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Introduction

Oscilloscope

Tarique Stephens

-The following is a concise introduction to four brief demonstrations of the oscilloscope.

-The oscilloscope is historically one of the most integral tools used in the

development of electro-magnetic theory through its ability to measure phenomena

which exhibit oscillations such as voltage or current most often seen as a sine-wave.

-Naturally, most things move in the form of sine-waves, such as fundamental

forces and frequencies (light, sound, etc.). The utilization of the oscilloscopes sensors

can convert these forces into electrical signals, which can then be displayed on today's

modern digital devices.

-Early methods of obtaining these measurements were much different and more

difficult than they are today, as some of the first methods of obtaining the waveform

were slow and painstaking. By spinning a rotor around an axis and noting the

measurements of these rotations, a standing wave could finally be represented on

paper. This process was slowly automated over the years and has become what we use

today with our digital oscilloscopes.

-Whether it be Hand-Drawn Oscillograms or Galvanometers, the observations

and measurements of the wave-form has been sought out since as early as the second

decade of the 19th century. The following demonstrations within the four “labs” will use

a modern method of digital electronic oscilloscope measurements, and observations,

and explain what tools one receives from the tasks.

1.) The first lab introduces you to configuring your oscilloscope and identifying three

components of the common wave-form, this being the period, frequency, and the

“peak-to-peak” voltage.

2.) The second lab gave us the ability to use what is known as “triggering”.

Triggering allows the user of the oscilloscope to take snapshots at specific points

of the wave in order to obtain a static image of our sine wave on the display of

the oscilloscope.

3.) Following this second lab, the third lab establishes the ability to obtain and

interpret noisy signals with the use of triggering as well. With this use of

triggering, one could find and record the period, frequency, and peak-to-peak

voltage of very rapidly moving and disturbed wave-forms.

4.) The fourth and final lab is typically performed after the first. The fourth lab gives

instructions using the oscilloscope and a USB to save and recall images from the

oscilloscope and recall them to our personal computers even when the data on

the oscilloscope is restored to its default.

Reference: Educators Training Kit for Oscilloscope 1000 X-Series; 2017; Keysight Technologies

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Introduction Oscilloscope Tarique Stephens -The following is a concise introduction to four brief demonstrations of the oscilloscope. -The oscilloscope is historically one of the most integral tools used in the development of electro-magnetic theory through its ability to measure phenomena which exhibit oscillations such as voltage or current most often seen as a sine-wave. -Naturally, most things move in the form of sine-waves, such as fundamental forces and frequencies (light, sound, etc.). The utilization of the oscilloscopes sensors can convert these forces into electrical signals, which can then be displayed on today's modern digital devices. -Early methods of obtaining these measurements were much different and more difficult than they are today, as some of the first methods of obtaining the waveform were slow and painstaking. By spinning a rotor around an axis and noting the measurements of these rotations, a standing wave could finally be represented on paper. This process was slowly automated over the years and has become what we use today with our digital oscilloscopes. -Whether it be Hand-Drawn Oscillograms or Galvanometers, the observations and measurements of the wave-form has been sought out since as early as the second decade of the 19th century. The following demonstrations within the four “labs” will use a modern method of digital electronic oscilloscope measurements, and observations, and explain what tools one receives from the tasks. 1.) The first lab introduces you to configuring your oscilloscope and identifying three components of the common wave-form, this being the period, frequency, and the “peak-to-peak” voltage. 2.) The second lab gave us the ability to use what is known as “triggering”. Triggering allows the user of the oscilloscope to take snapshots at specific points of the wave in order to obtain a static image of our sine wave on the display of the oscilloscope. 3.) Following this second lab, the third lab establishes the ability to obtain and interpret noisy signals with the use of triggering as well. With this use of triggering, one could find and record the period, frequency, and peak-to-peak voltage of very rapidly moving and disturbed wave-forms. 4.) The fourth and final lab is typically performed after the first. The fourth lab gives instructions using the oscilloscope and a USB to save and recall images from the oscilloscope and recall them to our personal computers even when the data on the oscilloscope is restored to its default. Reference: Educators Training Kit for Oscilloscope 1000 X-Series; 2017; Keysight Technologies

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