Elenco SC3DMEG Owner's manual

Brand: Elenco

Model: SC3DMEG

Category: Toys & accessories

Type: Owner's manual

any means; electronic, photocopying, or otherwise without written permission from the publisher.

U.S. Patents: 7,144,255; 7,273,377, & patents pending

Projects 1 - 163

Instruction Manual

8-108

AGES

Project 40

Project 36

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Most circuit problems are due to incorrect assembly, always

double-check that your circuit exactly matches the drawing for it.

2. Be sure that parts with positive/negative markings are

positioned as per the drawing.

3. Be sure that all connections are securely snapped.

4. Try replacing the batteries.

Elenco

is not responsible for parts damaged due to

incorrect wiring.

Basic Troubleshooting

Note: If you suspect you have damaged parts, you can follow the

Advanced Troubleshooting procedure on page 11 to determine which

ones need replacing.

Basic Troubleshooting 1

Parts List 2 - 3

How to Use Snap Circuits

4 - 6

About Your Snap Circuits

Parts 7 - 8

Introduction to Electricity 9

DOs and DON’Ts of Building Circuits 10

Advanced Troubleshooting 11

Project Listings 12 - 13

Projects 1 - 163 14 - 92

Bonus Circuits 93 - 96

Going Further 97

Other Snap Circuits

Products 98

WARNING: SHOCK HAZARD - Never connect

Snap Circuits

to the electrical outlets in your home

in any way!

Table of Contents

WARNING: Always check your

wiring before turning on a circuit.

Never leave a circuit unattended

while the batteries are installed.

Never connect additional batteries or

any other power sources to your

circuits. Discard any cracked or

broken parts.

Adult Supervision:

Because children’s abilities vary so

much, even with age groups, adults

should exercise discretion as to

which experiments are suitable and

safe (the instructions should enable

supervising adults to establish the

experiment’s suitability for the child).

Make sure your child reads and

follows all of the relevant instructions

and safety procedures, and keeps

them at hand for reference.

This product is intended for use by

adults and children who have

attained sufficient maturity to read

and follow directions and warnings.

Never modify your parts, as doing so

may disable important safety

features in them, and could put your

child at risk of injury.

CAUTION: High intensity light. Do

not look directly at the white LED

(D6).

● Use only 1.5V AA type, alkaline

batteries (not included).

● Insert batteries with correct

polarity.

● Non-rechargeable batteries

should not be recharged.

Rechargeable batteries should

only be charged under adult

supervision, and should not be

recharged while in the product.

● Do not connect batteries or

battery holders in parallel.

● Do not mix old and new batteries.

● Do not mix alkaline, standard

(carbon-zinc), or rechargeable

(nickel-cadmium) batteries.

● Remove batteries when they are

used up.

● Do not short circuit the battery

terminals.

● Never throw batteries in a fire or

attempt to open its outer casing.

●

Batteries are harmful if swallowed,

so keep away from small children.

Batteries:

WARNING: CHOKING HAZARD - Small parts. Not

for children under 3 years.

Conforms to all applicable U.S. government requirements and

CAN ICES-3 (B)/NMB-3 (B).

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Important: If any parts are missing or damaged, DO NOT RETURN TO RETAILER. Call toll-free (800) 533-2441 or e-mail us at:

[email protected]. Customer Service ● 150 Carpenter Ave. ● Wheeling, IL 60090 U.S.A.

Parts List (Colors and styles may vary) Symbols and Numbers

Qty. ID Name Symbol Part # Qty. ID Name Symbol Part #

r 3

1-Snap Wire

6SC01

r 4

Base Grid Support

6SCBGSUP

r 6

2-Snap Wire

6SC02

r 1

Illusion Cards

6SCCARD1

r 3

3-Snap Wire

6SC03

r 1

Compass

6SCCOM

r 1

4-Snap Wire

6SC04

r 1

Blue LED

6SCD9

r 1

5-Snap Wire

6SC05

r 1

Blink Red LED

6SCD11

r 1

6-Snap Wire

6SC06

r 1

Color2 LED

6SCD12

r 2

3D Snap

6SC3DSNAP

r 1

EGG

6SCEGG

r 1

Battery Holder - uses

three (3) 1.5V type

“AA” (not Included)

6SCB3

r 1

Mounting Base

6SCFMB

r 1

Base Grid

(11.0” x 7.7”)

