Real-time oscilloscope with a built-in time domain reflectometry (TDR) and/or time-domain transmission (TDT) function

What is claimed is: 1. A real-time oscilloscope with a built-in time domain reflectometry (TDR) and/or time-domain transmission (TDT) function for measurements of a device under test (DUT), comprising: at least one built-in generator, and at least one real-time measurement channel, wherein the built-in generator is in communication with the real-time measurement channel and the device under test (DUT) and is configured to generate incident signals, wherein the real-time measurement channel is configured to capture incident signals transmitted to and reflected by and/or transmitted by the device under test (DUT), and wherein a trigger functionality is provided enabling the real-time measurement channel to trigger on nonsynchronized incident signals transmitted to, reflected and/or transmitted by the device under test (DUT). 2. The real-time oscilloscope according to claim 1 , wherein the real-time measurement channel is configured to selectively store only data representative for incident signals and the reflected signals as response to the incident signals. 3. The real-time oscilloscope according to claim 1 , wherein the built-in generator includes a generator source and a power divider having a first port connected to the generator source, having a second port connected to a first port of the built-in generator and having a third port connected to a second port of the built-in generator. 4. A real-time oscilloscope with a built-in time domain reflectometry (TDR) and/or time-domain transmission (TDT) function for measurements of a device under test (DUT), comprising: at least one built-in generator, and at least one real-time measurement channel, wherein the built-in generator is in communication with the real-time measurement channel and the device under test (DUT) and is configured to generate incident signals, wherein the real-time measurement channel is configured to capture incident signals transmitted to and reflected by and/or transmitted by the device under test (DUT), wherein the built-in generator includes a generator source and an output line with pick off, and wherein a first port of the output line is connected to the generator source, a second port of the output line is connected to a first port of the built-in generator and the pick-off is connected to a second port of the built-in generator. 5. The real-time oscilloscope according to claim 4 , wherein the pick-off attached to the output line is a resistor and/or an active amplifier and/or a coupler. 6. The real-time oscilloscope according to claim 1 , wherein the built-in generator generates a step signal, and/or an impulse signal, and/or a sine signal. 7. The real-time oscilloscope according to claim 1 , wherein the built-in generator provides a signal for single-ended signaling. 8. The real-time oscilloscope according to claim 1 , wherein the built-in generator provides a signal for differential signaling. 9. The real-time oscilloscope according to claim 1 , wherein the real-time measurement channel provides a first input port connected to a first port of the built-in generator and a second input port connected to an external input socket of the real-time oscilloscope. 10. The real-time oscilloscope according to claim 9 , wherein the connection between the first input port of the real-time measurement channel and the first port of the built-in generator and/or the connection between the second input port of the real-time measurement channel and the external input socket is switchable by a switching element. 11. The real-time oscilloscope according to claim 10 , wherein the switching element is a relay and/or a semiconductor switch. 12. The real-time oscilloscope according to claim 1 , wherein a second real-time measurement channel is provided and connected to an output port of the device under test (DUT) for capturing signals transmitted by the device under test (DUT) in response to the incident signal generated by the built-in generator. 13. A method for performing time domain measurements with a real-time oscilloscope the method comprising the steps of: generating an incident signal with the aid of a built-in generator, transmitting the incident signal to a device under test (DUT), measuring a reflection signal of said incident signal at an input of the device under test (DUT) and measuring a transmission signal of said incident signal at an output of the DUT, acquiring incident signals transmitted to and reflected and/or transmitted by the device under test (DUT) with the aid of a real-time measurement channel, and triggering on non-synchronized incident signals transmitted to, reflected and/or transmitted by the device under test (DUT). 14. The method according to claim 13 , wherein the method further comprises the step of applying a post-processing function to at least two acquisitions with the aid of the real-time measurement channel. 15. The method according to claim 14 , wherein the method further comprises the step of averaging the at least two acquisitions with the aid of the real-time measurement channel. 16. The method according to claim 14 , wherein the method further comprises the step of calculating and displaying a waterfall diagram of the at least two acquisitions with the aid of the realtime measurement channel.