Documentation of faults in a fault memory of a motor vehicle

What is claimed is: 1. A process for operating a communication network of a motor vehicle, wherein the communication network comprises a plurality of control devices which are connected to a data bus and exchange messages with one another via the data bus, wherein the plurality of control devices are connected to a voltage source, have a voltage measuring device that determines a voltage applied to their supply connections, and access a central fault memory and/or internal fault memory at least in a writing manner, in order to document therein information concerning a fault detected by the corresponding control device, wherein the process comprises the steps of: a) determining a global supply voltage of the voltage source; b) checking whether the determined global supply voltage exceeds a specified upper voltage threshold or falls below a specified lower voltage threshold; c) providing information representing the determined global supply voltage and/or the exceeding or falling-below thereof to the control devices; d) when a fault is detected by a respective control device, checking by use of the provided information whether the global supply voltage exceeds or falls below a respective one of the specified voltage thresholds; and e) when the global supply voltage exceeds or falls below the respective one of the specified voltage thresholds, writing into a fault memory by the respective control device when detecting the fault, information representing the exceeding or falling below the global supply voltage by the respective one of the specified voltage thresholds as a possible cause of the detected fault. 2. The process according to claim 1 , wherein the determining of the global voltage of the voltage source in Step a) and/or the checking of whether the determined global supply voltage exceeds the specified upper voltage threshold or falls below the specified lower voltage threshold in Step b), takes place in a central manner. 3. The process according to claim 2 , wherein the determining of the global supply voltage takes place by a control device which is connected directly to the voltage source and/or is arranged in a direct spatial proximity of the voltage source. 4. The process according to claim 1 , wherein the determining of the global supply voltage takes place by a control device which is connected directly to the voltage source and/or is arranged in a direct spatial proximity of the voltage source. 5. The process according to claim 1 , wherein Steps b) and c) are carried out at cyclical intervals. 6. The process according to claim 4 , wherein Steps b) and c) are carried out at cyclical intervals. 7. The process according to claim 1 , wherein a value of the upper and/or the lower voltage threshold is selected as a function of whether a normal operation or a permitted operating condition influencing the voltages of the communication network is present. 8. The process according to claim 1 , wherein, by way of a respective control device, when an internal fault caused by the control device is detected: aa) it is determined before Step d) whether a determined local supply voltage exceeds a specified upper voltage threshold or falls below a specified lower voltage threshold; bb) it is checked whether the condition in Step e) has been met; cc) when it is determined that Step e) has not been met, when detecting the internal fault caused by the control device, information representing the exceeding or the falling below the respective one of the specified voltage thresholds by the local supply voltage is written as a possible cause of the internal fault into the fault memory. 9. The process according to claim 1 , wherein the providing of information representing the determined global supply voltage and/or the exceeding or falling-below thereof to the control devices takes place by use of a message transmitted by way of the data bus in a bit string, in which the setting of a flag at a specified point of the bit string signals the exceeding or falling below the concerned voltage threshold by the global voltage supply. 10. The process according to claim 8 , wherein the providing of information representing the determined global supply voltage and/or the exceeding or falling-below thereof to the control devices takes place by use of a message transmitted by way of the data bus in a bit string, in which the setting of a flag at a specified point of the bit string signals the exceeding or falling below the concerned voltage threshold by the global voltage supply. 11. A computer program product stored in an internal memory of a digital control device and comprises software code sections by which steps are carried out when the computer program product is executed by the digital control device in a communication network of a motor vehicle, the steps comprising: a) receiving information representing a centrally determined global supply voltage and/or an exceeding of a specified upper voltage threshold or a falling-below a specified lower voltage threshold; b) when a fault is detected by the control device, a checking by use of the provided information is carried out as to whether the global supply voltage exceeds or falls below a respective one of the specified voltage thresholds; c) when the global supply voltage exceeds or falls below the respective one of the specified voltage thresholds, writing into a fault memory by the respective control device when detecting the fault, information representing the exceeding or falling below the respective one of the specified voltage thresholds as a possible cause of the detected fault. 12. A control device for a communication network of a motor vehicle, wherein the communication network comprises a plurality of control devices which are connected to a data bus and exchange messages with one another by way of the data bus, wherein the control device comprises: a voltage measuring device for determining a voltage applied to its supply connections, the control device being connected to a voltage source; wherein the control device is configured to: access a central fault memory and/or internal fault memory at least in a writing manner, in order to document therein information concerning a fault detected by the corresponding control device, receive information representing a centrally determined global supply voltage and/or an exceeding of a specified upper voltage threshold or a falling-below a specified lower voltage threshold; when a fault is detected by the control device, carry out a check by use of the provided information as to whether the global supply voltage exceeds or falls below a respective one of the specified voltage thresholds; and when the global supply voltage exceeds or falls below the respective one of the specified voltage thresholds, write into a fault memory by the respective control device when detecting the fault, information representing the exceeding or falling below the respective one of the specified voltage thresholds as a possible cause of the detected fault. 13. A communication network of a motor vehicle, the communication network comprising: a data bus; a plurality of control devices connected to the data bus, the plurality of control devices being operatively configured to exchange messages with one another via the data bus; a voltage source connected to the plurality of control devices; wherein each of one or more of the plurality of control devices comprises: a voltage measuring device for determining a voltage applied to supply connections of the control device; a central fault memory and/or internal fault memory accessible in a writing manner in order to document therein infor