6SCBG

r 1

Fiber Optic Festive Tree

6SCFT2

r 3

Base Grid Mini

(7.7” x 5.5”)

6SCBGM

r 1

Small Gear (22T)

6SCGEAR5

r 1

Base Grid Mini 2-Side

(7.7” x 5.5”)

6SCBGM2

r 1

Large Gear (30T)

6SCGEAR6

D11

D12

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Parts List (Colors and styles may vary) Symbols and Numbers

Important: If any parts are missing or damaged, DO NOT RETURN TO RETAILER. Call toll-free (800) 533-2441 or e-mail us at:

[email protected]. Customer Service ● 150 Carpenter Ave. ● Wheeling, IL 60090 U.S.A.

Qty. ID Name Symbol Part # Qty. ID Name Symbol Part #

r 1

Jumper Wire (Black) 6SCJ1

r 1

Illusion Card Holder

6SCMBASE2

r 1

Jumper Wire (Red) 6SCJ2

r 1

Mirror Ball

6SCMIRBAL

r 2

Jumper Wire (Blue) 6SCJ4

r 1

Slide Switch 6SCS1

r 1

4.5V Lamp 6SCL4

r 1

Press Switch 6SCS2

r 1

String 6SCM1S

r 1

Reed Switch 6SCS9

r 1

Clear Motor 6SCM4

r 1

Screw PM 3x8 mm

6SCSCREW3

r 1

Wind Fan 6SCM4B

r 6

Stabilizer 6SCSTAB

r 1

Orange Motor 6SCM9

r 1

Melody IC 6SCU32

r 1

Gear Insert 6SCM9B

r 4

90° Vertical Snap Wire

6SCV1

r 1

Magnet 6SCMAGFF

r 2

45° Vertical Snap Wire

6SCV2

U32

You may order additional / replacement parts at our website: www.snapcircuits.net

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Snap Circuits

uses building blocks with snaps

to build the different electrical and electronic

circuits in the projects. Each block has a

function: there are switch blocks, light blocks,

battery blocks, different length wire blocks, etc.

These blocks are different colors and have

numbers on them so that you can easily

identify them. The blocks you will be using are

shown as color symbols with level numbers

next to them, allowing you to easily snap them

together to form a circuit.

For Example:

This is the slide switch, it is green and has the

marking on it. The part symbols in this

booklet may not exactly match the appearance

of the actual parts, but will clearly identify them.

This is a wire block which is blue and comes

in different wire lengths.

This one has the number , , , ,

or on it depending on the length of the wire

connection required.

There is also a 1-snap wire that is used as a

spacer or for interconnection between different

layers.

You need a power source to build each circuit.

This is labeled and requires three (3) 1.5V

“AA” batteries (not included).

When installing a battery, be sure the spring

is compressed straight back, and not bent up,

down, or to one side.

One large and four smaller clear plastic base

grids are included with this kit to help keep the

circuit blocks properly spaced. You will see

evenly spaced posts that the different blocks

snap into. The large base has rows labeled A-

G and columns labeled 1-10, and the small

base has rows labeled A-E and columns

labeled 1-7. It should be obvious whether to

use a small base grid or a large base grid. For

small circuits that only need one grid, either

size may be used.

Next to each part in every circuit drawing is a

small number in black. This tells you which

level the component is placed at. Place all

parts on level 1 first, then all of the parts on

level 2, then all of the parts on level 3, etc.

Some circuits use the jumper wires to make

unusual connections. Just clip them to the

metal snaps or as indicated.

When assembling the 3D circuits, the order in

which parts are installed is important. In

particular, the vertical snap wires (V1) need to

be snapped onto the mini base grid first and

then the mini base grid is slid into the base grid

support as shown below. One of the small

grids has pegs on both sides and six thru-

snaps. Some projects will indicate that this grid

must be (or must not be) used in a specific

location, otherwise it may be used

interchangeably with the other small grids.

How to Use SnapCircuits

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Due to the complex nature of building 3D

circuits, the circuit diagrams use special

symbols that may need additional clarification.

One such example is the symbol for the

vertical snap wire (V1). It consists of two parts,

the horizontal base and vertical stem. In the

illustration below, the base is attached to the

large base grid and the stem is attached to the

mini base grid. The symbol makes V1 appear

as two separate parts, but in reality the symbol

is connected at the red circular ends.

