HOW DOES IT WORK?
Here is where we get into a little circuit analysis. If you just want to plug it in and start scaring off critters, you can skip this section. Otherwise here is some insight into why and how this RB1 works. We will use the schematic located at the center of the manual to analyze the circuit.
We will begin with the IC marked NE555, U1. This is a simple, free running oscillator circuit which is used to generate the lower frequency warble rate of the signal. This rate varies from around 1Hz to 10Hz. The output of this oscillator is a 12V square wave until it is sent through R2 into C7. These parts filter the waveform into a sawtooth waveform.
U2, the
S2 controls the average DC voltage of the sawtooth by adjusting the rate of discharge of C7. The less resistance seen from pin 4 to ground, the faster C7 discharges. The faster C7 is discharged, the lower the average voltage of the sawtooth waveform is. In turn, the lower the average voltage on the sawtooth, the lower the average frequency on pin 7 of U2 allowing this unit to cover a larger area.
The output of U2 is then sent to some logic which enables or disables the speaker driver circuitry depending on what signal is seen on pin 2 and 6 of U3. When these pins are at a logic ‘0’, or 0 volts, the transducer driver is enabled, and when it is ‘1’, or 12 volts, it is disabled.
The speaker driver section consists of a
The speaker driver also consists of the four transistors surrounding SP1 which provide more power capability than what U3 offers. When U3 pin 11 is high, Q4 is turned on, and Q1 is turned off. This presents about 12 volts on one side of the transducer. While pin 11 is high, pin 10 is low, which turns on Q2 and Q3 off, pulling the other lead of the transducer to near 0 volts. Now there are almost 12 volts across SP1, allowing the transducer to produce sound. On the next half of the cycle, the transistors that were off are turned on, and the ones that were on are shut off. Now there are 12 volts across the transducer connected in the opposite direction from before. This is all done at a rate of around 15,000 to 50,000 times a second, producing the high frequency signal to scare off the beasties.
RB1 5