Friday, April 24, 2009

RT II Final April 24, 2009

Good Luck. Follow this link to the Final.

Friday, April 10, 2009

Friday, April 3, 2009

Fluoroscopy

The powerPoint presentation below covers material that was presented in class on April 3, 2009. The quiz scheduled for April 10th will be based on the information in the presentation. View it HERE also.

Thursday, March 12, 2009

The X-ray Circuit

The x-ray circuit is composed of two major secondary regions or circuits:
1. the filament circuit (outlined in red on the diagram below), and
2. the high voltage or high tension circuit (outlined in blue)


The filament circuit gets its power supply directly from the autotransformer and supplies current to the filament of the x-ray tube. The major components of the filament circuit are:
1. the mA selector
2. the focal spot selector
3. the step-down transformer

The Filament circuit is switched on when the prepare button is pressed. This sends current through the filament wire causing thermionic emission which produces a space charge. Prepping for too long before each exposure will put undue stress on the filament wire. So keep your prep time optimal (just right--which usually means short).
The mA selector functions as a rheostat (which is a variable resistor--you adjust the resistance to vary the amount of current flowing in the filament circuit). The amount of filament current determines how hot the filament wire gets. (More current--more heat---more electrons boiled off the filament wire--higher mA).

The focal spot selector is a switch that allows current to flow through one filament wire at a time. When you select the large focal spot the filament current flows through the longer filament wire, and when you select small focus the filament current is switched to flow through the small filament wire.

The step-down transformer steps down the voltage in the filament circuit. In the diagram to the left, there are two sets of windings or turns in the step down transformer (in yellow). There are more windings or turns on the upper part of the transformer (the primary side), than on the lower side (the secondary).



The step-down transformer steps down the voltage, but steps up the current. Therefore, in the filament circuit we get low voltage and high current.

Remember, the filament current has to be high to ensure adequate thermionic emission. This is how we control the quantity of electrons boiled off at the filament.

The mA selector and focal spot size selector are located in the primary portion of the step-down transformer. (see diagram above)

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The high voltage portion of the x-ray circuit (shown in blue in diagram 1 above), controls several important aspects of x-ray production. In the high voltage circuit you will find components such as:
1. the pre-reading kV meter--that indicates the kilovoltage that will be applied to the x-ray tube once the x-ray exposure starts (the potential difference between cathode and anode)

2. the exposure switch that closes to start the x-ray exposure and opens to end the exposure. The operator (you) start the exposure, but the amount of time the circuit stays closed is determined by the timer. (So you start it, but you don't end it).

3. the timer controls the amount of time the x-ray exposure lasts.

This is the sequence of events of an x-ray exposure: Once you press the exposure button the high voltage circuit is closed. This means that a high potential difference is set up between the cathode and anode. The electron cloud (space charge) that was produced during the prep phase of the exposure is pulled across form the cathode to the anode based on electrostatic attraction. (negative electrons attracted to positive anode).

The electron flow from cathode to anode is called tube current. As long as tube current is flowing x-rays are being produced.

The tube current will flow as long as the high voltage circuit is closed.

4. the step up transformer--steps up the voltage by a fixed ratio. If the turns ratio (number of secondary windings divided by number of primary windings--Ns/Np) is 1000 the voltage in the secondary portion of the transformer will be 1000 times the primary voltage.

The region highlighted in yellow below is the primary of the step-up transformer.

The region highlighted in blue below is the secondary of the step-up transformer.


5. the rectifiers convert alternating to direct current (pulses) ensuring that tube current only flows in one direction (from cathode to anode)


6. the mA meter--indicates the tube current.

Sunday, March 1, 2009

Quiz 2...The Late Edition

Follow this link for the quiz. Submit it by 11:10. If you are late it will not count.

Tuesday, February 10, 2009

Diagrams for Practice Quiz

Diagram for question 12:






Diagram for questions 14, 15, and 16

Thursday, January 29, 2009

Let's Get The Spring '09 Semester Rolling

Welcome back for more hard work ladies and gents. The syllabus is up.

This course covers large portions of sections B and C of the ARRT examination.

What will you have to do to get that A in RTC 105?

1. Develop a web log--7%
2. Do Online Practice Quizzes--8%
3. Demolish 5 In-Class Quizzes--(5 @ 10% each) 50%
4. Complete Laboratory Worksheets and Assignments--10%
5. Beat down a Comprehensive Final Examination--25%

Sounds simple, right? You know I like to make it easy for you.

But it gets easier...you also have to show up for class on time and attend all the class sessions between now and the end of April. Wow!!! You guys are sooo lucky.