X-ray Production, X-ray Tubes, And X-ray Generators

Question 1

These are created from conversion of kinetic energy of electrons into electromagnetic radiation when they are decelerated by interaction with a target material.

Answer 1

X-rays

Question 2

For diagnostic radiology, a large electric potential difference of how many V is applied between two electrodes in the vacuum?

Answer 2

20,000 to 150,000 V (20 to 150 kV)

Question 3

On impact with the target, the kinetic energy of electrons is converted to other forms of energy.

The majority of interactions are what?

Whereby energy exchanges with electrons in the target give rise to heat.

Answer 3

Collisional

Question 4

The unfiltered bremsstrahlung shows an inverse linear relationship between the number and the energy of the x-rays produced.

With highest x-ray energy is determined by what?

Answer 4

By the peak voltage (kV) applied across the X-ray tube.

Question 5

A typical filtered bremsstrahlung spectrum has no x-rays below how many keV?

Answer 5

About 10 keV

Question 6

Major factors that affect production efficiency include:

Answer 6

Atomic number of the target material

Kinetic energy of the incident electrons

Question 7

The most common target material is what?

Answer 7

Tungsten

Question 8

For 100-keV electrons impinging on tungsten, the approximate ratio of radiative to collisional losses is 0.9%; therefore, more than how many % of the incident electron energy on the target electrode is converted to heat and non useful low-energy electromagnetic radiation?

Answer 8

99%

Question 9

This provides an environment for the production of bremsstrahlung and characteristic x-rays.

Answer 9

X-ray tube

Question 10

What are the major X-ray tube components?

Answer 10

Cathode
Anode
Rotor/ stator
Glass or metal envelope
Tube port
Cable sockets
Tube housing

Question 11

What supplies the power and permits selection of tube voltage, tube current and exposure time?

Answer 11

X-ray generator

Question 12

Depending upon the type of imaging examination and the characteristics of the anatomy being images, the x-ray tube voltage is set to values ___________ for diagnostic imaging, and _______ got mammography.

Answer 12

40 to 150 kV = Diagnostic imaging

25 to 40 kV = Mammography

Question 13

This is proportional to the number of electrons per second flowing from the cathode to the anode.

This is measured in milliamperes (mA).

Answer 13

X-ray tube current

Question 14

For continuous fluoroscopy, the tube current is relatively low ______ mA, and for projection radiography, the tube current is set from ________ mA in conjunction with short exposure times (typically less than 100 ms).

Answer 14

1 to 5 mA = continuous fluoroscopy

50 to 1,200 mA = projection radiography

Question 15

What are the three major selectable parameters on the x-ray generator control panel that determine the x-ray beam characteristics?

Answer 15

kV, mA, and exposure time

Question 16

This is the negative electrode in the X-ray tube, comprised of filament or filaments and a focusing cup.

Answer 16

Cathode

Question 17

A filament is made of tungsten wire wound in a helix, and is electrically connected to the filament circuit, which provides a voltage of approximately how many V and variable current up to how many mA.

Answer 17

10 V

7,000 mA

Most x-ray tubes for diagnostic imaging have two filaments of different lengths, each positioned in a slot machined into the focusing cap, with one end directly connected to the focusing cup, and the other end electrically insulated from the cup by a ceramic insert. Only one filament is energized for an imaging examination.

Question 18

When energized, the filament circuit heats the filament through electrical resistance, and the process of thermionic emission does what?

Answer 18

It releases electrons from the filament surface at a rate determined by the filament current and corresponding filament temperature.

Question 19

Output of the x-ray tube is emission-limited.

Which means what?

Answer 19

It means that the filament current determines the X-ray tube current; at any kV, the x-ray flux is proportional to the tube current.

Question 20

As a large voltage is applied between the cathode and anode in the correct polarity, electrons accelerated into tight distribution and travel to the anode, striking a small area called the what.

Answer 20

Focal spot

The focal spot dimensions are determined by the length of the filament in one direction and the width of electron distribution in the perpendicular direction.

Question 21

This x-ray tube has a focusing cup totally insulated from the filament wires so that it’s voltage is independent of the filament.

Answer 21

Biased x-ray tube

Because high voltages are applied to the cathode, electrical insulation of the focusing cup and the bias supply voltage is necessary, and can add significant expense to the x-ray system.

