The Ping-Pong shooter, as its name, is able to shoot Ping-Pong balls, and the machine can simulate a real-world situation that if there is a player in front of it, it starts shooting; otherwise, it stops working
Criteria of Success
1. A machine that can shoot
2. Able to control the machine i.e. control weather the ping-pong ball will shoot or not
3. Able to control the system with a laser dependent switch
PERT Chart
How it works:
The ping-pong shooter mainly contains three parts
1. A switch that is depends on a photoresistor and a light source(laser beam)
2. Two DC motors to shoot the balls
3. Stepping mother which acts likae a gate to control the flow of the ball
Main Component
- Photoresistor
- DC motors
- Stepping Motor (a8byj-48)
- Micro controller (89S51)
- Octal high voltage high current Darlington transistor arrays (ULN2803)
- Voltage regulator (L7805CV)
Shooter Body
Shooter Circuit
Main
Component
- Photoresistor
- DC motors
- Stepping Motor (a8byj-48)
- Micro controller (89S51)
- Octal high voltage high current Darlington transistor arrays (ULN2803)
- Voltage regulator (L7805CV)
ULN
2803
- A ULN2803 is an intergrated Circuit (IC) chip with a HIGH Voltage/High Current Darlington Transistor Array. It allows you to interface TTL signal with higher voltage/current loads
- The chip takes low level signals (operate at low voltages and low currents0 and acts as a relay of sorts itself, witching on or off a higher level signal on the opposite side.
L7805CV
- The 78xx family is commonly used in electronic circuits requiring a regulated power supply due to their ease-of-use and low cost
- I.E. 7805=5V 7812=12V
- Disadvantage: Input voltage always needs to be higher than the regulated voltage
Miscellaneous
Component
- Resistor (10k ohm *2)
- Capacitor (33 pF*2,1000nF*1)
- Oscillator(12MHz*1)
- Wires
- PVC tube (2" Diameter)
Schematic
Function
1: Switch
- Electronic switch on pin 9(reset) of microcontroller
- Using a photoresistor and a suitable resistor with voltage divider
- Photoresistor:
Bright
= Small resistance
Dark=Large
resistance
Voltage
out connect to ping 9
Ping
9: High = turn off, Low = turn on
Theoretical
Calculation
Photoresistor:
1K~14K ohm
R1,R2=10K
ohm
Vin:5V
Vin:5V
On:
Off:
Analysis
Light
on
Light
off
Function
2: DC Motor (Shooter)
- Two DC Motors- one spins counterclockwise, and the other spins clockwise
- Rubber on cap to increase the friction between surfaces
Function
3 : Stepping Motor (Gate)
- Brushless DC Motor
- Divide full rotation into a number of parts
- 28BYJ-48
- four phases five wires
- 12VDC
- 1100 ti 0110 to 0011 to 1001 to 1100
- Advantage: Precisely control the position of rotation
Serial
Prorammer
- Homemade programmer
- Connect to print pot
To
control the steeping Motor
we
use pre-programmed microcontroller
Criteria
of Success:
All
accomplished
Cost
|
Component
|
Price/unit
|
|
ULN2803
|
0.32
|
|
AT89S51
|
0.75
|
|
L7805CV
|
0.2
|
|
Oscillator(12MHz)
|
0.04
|
|
Laser Diode
|
0.99
|
|
PVC TUBE
|
3.00
|
|
Stepper Motor
|
0.40
|
|
DC Motor
|
0.00
|
|
Miscellenuos
i.e. resistor, capacitor
|
0.05
|
|
Bread Board
|
1.67
|
|
Total
|
7.42
|
- Home made
Online/eBay
Joola
Joola ipong Topspin Table tennis Ball Machine
$7700
Conclusion:
cheaper
to build one than buy one
