DAC312 Analog Devices, DAC312 Datasheet - Page 12
DAC312
Manufacturer Part Number
DAC312
Description
12-Bit High Speed Multiplying D/A Converter
Manufacturer
Analog Devices
Datasheet
1.DAC312.pdf
(14 pages)
Specifications of DAC312
Resolution (bits)
12bit
Dac Update Rate
n/a
Dac Settling Time
250ns
Max Pos Supply (v)
+18V
Single-supply
No
Dac Type
Current Out
Dac Input Format
Par
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DAC312
DIFFERENTIAL VS. INTEGRAL NONLINEARITY
Integral nonlinearity, for the purposes of the discussion, refers
to the “straightness”of the line drawn through the individual re-
sponse points of a data converter. Differential nonlinearity, on
the other hand, refers to the deviation of the spacing of the adja-
cent points from a 1 LSB ideal spacing. Both may be expressed
as either a percentage of full-scale output or as fractional LSBs
or both. The following figures define the manner in which these
parameters are specified. The left figure shows a portion of the
transfer curve of a DAC with 1/2 LSB INL and the (implied)
DNL spec of 1 LSB. Below this is a graphic representation of
the way this would appear on a CRT, for example, if the D/A
converter output were to be applied to the Y input of a CRT as
shown in the application schematic titled “CRT Display Drive.”
On the right is a portion of the transfer curve of a DAC speci-
fied for 2 LSB INL with 1/2 LSB DNL specified and the
graphic display below it.
DIFFERENTIAL LINEARITY COMPARISON
D/A Converter with 1/2 LSB INL, 1 LSB DNL
ENLARGED “POSITIONAL” OUTPUTS
Video Deflection by DACs
–12–
One of the characteristics of an R-2R DAC in standard form is
that any transition which causes a zero LSB change (i.e., the
same output for two different codes) will exhibit the same out-
put each time that transition occurs. The same holds true for
transitions causing a 2 LSB change. These two problem transi-
tions are allowable for the standard definition of monotonicity
and also allow the device to be specified very tightly for INL.
The major problem arising from this error type is in A/D con-
verter implementations. Inputs producing the same output are
now represented by ambiguous output codes for an identical in-
put. Also, 2 LSB gaps can cause large errors at those input lev-
els (assuming 1/2 LSB quantizing levels). It can be seen from
the two figures that the DNL specified D/A converter will yield
much finer grained data than the INL specified part, thus im-
proving the ability of the A/D to resolve changes in the analog
input.
D/A Converter with 2 LSB INL, 1/2 LSB DNL
ENLARGED “POSITIONAL” OUTPUTS
Video Deflection by DACs
REV. C