Question 22

Even greater negative applied voltage (about -4,000 V) to the focusing cup actually stops the flow of electrons, providing a means to rapidly switch the x-ray beam on and off; a tube with this capability is called what?

Answer 22

Grid-biased x-ray tube

Grid-biased x-ray tube switching is used by more expensive fluoroscopy systems for pulsed fluoroscopy and angiography to rapidly and precisely turn on and turn off the x-ray beam.

Question 23

This is a metal target electrode that is maintained at a large positive potential difference relative to the cathode.

Answer 23

Anode

Electrons striking the anode deposit most of their energy as heat, with only a small fractions emitted as x-rays.

Question 24

Tungsten is the most widely used anode material.

Why?

Answer 24

Because of its high melting point and high atomic number

Question 25

What anode materials are used in mammographic x-ray tubes.

Answer 25

Molybdenum and rhodium

Question 26

A simple X-ray tube design has a stationary anode, consisting of a tungsten insert embedded in a block.

The block is made from what material?

Answer 26

Copper

It is a copper block

Question 27

In fix anode configuration:

Copper serves a dual role which are?

Answer 27

Mechanically supports insert

Efficiently conducts heat from the tungsten target

Question 28

Modalities or machines that use fix anode x-ray tubes.

Answer 28

Dental x-ray units and some low-output mobile x-ray machines and mobile fluoroscopy systems

Question 29

These anodes are used for diagnostic x-ray application, mainly because of greater heat loading and higher x-ray intensity output.

Answer 29

Rotating anodes

This design spreads the heat over a much larger area than does the stationary anode design, permitting much larger tube currents and exposure duration.

Question 30

The rotating anode is beveled disk mounted on a _______ assembly supported by bearings of X-ray tube insert.

Answer 30

Rotor

Question 31

The rotor consists of what?

Answer 31

Copper bars arrange around a cylindrical iron core

Question 32

A donut-shaped stator device is comprised of what?

It surrounds the rotor and is mounted outside of the X-ray tube insert.

Answer 32

Electromagnets

Alternating currents (AC), the periodic reversal of electron movement in a conductor, passes through the stator windings and produces a rotating magnetic field.

Question 33

Rotation speeds are how many revolutions per minute (rpm)?

Answer 33

3,000 to 3,600 (low speed) or 9,000 to 10,000 (high speed) rpm

Question 34

A _______ focal spot allows a greater x-ray beam intensity but cause a loss of spatial resolution that increases with distance of the imaged object from the image receptor.

Smaller or large?

Answer 34

Larger

Question 35

This is defined as the angle of the target surface with respect to the central ray (central axis) in he x-ray field.

Answer 35

Anode angle

Question 36

Anode angles in diagnostic X-ray tubes typically range from 7 to 20 degrees.

What degree of angles are most common?

Answer 36

12- to 15- degree angles

Question 37

What are the major factors affected by the anode angle?

Answer 37

Effective focal spot size

Tube output intensity

X-ray field coverage provided at a given focal spot to detector distance

Question 38

The actual focal spot size is the area on the anode that is struck by electrons, and is primarily determined by what?

Answer 38

By the length of the of the cathode filament and the width of the focusing cup slot

Question 39

Foreshortening of the focal spot length at the central ray is called the what?

Answer 39

Line focus principle

An ability to have a smaller effective focal spot size for a large actual spot increases the power loading for smaller effective focal spot size

Question 40

The optimal anode angle depends on the clinical imaging application.

A small anode angle for small field-of-view devices, such as some small fluoroscopy detectors, where field coverage is limited by the image receptor diameter (e.g. 23 cm).

Small anode angle are approximately how many degrees?

Answer 40

7 to 9 degrees

Question 41

Larger angle anodes are necessary for general radiographic imaging to achieve sufficiently large field area coverage at typical spot-to-detector distances such as 100 cm.

Large anode angle are approximately how many degrees?

Answer 41

12 to 15 degrees

Question 42

Toward the anode side of the field, the projected length of the focal spot _______ , whereas it ________ towards the cathode side of the field.

Shorten or lengthen?

Answer 42

Shortens

Lengthens

Question 43

Common tools for measuring focal spot size are the:

Answer 43

Pinhole camera
Slit camera
Star pattern
Resolution bar pattern

Question 44

This uses a very small circular aperture (10 to 30 um diameter) in a thin, highly attenuating metal (e.g., lead, tungsten, or gold) disk to project a magnified image of the focal spot onto an image receptor.

