The function and supervision of almost every device in use today is based on electronics. We can acquire the necessary electronic components - and, for special systems, design them ourselves. In doing so, we always work according to the principle of the best possible solution for our customers, which means: We purchase components that precisely comply to your requirements. If they are not available on the market, we'll develop them ourselves. If you already know that you will need tailor-made electronics and already have all of the required specifications, you can simply outsource the manufacturing work to us.
Especially in recent years, Sensing Solutions has developed a number of various electronics components having completely different specifications. Here are a few examples:
Drive components for brushless DC motors
Since brushless DC motors exhibit very favourable motor characteristics and positive efficiency, they are ideal for a number of drive tasks. However, such motors have the disadvantage that they require control electronics in order to operate. For a customer order, Sensing Solutions developed an efficient control with several possible applications. Its speed band can be operated practically from zero to 100 percent. Either motors with or without position sensors can be used.
Electronic measuring equipment for the characterization of fluorescent lamp ballasts
For test equipment automation in the production of fluorescent lamp ballasts, a system was developed that enabled reliable and seamless testing supervision. The challenge was to make the measuring electronics applicable for a number of devices, including electronic devices with DC voltage outputs as well as older magnetic ballasts. Since each of these devices has a different level at the output, depending on its output power, a highly flexible system was necessary. The special feature of this system is that the measuring module does not need to be supplied with power. The required energy is taken from the DALI bus interface, whereby the maximum power input of the module is limited to 2mA. The effective mean power consumption lies at about 1 mA per module.