Apparatuses, systems, and associated methods of manufacturing are described that provide for improved sensor devices. An example sensor device includes a magnet mounting tube and a magnet supported within the magnet mounting tube. The sensor device includes a sensor mounting tube that receives at least a portion of the magnet mounting tube and supported magnet therein. The sensor device includes a magnetic sensor affixed to the sensor mounting tube. The sensor device includes a spring positioned around the magnet mounting tube and the sensor mounting tube such that the magnet and the magnetic sensor are surrounded by the spring. In an instance in which a load is applied to either a first end or second end of the spring, the magnet mounting tube translates relative the sensor mounting tube so as to induce a change in magnetic flux identified by the magnetic sensor indicative of a weight of the load.

The present disclosure concerns a system that includes a multi-touch-sensitive display unit and sensing modules that are associated with the display unit for sensing force applied onto the display unit. The display unit is configured to display the sensed signal that is indicative of the force that is applied onto the display unit, in association with the position of the application of force. One realization of the system is for weighing objects on the touch-sensitive display unit. A user may place an object on the display unit and trigger weighing process by an interface of the multi-touch-sensitive display unit. The weighing process is carried out by the sensing modules and the weight of the object is displayed on the display unit in association with the object, e.g. in the vicinity to where the object is placed on the display unit.

The present disclosure concerns a system that includes a multi-touch-sensitive display unit and sensing modules that are associated with the display unit for sensing force applied onto the display unit. The display unit is configured to display the sensed signal that is indicative of the force that is applied onto the display unit, in association with the position of the application of force. One realization of the system is for weighing objects on the touch-sensitive display unit. A user may place an object on the display unit and trigger weighing process by an interface of the multi-touch-sensitive display unit. The weighing process is carried out by the sensing modules and the weight of the object is displayed on the display unit in association with the object, e.g. in the vicinity to where the object is placed on the display unit.

A system and method for dispensing a powdered pharmaceutical into a bottle is disclosed. The system includes a filler having a powder filler head and respective weight sensor, two or more draft shields, and one or more static reduction devices. In some embodiments, the system also includes one or more dust extractors. In some embodiments, the static reduction device is an active static reduction device, such as one or more static bars. The two or more draft shields may include an inner draft shield to reduce small pressure and/or airflow changes and an outer draft to reduce large pressure and/or airflow changes.

A system and method for dispensing a powdered pharmaceutical into a bottle is disclosed. The system includes a filler having a powder filler head and respective weight sensor, two or more draft shields, and one or more static reduction devices. In some embodiments, the system also includes one or more dust extractors. In some embodiments, the static reduction device is an active static reduction device, such as one or more static bars. The two or more draft shields may include an inner draft shield to reduce small pressure and/or airflow changes and an outer draft to reduce large pressure and/or airflow changes.

A system that includes a multi-touch-sensitive display unit and sensing modules that are associated with the display unit for sensing force applied onto the display unit. The display unit is configured to display the sensed signal that is indicative of the force that is applied onto the display unit, in association with the position of the application of force. One realization of the system is for weighing objects on the touch-sensitive display unit. A user may place an object on the display unit and trigger weighing process by an interface of the multi-touch-sensitive display unit. The weighing process is carried out by the sensing modules and the weight of the object is displayed on the display unit in association with the object, e.g. in the vicinity to where the object is placed on the display unit.

A system that includes a multi-touch-sensitive display unit and sensing modules that are associated with the display unit for sensing force applied onto the display unit. The display unit is configured to display the sensed signal that is indicative of the force that is applied onto the display unit, in association with the position of the application of force. One realization of the system is for weighing objects on the touch-sensitive display unit. A user may place an object on the display unit and trigger weighing process by an interface of the multi-touch-sensitive display unit. The weighing process is carried out by the sensing modules and the weight of the object is displayed on the display unit in association with the object, e.g. in the vicinity to where the object is placed on the display unit.

A magneto-elastically-based active force sensor, used with a tow coupling between a towed and a towing vehicle or a coupling between a vehicle body and a suspension of the vehicle, which outputs a signal useful for determining forces acting on the coupling. The outputted force information may be provided by processor-enabled embedded software algorithms that take inputs from the force sensor and other sensors, may be used by one or more vehicle systems during operating of the vehicle, such as engine, braking, stability, safety, and informational systems. The force sensor includes directionally-sensitive magnetic field sensing elements inside the sensor, and shielding may be used around the sensors to reduce the influence of external magnetic fields on the sensing elements. The force sensor may be used with different tow and vehicle weight sensing coupling devices installed on different types of automobile cars and trucks.

A magneto-elastically-based active force sensor, used with a tow coupling between a towed and a towing vehicle or a coupling between a vehicle body and a suspension of the vehicle, which outputs a signal useful for determining forces acting on the coupling. The outputted force information may be provided by processor-enabled embedded software algorithms that take inputs from the force sensor and other sensors, may be used by one or more vehicle systems during operating of the vehicle, such as engine, braking, stability, safety, and informational systems. The force sensor includes directionally-sensitive magnetic field sensing elements inside the sensor, and shielding may be used around the sensors to reduce the influence of external magnetic fields on the sensing elements. The force sensor may be used with different tow and vehicle weight sensing coupling devices installed on different types of automobile cars and trucks.

Apparatuses, systems, and associated methods of manufacturing are described that provide for improved sensor devices. An example sensor device includes a magnet mounting tube and a magnet supported within the magnet mounting tube. The sensor device includes a sensor mounting tube that receives at least a portion of the magnet mounting tube and supported magnet therein. The sensor device includes a magnetic sensor affixed to the sensor mounting tube. The sensor device includes a spring positioned around the magnet mounting tube and the sensor mounting tube such that the magnet and the magnetic sensor are surrounded by the spring. In an instance in which a load is applied to either a first end or second end of the spring, the magnet mounting tube translates relative the sensor mounting tube so as to induce a change in magnetic flux identified by the magnetic sensor indicative of a weight of the load.