Answer 44

Pinhole camera

Question 45

This consists of highly attenuating metal (usually tungsten) plate with a thin slit, typically 10 um wide.

Answer 45

Slit camera

Question 46

This contains a radial pattern of lead spokes of diminishing width and spacing on a thin plastic disk.

Answer 46

Star pattern test tool

Question 47

This is a simple tool for evaluation of focal spot size.

These images demonstrates the effective resolution parallel and perpendicular to the A-C axis for a given magnification geometry.

Answer 47

Resolution bar pattern

Question 48

The refers to a reduction in the x-ray beam intensity in the anode side, caused by the greater attenuation of x-rays directed toward the anode side of the field by the anode itself.

Answer 48

Heel effect

The heel effect is less prominent with a longer source-to-image distance (SID)

Question 49

These results from electrons that scatter from the anode, and are re-accelerated back to the anode, outside of the focal spot area.

Answer 49

Off-focal radiation

These electrons cause low-intensity x-ray emission over the entire face of the anode, increasing patient exposure, causing geometric blurring, reducing image contrast, and increasing random noise.

Question 50

What is a “getter” circuit?

Answer 50

It is used to trap gas in the insert and to maintain the vacuum

Question 51

Mammography tubes use what type of material in the port?

In order to minimize absorption of the low-energy x-rays used in mammography.

Answer 51

Beryllium

Question 52

This contains the cathode, anode, rotor assembly , and support structures sealed in a glass or metal enclosure under a high vacuum.

Answer 52

X-ray tube insert

Question 53

This supports, insulates , and protects the X-ray tube insert from the environment.

Answer 53

X-ray tube housing

Question 54

Lead shielding inside the housing attenuates nearly all x-rays that are not directed to the tube port. A small fraction of these x-rays, know as what?

It penetrates the housing.

Answer 54

Leakage radiation

Question 55

This adjust the size and shape of the x-ray field emerging from the tube port.

Answer 55

Collimators

Question 56

What is the most commonly used added filter material?

Answer 56

Aluminum

Other common materials include copper and plastic (e.g., acrylic)

Question 57

These are used to change the spatial pattern of the x-ray intensity incident on the patient, so as to deliver a more uniform x-ray exposure to the detector.

Answer 57

Compensation (equalization) filters

Question 58

What is the principal function of an x-ray generator?

Answer 58

Is to provide current at a high voltage to an X-ray tube

Question 59

Electrical power available to a hospital or clinic provides up to about 480 V, much lower than the 20,000 to 150,000 V needed for x-ray production.

Transformers are principal components of x-ray generators; they convert low voltage into high voltage through a process called what?

Answer 59

Electromagnetic induction

Question 60

This is a phenomenon in which a changing magnetic field induces an electrical potential difference (voltage) in a nearby conductor and also in which a voltage is induced in a conductor moving through a stationary magnetic field.

Answer 60

Electromagnetic induction

Question 61

These use the principle of electromagnetic induction to change the voltage of an electrical power source.

Answer 61

Transformers

Question 62

A basic electrical component known as what?

This will allow current flow in one direction.

Answer 62

Rectifier

Question 63

Clever use of diodes arranged in a bridge rectifier circuit can do what?

Answer 63

It can route the flow of electrons through an AC circuit to create a direct current (DC), a unidirectional movement of electrons in which the voltage polarity never reverses.

Question 64

It is the ratio of energy production or expenditure per unit time.

Answer 64

Power

The SI unit of power is the watt (W) defined as 1 joule (J) of energy per second.

Question 65

The maximum voltage at any point in the circuit for a tapped transformer of 150 kV is ________ kV , relative to ground.

Answer 65

-75 kV or +75 kV

Question 66

Modules of the X-ray generator include:

Answer 66

The high-voltage power circuit

The stator circuit

Tthe filament circuit

The focal spot selector

Automatic exposure control (AEC) circuit

Question 67

This is defined as the difference between the peak voltage and the minimum voltage, divided by the peak voltage and multiplied by 100%.

Answer 67

Voltage ripple

Question 68

This is also known as the automatic exposure control (AEC) system.

