Home & Building Automation
Smart faucets and water taps

Smart faucets and water taps

Intelligent building management saves money: by increasing efficiency, saving resources and reducing maintenance costs. Smart technology for faucets or urinals and toilets can be an important step towards water savings and – by means of leakage detection – reduced leakage damages.

The basic principle of the measurement is the following: you send an ultrasonic burst once in the direction of water flow and once in the opposite direction and you measure the time-of-flight. In flow direction the time-of-flight is shorter than in the opposite one, and the difference between the two is proportional to the flow. Taking into account some non-linear and temperature corrections, the time difference can therefore be used to calculate the flow. v = c² + DIFTOF/(2L) for v << c.

Application diagram water tap

Figure 1: Common sensor designs

The design of an ultrasonic water meter is quite a challenge. You have to measure time-of-flight in the range 30 to 200 µs with a precision in the picosecond range. Not only achieving such low noise is a challenge. Having a low offset and offset stability in the range is even a bigger one. For DN15 meters with R800 the target is already 12ps error limit. ScioSense flow converters are based on time-to-digital converter technology that perfectly solves the time measurement task. In addition, the analog front-end is designed with special focus on symmetry and reciprocity so that the offset is small and stable over temperature.

Water receive signal

Figure 2: Receive signal

ScioSense flow converters measure multiple zero crossings within a single receive burst. This improves the resolution of the total time-of-flight measurement. With the right choice of the zero crossing – not too early to catch stable periods only, not too late to avoid interference effects – the measurement will be as precise and temperature stable as possible.

TDC-GP30 Ultrasonic Flow Converter

Design requirements / challenges

Design requirements / Challenges:

  • Measuring time intervals from 10 to 500µs with picosecond resolution
  • Leakage detection needs an offset stability; has to be in the range of 10 ps and less (dropping water tap)
  • Current consumption needs to be as low as a few µA for 20 years operation from battery
  • Multiple reflections of the wave and smaller transducers for battery operation in retrofit applications with wireless communication
  • Current consumption needs to be as low as a few μA for many years operation from battery
  • High fluctuations in amplitude due to various gas mixtures, including 5 to 39% of hydrogen