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1. 2-Way Crossover Calculator / Designer - DIY Audio & Video
Link: https://www.diyaudioandvideo.com/Calculator/SpeakerCrossover/
Description: WEBWoofer Impedance: Ohms. Frequency: Hz. Crossover Type: Get help for the Crossover Calculator. Crossover Tutorial. Design a 2-way high / low pass crossover with a range of choices for type and order.
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2. Crossover Calculator
Link: https://www.omnicalculator.com/physics/crossover
Description: WEBMar 12, 2024 · This calculator allows you to select the order of the crossover and the filter characteristic. The simplest is a 1st-order crossover design, which uses only one capacitor and one inductor. It has a 6 dB/octave slope, which is the lowest slope possible.
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3. Crossover Calculator | Good Calculators
Link: https://goodcalculators.com/crossover-calculator/
Description: WEBInstructions: Choose your crossover type (two-way or three-way), input impedance values for tweeter, woofer and midrange (with a three-way crossover network), choose the order/type of the filter, input the crossover frequency, and click on the "Calculate" button.
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4. Speaker Crossover Calculator + Crossover Building Tips - Sound …
Link: https://soundcertified.com/speaker-crossover-calculator/
Description: WEBJan 6, 2024 · How to use the calculator. 4 types are available: 2-way 2nd order Linkwitz-Riley (12dB/octave), high or low-pass 1st order Butterworth (6dB/octave), 1st order 2-way Butterworth (6dB/oct.), and 1st & 2nd order 3-way crossovers. A speaker crossover schematic matching the type you chose will be shown. Enter the speaker impedance …
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5. Crossover Calculator - CalcTool
Link: https://www.calctool.org/electronics/crossover
Description: WEBFeb 18, 2023 · Crossover Calculator. Created by Davide Borchia. Last updated: Feb 18, 2023. Table of contents: Inside your speaker: how to optimize the sound of your setup. What is a speaker crossover? 2-way crossover calculator: simple speaker crossover design. An example of speaker crossover design: calculate a 1st order crossover for a …
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6. Passive Crossover Design Equations Formulas Calculator - Two …
Link: https://www.ajdesigner.com/crossover/crossoversecond.php
Description: WEBOnline calculator for solving passive two way second order network crossovers for speakers: Chebychev, Bessel, Butterworth and Linkwitz-Riley.
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7. Crossover Calculator - Loudspeaker & Acoustic Engineering Design
Link: https://engineeryoursound.com/crossover-calculator/
Description: WEBJun 27, 2023 · The purpose of this speaker crossover calculator is to assist you in creating a passive crossover design to improve the sound quality of your speakers. It will provide information on the necessary capacitors and inductors required for either a 2-way or 3-way passive crossover design.
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8. Crossover Calculator | How to design Crossover?
Link: https://physicscalculatorpro.com/crossover-calculator/
Description: WEBLast Updated : May 07, 2023. The Crossover Calculator is a useful tool for creating great sound speakers. Using the Crossover Calculator, figure out how many capacitors and inductors you'll need to make a passive crossover for your speakers. Simply fill in the blanks in the tool and hit the calculate button to get results in a flash.
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9. Optimize Your Audio Setup with the Crossover Calculator
Link: https://newtum.com/calculators/physics/crossover-calculator
Description: WEBMar 12, 2024 · The Crossover Calculator is a specialized tool designed to determine the ideal crossover frequency for your speakers and subwoofers. By inputting the characteristics of your audio setup, the calculator provides precise crossover points, ensuring seamless frequency distribution for crystal-clear sound quality.
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10. Passive Crossover Design Equations Formulas Calculator - Two …
Link: https://www.ajdesigner.com/crossover/crossoverfirst.php
Description: WEBPassive Crossover Design Calculator. Car Audio - Speaker - Subwoofer - Electronics. Change Network Order to. Two Way. First | Second | Third | Fourth. Two Way First Order Network Equations. Butterworth: C1 = 0.159 / (R H f) L1 = R L / (6.28*f) C - Capacitor. L - Inductor. Inputs: Given: Solution: Butterworth: References - Books:
