Radiometric measuring device for carrying out measurements in explosion-prone areas

The invention claimed is: 1. The radiometric measuring device for carrying out measurements in an explosion-prone area, comprising: a measuring unit that is usable in explosion-prone areas, having a scintillator, which converts incident radioactive radiation into photons, and a semiconductor detector, which is connected to said scintillator and can be operated by means of an inherently safe energy supply and metrologically captures photons arising in said scintillator and reaching said semiconductor detector, and converts said photons into electrical measurement signals, in which measuring unit explosion protection measures to be associated exclusively with an ignition protection class of inherent safety are provided; and a superordinate unit to be arranged outside of the explosion-prone area and to be connected to said measuring unit, wherein: said superordinate unit effects an inherently safe supply of said measuring unit—in particular, said semiconductor detector, during measuring operation. 2. The radiometric measuring device according to claim 1 , wherein: said semiconductor detector is the only electrical component provided in said measuring unit that needs to be supplied with energy during measuring operation; and only one explosion protection measure of the inherent safety ignition protection class is provided inside said measuring unit, which measure consists of said semiconductor detector being a semiconductor detector chip that can be supplied with energy via an inherently safe energy supply. 3. The radiometric measuring device according to claim 1 , wherein: said semiconductor detector is a semiconductor detector chip with one or several light-sensitive cells connected in parallel; said light-sensitive cells are equipped with photodiodes—particularly, avalanche photodiodes operated in Geiger mode; said photodiodes have low breakdown voltages of less than 30 V—particularly, less than 20 V; and said semiconductor detector can be operated with a respectively low operating voltage—particularly, an operating voltage lower than 30 V. 4. The radiometric measuring device according to claim 1 , further comprising: an inherently safe additional circuit between said semiconductor detector and said superordinate unit; said additional circuit is supplied with energy via said superordinate unit in an inherently safe manner; and said additional circuit effects an inherently safe energy supply of said semiconductor detector. 5. The radiometric measuring device according to claim 1 , wherein: the connection of said superordinate unit to said semiconductor detector is a wireless connection; said measuring unit is equipped with an RFID transponder that is connected to said semiconductor detector or integrated therein; and said superordinate unit is configured as an RFID reading device, which supplies said measuring unit wirelessly with energy in an inherently safe manner.