The 45 degree vertical snap wire (V2) is similar

to V1 but mounts at a 45 degree angle

Another symbol of note is the base grid

support. It is important to pay attention to the

orientation of the part in the diagram since it is

not symmetrical. The figure below shows the

symbol with the narrow channel on top. This

corresponds to the 3D rendering showing the

base grid support orientation.

When inserting the base grid into the base grid

support, it is a good idea to insert an area on

the base grid that doesn’t have raised letters

or numbers. The raised text can interfere with

the insertion or cause a tight fit between the

base grid and base grid support.

To install the base grid support onto the base

grid, align the holes of the support with the

base grid pegs in the desired location on the

base grid and press down firmly on the base

grid support. Make sure that the base grid

support is fully seated on the base grid.

The stabilizer is used to connect base grids on

their corners or edges. With eight slots, the

stabilizer allows the base grids to be mounted

in increments of 45 degrees. To attach the

stabilizer to the base grid, simply align the

desired grooves in the stabilizer with the edges

of the base grids and press down. The figure

below shows how the stabilizer symbol is

presented in the manual and the 3D rendering

of the stabilizer mounted to two base grids.

Some projects use the illusion cards. Separate

them (if they came together), push one into the

Illusion card holder.

If at any point the

illusion cards become to

loose to stay in the card holder you can add a

small strip of paper to insure the card fits snug

in the holder.

Then push the holder onto the shaft of the

clear motor (M4).

How to Use SnapCircuits

-5-

Note: While building the projects, be careful not

to accidentally make a direct connection across

the battery holder (a “short circuit”), as this may

damage and/or quickly drain the batteries.

Note: Go to: www.snapcircuits.net/sc3dmeg

for interactive 3D pictures to help with

building the 3D circuits.

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How to Use SnapCircuits

The clear motor (M4) will often have the wind

fan mounted on it; simply push the fan onto the

shaft. To remove it, push up on it with a

screwdriver or your thumbs, being careful not

to break it.

This set contains three LED attachments, which

can be mounted on the LED modules (D9, D11,

and D12) to enhance their light effects. The egg

attachment is mounted directly on the LEDs,

but

the fiber optic festive tree must be mounted

using the mounting base, as shown. This is

described in the projects.

In some

projects the mirror ball is placed on the orange

motor (M9).

In some projects a gear is mounted on the

orange motor using the gear insert.---

In some projects one or two components are

attached to a gear using the 3D snaps

Egg

Fiber Optic Festive

Tree

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About Your Snap Circuits

Parts

(Part designs are subject to change without notice).

The base grids are platforms for mounting

parts and wires. They function like the printed

circuit boards used in most electronic

products, or like how the walls are used for

mounting the electrical wiring in your home.

This set has two sizes, which can be placed

together to form larger grids. One of the small

grids has pegs on both sides and 6 thru-snaps,

to allow assembly of circuits on both sides.

The slide & press switches (S1 &S2)

connect (pressed or “ON”) or disconnect (not

pressed or “OFF”) the wires in a circuit. When

ON they have no effect on circuit performance.

Switches turn on electricity just like a faucet

turns on water from a pipe.

The reed switch (S9) is an electrical switch

that can be controlled by a magnet. It has two

metal contacts close together. The magnetic

field from the magnet makes the contacts

come together, completing a circuit just like

other switches do.

The blue snap

wires are wires

used to connect

c o m p o n e n t s .

They are used

to transport

electricity and

do not affect

circuit performance. They come in different

lengths to allow orderly arrangement of

connections on the base grid.

The vertical snap wires (V1) and 45 degree

vertical snap wires (V2) make connections

between two dimensions, allowing electricity to

go up a wall.

The jumper wires (red, black, & blue) make

flexible connections for times when using the

snap wires would be difficult. They also are

used to make connections off the base grid.

Wires transport electricity just like pipes are

used to transport water. The colorful plastic

coating protects them and prevents electricity

from getting in or out.

The batteries (B3) produce an electrical

voltage using a chemical reaction. This

“voltage” can be thought of as electrical

pressure, pushing electricity through a circuit

just like a pump pushes water through pipes.

This voltage is much lower and much safer

than that used in your house wiring.

Using more

batteries increases the “pressure”, therefore, more

electricity flows.

