Proximity-sensor
The SillOO series circuit input is connected to a capacitive field sensor, potentially utilizing a double-sided circuit board. Any induced voltage change on the plate is directed to the input of the peak detector section of the operational amplifier circuit. The Schmitt trigger monitors the voltage across the capacitor and alters its output state when the capacitor voltage crosses the 2.5 V trigger point. The output from the Schmitt trigger toggles between 0 and 5 V, making it compatible with microprocessors for sensor applications, such as computer-controlled intruder alarms.
The SillOO series circuit is designed to effectively utilize a capacitive field sensor that can detect changes in voltage due to variations in capacitance. The core of the circuit includes a peak detector section powered by an operational amplifier (op-amp), which serves to capture the maximum voltage induced by the capacitive sensor. This voltage is critical for determining whether the conditions for triggering an alarm have been met.
The Schmitt trigger plays a vital role in this circuit by providing hysteresis, which helps to eliminate noise and ensure stable switching behavior. The trigger is set to monitor the voltage across a capacitor, and it is programmed to change its output state when the voltage exceeds a predetermined threshold of 2.5 V. This threshold is strategically chosen to create a reliable point of transition, ensuring that the output does not fluctuate due to minor voltage changes or noise.
When the Schmitt trigger's output state changes, it toggles between 0 V and 5 V, which are standard logic levels compatible with most microprocessors. This output can then be used to interface with various digital systems, enabling applications such as computer-controlled intruder alarms. The circuit's design allows for quick response times and reliable performance, making it suitable for security applications where immediate detection and response to disturbances are critical.
Overall, the SillOO series circuit exemplifies a robust approach to integrating capacitive sensing with digital control systems, ensuring efficient operation in security and monitoring applications.The SillOO series circuit input is connected to a capacitive field sensor-possibly a piece of doublesided circuit board. Any induced voltage change on the plate is fed to the input of the peak detector section of the op-amp circuit.
The Schmitt trigger monitors the voltage across the capacitor and changes its output state when the capacitor voltage crossed the 2.5-trigger point. The output from the Schmitt trigger switches between 0 and 5 V and is microprocessor compatible for sensor applications. such as computercontrolled intruder alarms. 🔗 External reference
The SillOO series circuit is designed to effectively utilize a capacitive field sensor that can detect changes in voltage due to variations in capacitance. The core of the circuit includes a peak detector section powered by an operational amplifier (op-amp), which serves to capture the maximum voltage induced by the capacitive sensor. This voltage is critical for determining whether the conditions for triggering an alarm have been met.
The Schmitt trigger plays a vital role in this circuit by providing hysteresis, which helps to eliminate noise and ensure stable switching behavior. The trigger is set to monitor the voltage across a capacitor, and it is programmed to change its output state when the voltage exceeds a predetermined threshold of 2.5 V. This threshold is strategically chosen to create a reliable point of transition, ensuring that the output does not fluctuate due to minor voltage changes or noise.
When the Schmitt trigger's output state changes, it toggles between 0 V and 5 V, which are standard logic levels compatible with most microprocessors. This output can then be used to interface with various digital systems, enabling applications such as computer-controlled intruder alarms. The circuit's design allows for quick response times and reliable performance, making it suitable for security applications where immediate detection and response to disturbances are critical.
Overall, the SillOO series circuit exemplifies a robust approach to integrating capacitive sensing with digital control systems, ensuring efficient operation in security and monitoring applications.The SillOO series circuit input is connected to a capacitive field sensor-possibly a piece of doublesided circuit board. Any induced voltage change on the plate is fed to the input of the peak detector section of the op-amp circuit.
The Schmitt trigger monitors the voltage across the capacitor and changes its output state when the capacitor voltage crossed the 2.5-trigger point. The output from the Schmitt trigger switches between 0 and 5 V and is microprocessor compatible for sensor applications. such as computercontrolled intruder alarms. 🔗 External reference