It is often used instead of manual exposure time setting in radiography.

These measure the actual amount of radiation incident on the image reception (i.e., screen-film or digital radiography detector) and terminate x-ray production when the proper radiation exposure is obtained.

Answer 68

Phototimer

Question 69

This is the maximal power that an X-ray tube focal spot can accept or the generator can deliver.

Answer 69

Power rating of an X-ray tube or generator

Most medium focal spot dimensions (0.6 mm x 0.6 mm) have moderate power ratings (30 to 50 kW),

Smaller focal spots (0.3 mm x 0.3 mm) have low power ratings (5 to 15 kW),

Question 70

The highest generator power ratings are found in interventional radiology and cardiolovascular suites, while modern multirow detector CT scanners have 85- to 100-kW generators.

How high are the highest generator power ratings?

Answer 70

80 to 120 kW

General radiographic or radiographic/fluoroscopic systems use generators providing 30 to 80 kW.

Lower powered generators (5 to 30 kW) are found in mobile radiography and fluoroscopy systems, dental x-ray systems, and other systems that have fixed anode X-ray tubes.

Question 71

This is a traditional unit the provides a simple way of expressing the energy deposition on and dissipation from the anode of an X-ray tube.

Answer 71

Heat unit (HU)

Question 72

What is the standard unit of energy?

Answer 72

The joule (J)

Question 73

This shows the anode heat loading for various input powers (kW or HU/s) as the X-ray tube is operating, taking into account the cooling that simultaneously occurs.

Answer 73

Anode heating and cooling chart

For low-input power techniques, the heat loading increases to a plague, where the cooling rate equals the heating rate.

At higher power inputs, heating exceeds cooling, and after a certain time, a limit is reached where x-ray production must be stopped and anode cooling must be allowed prior to using the X-ray tube again.

With larger anode heat capacities, the anode cooling curve is steeper because higher temperatures result in more rapid cooling (“black-body” effect)

Question 74

What is the “black-body” effect?

Answer 74

The radiative cooling rate is proportional to T4, for absolute temperature T

Question 75

The output of an X-ray tube is often described by the terms:

Answer 75

Quality, quantity, and exposure

Question 76

This describes the penetrability of an x-ray beam, with higher energy x-ray photons having larger half-value layer (HVL)

Answer 76

Quality

Question 77

This refers to the number of photons comprising the beam.

Answer 77

Quantity

Question 78

This is nearly proportional to the energy fluence of the x-ray beam.

Answer 78

Exposure

Question 79

X-ray production efficiency, exposure, quality and quantity are determined by six major factors.

What are these factors?

Answer 79

X-ray tube target material 
Tube voltage
Tue current
Exposure time
Beam filtration
Generator waveform

Question 80

Anode target material affects the ______ of bremsstrahlung radiation production, with output exposure roughly proportional to atomic number.

Answer 80

Efficiency

The target material affects the quantity of bremsstrahlung photons and the quality of the characteristics radiation.

Question 81

This determines the maximum energy in the bremsstrahlung spectrum and affects the quality of the output spectrum.

Answer 81

Tube voltage (kV)

An increase in kV increases the efficiency of x-ray production and the quantity and quality of the x-ray beam.

Question 82

This is proportional to the number of electrons flowing from the anode per unit time.

Answer 82

Tube current (mA)

The exposure of the beam for a given kV and filtration is proportional to the tube current.

Question 83

This modifies the quantity and quality of the x-ray beam by preferentially removing the low-energy photons in the spectrum.

Answer 83

Beam filtration

This reduces the number of photons (quantity) and increases the average energy , also increasing the quality.

Question 84

Type of filtration that includes the thickness (1 to 2 mm) of the glass or metal insert at the X-ray tube port.

Answer 84

Inherent filtration

Glass and aluminum have similar attenuation properties and effectively attenuate all x-rays in the spectrum below 15 keV.

Question 85

This refers to sheets of metal intentionally placed in the beam to change its effective energy.

Answer 85

Added filtration

In general DR, added filters attenuate the low-energy x-rays in the spectrum that have almost no chance of penetrating the patient and reaching the x-ray detector.

Question 86

Voltage induces in the second winding is proportional to the voltage on the primary winding and the ratio of the number of turns in the two windings.

This is according to what Law?

Answer 86

Law of transformation