BASE GRID

SNAP WIRES, VERTICALSNAP

WIRES, & JUMPER WIRES

BATTERY HOLDER

SLIDE&PRESS SWITCHES

Battery Holder (B3)

REED SWITCH (S9)

Slide &Press

Switches

(S1 & S2)

-7-

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About Your Snap Circuits

Parts

The melody IC(U32) contains a specialized

sound-generation integrated circuit (IC), a

small speaker, and a few supporting

components. The IC has a recording of the

melody, which it makes into an electrical signal

for the speaker. The speaker converts the

signal into mechanical vibrations. The

vibrations create variations in air pressure,

which travel across the room. You “hear”

sound when your ears feel these air pressure

variations.

A light bulb, such as in the 4.5V lamp (L4),

contains a special thin high-resistance wire.

When a lot of electricity flows through, this wire

gets so hot it glows bright. Voltages above the

bulb’s rating can burn out the wire.

The blue, blink red, and color2 LEDs (D9,

D11 & D12) are light emitting diodes, and may

be thought of as a special one-way light bulbs.

In the “forward” direction, (indicated by the

“arrow” in the symbol) electricity flows if the

voltage exceeds a turn-on threshold

brightness then increases. The blink red LED

contains a microcircuit that turns it on and off.

The color2 LED contains red, green, and blue

LEDs, with a micro-circuit controlling them. A

high current will burn out an LED, so the

current must be limited by other components

in the circuit (Snap Circuits

LEDs have

internal resistors added, to protect them in

case you make wiring mistakes). LEDs block

electricity in the “reverse” direction.

The clear motor (M4) converts electricity into

mechanical motion. An electric current

through the motor will turn the shaft. It can

also be used as a generator, since it produces

an electric current when the shaft is turned.

How does electricity turn the shaft in the

motor? The answer is magnetism. Electricity

is closely related to magnetism, and an electric

current flowing in a wire has a magnetic field

similar to that of a very, very tiny magnet.

Inside the motor are several coils of wire with

many loops. If a large electric current flows

through the loops, the magnetic effects

become concentrated enough to move the

coils. The motor has a magnet inside, so as

the electricity moves the coils to align them

with the permanent magnet, the shaft spins.

The orange motor (M9) is a motor with a built-

in gearbox. The gearbox makes the shaft spin

slower but with greater force. Do not try to spin

its shaft manually to generate electricity

because you may break it. The middle snap is

only used for mechanical stability.

SOUND MODULE

MOTORS

LEDs

LAMP

-8-

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Introduction to Electricity

What is electricity? Nobody really knows. We only know how to produce it,

understand its properties, and how to control it. Electricity is the movement of sub-

atomic charged particles (called electrons) through a material due to electrical

pressure across the material, such as from a battery.

Power sources, such as batteries, push electricity through a circuit, like a pump

pushes water through pipes. Wires carry electricity, like pipes carry water. Devices

like LEDs, motors, and speakers use the energy in electricity to do things. Switches

and transistors control the flow of electricity like valves and faucets control water.

Resistors limit the flow of electricity.

The electrical pressure exerted by a battery or other power source is called

voltage and is measured in volts (V). Notice the “+” and “–” signs on the battery;

these indicate which direction the battery will “pump” the electricity.

The electric current is a measure of how fast electricity is flowing in a wire, just

as the water current describes how fast water is flowing in a pipe. It is expressed

in amperes (A) or milliamps (mA, 1/1000 of an ampere).

The “power” of electricity is a measure of how fast energy is moving through a

wire. It is a combination of the voltage and current (Power = Voltage x Current). It

is expressed in watts (W).

The resistance of a component or circuit represents how much it resists the

electrical pressure (voltage) and limits the flow of electric current. The relationship

is Voltage = Current x Resistance. When the resistance increases, less current

flows. Resistance is measured in ohms (W), or kilo ohms (kW, 1000 ohms).

Nearly all of the electricity used in our world is produced at enormous generators

driven by steam or water pressure. Wires are used to efficiently transport this

energy to homes and businesses where it is used. Motors convert the electricity

back into mechanical form to drive machinery and appliances. The most important

aspect of electricity in our society is that it allows energy to be easily transported

over distances.

Note that “distances” includes not just large distances but also tiny distances. Try

to imagine a plumbing structure of the same complexity as the circuitry inside a

portable radio - it would have to be large because we can’t make water pipes so

small. Electricity allows complex designs to be made very small.

There are two ways of arranging parts in a circuit, in series or

in parallel. Here are examples:

Placing components in series increases the resistance; highest

value dominates. Placing components in parallel decreases the

resistance; lowest value dominates.

