Oscilloscope system and method for simultaneously displaying zoomed-in and zoomed-out waveforms

What is claimed is: 1. An oscilloscope system comprising: a current probe comprising a high gain signal path and a low gain signal path configured to receive simultaneously a signal of interest from a device under test (DUT) and to output an amplified small current portion of the signal of interest and an amplified large current portion of the signal of interest, respectively; a processing unit configured to receive first digitized data corresponding to the amplified small current portion of the signal of interest output by the low gain signal path and second digitized data corresponding to the amplified large current portion of the signal of interest output by the low gain signal path, to process the first digitized data for display as zoomed-in waveform data, and to process the second digitized data for display as zoomed-out waveform data; and a display unit configured to display simultaneously a zoomed-in waveform in a first display window, based on the zoomed-in waveform data, and a zoomed-out waveform in a second display window, based on the zoomed-out waveform data, using the same time scale, wherein the small current portion of the signal of interest is less than a predetermined threshold. 2. The oscilloscope system of claim 1 , further comprising: a first channel configured to receive the amplified small current portion of the signal of interest from the high gain signal path of the current probe; and a second channel configured to receive the amplified large current portion of the signal of interest from the high gain signal path of the current probe, wherein the processing unit receives the first digitized data via the first channel and the second digitized data via the second channel. 3. The oscilloscope system of claim 2 , wherein the first and second oscilloscope channels are synchronized. 4. The oscilloscope system of claim 1 , wherein the high gain signal path has a gain of about 300:1, and the low gain signal path has a gain of about 2:1. 5. The oscilloscope system of claim 1 , wherein the predetermined threshold comprises a clamping voltage value set in the high gain signal path. 6. The oscilloscope system of claim 1 , wherein the predetermined threshold comprises a maximum amplitude value set by the processing unit. 7. The oscilloscope system of claim 1 , wherein the processing unit is further configured to measure battery drain of the DUT by measuring a first area under the zoomed-in waveform and a second area under the zoomed-out waveform, and adding the first and second areas, less a duplicated area of the zoomed-out waveform corresponding to the zoomed-in waveform, to obtain a total area corresponding to the battery drain. 8. The oscilloscope system of claim 1 , wherein the display unit is further configured to display a selection window in the second display window, boundaries of the selection window corresponding to a range of the first display window. 9. The oscilloscope system of claim 8 , wherein the boundaries of the selection window are adjustable via a user interface. 10. A method of processing data corresponding to a small current portion and a large current portion of a signal of interest provided from a device under test (DUT) via a current probe, the method comprising: receiving the small current portion of the signal of interest amplified by a high gain signal path of the current probe via a first channel of an oscilloscope; receiving the large current portion of the signal of interest amplified by a low gain signal path of the current probe via a second channel of the oscilloscope substantially simultaneously to receiving the small current portion of the signal of interest; digitizing the received small current portion and the received large current portion of the signal of interest to provide first digitized data and second digitized data, respectively; selecting portions of the first digitized data that are less than a predetermined threshold; processing the selected portions of the first digitized data for display as zoomed-in waveform data; processing the second digitized data for display as zoomed-out waveform data; and displaying simultaneously a zoomed-in waveform in a first display window, based on the zoomed-in waveform data, and a zoomed-out waveform in a second display window, based on the zoomed-out waveform data, using the same time scale. 11. The method of claim 10 , further comprising: receiving boundaries of a selection window via a user input unit, an upper boundary of the selection window corresponding to the predetermined threshold. 12. The method of claim 11 , further comprising: adjusting a first range of the first display window based on the received boundaries of the selection window; and displaying the selection window in the second display window with the zoomed-out waveform. 13. The method of claim 12 , wherein the predetermined threshold comprises a maximum amplitude corresponding to an upper value of the first display window. 14. The method of claim 12 , wherein the predetermined threshold comprises a clamping voltage set in the high gain signal path of the current probe corresponding to an upper value of the first display window. 15. The method of claim 10 , further comprising: measuring a first area under the zoomed-in waveform; measuring a second area under the zoomed-out waveform; determining a duplicated area in the zoomed-out waveform, the duplicated area corresponding to the first area under the zoomed-in waveform; and determining a total area by adding the first and second areas, less the duplicated area, wherein the total area corresponds to battery drain of the DUT. 16. An oscilloscope comprising: a first channel configured to receive a signal of interest output by a device under test (DUT) in a sleep mode, and amplified to provide a small current portion of the signal of interest, the small current portion being less than a predetermined threshold; a second channel configured to receive the signal of interest output by the DUT in a communication mode, and amplified to provide a large current portion of the signal of interest; a processing unit configured to receive first digitized data corresponding to the amplified small current portion of the signal of interest from the first channel and second digitized data corresponding to the amplified large current portion of the signal of interest from the second channel, to process the first digitized data for display as zoomed-in waveform data, and to process the second digitized data for display as zoomed-out waveform data; and a display unit configured to display simultaneously a zoomed-in waveform in a first display window, based on the zoomed-in waveform data, and a zoomed-out waveform in a second display window, based on the zoomed-out waveform data, using the same time scale. 17. The oscilloscope of claim 16 , wherein the amplified small current portion is output by a high gain signal path and the amplified large current portion is output by a low gain signal path of a multipath current probe, the high gain signal path being configured to amplify the small current portion and the low gain signal path being configured to amplify the large current portion substantially simultaneously. 18. The oscilloscope of claim 16 , wherein the first and second channels are synchronized. 19. The oscilloscope of claim 18 , wherein the display unit is further configured to display a selection window in the second display window, boundaries of the selection window corresponding to a range of the first disp