Method for determining time differences between signals measured by at least two coupled measuring devices and measurement system and corresponding switching device

The invention claimed is: 1. A method for determining time differences between test signals measured by at least two coupled measuring devices, wherein the at least two coupled measuring devices comprise and correspond to a first measuring device and at least one second measuring device, comprising: generating a time basis signal for the at least two coupled measuring devices, in that one of the at least two coupled measuring devices generates and supplies a common time basis signal for the at least two coupled measuring devices; generating a common reference signal by a signal generator and providing the common reference signal to a reference-signal input of a switching device comprising a first switching element and at least one second switching element, wherein a first measuring-device port of the switching device is connected to the first measuring device and is connected by the first switching element alternately to either a first measurement port of the switching device or to the reference-signal input of the switching device, and respectively at least one second measuring-device port of the switching device is connected to the at least one second measuring device and is alternately connected by the at least one second switching element to either a second measurement port of the switching device or to the reference-signal input of the switching device; switching the first switching element and the at least one second switching element to supply simultaneously the common reference signal to the first measuring-device port and the at least one second measuring-device port or to supply the test signals received at the first measurement port and at the at least one second measurement port to the respectively allocated first measuring-device port and at least one second measuring-device port; wherein the switching device periodically switches between either supplying the common reference signal or the test signals via the first measuring-device port to a first test signal input of the first measuring device and via the at least one second measuring-device port to at least one second test signal input of the at least one second measuring device during a measurement determining the relative time position of each test signal of the test signals relative to the common reference signal by the respective first measuring device and the at least one second measuring device; determining, by the first measuring device or the at least one second measuring device, the time differences between the test signals received at the first measurement port and the at least one second measurement port from the determined relative time positions of each test signal of the test signals. 2. The method according to claim 1 , further comprising: synchronously switching between the supply of the common reference signal and the test signals with a trigger signal generated by one of the said measuring devices. 3. The method according to claim 2 , further comprising: generating the trigger signal from a controllable output port of one of the measuring devices in order to control the synchronous switching. 4. The method according to claim 2 , further comprising: synchronously supplying the trigger signal to a trigger input of each one of the coupled measuring devices and of the switching device. 5. The method according to a claim 4 , wherein: the trigger signal is generated by control software in the measuring device. 6. The method according to claim 1 , further comprising: determining total delay-time differences occurring in the case of a connection of a device under test to the measurement system by supplying the reference signal to at least one reference-signal output. 7. A switching device for determining time differences between a first and at least one second test signal using a first measuring device and at least one second measuring device, the switching device comprising: a first measuring-device port connected to a first test signal input of the first measuring device; at least one second measuring-device port connected to at least one second test signal input of the at least one second measuring device; a reference-signal input; a first switching element and at least one second switching element, wherein the first measuring-device port is connected by the first switching element alternately to either a first measurement port of the switching device or the reference-signal input, and respectively the at least one second measuring-device port is alternately connected by the at least one second switching element to either a second measurement port of the switching device or to the reference-signal input, wherein the first switching element and the at least one second switching element are configured to be switched to supply either simultaneously the common reference signal to the first measuring-device port and the at least one second measuring-device port or to supply test signals received at the first measurement port and the at least one second measurement port to the respectively allocated first measuring-device port and at least one second measuring-device port; and wherein the switching device is configured to control the first and the second switching element to perform periodically switching between either supplying the common reference signal or the test signals via the first measuring-device port to the first test-signal input and via the at least one second measuring-device port to the at least one second test-signal input during a measurement. 8. The switching device according to claim 7 , further comprising: a third switching element in a reference-signal path for de-coupling the reference-signal input between the reference-signal input and the first and at least one second switching elements. 9. The switching device according to claim 7 , further comprising: at least one reference-signal output, which is connected to the reference-signal input. 10. The switching device according to claim 8 , further comprising: a trigger-signal input wherein the first, second, and third switching elements are configured to be synchronously activated by a trigger signal applied to the trigger-signal input. 11. The switching device according to claim 10 , wherein: the trigger-signal input of the switching device is connected to a first trigger-signal output and to at least one second trigger-signal output. 12. A measurement system comprising: a first measuring device and at least a second measuring device each having at least one test-signal input, wherein the first measuring device and the at least one second measuring device are clocked by a common time basis supplied by the first measuring device; and a switching device comprising a first switching element and at least one second switching element, wherein a test-signal input of the first measuring device is connected to a first measuring-device port of the switching device, and a test-signal input of the at least one second measuring device is connected to at least one second measuring-device port of the switching device, wherein the first measuring-device port is connected by the first switching element alternately to either a first measurement port of the switching device or a reference-signal input, and respectively the at least one second measuring-device port is connected to the at least one second measuring device and is alternately connected by the at least one second switching element to either a second measurement port of the switching device or to the reference-signal input, wherein the first switching element and the at least one second switching element are configured to be switched to supply simultaneously