indirect- capture DR increase decreased exposure reaching the IR fixed kVp - variable mAs technique chart fill factor signal MTF no change positive contrast agents exposure adjustment kVp & mAs increased contrast direct- capture DR more noise filtration decreased or narrow pixel pitch OID beam restriction more detectors SID large matrix patient factors quantum noise (quantum mottle) ADC detector size or FOV bit depth more radiographer identification focal spot size fast (increase mA & decrease time) absorb scatter & increase contrast window level high subject contrast patient's identification number attending physician high CCD examination date patient's name high contrast increase in mAs large DELs DOB low contrast pixel density increased magnification wider grids CMOS patient age time of day indirect- capture DR window width additive pixel pitch subject contrast sampling frequency dynamic range motion contrast resolution SNR variable kVp - fixed mAs technique chart increased pixel density spatial resolution institution's name anode heel effect tube filtration decreased spatial resolution decreased or small pixel size DQE decrease mAs side marker angling (tube, part, IR) low subject contrast anatomically programmed techniques indirect- capture DR increase decreased exposure reaching the IR fixed kVp - variable mAs technique chart fill factor signal MTF no change positive contrast agents exposure adjustment kVp & mAs increased contrast direct- capture DR more noise filtration decreased or narrow pixel pitch OID beam restriction more detectors SID large matrix patient factors quantum noise (quantum mottle) ADC detector size or FOV bit depth more radiographer identification focal spot size fast (increase mA & decrease time) absorb scatter & increase contrast window level high subject contrast patient's identification number attending physician high CCD examination date patient's name high contrast increase in mAs large DELs DOB low contrast pixel density increased magnification wider grids CMOS patient age time of day indirect- capture DR window width additive pixel pitch subject contrast sampling frequency dynamic range motion contrast resolution SNR variable kVp - fixed mAs technique chart increased pixel density spatial resolution institution's name anode heel effect tube filtration decreased spatial resolution decreased or small pixel size DQE decrease mAs side marker angling (tube, part, IR) low subject contrast anatomically programmed techniques
(Print)
indirect-capture DR
increase
decreased exposure reaching the IR
fixed kVp - variable mAs technique chart
fill factor
signal
MTF
no change
positive contrast agents
exposure adjustment
kVp & mAs
increased contrast
direct-capture DR
more noise
filtration
decreased or narrow pixel pitch
OID
beam restriction
more
detectors
SID
large matrix
patient factors
quantum noise (quantum mottle)
ADC
detector size or FOV
bit depth
more
radiographer identification
focal spot size
fast (increase mA & decrease time)
absorb scatter & increase contrast
window level
high subject contrast
patient's identification number
attending physician
high
CCD
examination date
patient's name
high contrast
increase in mAs
large
DELs
DOB
low contrast
pixel density
increased magnification
wider
grids
CMOS
patient age
time of day
indirect-capture DR
window width
additive
pixel pitch
subject contrast
sampling frequency
dynamic range
motion
contrast resolution
SNR
variable kVp - fixed mAs technique chart
increased pixel density
spatial resolution
institution's name
anode heel effect
tube filtration
decreased spatial resolution
decreased or small pixel size
DQE
decrease
mAs
side marker
angling (tube, part, IR)
low subject contrast
anatomically programmed techniques