The parts within these series and parallel sub-circuits may be

arranged in different ways without changing what the circuit

does. Large circuits are made of combinations of smaller series

and parallel circuits.

Series Circuit

Parallel Circuit

-9-

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DOs and DON’Ts of Building Circuits

Placing a 3-snap wire directly

across the batteries is a

SHORT CIRCUIT.

This is also a

SHORT CIRCUIT.

When the slide switch (S1) is turned on, this large circuit has a SHORT

CIRCUIT path (as shown by the arrows). The short circuit prevents any

other portions of the circuit from ever working.

NEVER

DO!

NEVER

DO!

NEVER

DO!

NEVER

DO!

You are encouraged to tell us about new programs and circuits you create.

If they are unique, we will post them with your name and state on our

website at: www.snapcircuits.net/learning_center/kids_creation.

Send your suggestions to ELENCO

: [email protected].

ELENCO

provides a circuit designer so that you can make your own Snap

Circuits

drawings. This Microsoft

Word document can be downloaded

from: www.snapcircuits.net/learning_center/kids_creation or through

the www.snapcircuits.net website.

Warning to Snap Circuits

owners: Do not connect

additional voltage sources from other sets, or you may

damage your parts. Contact ELENCO

if you have questions

or need guidance.

Examples of SHORT CIRCUITS - NEVER DO THESE!!!

WARNING: SHOCK HAZARD - Never connect Snap Circuits

to the electrical outlets in your home in any way!

After building the circuits given in this booklet, you may wish to experiment on your

own. Use the projects in this booklet as a guide, as many important design concepts

are introduced throughout them. Every circuit will include a power source (the

batteries), a resistance (which might be a motor, melody IC, or LED (which has an

internal protection resistor), etc.), and wiring paths between them and back.

You

must be careful not to create “short circuits” (very low-resistance paths across the

batteries, see examples below) as this will damage components and/or quickly drain

your batteries. Elenco

is not responsible for parts damaged due to incorrect

wiring.

Here are some important guidelines:

ALWAYS

USE EYE PROTECTION WHEN EXPERIMENTING ON YOUR OWN.

ALWAYS include at least one component that will limit the current through a

circuit, such as a motor, melody IC, or an LED (which has an internal

protection resistor).

ALWAYS use switches in conjunction with other components that will limit the

current through them. Failure to do so will create a short circuit

and/or damage those parts.

ALWAYS disconnect your batteries immediately and check your wiring if

something appears to be getting hot.

ALWAYS check your wiring before turning on a circuit.

NEVER connect to an electrical outlet in your home in any way.

NEVER leave a circuit unattended when it is turned on.

NEVER try to turn the shaft of the orange motor (M9) by hand or with tools, as

this may break it.

For all of the projects given in this book, the parts may be arranged in different

ways without changing the circuit. For example, the order of parts connected in

series or in parallel does not matter — what matters is how combinations of

these sub-circuits are arranged together.

3D Construction: Motors or other parts that produce motion (which you may

have from other snap Circuits

sets) should only be mounted overhead or on

walls with great care, as the vibrations they produce could cause them to fall.

The circuits in this set have been checked with the parts shown in them.

-10-

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Advanced Troubleshooting

(Adult supervision recommended)

Elenco

is not responsible for parts damaged due to incorrect

wiring.

If you suspect you have damaged parts, you can follow

this procedure to systematically determine which ones

need replacing:

1. Lamp (L4), blue LED (D9), blink red LED(D11), color2 LED

(D12), melody IC(U32), and battery holder(B3):

Place

batteries in holder. Place the lamp directly across the battery

holder, it should light. Place the LEDs (D9, D11, & D12) directly

across the battery holder one at a time (LED + to battery +),

the LED should light (D11 should be blinking, and D12 should

slowly change colors). Place the melody IC directly across the

battery holder (+ to +), it should play a tune. If none work, then

replace your batteries and repeat, if still bad then the battery

holder is damaged.

Clear motor (M4) and orange motor (M9): Place the clear

motor directly across the battery holder, the shaft should spin

(you can place the green fan on the shaft so the spinning is

easy to see). Place the orange motor directly across the battery

holder (note that the middle snap on the motor is not used), the

shaft should spin.

Jumper wires: Use this mini-

circuit to test each jumper wire,

the lamp should light.

