Measuring device of process automation technology

The invention claimed is: 1. A measuring device of process automation technology for measuring at least one process variable of a medium, comprising: a control unit, which measures the process variable at least with a predeterminable clock rate and provides the results of such measurement as measured value; and a display/service unit, which shows the measured value and/or enables the servicing of, respectively parameter input via interaction elements to, the measuring device, wherein: associated with the clock rate is an energy requirement of the measuring device; in a service mode the control unit measures the process variable with a first clock rate and in a measuring mode with a second clock rate, the first clock rate and the second clock rate are fixed in such a manner that the second clock rate is greater than the first clock rate, so that in the measuring mode more measured values are measured than in the service mode; said display/service unit switches said control unit of the measuring device from a measuring mode into a service mode; said first clock rate and said second clock rate are fixed in such a manner that said second clock rate is greater than said first clock rate; and the total energy requirements of the measuring device in the service mode and in the measuring mode are approximately equal. 2. The measuring device as claimed in claim 1 , further comprising: a display, wherein: said display/service unit works in the service mode with a third clock rate for servicing, respectively parametering, the measuring device and in measurement operation with said fourth clock rate for representing the measured values on a display on the measuring device; and said third clock rate is greater than said fourth clock rate. 3. The measuring device as claimed in claim 2 , wherein: in the service mode the decrease of the clocking of the control unit from said second clock rate to said first clock rate is proportional to the increase of the clocking of said display/service unit from said fourth clock rate to said third clock rate, so that the total energy requirement of the measuring device in the service mode remains equal. 4. The apparatus as claimed in claim 2 , wherein: in the measuring mode the increase of the clocking of said control unit from said first clock rate to said second clock rate is proportional to the decrease of the clocking of said display/service unit from said third clock rate to said fourth clock rate, so that the total energy requirement of the measuring device in the measuring mode remains equal. 5. The measuring device as claimed in claim 2 , wherein: display/service unit is embodied in such a manner that in the case of input to said display/service unit the measuring device switches from a measuring mode into a service mode. 6. The measuring device as claimed in claim 1 , wherein: the measuring device, automatically and/or as a function of time after terminating of input via interaction elements on said display/service unit, switches from the service mode into the measuring mode. 7. The measuring device as claimed in claim 1 , wherein: the measuring device is associated via a two-wire cable or a fieldbus with a remote display/service unit or control station and automatically switches in the case of an input to said remote display/service unit or remote control station from the measuring mode into the service mode.