AboutPrivacy-policyTerms-conditionsFaqContact

    CR Filter Voltage Divider Calculator | Signal filter calculator

    Created by Md jony islam

    CR Filter Voltage Divider circuit Calculator

    In determining its result voltage and cutoff frequency, the CR Filter Voltage Divider Calculator aids in the design of high-pass filters. It makes resistor-capacitor circuit analysis easier and is perfect for communication, signal processing, and audio systems. Professionals, students, and amateurs will all find it quick, accurate, and simple to use.

    Voltage divider CR filter

    CR filter frequency calculator

    View

    Download

    CR Filter Voltage Divider Calculator CircuitVout8 V10 V1000 ΩC© Online Works ToolsVinPower Supply+-R1 µF
    Fig-1: CR Voltage divider Circuit
    V
    • nanoVolts (nV)
    • microVolts (µV)
    • milliVolts (mV)
    • Volts (V)
    • kilovolts (kV)
    • megavolts (MV)
    Hz
    • Hertz (Hz)
    • Kilohertz (kHz)
    • megahertz (mHz)
    • gigahertz (gHz)
    • terahertz (tHz)
    • revolutions per minute (RPM)
    • millohms (mΩ)
    • ohms (Ω)
    • Kiloohms (KΩ)
    • Megaohms (MΩ)
    • Gigaohms (GΩ)
    µF
    • Farads (F)
    • millifarads (mF)
    • microfarads (µF)
    • nanofarads (nF)
    • Picofarads (PF)
    V
    • Picovolts (pV)
    • nanovolts (nV)
    • microvolts (µV)
    • millivolts (mV)
    • Volts (V)
    • Kilovolts (KV)
    • megavolts (MV)

    Learn how we tools this below

    Add this tools to your site

    Buy me a for Source Code

    What Is an CR Filter?

    A resistor (R) and a capacitor (C) make up a CR filter. The series combination receive the input voltage, and the resistor gets the output voltage. Because capacitors have frequency-dependent impedance, the circuit's behavior is dependent on the input frequency.

    🙋 Try our simple efficiency calculator for power supply . If you want to learn more about conversions using Electronic Engineering Project Calculators.

    CR Filter Voltage Divider Calculator: Design High-Performance Filters:

    The CR filter, from time to time referred to as a high-pass filter, attenuates lower frequencies while that enable high-frequency signals to flow through by connecting a capacitor and resistor in series. In applications involving coupling, noise reduction, and signal processing, this filter is crucial. By precisely estimating voltage drops, frequency responses, and the average performance of CR circuits, our CR Filter Voltage Divider Calculator streamlines the design process.
    This tool is ideal whether you're a hobbyist building signal filters, an engineer working on audio systems, or a student studying electronics.

    Voltage divider CR Filter Vout:

    Vout = 2𝜋fJRCVin2𝜋fJRC + 1

    For Example, Input voltage Vin: 10V, Resistor R: 1000 Ω, Capacitor C: 1 µF or, (0.000001 F), Frequency F: 100Hz Vout

    Vout = 2 × 𝜋 × 100 × J × 1000 × 0.000001 × 102 × 𝜋 × 100 × J × 1000 × 0.000001 + 1 or, Vout = 5.32V

    Suggested Reading

    Features of the Calculator

    Supports the input of resistance and the capacitance values in any units such as ohms, kilohms, microfarads, etc. Suitable for use in a wide frequency band covering the audio and radio frequency spectrum. Contributes both voltage ratio and cutoff frequency outputs.

    RC Filters Conversion application

    Frequently Asked Questions - Name Conversion FAQs:

    What is a CR filter?

    A CR filter is a high-pass filter that attenuates low frequencies while permitting high frequencies to pass through.

    What is a CR voltage divider used for?

    Low-frequency signals are filtered out and the input voltage is divided.

    How is the cutoff frequency determined?

    Employ the formula 𝑓𝑐 = 1 2 𝜋𝑅𝐶 f c = 2πRC 1. This step is performed automatically by our calculator.

    Which capacitance units should I use?

    Farads, microfarads, or picofarads can be used to measure capacitance.

    What happens if I swap the resistor and capacitor?

    The circuit becomes a low-pass RC filter instead of a high-pass CR filter.

    How do you calculate a voltage divider circuit?

    A voltage divider uses two resistors (R1 and R2) connected one after the other and attached in series to a voltage source (Vin). The junction between R1 and R2 provides the output voltage (Vout). Use the equation: Vout = Vin × (R2 / R1 + R2). It reveals how the resistors split up the input voltage.

    How do I find values of R1 and R2 for a voltage divider?

    The first thing to do is decide on Vout, and then know Vin. The output voltage will be Vout = Vin × (R2 / (R1 + R2)). When one resistor’s value is known, moving them around can let you work out the answer for R1 or R2. Select ordinary resistor values if you want to use them conveniently.

    How is Vout calculated in a voltage divider?

    The voltage across the R2 resistor in a series circuit is called Vout. It is calculated according to this formula: Vout = Vin × (R2 / (R1 + R2)). It works only if there is not much load connected to the output. It shows the amount of voltage found at the end of resistor R2.

    What is a voltage divider calculator?

    This is an online or software tool that lets you know Vout based on the values of Vin, R1, and R2 you provide. Certain tools let you put in the values you wish for Vout and Vin to see if there is a suitable resistor. Its purpose is to make designing voltage dividers easier without relying on hand calculations.

    Where is a voltage divider used in electronics?

    Reducing voltage levels in circuits, biasing transistors, reading sensors with microcontrollers, and linking logic levels are applications of voltage dividers. Voltage control is important for many circuits, and precision regulators assist in this need.

    You may like these posts

    About the Author

    Md Jony Islam

    Md Jony Islam: Multidisciplinary Engineer & Financial Expert:

    Md. Jony Islam is a highly skilled professional with expertise in electronics, electrical, mechanical, and civil engineering, as well as finance. Specializing in transformer service and maintenance for 33/11kV substations, he ensures reliable and efficient electrical systems. His mechanical engineering skills drive innovative designs, while his financial acumen supports effective project budgeting. With a strong foundation in civil engineering, he contributes to robust infrastructure development. Md. Jony Islam's multidisciplinary approach ensures efficiency, quality, and reliability across all projects.