Abstract: A radiometric measuring apparatus detects a measured variable in the form of a fill level, a point level, a density and/or a mass flow, and includes a scintillator embodied to generate light pulses upon excitation by ionizing radiation, an optoelectronic sensor embodied to convert the light pulses into a sensor signal, a first signal processing unit embodied to process the sensor signal into a first measured variable signal, an adjustable second signal processing unit embodied in a measurement setting to process the sensor signal into a second measured variable signal, wherein the second measured variable signal corresponds to the first measured variable signal in the case of a correctly processing first signal processing unit and a correctly processing second signal processing unit, and embodied in at least one operation setting to process the sensor signal into at least one operating variable signal, wherein the at least one operating variable signal does not correspond to the measured variable signals, a s

Abstract: A radiometric measuring apparatus detects a measured variable in the form of a fill level, a point level, a density and/or a mass flow, and includes a scintillator embodied to generate light pulses upon excitation by ionizing radiation, an optoelectronic sensor embodied to convert the light pulses into a sensor signal, a first signal processing unit embodied to process the sensor signal into a first measured variable signal, an adjustable second signal processing unit embodied in a measurement setting to process the sensor signal into a second measured variable signal, wherein the second measured variable signal corresponds to the first measured variable signal in the case of a correctly processing first signal processing unit and a correctly processing second signal processing unit, and embodied in at least one operation setting to process the sensor signal into at least one operating variable signal, wherein the at least one operating variable signal does not correspond to the measured variable signals, a s

Abstract: A module system for a radiometric measuring device includes a basic module having a sensor arrangement designed to generate a measurement signal on the basis of radiation which strikes the sensor arrangement, a signal evaluation unit electrically coupled to the sensor arrangement and being designed to determine a measurement variable on the basis of the measurement signal, a control device interface, wherein the basic module is coupleable to at least one control device by the control device interface for interchanging data, the basic module being supplied with electrical energy solely via its control device interface in a basic operating state, and an expansion module interface.

Abstract: A radiometric detector is provided for detecting a measurement variable. The detector is particularly failsafe with, simultaneously, a simple, space-saving and cost-effective design, without having losses in the signal-to-noise ratio.

Abstract: A radiometric measuring device includes a scintillator, at least one semiconductor photodiode, wherein the at least one semiconductor photodiode is optically coupled to the scintillator, a signal evaluation unit which is electrically coupled to the at least one semiconductor photodiode and is designed to determine a measurement variable on the basis of a measurement signal produced by way of the at least one semiconductor photodiode, and an interface. The radiometric measuring device can be coupled to at least one receiver by way of the interface for the purpose of interchanging data. The radiometric measuring device is designed to be supplied with electrical energy solely via the interface thereof.

Abstract: A module system for a radiometric measuring device includes a basic module having a sensor arrangement designed to generate a measurement signal on the basis of radiation which strikes the sensor arrangement, a signal evaluation unit electrically coupled to the sensor arrangement and being designed to determine a measurement variable on the basis of the measurement signal, a control device interface, wherein the basic module is coupleable to at least one control device by the control device interface for interchanging data, the basic module being supplied with electrical energy solely via its control device interface in a basic operating state, and an expansion module interface.

Abstract: A radiometric detector is provided for detecting a measurement variable. The detector is particularly failsafe with, simultaneously, a simple, space-saving and cost-effective design, without having losses in the signal-to-noise ratio.

Abstract: A radiometric measuring device includes a scintillator, at least one semiconductor photodiode, wherein the at least one semiconductor photodiode is optically coupled to the scintillator, a signal evaluation unit which is electrically coupled to the at least one semiconductor photodiode and is designed to determine a measurement variable on the basis of a measurement signal produced by way of the at least one semiconductor photodiode, and an interface. The radiometric measuring device can be coupled to at least one receiver by way of the interface for the purpose of interchanging data. The radiometric measuring device is designed to be supplied with electrical energy solely via the interface thereof.

Abstract: A radiometric detector is provided for detecting a measurement variable. The detector is particularly failsafe with, simultaneously, a simple, space-saving and cost-effective design, without having losses in the signal-to-noise ratio.

Abstract: A radiometric detector is provided for detecting a measurement variable. The detector is particularly failsafe with, simultaneously, a simple, space-saving and cost-effective design, without having losses in the signal-to-noise ratio.