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Active Audio Crossover Circuit | Electronic Filter Circuits
https://electronicshub.org/active-audio-crossover-circuit
Active Audio Crossover Circuit Design: The main component in the above crossover circuit is LM833 Dual audio operational amplifier which was manufactured by the National Semiconductors. The crossover circuits needs 4 operational amplifiers, so we need 2 lm833 ICs to construct the circuit.
Audio Op Amp | Overview | Operational Amplifiers | TI.com
https://www.ti.com/amplifier-circuit/op-amps/audio/overview.html
Analog active crossover design for two-way loudspeakers that can be used in recording studios or residential high-fidelity systems
Active Audio Crossover Circuit
https://circuit-diagramz.com/active-audio-crossover-circuit/
Active Audio Crossover Circuit Design: The LM833 Dual audio operational amplifier from National Semiconductors is the major component in the above crossover circuit. The crossover circuit requires four operational amplifiers, thus we’ll need two lm833 ICs to build it.
What's a good modern opamp for upgrading a crossover ...
https://www.diyaudio.com/community/threads/whats-a-good-modern-opamp-for-upgrading-a-crossover.379543/page-2
Crossover filters are designed around specific impedance levels to match the op-amp topology. Changing from bi-polar to j-fet or visa-versa is likely to degrade THD+N, so stick to the same type when rolling.
DESIGNING DISCRETE OPAMPS. - Electronics Design
https://www.epanorama.net/sff/Audio/Circuits/Pre-Amps/DISCRETE_OPAMPS.PDF
optimised for audio use in parameters like crossover distortion. Discrete opamps provide a viable alternative. 2. A load requires more drive current, because of its low impedance, than an opamp can provide without overheating or current-limiting; eg any audio power amplifier 3. The best possible noise performance is required.
Circuit Design: Two Way Active Audio Crossover Filter
https://www.engineersgarage.com/circuit-design-two-way-active-audio-crossover-filter/
Fig. 1: Two Way Active Audio Crossover Filter Circuit on Breadboard. The Two-way audio cross-over circuits are used to drive the Mid-range Speakers and Sub-Woofers separately. Mid-range speakers are fed with frequencies in the range of 300 Hz to 5 kHz, and Sub-Woofers with 300 Hz to 40 Hz. Since the musical sound normally falls around the ...
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