Diagnostic device for a multi-voltage vehicle electrical system, a multi-voltage vehicle electrical system, and a method for operating a multi-voltage vehicle electrical system

What is claimed is: 1. A diagnostic device for a multi-voltage electrical system of a motor vehicle having an internal combustion engine, the multi-voltage vehicle electrical system including a first subnetwork acted on by a first voltage and at least one other subnetwork acted on by at least one other voltage, the first voltage being higher than the at least one other voltage, and the first subnetwork and the at least one other subnetwork having a shared first ground connection, the diagnostic device comprising: at least one second ground connection; and processing circuitry that is programmed to perform a diagnostic function, wherein: the diagnostic function includes diagnosing a disturbance in at least one of the shared first ground connection and the at least one second ground connection based on (a) an obtained measurement of a current flow via the at least one second ground connection, and (b) at least one operating state of the multi-voltage vehicle electrical system; and the at least one second ground connection and the shared first ground connection are connected in parallel such that currents flowing via a starter situated in the second subnetwork and a generator situated in the first subnetwork flow via the shared first ground connection and the at least one second ground connection when the internal combustion engine is started under the conditions of the shared first ground connection being undisrupted and the at least one second ground connection being undisrupted. 2. The diagnostic device as recited in claim 1 , wherein the at least one second ground connection and the shared first ground connection are connected in parallel in such a way that during a cold start with the aid of the starter, a larger portion of the flowing currents flows via the shared first ground connection and the remaining, smaller portion of the flowing currents flows via the at least one second ground connection. 3. The diagnostic device as recited in claim 2 , wherein: the generator is a starter generator; and the at least one second ground connection and the shared first ground connection are connected in parallel in such a way that during a warm start with the aid of the starter generator, a larger portion of the flowing currents flows via the at least one second ground connection and the remaining, smaller portion of the flowing currents flows via the shared first ground connection. 4. The diagnostic device as recited in claim 3 , wherein the shared first ground connection is provided on the internal combustion engine of the motor vehicle, and wherein at least one component of the first subnetwork and at least one component of the at least one other subnetwork are connected to the shared first ground connection. 5. The diagnostic device as recited in claim 3 , wherein the at least second ground connection is a ground connection of the generator which is conductively connected to the internal combustion engine. 6. The diagnostic device as recited in claim 3 , wherein the first voltage is 48 V and the at least one other voltage is one of 12 V or 14 V. 7. The diagnostic device as recited in claim 3 , wherein the first subnetwork is acted on by the first voltage with the aid of at least one voltage source, and the at least one other subnetwork is acted on by the at least one other voltage with the aid of at least one other voltage source. 8. A multi-voltage electrical system for a motor vehicle, comprising: a first subnetwork acted on by a first voltage; at least one other subnetwork acted on by at least one other voltage, wherein the first voltage is higher than the at least one other voltage, and the first subnetwork and the at least one other subnetwork have a shared first ground connection; and a diagnostic device including: at least one second ground connection; and processing circuitry that is programmed to perform a diagnostic function, wherein: the diagnostic function includes diagnosing a disturbance in at least one of the shared first ground connection and the at least one second ground connection based on (a) an obtained measurement of a current flow via the at least one second ground connection, and (b) at least one operating state of the multi-voltage vehicle electrical system; and the at least one second ground connection and the shared first ground connection are connected in parallel such that currents flowing via a starter situated in the second subnetwork and a generator situated in the first subnetwork flow via the shared first ground connection and the at least one second ground connection when the internal combustion engine is started under the conditions of the shared first ground connection being undisrupted and the at least one second ground connection being undisrupted. 9. A method for operating a diagnostic device for a multi-voltage electrical system of a motor vehicle having an internal combustion engine, the multi-voltage vehicle electrical system including a first subnetwork acted on by a first voltage and at least one other subnetwork acted on by at least one other voltage, the first voltage being higher than the at least one other voltage, and the first subnetwork and the at least one other subnetwork having a shared first ground connection, the diagnostic device including at least one second ground connection, and processing circuitry programmed to perform a diagnostic function, the method comprising: obtaining, by the processing circuitry, a measurement of a current flow via the at least one second ground connection; and diagnosing, by the processing circuitry performing the diagnostic function, a disturbance in at least one of the shared first ground connection and the at least one second ground connection on the basis of the obtained measurement and as a function of whether the internal combustion engine is started in one of a cold start condition or a warm start condition.