Photo brightness adjuster project 237, Amplified photo brightness adjuster project, Amplified big brightness adjuster project 239 – Elenco Snap Circuits® Deluxe Sound & Light Combo User Manual

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Photo Brightness

Adjuster

Project 237

Amplified Photo

Brightness

Adjuster

Project

238

Amplified Big

Brightness Adjuster

Project 239

Vary the brightness

of the color LED

(D8) by varying the

amount of light

shining on the

photoresistor (RP).
Next, replace the

color LED (D8) with

the red or white

LEDs (D1 & D6).

Vary the brightness of the color LED

(D8) by varying the amount of light

shining on the photoresistor (RP). Notice

that you have to cover the photoresistor

to make the color LED dim.
Next, replace the color LED (D8) with

the red or white LEDs (D1 & D6).

Some materials, such as Cadmium Sulfide, change their

resistance when light shines on them. Electronic parts made

with these light-sensitive materials are called photoresistors.

Their resistance decreases as the light becomes brighter.
The resistance of your Snap Circuits

®

photoresistor changes

from nearly infinite in total darkness to about 1kW when bright

light shines directly on it. Note that a black plastic case

partially shields the Cadmium Sulfide part.
Photoresistors are used in applications such as streetlamps,

which come on as it gets dark due to night or a severe storm.

In the preceding circuit the photoresistor

directly controlled the current through the

color LED. In this circuit the current

through the photoresistor is amplified by

the NPN transistor (Q2), so the light on

the photoresistor must get very dark

before the color LED brightness is

reduced.

Vary the brightness of the

color LED (D8) using the

500kW adjustable resistor

(RV3). The brightness won’t

change a lot; you may need

to view it in a dark room to

notice the difference. Placing

the egg attachment on the

color LED may help to notice

the brightness difference.

Compare this circuit to project 65 (Big

Brightness Adjuster). In project 65 the

color LED was dark for most of RV3’s

range. In this circuit the NPN transistor

(Q2) amplifies the current through

RV3, so the color LED is bright for

most of RV3’s range.

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