Reading...
Play button
Play button
Use LEFT and RIGHT arrow keys to navigate between flashcards;
Use UP and DOWN arrow keys to flip the card;
H to show hint;
A reads text to speech;
72 Cards in this Set
- Front
- Back
|
A device that converts one form of energy into another
|
Transducer
|
|
|
When do ultrasound transducers convert electrical energy from the system into sound?
|
During Transmission
|
|
|
When do ultrasound transducers convert reflected sound pulse into electricity?
|
During Reception
|
|
|
Materials which convert sound into electricity (and vice versa) are called what?
|
Piezoelectric Materials
(or ferroelectric) |
|
|
What are man-made piezoelectric materials called? (natural?)
|
lead zirconate titanate or PZT
(quartz, tourmaline) |
|
|
The property of certain materials to create a voltage when they are mechanically deformed is called what?
|
Piezoelectric Effect
|
|
|
The property of certain materials to change shape when a voltage is applied to them is called what?
|
Reverse Piezoelectric Effect
|
|
|
What are three synonyms for PZT?
|
Crystal, ceramic, active element
|
|
|
The cylindrical tube that protects the internal components of the transducer from damage and insulates the patient from electrical shock
|
Case
|
|
|
The thin, metallic barrier lining the inside of the transducer case which prevents electrical interference/noise from contaminating the clinically important signals used to create diagnostic images
|
Electrical Shield
|
|
|
A thin barrier of cork or rubber that prevents vibrations in the case from inducing an electrical voltage in the transducer's PZT
|
Acoustic Insulator
|
|
|
The crystal itself
|
PZT or active element
|
|
|
This provides an electrical connection between the PZT and the ultrasound system
|
Wire
|
|
|
This is positioned in front of the PZT to increase the efficiency of sound energy transfer between the active element and the body, and to protect the active element
|
Matching Layer
|
|
|
Bonded to the back of the active element, this reduces the ringing of the pulse (shortened duration & length)
|
Backing Material (aka Damping Element)
|
|
|
What is the impedance difference between PZT and skin?
|
Impedance of PZT is 20x greater than skin
|
|
|
Which element of the transducer decreases reflections at the PZT/skin boundary, increasing the % of transmitted sound into the body?
|
Matching Layer
|
|
|
What additional component is always used by sonographers to "coupled" the transducer to the patient, and further improve the % of transmitted sound into the body?
|
Gel
|
|
|
How thick is the matching layer in a basic ultrasound transducer?
|
1/4 wavelength thick
|
|
|
How thick is the active element in a basic ultrasound transducer?
|
1/2 wavelength thick
|
|
|
The backing material shortens pulse length and duration, thus improving what?
|
Axial Resolution
|
|
|
What are additional consequences related to the use of a backing material in a transducer?
|
Decrease Sensitivity
Wide Bandwidth Low Quality Factor |
|
|
Why is decreased sensitivity due to backing material undesirable?
|
the transducer becomes less responsive to incoming acoustic waves/vibrations
|
|
|
The range, or difference, between the highest and lowest frequencies in a pulse is called what?
|
Bandwidth
|
|
|
As a general rule, (long|short) duration events are (narrow|wide) bandwidth
|
Long duration = Narrow bandwidth (continuous wave doppler)
Short duration = Wide bandwidth (most other imaging probes) |
|
|
What is the formula for low quality factor (low-Q)?
|
Frequency / Bandwidth
|
|
|
What is the relationship between damping (pulse length) & Q-factor (quality factor)?
|
Directly Related. A shorter pulse has a lower Q-factor; a longer pulse has a higher Q-factor
|
|
|
What transducers consist of the following: pulses with short duration & length, uses backing material to limit ringing, has reduced sensitivity, wide bandwidth, lower Q-factor, and improved axial resolution?
|
Imaging Transducers
|
|
|
What transducers consist of the following: continuous wave or pulses with long duration & length, no backing material, increased sensitivity, narrow bandwidth, higher Q-factor, does not even produce and image?
|
Non-Imaging Transducers (ie, Doppler)
|
|
|
What is the name of the process where material is exposed to strong electrical fields while being heated to a substantial temperature to create PZT?
|
Polarization
|
|
|
What is the temperature at which PZT is polarized called?
|
Curie Temperature or Curie Point
|
|
|
What is the process of destroying piezoelectric properties of PZT called?
|
Depolarization
|
|
|
The destruction of all microorganisms by exposure to extreme heat, chemical agents, or radiation, is called what?
|
Sterilization
|
|
|
The significant reduction of infectious microorganisms using a chemical agent is called what?
|
Disinfection
|
|
|
Should transducers be sterilized or disinfected?
|
Disinfected
|
|
|
In a continuous wave transducer, what determines the sound frequency produced?
