This invention is a portable, low-power system designed to accurately measure resistive sensors, which are used in various applications like monitoring pressure, temperature, and soil moisture. The system is particularly useful for new flexible sensors found in wearable devices and electronic skin that measure body temperature and blood pressure. Traditional sensor systems face challenges like high power consumption, interference from offset voltages, and difficulty in achieving both high resolution and a wide range. This new system overcomes these issues by using a low-power microcontroller, an auto-programmable current generator, and an active half-bridge circuit to ensure accurate, sensitive, and energy-efficient measurements.
- Reduced Power Consumption: A simple low-power microcontroller is sufficient to generate the required voltage.
- Enhanced Range of Measurement: The amplitude of the square wave current is auto-programmable, offering maximum resolution for the sensor's baseline resistance.
- Active Half Bridge: Utilizes an active half-bridge circuit instead of a conventional Wheatstone bridge, improving linearity, sensitivity, and power supply rejection ratio.
- Auto Calibration: The system automatically adjusts the gain of the instrumentation amplifier (INA) and the amplitude of the square wave to ensure maximum sensitivity for the resistive sensor.
- Reduced Power Consumption: A simple low-power microcontroller is sufficient to generate the required voltage.
- Enhanced Range of Measurement: The amplitude of the square wave current is auto-programmable, offering maximum resolution for the sensor's baseline resistance.
- Active Half Bridge: Utilizes an active half-bridge circuit instead of a conventional Wheatstone bridge, improving linearity, sensitivity, and power supply rejection ratio.
- Auto Calibration: The system automatically adjusts the gain of the instrumentation amplifier (INA) and the amplitude of the square wave to ensure maximum sensitivity for the resistive sensor.
Prototype has been developed. The demonstration and testing has been done in the lab environment.
Prototype has been developed and the demonstration and testing has been done in lab environment.
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- Enables advanced wearable health monitoring devices, improving personal health management.
- Facilitates more efficient agricultural and industrial monitoring systems, enhancing productivity and resource management.
Healthcare (wearable health monitors), Agriculture (soil moisture and environmental monitoring), Industrial automation (pressure and temperature sensing), Consumer electronics (smart clothing and wearable devices)
- Enables precise monitoring of body temperature and blood pressure through flexible, wearable sensors.
- Enhances agricultural productivity by accurately measuring soil moisture and environmental conditions.
202121001693
514420