CONTROLLERS BEING REGULATORS

Brand Owner (click to sort) Address Description
HAPTICORE XeelTech GmbH Hausnummer 181 A-6771 St. Anton im Montafon Austria Controllers being regulators, namely, programmable logic controllers and human-machine interfaces; controllers being regulators, namely, computer mice and governors for governing electric devices in the nature of electrical controllers for speed control; touch-sensitive input apparatus, namely, touch screens and touch-sensitive surfaces; sensors for use in the control of engines; sensors used in industrial plant control, namely, presssure and temperature sensors used in industrial plant control; sensor switches being sensor controllers; sensor controllers; electronic control instruments, namely, programmable logic controllers and human-machine interfaces; electric push buttons, namely, electric and mechatronic switches; switches, electric; electronic, mechatronic, and electric pressure controllers for artificial limbs; sensors for controlling artificial limbs; electric push buttons, namely, electric switches and mechatronic switches for artificial limbs; electrical switches for artificial limbs; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for artificial limbs; electronic, mechatronic, and electric pressure controllers for medical apparatus; sensors for controlling medical apparatus; electric pushbuttons in the nature of electric and mechatronic switches for medical apparatus; electrical switches for medical apparatus; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for medical apparatus; electronic, mechatronic, and electric pressure controllers for electromedical instruments; sensors for controlling electromedical instruments; electric push buttons in the nature of electric and mechatronic switches for electromedical instruments; electrical switches for electromedical instruments; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for electromedical instruments; electronic, mechatronic, and electric pressure controllers for medical devices for physical exercise and physiotherapy; sensors for controlling electromedical instruments for physical exercise and physiotherapy; electric push buttons in the nature of electric and mechatronic switches for medical apparatus for physical exercise and physiotherapy; electrical switches for medical apparatus for physical exercise and physiotherapy; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for medical apparatus for physical exercise and physiotherapy; electronic, mechatronic, and electric pressure controllers for vehicles; sensors for controlling vehicles; electric push buttons in the nature of electric and mechatronic switches for vehicles; electrical switches for vehicles; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for vehicles;Governors, namely, speed governors for machines, engines and motors; governors being parts of machines for governing electric devices; regulators for engines, namley, regulators for engines being parts of machines;
XEELTECH XeelTech GmbH Hausnummer 181 A-6771 St. Anton im Montafon Austria Controllers being regulators, namely, programmable logic controllers and human-machine interfaces; controllers being regulators, namely, computer mice and governors for governing electric devices in the nature of electrical controllers for speed control; touch-sensitive input apparatus, namely, touch screens and touch-sensitive surfaces; sensors for use in the control of engines; sensors used in industrial plant control, namely, pressure and temperature sensors used in industrial plant control; sensor switches being sensor controllers; sensor controllers; electronic control instruments, namely, programmable logic controllers and human-machine interfaces; electric push buttons, namely, electric and mechatronic switches; switches, electric; electronic, mechatronic, and electric pressure controllers for artificial limbs; sensors for controlling artificial limbs; electric push buttons, namely, electric switches and mechatronic switches for artificial limbs; electrical switches for artificial limbs; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for artificial limbs; electronic, mechatronic, and electric pressure controllers for medical apparatus; sensors for controlling medical apparatus; electric pushbuttons in the nature of electric and mechatronic switches for medical apparatus; electrical switches for medical apparatus; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for medical apparatus; electronic, mechatronic, and electric pressure controllers for electromedical instruments; sensors for controlling electromedical instruments; electric push buttons in the nature of electric and mechatronic switches for electromedical instruments; electrical switches for electromedical instruments; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for electromedical instruments; electronic, mechatronic, and electric pressure controllers for medical devices for physical exercise and physiotherapy; sensors for controlling electromedical instruments for physical exercise and physiotherapy; electric push buttons in the nature of electric and mechatronic switches for medical apparatus for physical exercise and physiotherapy; electrical switches for medical apparatus for physical exercise and physiotherapy; touch-sensitive input devices in the nature of touch screens and touch-sensitive surfaces for medical apparatus for physical exercise and physiotherapy; none of the aforesaid goods relating to vehicles;Governors, namely, speed governors for machines, engines and motors; governors being parts of machines for governing electric devices; regulators for engines, namely, regulators for engines being parts of machines; none of the aforesaid goods relating to vehicles;
 

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

    
Technical Examples
  1. Systems and methods for mass flow controllers which minimize false flow conditions and display a reduced sensitivity to pressure transients are disclosed. Pressure gradients that exist within the volume of a mass flow controller fluid path are minimized in order to limit the potential energy contained in compressed or pressurized process gas. Additionally, process gas pressure may be monitored using a pressure sensor. This pressure signal is utilized in conjunction with a control algorithm to cancel the detrimental effect of certain flow components. These mass flow controllers may be used as drop in replacements for legacy mass flow controllers and reduce the cost of gas sticks due to elimination of discrete components such as pressure regulators, gas filters, pressure transducers, local pressure displays, isolation valves, seals, etc.