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Metal Detector
Student Lab Guide
Engineering Teaching Laboratory
Name__________________________ Date______________
Lab Partner(s)________________________________________
NEW TERMS
Electric Circuit: Electric circuits are paths for transmitting electric current, or moving electricity. Such circuits allow electricity to be used to provide power to lights, appliances, and many other devices Capacitor: a device used to store electric charge. It is similar to a battery except it stores energy instead of providing new energy. These are used to amplify power supplies and filter out electronic ripples. Resistor: a device that is designed to resist the passage of an electric current. Transistor: a semiconductor device that can be either used as an amplifier of a signal or as a switch. It has three terminals: input, output, and control. Printed Circuit Board (PCB): a board that mechanically supports and electrically connects electronic components using conductive tracks, pads, and other features etched into the nonconductive board in copper. Components are generally soldered onto the PCB. Potentiometer: a potentiometer can act as a variable resistor. The value of its resistance can change with moving its shaft. Battery: a battery will supply the voltage needed to power the circuit. Electromagnetic coil: is a conductor that is a wire shaped into a coil. They are used in applications where electric current interact with magnetic field. Diode: is a semiconductor device that allows the flow of current in only one direction. In this project t, we are using Zener diode which allows the current to flow in one direction. However, when the voltage across the diode exceeds the Zener voltage the current can flow in the reverse direction. Light emitting diode (LED): is a diode that emits light when a suitable voltage is applied to it. In the design the LED goes on, once metal is detected. Buzzer: is an audio signaling device, the beeps when a certain voltage crosses it. Transistors (TR): a semiconductor device that is used either as a switch or an amplifier. Terms to be familiar with: Circuits Series Parallel Voltage Electricity Conductors Insulators Oscillation Electromagnetism
PROCEDURE
A) Orientation Critical The following components must be installed in a particular direction. After installing the component, solder it down and trim the leads if necessary.
- Place the circuit board as shown. The green board with the white text must be on the side facing you. All of the components must be installed on this side of the board. The terms ‘right’, ‘left’, ‘top’, and ‘bottom’ refer to the board in this position.
- Install the transistors first: each transistor has a specific number associated with it (C9012, C9013, and C458). It is printed on the part itself. It can be hard to read. So please read it carefully. Look at figure 2 for assistance. a. Install TR1 & TR2 in the C9013 position on the board. ATTENTION: the transistor should be installed in a way where it follows the drawing on the board b. Install transistors TR4 in C9012 position on the board. c. Install TR3, TR5, and TR6 in C458 position on the board.
- Install the dielectric capacitor. The longer wire goes to the + sign pad in location 10μF on the board.
- Install the buzzer PZ. The + sign on the buzzer should be aligned with the+ sign on location SP on the board.
- Install LED with the shorter wire going into the tip of the triangle (cathode side) and where the longer side goes to the end of the triangle (anode side).
- Install the two Zener diodes in location 14148 on the board. B) Value Critical The rest of the components can be installed either way around, but you must be very careful to install the right component in the right holes. Check the resistor color codes carefully and ask for assistance if you are not sure Also, the different capacitor values may look very similar. Both C1 and C2 capacitors are orange ceramic. Read the values on them before installing and soldering them. If you cannot identify which one is which ask for assistance.
- Install capacitor C1 in 0.0012μF location board.
- Install capacitor C2 in 0.0022μF location on the board.
- Install, C3 & C4, the green capacitors in the 0.0015μF location on the right of the board.
- Now install the Resistors. Install each resistor in the right spot according to its value. To know the value of a resistor you need to read its color. The table below has both the values and the color codes of the resistors for this design. For example R11 has 5kΩ value and a color code of green-black-red-gold. Locate this resistor and put it in location 5kΩ on the board. Note: Any resistor value that has a decimal is written as the following: R1 for example is 1.8kΩ, on the board it is 1k8 location. Similarly, R4 is 2.2kΩ. On the board, R4 is 2k2 location.
Questions:
- What is an electromagnetic coil and how does it work?
- What is electromagnetism?
- What does electromagnetic induction mean? How does it happen?
- Explain in words or through an illustration how a metal object triggers your device.
Think like an engineer- Questions & Discussions:
- Besides cost, what are other potential issues with materials and design to be considered?
- Do you think engineers have to make important tradeoffs between costs, environmental considerations, and other issues?
- Are there any other improvements to this design that you would employ?