Build A Wacky Electronic Noise Maker

 By Ari Dubinsky

Difficulty: Intermediate
Estimated Completion Time: 6-8 hours

Musicians have their own signature sounds; why not make your own? Take a step up from your beginner kits and dive into the deep end of your musical fantasies. The wacky noise maker is sure to make you ears giggle when you hear what lies in the sleeping belly of this dormant monster. From unmistakable synth sweeps to wild vocal popping, you won't be able to put down this novel instrument.

Noise Maker Schematic


Noisemaker SchematicClick on link below for larger view


Item list is featured after the step-by-step guide.

FYI: This version of the noise maker was built without the addition of a second switch and is not the only way the noise maker can be constructed. Follow the schematic to fit your taste.

Step 1: (Fig 1) Working with a pad-per-hole perforated board (P/N 263223) for the first time can be a bit confusing, especially if your organizational skills aren't up to par. So, in order to plan your layout I would begin by soldering iron, pocket solder a couple of the socket leads (8-pin, 16-pin) to the board, so you can change your plan in case your first layout doesn't seem to work.

Step 2: (Fig 2) When you feel that your sockets are in a comfortable spot, begin to add the resistors (1.0Ω, 100KΩ, 4.7kΩ, 10KΩ, 1KΩ, 10MΩ). Do not cut the leads of the resistors yet; instead fold the leads over. We will use them as jumpers later on. Once you have added the resistors, you should have a pretty good feel about how your layout will be, so go ahead and solder the rest of the socket's leads.

Place sockets and resistors on board
Step 3: (Fig 3) Capacitors are next (0.1µF, 0.022µF, 100µF, 1µF, 470pF). Place them strategically and don't neglect the polarity. Don't cut the leads yet.

Step 4: (Fig 4) Add the transistor and make sure it is oriented correctly.

Add capacitors and transistors
Step 5: (Fig 5) When you flip the board you should be able to see a big hairy mess. Now you will begin to solder the leads to each other. Use the solder to bridge gaps between short distances and the extended leads of components for further distances. You may clip the leads once you have the parts connected.

Step 6: (Fig 6) A zoom in can help you see what I mean.

Soldering
Step 7: (Fig 7) There are instances where not everything can be attached from the bottom. We will use solid core wire on the topside to solve this problem. Continue to make your connections and begin to add your external hardware, e.g. potentiometers (100K, 1M), jack, battery snap , LED, and switch.

Step 8: (Fig 8) Insert your ICs (8-pin, 14-pin) and battery and flip the switch. If your LED lights up, it's usually a good sign. You can test it by running your noise maker through an amplifier via 1/4" instrument cable.

Add more components
Step 9: (Fig 9) Use masking tape to cover the surface of your enclosure. With a pen mark the spots where you will drill holes for the switch, LED, potentiometers, and input jack. I chose to place my jack on the side of the enclosure.

Step 10: (Fig 10) Use the screws and nuts to secure the board from the rear of the enclosure. The washers may act as risers.

making the box
Step 11: (Fig 11) Fit the hardware through the holes and lock the pieces into place using the washers and nuts they came with. Use hot glue for the LED.

Step 12: (Fig 12) Attach the knobs (19.8MM, 14.6MM) and rubber feet. It's up to you to decide which ones you would like to use.

Attach the knob and LED
Items List: (Some parts are purchased in multiples. Quantity shows how many individual pieces are needed.)

Description
Qty.
 Jameco P/N
Proto Board
1
 263223
Switch
1
 317228
0.1µF Capacitor
1
 151116
LM741CN IC
1
 24540
CD40106 IC
1
 785071
100KΩ Potentiometer
1
 255442
1MΩ Potentiometer
4
 255582
2N3904 Transistor
1
 178597
.022µF Capacitor
2
 15245
100µF Capacitor
1
 93761
4.7KΩ Resistor
4
 691024
1MΩ Resistor
4
 691585
100KΩ Resistor
1
 108214
10KΩ Resistor
1
 691104
1KΩ Resistor
2
 690865
Battery Snap
1
 101470
1µF Capacitor
2
 544956
10MΩ Resistor
1
 691817
Description
Qty.
 Jameco P/N
470pF Capacitor
2
 16109
Wire
1
 36768
Input Jack
1
 281738
9 Volt Battery
1
 2112461
8 PIN IC Socket
1
 112206
14 PIN Socket
1
 112214
Knob
2
 265025
Knob
3
 265077
Enclosure
1
 373608
LED
1
 34761
Nuts
4
 40943
Screws
4
 2094400
Washers
8
 106826
Rubber Feet
1
 142771
Masking Tape
1
 652172
Soldering Iron
1
 116572
Solder
1
 73576
 

Troubleshooting Issues:

LED will not light, sound isn't produced, turning the knobs doesn't affect the pulse-rate, etc.

1. Check the soldering job. Make sure the solder from leads don't touch each other.
2. Replace the battery.
3. Match components with the schematic's specifications.
3. Check for damaged components.
4. Make sure polarized components are oriented correctly on the board (e.g. IC, capacitors, and LEDs).


This project is based on a MusicFromOuterSpace.com project.
This project was assembled by Ari Dubinsky. Ari is a graduate of Carlmont High School, in Belmont, California and will be attending Cal Poly San Luis Obispo in the fall of 2010, pursuing a degree in Electrical Engineering. Ari has teamed up with Jameco to accelerate his learning as well as to lend a helping hand to a major electronics distributor. His interests include shredding on the guitar, martial arts, and music production.