Musical Tesla Coil Michael Adams Roger Baudier Jonathan Hoffpauir Joseph Werling
Milestone 1 Goals Control Circuit: –Finish building and test Secondary Circuit: –Measure the inductance, capacitance, and impedance of the secondary coil –Attach the top load Power Supply: –Finish the power supply Transmission System –Build the system –Begin testing the system User Input System: –Get input from the keyboard –Begin implementing the key press algorithm. –Should be functioning, but not complete. We will test different algorithms on the coil once the systems are assembled.
Control Circuit Progress at Milestone 1: –Circuit assembled –Output at transformer tested
Control Circuit Without half-bridge load With half-bridge load
Control Circuit New circuit design –Emitter-follower –Transformer resistor
Control Circuit Half-bridge input with emitter-follower Half-bridge input with emitter-follower and transformer resistor
Control Circuit Current output
Control Circuit Milestone 1 goals –Finish building and test Future goals –Get half-bridge working –Tune the coil –Integrate 555 timer and antenna –Build backup design (if necessary)
Secondary Circuit Progress Milestone 1 goals –Measure the inductance, capacitance, and impedance of the secondary coil –Attach the top load Progress made Cut extra PVC pipe off of Coil –2 in. left on top –1 in. left on bottom Measured Inductance of Coil Constructed Top Load –Measured capacitance Secondary Circuit Complete
Secondary Coil Measured Inductance L = mH Measure Resistance R = Ω
8 in. Diameter Top Load Measure Capacitance C = 5.8 pF
6 in. Diameter Top Load Measured Capacitance C = 11.7 pF
Secondary Coil
Power Supply Milestone 1 goals. –Finish the power supply. Progress from Milestone 1 –Secondary supply finished and tested. –Primary supply wired and tested. –Addition of 10 Amp breaker. –Terminal block added as capacitor bleed.
Power Supply Secondary supply –Added 5 v regulator
Power Supply Primary supply –Full wave rectified 120Vac. –1500uF smoothing capacitor. –16 gauge wire.
Power Supply Breaker –10 Amp breaker added to limit current and when open, isolates the high voltage supply from control circuit.
Power Supply Terminal block –Used to bleed the large primary capacitor. –Currently contains a 1 kΩ resistor. –Drains capacitor in ~10 seconds.
Transmission System Milestone 1 goals –Build the system –Begin testing the system Progress Made –System completely built –Testing/troubleshooting in progress
Transmission System Originally Tested with Resistor in the right circuit to 190 kOhms With more testing, by increasing the Resistor to 470 kOhms, the DC Offset was reduced to 1V and P-P was increased to 2.6V
Transmission System Testing Need to design an Inverter Amplifier Circuit Need to determine how the 1V DC Offset will affect the Input to the control circuitry
User Input System Last semester’s design: –Problems with this design
User Input System New circuit design –Optocoupler
User Input System Current progress –Getting MIDI signals –Data corruption issue –Developing key press algorithms –Demonstration
User Input System Milestone 1 goals –Get input from the keyboard –Begin implementing the key press algorithm. –Should be functioning, but not complete. Future goals: –Get MIDI data without corruption –Implement key press algorithms –Integrate with transmission system –Test input algorithms on the Tesla coil
Summary of Progress Primary circuit built, currently testing Secondary coil completed Power supply completed Transmission system built, currently testing User input system built, produces output, currently debugging
Summary of Future Goals Control Circuit –Get half-bridge working –Tune the coil –Test various effects of different primary inductors –Integrate 555 timer and antenna Transmission System –Compete the system User Input System –Get MIDI data without corruption –Implement key press algorithms –Integrate with transmission system –Test input algorithms on the Tesla coil Integrate Systems and Test