Field device electronics for a field device used in automation engineering

The invention claimed is: 1. A field device electronics for a field device of automation engineering, comprising: a first terminal and a second terminal for connecting the field device electronics to a cable so that an electrical input current is suppliable to the field device electronics via the cable and a terminal voltage can be applied across the first and second terminals; a series regulator to set the input current so that data, including a measured value and/or parameter values, are transferable via the cable based on the electrical input current; a shunt regulator following the series regulator; a first capacitance connected in parallel with the shunt regulator for energy storage; a supply circuit connected in parallel with the shunt regulator and the first capacitance for providing an operating voltage; a control and evaluation unit connected after the supply circuit and supplied with the operating voltage, wherein the control and evaluation unit includes at least one microprocessor adapted to register a buffer voltage across the first capacitance or to register a variable dependent on the buffer voltage and, based on the registered buffer voltage or a variable dependent thereon, to make a decision concerning at least one part of the field device electronics; and a comparison circuit adapted to register a transverse current in a first transverse branch in which the shunt regulator is arranged, and further adapted to perform a comparison of the transverse current with a threshold value and to provide a signal that shows a comparison result to the control and evaluation unit, wherein the control and evaluation unit is further adapted to register the buffer voltage or the variable dependent thereon as needed based on the signal. 2. The field device electronics as claimed in claim 1 , wherein the making of the decision concerning the at least one part of the field device electronics includes a determining of a current state, including a failure state, of the at least one part of the field device electronics and/or the making of the decision for the at least one part of the field device electronics includes a specific controlling of the at least one part of the field device electronics. 3. The field device electronics as claimed in claim 1 , wherein the supply circuit includes a clocked DC/DC converter having a primary side and a secondary side, wherein the DC/DC converter is arranged such that at least the first capacitance is located on the primary side and the operating voltage lies on the secondary side, and the operating voltage supplies at least the control and evaluation unit. 4. The field device electronics as claimed in claim 1 , wherein the control and evaluation unit is adapted to increase a frequency with which the buffer voltage or the variable dependent thereon is registered when the signal as comparison result shows an exceeding of the threshold value by the transverse current. 5. The field device electronics as claimed in claim 1 , wherein the control and evaluation unit is further adapted, based on the registered buffer voltage or the variable dependent thereon, to control a starting of modules connectable to the field device electronics. 6. The field device electronics as claimed in claim 5 , wherein for controlling the starting of the connectable modules, the control and evaluation unit is adapted to compare the buffer voltage or the variable dependent thereon with a starting threshold value and only upon the exceeding of the starting threshold value by the buffer voltage or the variable dependent thereon to supply the connectable modules with energy. 7. The field device electronics as claimed in claim 6 , wherein the control and evaluation unit is further adapted, upon the subceeding of the starting threshold value by the buffer voltage or the variable dependent thereon, to signal a failure state. 8. The field device electronics as claimed in claim 1 , further comprising: a measuring device as a connectable module for registering and/or setting a process variable, wherein the measuring device is connected to the control and evaluation unit, wherein the control and evaluation unit is further adapted, based on the registered buffer voltage or the variable dependent thereon, to control the measuring device. 9. The field device electronics as claimed in claim 8 , wherein the control and evaluation unit is further adapted for controlling the measuring device to compare the registered buffer voltage or the variable dependent thereon with a minimum buffer voltage value and, upon the subceeding of the minimum buffer voltage value, to run the measuring device in a safe state, in which the measuring device does not register and/or set the process variable. 10. The field device electronics as claimed in claim 9 , wherein the control and evaluation unit is further adapted, upon the subceeding of the minimum buffer voltage value, to perform a data backup, including a backup of the process variable registered by the measuring device. 11. The field device electronics as claimed in claim 2 , wherein, for determining the current state, including the failure state, the control and evaluation unit is adapted to compare the registered buffer voltage or the variable dependent thereon with the terminal voltage and, as a function of the comparison, to determine the current state of the at least one part of the field device electronics. 12. The field device electronics as claimed in claim 11 , wherein the control and evaluation unit is further adapted, when the buffer voltage or the variable dependent thereon subceeds the terminal voltage by a predetermined value, to detect the failure state of the at least one part of the field device electronics. 13. The field device electronics as claimed in claim 2 , wherein the control and evaluation unit ascertains, based on the registered buffer voltage or the variable dependent thereon, a power distribution for the at least one part of the field device electronics and activates the at least one part of the field device electronics corresponding to the ascertained power distribution. 14. The field device electronics as claimed in claim 13 , wherein the control and evaluation unit for ascertaining the power distribution ascertains a remaining energy currently stored in the first capacitance and activates the at least one part of the field device electronics based on the currently stored remaining energy. 15. The field device electronics as claimed in claim 14 , wherein the control and evaluation unit ascertains the power distribution based on an energy requirement of the at least one part of the field device electronics required for executing a specific action. 16. The field device electronics as claimed in claim 15 , wherein the energy requirement required for executing a specific action is furnished in the control and evaluation unit or in a component, or a module, of the part of the field device electronics. 17. The field device electronics as claimed in claim 3 , further comprising: a second capacitance arranged on the primary side, wherein the field device electronics is further adapted, based on the registered buffer voltage or the variable dependent thereon, at least partially to charge the second capacitance from the first capacitance. 18. The field device electronics as claimed in claim 17 , wherein the second capacitance is larger than the first capacitance at least by a factor of 2. 19. The field device electronics as claimed in claim 2 , wherein the at least one part of the field device elect