DUAL TRACE OSCILLOSCOPE
- 2. PRENSATATION TOPIC: DUAL TRACE OSCILLOSCOPE GROUP MEMBERS: SANA-JAMIL-KHASKHELI (02) ISHTIAQUE-AHMED-ABRO (22) ABDUL-MAJEED (36)
- 3. OSCILLOSCOPE: The device which convert any electrical signals to visual(wave form). The graph , usually called the trace, is drawn by a beam of electrons striking the phosphor coating of the screen making it emit light , usually green or blue. This is similar to the way a television picture is produced.
- 5. Why dual trace: Unlike signal trace oscilloscope, dual trace oscilloscope can display two trace on the screen, allowing you to easily compare the input and output.
- 6. For example: Input and output of amplifier. Input and output waveform of amplifier Input and output comparison on DTO
- 7. Block diagram and working of dual trace oscilloscope:
- 8. Explanation of block diagram and its working: It has two individual vertical input channels A and B. Both the inputs are separately fed to the pre amplifiers and attenuator stage. The outputs of the two separate pre amplifiers and attenuator stage are then provided to the electronic switch. This switch only passes a single channel input particular at a time to the vertical amplifier. The circuit also has a trigger selector switch that permits the circuits triggering with either A or B channel input or with the externally applied signals.
- 9. The signals from the horizontal amplifier is fed to the electronic switch by either sweep generator or channel B by switch s0 and s2 In this way, the vertical signal from channel A and horizontal signal from channel B is provided to the CRT for the operation of the oscilloscope. This is the X-Y mode of the oscilloscope and permits accurate X-Y measurements. Basically , the modes of operation of the oscilloscope rely on the choice of front panel controls . like either the trace of channel A is needed or separately trace of channel A or B is required.
- 10. MODES OF DUAL TRACE OSCILLOSCOPE: There exist two modes of operating of dual trace oscilloscope. 1.ALTERNATE MODE OF DUAL TRACE OSCILLOSCOPE: Whenever we activate the alternate mode , then it permits the connection between both the channels alternately. This alternate or switching between the channels A and B takes place at the beginning of each upcoming sweep. Also , there exists synchronization between the switching rate and the sweep rate. This leads to the spotting of traces of each channel on one sweep. Like in first sweep traces of channel A will be spotted, then in the next sweep traces of channel B will be considered by the CRT.
- 11. • In this way, the alternate connection of the two-channel input with the vertical amplifier is performed. • The change in the electronic switch from one channel to the other occurs at fly back sweep duration. At the fly back period, the electron beam will be invisible and so the changeover from one channel to other. • In this way, the alternate connection of the two-channel input with the vertical amplifier is performed. • The change in the electronic switch from one channel to the other occurs at fly back sweep duration. At the fly back period, the electron beam will be invisible and so the changeover from one channel to other. • Hence a complete sweep signal from one vertical channel will be displayed at the screen. While for the next sweep, the signal from another vertical channel will be displayed.
- 12. The figure below represents the waveform the oscilloscope output operating in alternate mode:
- 13. • This method allows us to maintain the proper phase relationship between signals of channel A and B. However, along with advantage, a disadvantageous factor is also associated with this mode. • Alternate mode leads to a display that will show the occurrence of both the signals at different time. But in actual practice, the two events occur simultaneously. Also, the method cannot be used for the representation of the low-frequency signal.
- 14. CHOPPED MODE OF DUAL TRACE OSCILLOSCOPE: • In this mode of operation during a single sweep, several times switching between the two channels occurs. And this switching is so quick that even for the very small segment the display is available at the screen.
- 15. The figure below shows the waveform representation in case of chopped mode
- 16. • Here, the electronic switch undergoes free running at a very high frequency of about 100 KHz to 500 KHz. • And the frequency of electronic switch does not rely on the frequency of the sweep generator. • Hence in this way, the small segments of the two channels get connected to the amplifier in a continuous manner. • When the chopping rate is faster than the rate of horizontal sweep, then the separately chopped segments will be merged and recombine to form originally applied channel A and B waveform at the screen of CRT. • However, if the chopping rate is lesser than the sweep rate then it will definitely lead to discontinuity in the display. Therefore, in such case alternate mode is more suitable. • The dual trace oscillator permits the choice of respective mode of operation through the front panel of the instrument
- 17. DIFFERENCE BETWEEN DTO AND DUAL BEAM OSCILLOSCOPE: Dual trace oscilloscope • A dual-trace oscilloscope has single electron beam which get split into two passes through two separate channels. • Dual trace CRO cannot switch quickly between the trace so it cannot capture two fast transient. Dual beam oscilloscope • Dual beam oscilloscope has two different electron gun which passes through two completely separate vertical channels. • Whereas dual beam CRO there is no question of switching.
- 18. Dual trace oscilloscope Dual trace brightness of the resultant display is same. The brightness of the displayed beam of the dual trace is half of the brightness of dual beam CRO. Dual beam oscilloscope • The brightness of the two displayed beam drastically different as it operated at widely spaced sweep speeds.
- 19. THANKS