LTC1454L データシートの表示(PDF) - Linear Technology
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LTC1454L Datasheet PDF : 12 Pages
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DEFI ITIO S
Resolution (n): Resolution is defined as the number of
digital input bits, n. It defines the number of DAC output
states (2n) that divide the full-scale range. The resolution
does not imply linearity.
Full-Scale Voltage (VFS): This is the output of the DAC
when all bits are set to 1.
Voltage Offset Error (VOS): The theoretical voltage at the
output when the DAC is loaded with all zeros. The output
amplifier can have a true negative offset, but because the
part is operated from a single supply, the output cannot go
below zero. If the offset is negative, the output will remain
near 0V resulting in the transfer curve shown in Figure 1.
OUTPUT
VOLTAGE
NEGATIVE 0V
OFFSET
DAC CODE
LTC1454/5 • F01
Figure 1. Effect of Negative Offset
The offset of the part is measured at the code that corre-
sponds to the maximum offset specification:
VOS = VOUT – (Code)(VFS)/(2n – 1)
Least Significant Bit (LSB): One LSB is the ideal voltage
difference between two successive codes.
LTC1454/LTC1454L
LSB = (VFS – VOS)/(2n – 1) = (VFS – VOS)/4095
Nominal LSBs:
LTC1454 LSB = 4.095V/4095 = 1mV
LTC1454L LSB = 2.5V/4095 = 0.610mV
Integral Nonlinearity (INL): End-point INL is the maxi-
mum deviation from a straight line passing through the
end-points of the DAC transfer curve. Because the part
operates from a single supply and the output cannot go
below zero, the linearity is measured between full scale
and the code corresponding to the maximum offset speci-
fication. The INL error at a given input code is calculated
as follows:
INL = [VOUT – VOS – (VFS – VOS)(Code/4095)]/LSB
VOUT = The output voltage of the DAC measured at
the given input code
Differential Nonlinearity (DNL): DNL is the difference
between the measured change and the ideal 1LSB change
between any two adjacent codes. The DNL error between
any two codes is calculated as follows:
DNL = (∆VOUT – LSB)/LSB
∆VOUT = The measured voltage difference between
two adjacent codes
Digital Feedthrough: The glitch that appears at the analog
output caused by AC coupling from the digital inputs when
they change state. The area of the glitch is specified in
(nV)(sec).
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