Vertical snap wires (V1) and 45

degree vertical snap wires (V2):

Use this mini-circuit to test each of

the vertical snap wires (V1 & V2),

one at a time. The lamp should

light.

Snap wires: Use this mini-circuit to test each of the snap

wires, one at a time. The lamp

should light.

Slide switch (S1), press switch (S2), and reed switch (S9):

Build project 1; if the color2 LED (D12) doesn’t light then the

slide switch is bad. Replace the slide switch with the press

switch to test it. Replace the press switch with the reed switch

and hold the magnet near it to test it, there should be a magnet

position that turns on the LED, or the reed switch is bad.

ELENCO

150 Carpenter Avenue

Wheeling, IL 60090 U.S.A.

Phone: (847) 541-3800

Fax: (847) 520-0085

e-mail: [email protected]

Website: www.elenco.com

You may order additional / replacement parts at:

www.snapcircuits.net

-11-

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-12-

Project # Description Page #

1 Color Light 14

2 Blue Light 14

3 Red Light 14

4 Lamp Light 15

5 Play a Melody 15

6 Fun Seven 15

7 Rotation light 16

8 Rotation Lights 16

9 Fan 16

10 Suction Fan 16

11 Mirror Ball 16

12 Spinning Horizontal Lights 17

13 Ceiling Light 19

14 Efficient Ceiling light 21

15 Ceiling Speaker 21

16 Ceiling Fan 21

17 Four Lights 21

18 Lights & Sound 21

19 Lights & Motion 21

20 Festive House 22

21 Gears 23

22 Inverse Gear Ratio 23

23 Reed Switch 24

24 Magnet Controlled Sound 24

25 Magnet Controlled Motor 24

26 An Optical Illusion 24

27 More Optical Illusions 24

28 Funky Blinking Lights 25

Project # Description Page #

29 Funky Sounds 25

30 Low Funky Sounds 25

31 Variable Speed Fan 25

32 New Speed Fan 25

33 Any Angle LEDs 26

34 Any Angle LEDs Variants 26

35 Super Spinning Magnet 27

36 Spinning Vertical Lights 28

37 Faster Spinning Vertical Lights 28

38 Vaulted Ceiling House 29

Vaulted Ceiling House with Roof Lights

40 Box Cover Circuit 31

41 Disco Effects 33

42 Disco Effects (II) 34

43 Overhead Lights 35

44 Overhead Lights & More 36

45 Lifting 37

46 Windmill 38

47 Mini Windmill 38

48 Tall Angled Roof House 39

49 Tall Angled Roof House Variants 41

Enhanced Tall Angled Roof House

Enhanced Tall Angled Roof House Variants

52 House with Doorbell 42

53 Festive House with Roof Lights 43

54 Chandelier Circuit 45

55 Quiet Chandelier Circuit 46

56 Indoor & Outdoor Lights 47

Project # Description Page #

57 Indoor & Outdoor 48

58 Disco Lights 49

59 Angled Disco Projector 49

60 Both Sides Lights 50

61 Quiet Both Sides Lights 50

62 Spinning Magnet 50

63 Disco Spotlight 51

64 Spotlight 51

65 Spin the Magnet 51

66 2-Speed Mirror Ball 52

67 2-Speed Fan 52

68 Musical Mirror Ball 52

69 Musical Fan 52

70 Tree House 53

71 Brighter Tree House 54

72 Blue Tree House 54

73 Highlighted Tree House 55

74 Blinking Tree House 55

75 Egg House 55

76 Silent Tree House 55

77 Tree House with Fan 55

78 Manual Rotation Vertical Lights 56

Manual Rotation Vertical Lights Variants

80 Stay with the Magnet 56

81 Ceiling Disco Ball 57

82 Rotating Field 59

83 Flash & Sound 59

84 Lifter 60

Project Listings

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Project Listings

Project # Description Page #

85 Fast Lifter 61

86 Magnet Fan 61

87 Fast Magnet Fan 61

88 45° LEDs 61

89 Pivot LED bar 61

90 Side Ways 62

91 Side Ways 2 62

92 Swing LEDs 63

93 Swing LEDs ? 63

94 Follow the Field 63

95 Rocking Switch 64

96 Disco Ball Switch 64

97 Disco Ball Melody 64

98 Rocking Switch LEDs 64

99 Speed Change 65

100 Fan Power 65

101 Fan Power 2 65

102 Door Bell 66

103 Door Bell Lights 66

104 Fan Speed 66

105 Disco Ball Switch 66

106 Fan Speed 67

107 Manual Fan Speed 67

108 Fan Speed 2 67

109 Mirror Ball Speed Control 68

110 Mirror Ball Speed Control (II) 68

111 Mirror Ball Speed Control (III) 68

112 Fan Speed Control 68

Project # Description Page #

