Oscilloscope with internally generated mixed signal oscilloscope demo mode stimulus, and integrated demonstration and training signals

What is claimed is: 1. An apparatus integrated in a common housing, comprising: an oscilloscope; a signal generator comprising a memory configured to store waveforms; a counter configured to provide addresses to control an output of the memory; a multiplier configured to scale the output of the memory to provide a first signal; a first adder configured to add an offset to the first signal to provide a second signal; a noise generator configured to generate noise samples; and a second adder configured to add the noise samples and the second signal to provide a stimulus signal, the signal generator being configured to provide the stimulus signal comprising digital samples of stored waveforms the signal generator; an analog processing stage connected to the signal generator to receive the stimulus signal, and configured to process the digital samples into a plurality of demonstration signals and to output the demonstration signals via at least one lug disposed on the common housing; at least one channel block configured to receive an analog signal for display on the oscilloscope; an oscilloscope probe connectable to the at least one lug to externally couple the plurality of demonstration signals output from the at least one lug to the at least one channel block; and a digital processing stage configured to demonstrate the plurality of demonstration signals provided to the at least one channel block on the oscilloscope. 2. An apparatus as claimed in claim 1 , wherein the digital processing stage is connected to another channel block to receive a digital signal that is external to the apparatus, and configured to display the digital signal on the oscilloscope. 3. An apparatus as claimed in claim 1 , wherein the stimulus signal is internally coupled to the digital processing stage. 4. An apparatus as claimed in claim 1 , further comprising a memory configured to store and output serial demonstration patterns, wherein the analog processing stage is further configured to output the serial demonstration patterns as the demonstration signals via the at least one lug. 5. An apparatus as claimed in claim 1 , further comprising: at least one second signal generator configured to provide at least one second stimulus signal comprising second digital samples of stored waveforms, the analog processing stage connected to the at least one second signal generator to receive the at least one second stimulus signal, and configured to process the second digital samples into a plurality of second demonstration signals and to output the second demonstration signals via at least one second lug disposed on the common housing. 6. An apparatus as claimed in claim 1 , wherein the signal generator stores a plurality of types of different waveforms, and is configured to selectively output the digital samples corresponding to at least two of the different waveforms as the stimulus signal. 7. An apparatus as claimed in claim 6 , wherein the stimulus signal output by the signal generator comprises a sequence of the digital samples including first samples corresponding to a first waveform from among the different waveforms and second samples corresponding to a second waveform from among the different waveforms. 8. An apparatus as claimed in claim 7 , wherein a number of times the first samples are repeated in the sequence and a number of times the second samples are repeated in the sequence are separately controllable. 9. An apparatus as claimed in claim 7 , wherein a number of times the sequence repeats is controllable. 10. An apparatus integrated in a common housing, comprising: an oscilloscope; an analog processing stage configured to process digital samples into a plurality of demonstration signals; at least one lug disposed on the common housing and configured to output the demonstration signals externally from the apparatus; at least one channel block; an oscilloscope probe connectable to the at least one lug to externally couple the demonstration signals output from the at least one lug to the at least one channel block; a digital processing stage configured to receive the demonstration signals from the at least one channel block and display the received demonstration signals on the oscilloscope; and a signal generator comprising a memory configured to store waveforms; a counter configured to provide addresses to control an output of the memory; a multiplier configured to scale the output of the memory to provide a first signal; a first adder configured to add an offset to the first signal to provide a second signal; a noise generator configured to generate noise samples; and a second adder configured to add the noise samples and the second signal to provide the digital samples, the signal generator being configured to store a plurality of types of different waveforms, and to generate the digital samples as corresponding to at least two of the different waveforms, the signal generator. 11. An apparatus as claimed in claim 10 , wherein the signal generator is configured to provide a sequence of the digital samples comprising first samples corresponding to a first waveform from among the different waveforms and second samples corresponding to a second waveform from among the different waveforms. 12. An apparatus as claimed in claim 11 , wherein a number of times the first samples are repeated in the sequence and a number of times the second samples are repeated in the sequence are separately controllable. 13. An apparatus as claimed in claim 11 , wherein a number of times the sequence repeats is controllable. 14. An apparatus as claimed in claim 10 , further comprising: a memory configured to store and output serial demonstration patterns, and wherein the analog processing stage is connected to the memory to receive the serial demonstration patterns, and further configured to process the serial demonstration patterns into the demonstration signals.