The invention relates to an arrangement for detecting a position of a plunger (4) relative to a bung (3) in a drug cartridge (1), comprising a proximity sensor (5) located close to a distal end (6) of the plunger (4) facing the bung (3) and aligned to receive light reflected by the bung (3).

The invention relates to an arrangement for detecting a position of a plunger (4) relative to a bung (3) in a drug cartridge (1), comprising a proximity sensor (5) located close to a distal end (6) of the plunger (4) facing the bung (3) and aligned to receive light reflected by the bung (3).

A system and process for testing and analyzing a laser beam is provided. The system and process allows for repeatable testing of a laser beam to provide a beam intensity profile while accounting for variation in measurements attributable to outside factors. The system and process further allows for simultaneous measurement and analysis of a laser beam having multiple wavelengths.

A system and process for testing and analyzing a laser beam is provided. The system and process allows for repeatable testing of a laser beam to provide a beam intensity profile while accounting for variation in measurements attributable to outside factors. The system and process further allows for simultaneous measurement and analysis of a laser beam having multiple wavelengths.

The invention relates to an arrangement for detecting a position of a plunger (4) relative to a bung (3) in a drug cartridge (1), comprising a proximity sensor (5) located close to a distal end (6) of the plunger (4) facing the bung (3) and aligned to receive light reflected by the bung (3).

The invention relates to an arrangement for detecting a position of a plunger (4) relative to a bung (3) in a drug cartridge (1), comprising a proximity sensor (5) located close to a distal end (6) of the plunger (4) facing the bung (3) and aligned to receive light reflected by the bung (3).

The present disclosure describes a medical syringe pump and a method for calibrating a medical syringe pump. In some cases the medical syringe pump is configured and/or prepared to execute the method according to the present disclosure, or has been calibrated accordingly. This disclosure also describes a blood treatment apparatus which comprises such syringe pump or is connected to such syringe pump. Furthermore, the present disclosure describes a digital storage medium and/or a computer program product as a computer program.

The present disclosure describes a medical syringe pump and a method for calibrating a medical syringe pump. In some cases the medical syringe pump is configured and/or prepared to execute the method according to the present disclosure, or has been calibrated accordingly. This disclosure also describes a blood treatment apparatus which comprises such syringe pump or is connected to such syringe pump. Furthermore, the present disclosure describes a digital storage medium and/or a computer program product as a computer program.

According to examples, an apparatus may include a base, a sliding assembly slideably coupled to the base, and a sensor assembly coupled to the sliding assembly. The sliding assembly may moveably support a control panel and the sensor assembly may sense positions of the sliding assembly relative to the base. The sensor assembly may include a first sensor to sense that the sliding assembly is in a first position relative to the base, and a second sensor to sense that the sliding assembly is in a second position relative to the base. A sensed state of the first sensor and a sensed state of the second sensor may be used to determine that the sliding assembly is in a third position relative to the base.

According to examples, an apparatus may include a base, a sliding assembly slideably coupled to the base, and a sensor assembly coupled to the sliding assembly. The sliding assembly may moveably support a control panel and the sensor assembly may sense positions of the sliding assembly relative to the base. The sensor assembly may include a first sensor to sense that the sliding assembly is in a first position relative to the base, and a second sensor to sense that the sliding assembly is in a second position relative to the base. A sensed state of the first sensor and a sensed state of the second sensor may be used to determine that the sliding assembly is in a third position relative to the base.