ELECTRICAL CURRENT CONTROL DEVICES

Brand Owner (click to sort) Address Description
PROMILLESS Promilless Oy Typpitie 1 FI-90620 Oulu Finland Electrical current control devices in the nature of electrical controllers and electrical chargers; information technology, namely data transceivers and data analyzing software; alcohol testing devices, namely, alcoholmeters;Apparatus for analyzing alcohol in breath fluids, namely, alcohol breath testing units; apparatus for analyzing alcohol in body fluids for medical use, namely, medical diagnostic instruments for the analysis of body fluids;Technological planning and consulting services in the field of science and technology and related research and development services; design services, namely, information technology design services; product testing, authentication and quality control for others in the field of measurement devices;
PROMILLESS Goodwiller Oy Uusikatu 23 A 10 FI-90100 Oulu Finland Electrical current control devices in the nature of electrical controllers and electrical chargers; information technology, namely data transceivers and data analyzing software; alcohol testing devices, namely, alcoholmeters;Apparatus for analyzing alcohol in breath fluids, namely, alcohol breath testing units; apparatus for analyzing alcohol in body fluids for medical use, namely, medical diagnostic instruments for the analysis of body fluids;Technological planning and consulting services in the field of science and technology and related research and development services; design services, namely, information technology design services; product testing, authentication and quality control for others in the field of measurement devices;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. In a method for regulating the power supply of a plurality of field devices S1, S2, S3, A1, A2, connected to a data bus DBL and supplied with electrical current over the data bus DBL, the electrical current requirements of the individual field devices S1, S2, S3, A1, A2 are determined, and the electrical current consumptions of the field devices S1, S2, S3, A1, A2 are adjusted by means of corresponding control signals. In this way, the electrical current consumption of individual field devices S1, S2, S3, A1, A2 can be centrally adjusted and therewith the process conditions matched.