![]() Next, run a wire and split it between the first inductor (L1) and the second capacitor (C2).Run a wire from the live side of your antenna to the first capacitor (C1).Nevertheless, the steps to construct the project are as follows: It can be in the form of a battery (or series of storms) or an adaptor. You will connect these inductors in parallel with the variable capacitors.Īdditionally, you'll need to connect the circuit to a 12V DC power supply. However, it must only comprise three turns. As such, it must consist of the same materials and construction. The second inductor on the course must be similar to the first. It would help if you tapped the first segment of the inductor (with one turn) to the ground lead side of the circuit. ![]() Furthermore, you must ensure that it uses a slightly spaced wind over a 5mm diameter former. ![]() Nevertheless, the inductor must comprise 20 SWG enameled copper wire. The first segment consists of 3 turns, while the second has one turn. Next, the project has a 4-turn inductor that comprises two segments. Both trimmers must have the same value (22 pF). Thus, the project necessitates two trimmer capacitors (VC1 and VC2) that will enable you to calibrate the circuit for maximum gain. Essentially, the first antenna will intake the weak signal and pass it through a series of capacitors and inductors before emitting it through the output antenna. The circuit uses the first antenna to receive input and the second to transmit it. However, if you're feeling adventurous, you can. You won't have to construct the input or output antenna from scratch. For instance, it's important to note that this project consists of two antennas wound around a C2570 VHF/UHF transistor.
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