|
The acoustic frequency will be the same as the electrical frequency that excites the PZT
|
|
|
In a pulsed wave transducer, what determines the sound frequency produced?
|
1. Speed of sound in the PZT
2. Thickness of the PZT |
|
|
In a pulsed wave transducer, what is the relationship between the PZT speed of sound and frequency?
|
Directly Related
|
|
|
In a pulsed wave transducer, what is the relationship between the PZT thickness and frequency?
|
Inversely Related
|
|
|
What is the PZT thickness & speed of sound in high frequency pulsed wave imaging transducers?
|
Thinner PZT
Higher acoustic speeds |
|
|
What is the PZT thickness & speed of sound in low frequency pulsed wave imaging transducers?
|
Thicker PZT
Lower acoustic speeds |
|
|
What is the relationship between Q-factor and bandwidth?
|
Inversely Related
|
|
|
What is the relationship between pulse duration and bandwidth?
|
Inversely Related
|
|
|
The sensitivity of transducers that create short duration pulses is likely to be ___ that of transducers that create long pulses
|
Less Than
|
|
|
All of the following correctly describe an imaging transducer except:
A. high sensitivity B. low Q C. wide bandwidth D. damped |
A
|
|
|
T/F: shorter duration events (such as dampened pulses) are more likely to be wide bandwidth
|
T
|
|
|
What occurs when a PZT crystal's temperature is elevated above the Curie point?
|
Depolarization
|
|
|
T/F: the acoustic impedance of the matching layer is approximately the same as that of the skin
|
F
|
|
|
T/F: imaging transducers are usually of high rather than low bandwidth
|
T
|
|
|
T/F: a very high Q factor transducer is used more often in diagnostic imaging than a low Q factor
|
F
|
|
|
T/F: a pulse with a long pulse duration is likely to have a narrow bandwidth
|
T
|
|
|
T/F: the damping material in a transducer increases the sensitivity
|
F
|
|
|
T/F: the damping material in a transducer increases the pulse length
|
F
|
|
|
T/F: the damping material in a transducer decreases the pulse duration
|
T
|
|
|
T/F: the damping material in a transducer improves the system's lateral resolution
|
F
|
|
|
T/F: the damping material in a transducer improves the system's longitudinal resolution
|
T
|
|
|
T/F: the dampening material in a transducer decreases bandwidth
|
F
|
|
|
T/F: the damping material in a transducer decreases the quality factor
|
T
|
|
|
T/F: if the frequency of the electrical excitation voltage of a pulsed wave transducer is 6 MHz, then the operating frequency of the transducer is 6 MHz
|
F
|
|
|
T/F: if the PRF of a transducer is increased, then the frequency of the sound produced by the transducer remains the same
|
T
|
|
|
T/F: the diameter of the active element of a transducer helps to determine the frequency of the sound produced by the transducer
|
F
|
|
|
T/F: if the frequency of the electrical excitation voltage of a continuous wave transducer is 6 MHz, then the operating frequency of the transducer is 6 MHz
|
T
|
|
|
T/F: two PZT crystals are made from the same material. The thicker crystal will make a pulsed transducer with a higher frequency
|
F
|
|
|
T/F: two PZT crystals are made from the same material. The thicker crystal will make a continuous wave transducer with a lower frequency
|
F
|
|
|
T/F: the normal propagation speed in PZT material is about 3-5x greater than in soft tissue
|
T
|
|
|
The impedance of a transducer active element is 1,900,000 Rayls, and the impedance of the skin is 1,400,000 Rayls. What is an acceptable impedance for the matching layer?
A. 1,200,000 Rayls B. 1,400,000 Rayls C. 1,726,000 Rayls D. 1,950,000 Rayls |
C
|
|
|
Which of the following crystals will produce sound with the lowest frequency?
A. thin and with a low speed B. thin and with a high speed C. thick and with a low speed D. thick and with a high speed |
C
|
|
|
Which type of transducer has a greater Q-factor: therapeutic or imaging?
|
Therapeutic
|
|
|
Which type of transducer has a greater bandwidth: continuous wave or imaging?
|
Imaging
|
|
|
Which type of transducer has more backing material: therapeutic or imaging?
|
Imaging
|
|
|
In an imaging transducer, what is the purpose of attaching the backing material to the PZT?
A. increase the bandwidth B. decrease the Q factor C. improve the image quality D. decrease the sensitivity |
C
|
|
|
A pulsed wave transducer has a resonant frequency of 5 MHz. The lowest frequency in the pulse is 2 MHz and the highest in 8 MHz. What is the bandwidth?
A. 5 MHz B. 8 MHz C. 3 MHz D. 6 MHz E. 2 MHz |
D
|