113 Illusion Card Speed Control 68

114 Generator 69

115 Generator 2 69

116 Water Completes the Circuit 69

117 You Complete the Circuit 69

118 Arrow LEDs 70

119 Arrow Melody 70

120 Light Stairs 71

121 Light Stairs 2 71

122 Egg Head 72

123 Robot 72

124 Plane 73

125 Mini Plane 74

126 Music Mini Plane 74

127 Triple Series 75

128 Triple Parallel 75

129 AND Circuit 76

130 OR Circuit 76

131 Back EMF 77

132 EMF 2 77

133 Lamp & Fan Independent 77

134 LEDs in Series 78

135 LEDs in Parallel 78

136 Cross Over 78

137 Cross Over Tree 78

138 Lighted Cross 79

139 Green Dot 79

140 2-Sided Grid 79

Project # Description Page #

141 Wall Fan 80

142 Wall Fan 2 80

143 Green Light Ball 80

144 Showcase 81

145 Current Law 82

146 Two Pull Power 82

147 On Off 83

148 On Off 2 83

149 Twice On Off 83

150 Twice On Off 2 83

151 Twice On Off 3 83

152 Compass 84

153 Downdraft 85

154 Strobe 87

155 Super Spotlight 88

156 Super Spotlight (II) 88

157 Tower 89

158 Mega Tower 90

159 Super Tower 91

160 Spinning Reed Switch 92

161 Spinning Reed Switch 2 92

162 Spinning Reed Switch 3 92

163 Spinning Reed Switch 4 92

B1 Bonus Spinning Mirror Beeper 93

Bonus Spinning Mirror Beeper 90°

B3 Bonus Blinking Lamp 94

B4 Bonus Reflection Light 95

B5 Bonus House with Loft 95

SC-3DMEG_Manual.qxp_SC-3Di_Manual_060816 6/19/17 7:30 PM Page 14

Project 1

Color Light

Snap Circuits

uses electronic blocks that snap onto a clear plastic base grid to build

different circuits. These blocks have different colors and numbers on them so you can

easily identify them. This set contains both large (11” x 7.7”) and small (7.7” x 5.5”) base

grids; you may use either size for this small circuit.

Build the circuit shown on the left by placing all the parts with a black 1 next to them on

the base grid first. Then, assemble parts marked with a 2. Install three (3) “AA” batteries

(not included) into the battery holder (B3) if you have not done so already; be sure the

battery springs are compressed straight back, and not bent up, down, or to one side.

Turn on the slide switch (S1), and enjoy the light show from the color2 LED (D12). For

best effects, place one of the LED attachments (fiber optic festive tree or egg), and dim

the room lights. The fiber optic festive tree must be used with its mounting base.

Project 2 Blue Light

Modify the preceding circuit by replacing the color2

LED (D12) with the blue LED (D9), as shown. The

blue LED is brighter, but does not change colors.

Modify the preceding circuit by replacing

the blue LED (D9) with the blink red

LED (D11), as shown. The blink red

LED flashes about once a second.

Project 3 Red Light

Snappy says when you turn on the slide switch,

electricity flows from the batteries, through the

color LED and back to the battery through the

switch. If the switch is off, the flow of electricity is

blocked, and the color2 LED won’t light.

LEDs are light emitting diodes, which convert

electrical energy into light. The color of the light

depends on the characteristics of the material used

in them. The color2 LED actually contains separate

red, green, and blue lights, with a micro-circuit

controlling them; the colors can be combined to

produce yellow, cyan, purple, and white.

NOTE: this circuit (and many others in this book) have an LED

being used without a resistor or other component to limit the

electric current through it. Normally this could damage an LED but

your Snap Circuits

LEDs include internal protection resistors, and

will not be damaged. Be careful if you later use other electrical sets

with unprotected LEDs.T he festive tree and egg may also be used

with other Snap Circuits® LEDs from different sets.

Placement

Level

Numbers

LED Attachments

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Project 4 Lamp Light

Modify the preceding circuit to be this

one. Turn on the slide switch (S1) to light

the lamp (L4).

