GMU:PCB Arts/Ulrike Katzschmann: Difference between revisions

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'''Schematic and Curcuit:'''
'''Schematic and Curcuit:'''
The Curcuit of my board can be seperated into three different parts.
The power supply that consist of a nine volt battery that provides the entire curcuit with enough power and a switch with wich you can join and break the powerline connection to the curcuit, so the LEDs turn on and off.
The second part is curcuit is for blinking LEDs using transistors. This typ of curciut is called an "Astable Multivibrator Curcuit" and in this case it is powered by the nine volt battery.
The voltage on the left side of "C2" controls transistor "Q1B" and voltage on the right side of "C1" controls transistor "Q1A".
When the power source of the curcuit is turned on it charges the two capacitors "C1" and "C2".
They will alternate between being charged and discharged and by doing this they turn the transistors on and off.
When transistor "Q1B" turns on, it changes the voltage of "C1" so that "Q1A" turns off.
By turning on "Q1B" allows current to flow through it so that the LED "D1" lights up. It stops beeing lit when "Q1B" is turned off.
After a short while, the voltage of "C1" rises up again and turns on the transistor "Q1A".
When transistor "Q1A" turns on, it changes the voltage of "C2" so that "Q1B" turns off.
By turning on "Q1A" allows current to flow through it so that the LED "D2" lights up. It also stops beeing lit when "Q1A" is turned off.
This keeps repeating as long as the power source is connected to the curcuit.
The resistors "R2" and "R3" have the funtion to slow down the charging charging of the two capacitors, so that the transistors only turn on and off at a moderate rate and the LEDs blink alternately instead of lighting up constatly.
The Resistors "R1" and "R4" are only there to set the current through the LEDs.
The third part is much simpler than the second on. It only consists of four LEDs and four resistors. Above each LED a resistor is connected to it. The resistors regulate the voltage that flow into the LEDs. if these LEDs are submited to to much current they will burn out.
Here is the link to the website that I used as research. It explains the "Astable Multivibrator Curcuit", from this schematic I build up my curcuit.
https://www.build-electronic-circuits.com/astable-multivibrator/
'''Components:'''
1x 9 Volt Bettery
1x SMD Slider Switch
8x SMD Resistors
2x Capacitors
1x SMD Transistor
4x SMD reverse mount LEDs white
1x SMD reverse mount LED blue
1x SMD reverse mount LED red





Revision as of 17:10, 21 March 2021

Semesterproject

"Police Car Badge"

Idea:

The first time I came into contact with the topic of PCB Arts was through this module. Before i knew what PCBs were and how they are normaly used but I did not know about this large community that uses this medium in an artistical way. What really fasciated me is that there is a big part of this community that is just dedicated on making PCB badges. So for my final project I created such a badge.

The whole design of the PCB is based on the functionality of the first schematic I searched out to practise in Kicad with. Over my development time on this project, the schematic and with is the curcite, as well as the design have gone trough a few changes and adjustments.

The basic board design is made to look like an old school american police car. The main function of the curcite I used is to flash two LEDs alternately. This reminded me of a siren typically mounted on top of ambulances, firefightering vehicles and police cars. So this inspired me to design a PCB in the shape of a police car. To make the board a bit more interessting i added four more LEDs, so that not only the sirens would flash but also the headlights of the car would light up.


Schematic and Curcuit:

The Curcuit of my board can be seperated into three different parts. The power supply that consist of a nine volt battery that provides the entire curcuit with enough power and a switch with wich you can join and break the powerline connection to the curcuit, so the LEDs turn on and off.

The second part is curcuit is for blinking LEDs using transistors. This typ of curciut is called an "Astable Multivibrator Curcuit" and in this case it is powered by the nine volt battery. The voltage on the left side of "C2" controls transistor "Q1B" and voltage on the right side of "C1" controls transistor "Q1A". When the power source of the curcuit is turned on it charges the two capacitors "C1" and "C2". They will alternate between being charged and discharged and by doing this they turn the transistors on and off. When transistor "Q1B" turns on, it changes the voltage of "C1" so that "Q1A" turns off. By turning on "Q1B" allows current to flow through it so that the LED "D1" lights up. It stops beeing lit when "Q1B" is turned off. After a short while, the voltage of "C1" rises up again and turns on the transistor "Q1A". When transistor "Q1A" turns on, it changes the voltage of "C2" so that "Q1B" turns off. By turning on "Q1A" allows current to flow through it so that the LED "D2" lights up. It also stops beeing lit when "Q1A" is turned off. This keeps repeating as long as the power source is connected to the curcuit. The resistors "R2" and "R3" have the funtion to slow down the charging charging of the two capacitors, so that the transistors only turn on and off at a moderate rate and the LEDs blink alternately instead of lighting up constatly. The Resistors "R1" and "R4" are only there to set the current through the LEDs.

The third part is much simpler than the second on. It only consists of four LEDs and four resistors. Above each LED a resistor is connected to it. The resistors regulate the voltage that flow into the LEDs. if these LEDs are submited to to much current they will burn out.

Here is the link to the website that I used as research. It explains the "Astable Multivibrator Curcuit", from this schematic I build up my curcuit.

https://www.build-electronic-circuits.com/astable-multivibrator/


Components:

1x 9 Volt Bettery 1x SMD Slider Switch 8x SMD Resistors 2x Capacitors 1x SMD Transistor 4x SMD reverse mount LEDs white 1x SMD reverse mount LED blue 1x SMD reverse mount LED red



Here are the links to some of the projects I showed you and a short documentary about the DEFCON 2018: