Using an Oscilloscope Electricity Lesson 12. Homework Revise for the exam! Make revision check lists (lists of definitions, equations, derivations), make.
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Using an Oscilloscope
Electricity Lesson 12
Homework
Revise for the exam!
Make revision check lists (lists of definitions, equations, derivations), make sure you know these easy marks in the exam.
Practice questions, past papers, out of the book, go on the website if you need more.
Learning Objectives
To know what an oscilloscope is and how it works.
To know how to measure the pd of alternating current and direct current.
To know how to measure the frequency of an alternating current.
Cathode Ray Oscilloscope
Definition
From the specification book:-
An oscilloscope consists of a specially made electron tube and associated control circuits.
The electron gun emits electrons towards a fluorescent screen light is emitted when electrons hit the screen this is what we see.
Tube Photograph
Electron Gun Photograph
Tube Diagram
H.T. supply
heater supply
y plates
+-phosphor screen
anode
x plates
How does it work?
When no p.d. is applied across the plates the spot on the screen is stationary.
If a pd is applied across the X-plates the beam of electrons is deflected horizontally and the spot moves across.
pd across Y-plates spot moves up and down.
Oscilloscope Controls
The x-plates are connected to a time base circuit which is designed to make the spot move across the screen in a given time then back again much faster. a bit like a trace on a heart monitor.
The y-plates are connected to the Y-input and this causes the spot to move up or down depending on the input pd.
summary
H.T. supply
heater supply
y plates
+-phosphor screen
anode
electron gun produces a beam
of electronslight produced on
the screen by electron beam
a p.d. across the y plates deflects the
trace vertically
a p.d. across the x plates deflects the trace horizontally
x plates
Oscilloscope Controls
The gain sets the scale for the y-axis, normally in volts per cm.
The time base sets the scale for the x-axis, normally in ms per cm.
Recall that frequency can be calculated from the period from the graph using: period
1frequency
Gain and Time-Base Controls
Peak Voltage
Peak p.d. = 3 Divisions x 1.0 mV/div = 3.0 mV
Period & Frequency
period = 4.0 divisions x 1.0 ms/div = 4.0 msfrequency = 1 / periodfrequency = 1 / 0.004 sfrequency = 250 Hz
Self Test
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