與我們聯絡

與 Tek 業務代表即時對談。 上班時間:上午 6:00 - 下午 4:30 (太平洋時間)

致電

請致電

與 Tek 業務代表即時對談。 上班時間:上午 8:30 - 下午 5:30 (太平洋時間)

下載

下載手冊、產品規格表、軟體等等:

下載類型
機型或關鍵字

意見回饋

Why Should My Signal Fit Within The Screen Of My Tektronix Oscilloscope?

問題:

Why Should My Signal Fit Within The Screen Of My Tektronix Oscilloscope?

答案:

Scaling your signal to fit within the screen will remove signal distortion caused by clipping. Clipping is caused by exceeding the limits of the instrument's input. Tektronix's digital oscilloscopes are designed such that each division is 25 digital levels. For 8-division digital oscilloscopes, there is one division above and below the screen before clipping occurs. For 10-division digital oscilloscopes, the top and bottom of the screen are the limits of input. Any portion of your signal, desired or undesired, may cause clipping. Since this off screen portion of your signal is beyond what is detectable, it is chopped-off (hence the term clipping) and may give you unexpected results.

Demonstration

The effects of clipping are easy to demonstrate.

unclipped sine
Test signal: 1 MHz Sine

Input a sine wave into your oscilloscope and scale it to fit on screen.

 

unclipped sine
No clipping (increased time scale)

Adjust the time per division to clearly see the fundamental with a good view of a few harmonics.

 

unclipped sine FFT
FFT of 1MHz sine

The FFT shows little harmonics.

 

clipped sine
Increased position (half signal off screen)

Now adjust the position so that half of the sine wave is off the top of the screen.

 

clipped sine FFT
FFT of clipped 1 MHz sine

You will notice an increase in harmonics caused by clipping of the sine wave.


常見問答集 ID 60306

檢視所有常見問答集 »