This ultrasonic proximity detector
comprising independent, battery-powered transmitter and receiver
sections makes use of a pair of matched ultrasonic piezoceramic
transducers operating at around 40 kHz each. This circuit can be used in
exhibitions to switch on prerecorded audio/video messages automatically
when a visitor evincing interest in a product comes near an exhibited
product.
Fig.
1 shows the transmitter circuit. It comprises CMOS timer IC 7555 (IC1)
configured as an astable multivibrator, which may be tuned to the
frequency of the ultrasonic piezoceramic transmitter’s resonant
frequency of around 40 kHz using preset VR1. A complementary pair of
transistors T1 and T2 is used for driving and buffering the transducer
while it draws spikes of current from IC1 circuit to sustain
oscillations and thereby avoids any damage.
The receiver front-end (refer Fig. 2) is designed to provide a very high gain for the reflected faint ultrasonic frequency signals detected by the ultrasonic transducer. The amplifiers built around N1 and N2, respectively, provide AC voltage gain of around 80 each. These two stages should have a high open-circuit gain, wide bandwidth and very low bias current apart from being capable of single-supply operation. Quad op-amp LM324 is used here due to its low cost. For higher efficiency, you may use single op-amps such as CA3130 or CA3140.
When
a visitor pauses before a sistor R10 is used to meet this requirement.
The filter also helps to bypass brief bursts of ambient noise in the
ultrasonic range. The third stage comprising N3 works as a comparator to
provide a triggering pulse when a visitor stops by. This pulse can be
used to trigger a timer or a monostable, whose output may then be used
to switch on the audio/video message concerning the product for a
predetermined period.
When somebody comes in front of the ultrasonic piezoceramic transducer pair, the status LED (LED1) glows because of the signal reflected from the body of the visitor.
The circuit can be assembled on any general-purpose PCB. The transmitter and the receiver should be aligned such that the transmitted ultrasonic signal is optimally received by the receiver after reflection. Fig. 3 shows the pin configuration of transistors T1 and T2, while Fig. 4 shows installation of the ultrasonic piezoceramic transducer pair operating at around 40 kHz.
Source: http://electronicsforu.com/
 Fig. 1: Transmitter circuit |
The receiver front-end (refer Fig. 2) is designed to provide a very high gain for the reflected faint ultrasonic frequency signals detected by the ultrasonic transducer. The amplifiers built around N1 and N2, respectively, provide AC voltage gain of around 80 each. These two stages should have a high open-circuit gain, wide bandwidth and very low bias current apart from being capable of single-supply operation. Quad op-amp LM324 is used here due to its low cost. For higher efficiency, you may use single op-amps such as CA3130 or CA3140.
 Fig. 2: Receiver circuit |
 Fig. 3: Pinconfigurations oftransistors BC327and BC337 |
When somebody comes in front of the ultrasonic piezoceramic transducer pair, the status LED (LED1) glows because of the signal reflected from the body of the visitor.
The circuit can be assembled on any general-purpose PCB. The transmitter and the receiver should be aligned such that the transmitted ultrasonic signal is optimally received by the receiver after reflection. Fig. 3 shows the pin configuration of transistors T1 and T2, while Fig. 4 shows installation of the ultrasonic piezoceramic transducer pair operating at around 40 kHz.
Source: http://electronicsforu.com/
 Fig. 4: Installation of transducer pair |
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