Intermediate

Speaker Crossover

Build and test a simple first-order crossover path for a tweeter or small speaker driver.

Safety first, always.

ElectroLab AI teaches theory, low-voltage electronics, and planning concepts. Mains voltage, switchboards, fixed wiring, high-current systems, and legal electrical work must only be performed by licensed electricians where required.

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Guided visual build

See it, place it, test it, then debug it.

Visual schematic

Speaker crossover split

A capacitor protects the tweeter from low frequencies while the woofer handles the lower band.

Low-voltage model

TP1: amp output

TP2: tweeter high-pass

TP3: speaker polarity

Power low-voltage projects from batteries or current-limited supplies first. Stop if a part heats, smells, sparks, or behaves unexpectedly.

Interactive build mode

Speaker Crossover step-by-step

Move one build action at a time. Treat each step as a checkpoint before adding the next connection.

Progress

1 / 5

Current action

Identify the speaker impedance and desired crossover range.

Wiring focus

Stage 1 of 5

speaker rating

series capacitor

tweeter path

low-volume test

listening check

Identify the part and orientation before placing the next wire.

Keep amplifier volume low during testing. Avoid connecting unknown speaker loads to valuable amplifiers.

Project test bench

Pre-flight, first power, and fault response.

Treat this like the bench checklist beside the project. Tick what is proven, then use the symptom picker if the circuit does not behave.

Readiness

Do not power this yet

Pre-flight checks

Power source voltage matches the project parts.Positive and negative rails are identified and not swapped.Polarized parts have been checked before power-up.A current limit, fuse, resistor, or safe supply protects the first test.Meter is set to the correct mode before touching probes to the circuit.Crossover parts are rated for speaker power.Tweeter protection path is correct.First audio test starts at low volume.

Before power

Measure supply polarity and expected voltage at the rails.

During first power

Use current limiting and watch for heat, dimming, or voltage collapse.

After a fault

Power off, isolate one section, then measure from source toward load.

Build target

Split audio bands and learn how filters protect and shape speakers.

Build steps

1.Identify the speaker impedance and desired crossover range.

2.Choose a non-polar capacitor rated for audio use.

3.Wire the capacitor in series with the tweeter for a high-pass path.

4.Test at low volume with music or a signal generator.

5.Listen for harshness, weak output, or distortion before increasing level.

What you are learning

1.A series capacitor blocks low frequencies and passes higher frequencies.

2.Crossover frequency depends on capacitance and speaker impedance.

3.Real speaker impedance changes with frequency, so formulas are a starting point.

Bench tests

1.Measure DC resistance of the speaker as a rough health check.

2.Start with low amplifier volume.

3.Compare different capacitor values and note tonal change.

Fault finding

1.No sound: check capacitor connection and speaker continuity.

2.Tweeter sounds strained: crossover frequency may be too low.

3.Sound too quiet: capacitor value may be too small or driver sensitivity mismatched.

Upgrades

1.Add an inductor low-pass path for a woofer.

2.Add an L-pad resistor network for level matching.

3.Measure response with a microphone later.

Project safety

Keep amplifier volume low during testing. Avoid connecting unknown speaker loads to valuable amplifiers.