Project 315 tone stoppers, Project 316 tone stoppers (ii), Project 317 tone stoppers (iii) – Elenco Snap Circuits® Deluxe Sound & Light Combo User Manual

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Project 316

Tone Stoppers (II)

The sound is a little

louder now because

the larger 1mF

capacitor passes

more of the tone

than the smaller

0.1mF capacitor did.

Project 317

Tone Stoppers (III)

The sound is much louder now because

the larger 470mF capacitor passes

much more of the tone than the smaller

1mF capacitor did. Now pressing S2

does not increase the sound, because

C5 is already passing all of it.

C7 will give less change on

high frequency tones than

on low frequency tones; you

should be able to notice the

difference as you vary the

tone using RV3. The smaller

C2 will affect both high and

low tones a lot. The larger

C5 will have little effect on

both high and low tones.

Use the circuit from project 316 (with the 1mF capacitor (C7)), but

add the 500kW adjustable resistor (RV3) as shown here. Slowly

turn RV3’s knob to vary the pitch (frequency) of the tone from

lowest to highest possible (there will only be sound for a small

part of RV3’s range). At the same time, press S2 on and off

several times, to see how C7 is changing on the sound.
Next, replace C7 with smaller C2 or larger C5, and compare the

capacitor’s effect as you vary the tone frequency.

Use the preceding circuit, but replace

the 1mF capacitor (C7) with the much

larger 470mF capacitor (C5). Compare

the sound volume to the preceding

circuits. How much difference does

pressing S2 make now?

Use the preceding circuit, but replace

the 0.1mF capacitor (C2) with the

larger 1mF capacitor (C7). Compare

the sound volume to the preceding

circuit.

Build the circuit and turn the slide switch (S1). Press any key on the

keyboard (U26). You hear a tone from the speaker (SP2), though it may

not be very loud.
Now push the press switch (S2) while pressing the same key. The

sound is louder now, because the press switch bypassed the 0.1mF

capacitor.

Project 315

Tone Stoppers

Capacitors can store electricity in small amounts. This

storage ability allows them to block stable electrical signals

and pass changing ones, making them useful in filtering and

delay circuits. Capacitors with higher values have more

storage capacity, and can pass changing signals more easily,
In this circuit the 0.1mF capacitor blocks most of the keyboard

tone signal. You can hear the difference when you press S2

to bypass the capacitor.

Project 318

Tone Stoppers (IV)

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