for optimal performance and stability, the RS PRO Mica Capacitor 33 pF 500 V DC ±0.5 pF Tolerance Radial, 495688 is meticulously designed to provide accurate and reliable capacitance values. Its adaptability ensures its relevance in scenarios ranging from radio frequency circuits and precision electronic devices to high-voltage applications, where consistent capacitance is imperative. At its core, the mica capacitor features a dielectric made from mica material, which exhibits excellent insulation properties and stable capacitance characteristics over a wide range of temperatures and frequencies. This design ensures a consistent and precise electrical response, contributing to the efficiency and reliability of electronic circuits. Exceeding international quality and performance standards, the RS PRO Mica Capacitor 33 pF 500 V DC ±0.5 pF Tolerance Radial, 495688 guarantees exceptional reliability and longevity. Rigorous testing validates its capacitance accuracy, temperature stability, and resistance to electrical stresses, instilling confidence in users who rely on it for critical electronic applications. Integration of the mica capacitor into electronic circuits is straightforward, often requiring basic soldering techniques and appropriate circuit layout considerations. Once integrated, it becomes an integral part of the circuit, offering stable and consistent capacitance values. Its adaptability shines through whether it's utilized in audio equipment, RF circuits, or high-frequency applications, highlighting its significance across various sectors. In conclusion, the RS PRO Mica Capacitor 33 pF 500 V DC ±0.5 pF Tolerance Radial, 495688 stands as a superior electronic component for those seeking reliability, stability, and adaptability. Its mica dielectric, commitment to quality standards, and adherence to international guidelines make it a favored choice across various applications. Whether employed in precision electronic devices or specialized high-frequency systems, this mica capacitor ensures accurate and stable capacitance values, providing users with the assurance of a high-quality electronic accessory.

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RS PRO Surface Mount Inductor Multilayer 800 mA 3.3 nH Inductance 0.13 GHz, 2567681P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹1,887  

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RS PRO Thermistor Digital Thermometer for Food Industry, Medical Use, NTC Probe, 2048416

By RS PRO

₹15,339  

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RS PRO Single Layer Ceramic Capacitor, 47 pF, Voltage 2k V DC, Model No 1805115 (Pack of 125 Pcs)

By RS PRO

Pack of 125 piece

₹860  

RS PRO Single Layer Ceramic Capacitor, Capacitance 47 pF, Voltage 2k V DC, Model No 1805115 (Pack of 125) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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RS PRO Surface Mount Inductor Multilayer 250 mA 8.2 nH Inductance 4.00 GHz, 2567605P (Pack of 2500 Pcs)

By RS PRO

Pack of 2500 piece

₹2,123  

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RS PRO Single Layer Ceramic Capacitor, 4.7 nF, Voltage 3k V DC, Model No 1804844 (Bag of 500 Pcs)

By RS PRO

Bag of 500 piece

₹10,265  

RS PRO Single Layer Ceramic Capacitor, Capacitance 4.7 nF, Voltage 3k V DC, Model No 1804844 (Bag of 500) is a type of electronic component widely used in various electrical and electronic circuits. It is a passive component that stores and releases electrical energy, and it is constructed using a ceramic material as the dielectric.
The dielectric material in a ceramic capacitor is typically made of ceramic compounds such as titanium dioxide, barium titanate, or a mixture of ceramic powders. These materials have high dielectric constants, which means they can store a relatively large amount of electrical energy in a compact size.
Ceramic capacitors are available in a range of capacitance values, voltage ratings, and package sizes to suit different application requirements. They come in two main types: class 1 and class 2.
Class 1 ceramic capacitors are known for their high accuracy and stability. They have low losses and exhibit a linear temperature coefficient, making them suitable for applications that require precise capacitance values and minimal changes with temperature. Class 1 capacitors are commonly used in radio frequency (RF) circuits, oscillators, filters, and timing circuits.
Class 2 ceramic capacitors, on the other hand, have higher capacitance values and are more cost-effective. They exhibit a nonlinear temperature coefficient and have higher losses compared to class 1 capacitors. Class 2 capacitors are widely used in decoupling and bypass applications, voltage regulators, power supply circuits, and general-purpose circuits.
Ceramic capacitors offer several advantages, including small size, high capacitance density, and low cost. They have excellent high-frequency characteristics, making them suitable for applications involving fast switching speeds and high-frequency signals. Ceramic capacitors are also known for their low equivalent series resistance (ESR) and equivalent series inductance (ESL), which contribute to their good performance in high-frequency applications.
However, ceramic capacitors also have some limitations. They can exhibit a phenomenon called the piezoelectric effect, where mechanical stress or vibration can induce electrical charges in the capacitor, affecting its performance. They may also experience a phenomenon called the voltage coefficient of capacitance, where the capacitance value can change with the applied voltage.
In summary, ceramic capacitors are widely used electronic components that store and release electrical energy. They offer advantages such as small size, high capacitance density, and low cost. Class 1 capacitors are known for their stability and accuracy, while class 2 capacitors are more cost-effective and suitable for general-purpose applications. Despite some limitations, ceramic capacitors are essential components in a wide range of electrical and electronic circuits.

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