The lamp (L4) converts electricity into light. It is an

incandescent light bulb, just like other incandescent bulbs

in homes except smaller. In an incandescent bulb

electricity heats up a high-resistance wire until it glows,

producing light. Incandescent light bulbs are very

inefficient, converting less than 5% of the electricity used

into light, with the rest becoming heat.

LEDs are much more efficient than incandescent light

bulbs, and are increasingly being used for home lighting

and flashlights.

Project 5

Play a Melody

Build this circuit, then turn on the slide

switch (S1) to play a melody with the

melody IC (U32).

Project 6

Build the circuit shown, and place the fiber optic festive

tree in its mounting base and on the blink red LED (D11).

Turn on the slide switch (S1) and enjoy the show.

This circuit has four lights, 2 motors,

and music. Lights, sound, & motions!

-15-

Fun Seven

SC-3DMEG_Manual.qxp_SC-3Di_Manual_060816 6/19/17 7:30 PM Page 16

Project 7 Rotation Light

Build the circuit as shown; it has

two 3D snaps mounted on two 90

degree vertical snap wires (V1),

and then the color2 LED (D12) is

mounted on the 3D snaps.

Turn on the circuit and the color2

LED lights. Rotate the LED to any

position.

You can replace the color2 LED

with the blue LED (D9), blink red

LED (D11), or lamp (L4).

Note: if the LED assembly fit seems

loose, add a 1-snap wire between

one of the 3D snaps and a V1.

Use the preceding circuit

but add a second light

(blue LED (D9), blink red

LED (D11), or lamp (L4)) to

the female snaps on the

3D snaps, as shown. The

“+” side of the LEDs should

be oriented to the right.

Project 8

Rotation

Lights

The 3D snaps enable

you to rotate a light to

any position.

Project 9 Fan

Build the circuit and place the wind fan on the clear motor

(M4). Turn on the slide switch (S1) to spin the fan. Place

your hand near the fan without touching it, and you can feel

air being blown up towards you.

Project 10 Suction Fan

Use the preceding circuit but reverse the clear

motor (M4). Now the fan sucks air downward.

Project 11 Mirror Ball

Build the circuit and place the mirror ball on the

orange motor (M9). Turn on the slide switch (S1) to

spin the mirror ball.

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Project 12 Spinning Horizontal Lights

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SC-3DMEG_Manual.qxp_SC-3Di_Manual_060816 6/19/17 7:30 PM Page 18

Assembly (adult supervision recommended):

1. Place base grid supports and orange motor (M9) on base grid A.

Place the small gear on the gear insert and mount on the orange

motor. The teeth on the gear should face up.

2. Mount the blue & color2 LEDs (D9 & D12) to the 3D snaps, and

attach the large gear and a 1-snap wire, as shown. The teeth on the

gear should face the LEDs, and the “+” side of the LEDs should be

towards the gear.

3. Mount parts on grids B & C, and install in base grid supports in grid

A. The pegs should be facing inward.

4. Mount the LED assembly from step 2 between the 5-snap wire on

grid B and the 2-snap wire on grid C, as shown. The teeth on the large

and small gears should align.

5. Place remaining parts on grid A.

Turn on the slide switch (S1). The color2 and blue LEDs should light,

and be rotated by the gears.

Note: If the gears do not rotate properly, you may get better

performance if you spread the tops of the mini base grids apart. You

can do this by adding another base grid as a “roof” and securing with 4

stabilizers, as done in project 20.

-18-

Note: Go to: www.snapcircuits.net/sc3dmeg

for interactive 3D pictures to help with

building the 3D circuits.

SC-3DMEG_Manual.qxp_SC-3Di_Manual_060816 6/19/17 7:30 PM Page 19

Project 13

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Ceiling Light

Think of this circuit

as a room with a

ceiling light fixture.

Note: Go to: www.snapcircuits.net/sc3dmeg

for interactive 3D pictures to help with

building the 3D circuits.

SC-3DMEG_Manual.qxp_SC-3Di_Manual_060816 6/19/17 7:30 PM Page 20

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Elenco SC3DMEG Owner's manual

Brand: Elenco

Model: SC3DMEG

Category: Toys & accessories

Type: Owner's manual

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Elenco SC3DMEG Owner's manual

Elenco SC3DMEG Owner's manual

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