AD9786-EBZ Analog Devices Inc, AD9786-EBZ Datasheet - Page 32
AD9786-EBZ
Manufacturer Part Number
AD9786-EBZ
Description
16 BIT DAC W/2/4/8x INTERPOLATION FILTER
Manufacturer
Analog Devices Inc
Series
TxDAC+®r
Datasheet
1.AD9786BSVZRL.pdf
(56 pages)
Specifications of AD9786-EBZ
Number Of Dac's
1
Number Of Bits
16
Outputs And Type
1, Differential
Sampling Rate (per Second)
500M
Data Interface
Parallel
Dac Type
Current
Voltage Supply Source
Single
Operating Temperature
-40°C ~ 85°C
Utilized Ic / Part
AD9786
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
AD9786
REAL AND COMPLEX SIGNALS
A complex signal contains both magnitude and phase
information. Given two signals at the same frequency, if the
leading signal in phase is cosinusoidal and the lagging signal is
sinusoidal, information pertaining to the magnitude and phase of
a combination of the two signals can be derived; the combination
of the two signals can be considered a complex signal. The cosine
and sine can be represented as a series of exponentials, recalling
that a multiplication by j is a counterclockwise rotation about
the Re/Im plane. The phasor representation of a complex signal
with Frequency f is shown in Figure 58.
Im
Acos(2πft) = A
2πft
Asin(2πft) = A
Figure 58. Complex Phasor Representation
C
A
C = Ae
Re
2πft
e
e
+j2πft
+j2πft
= Acos(2πft) + jAsin(2πft)
2j
+ e
2
+ e
Im
–j2πft
–j2πft
=
=
–f
A
A
2
2
A/2
[
[
Re
e
je
+j2πft
A/2
+j2πft
0
+ e
A/2
+ e
+f
–j2πft
–j2πft
]
]
FREQUENCY
A/2
Rev. B | Page 32 of 56
The cosine term—referred to as the real in-phase, or I component,
of a complex signal—represents a signal on the real plane with
mirror symmetry about dc. The sine term—referred to as the
imaginary quadrature, or Q complex signal component—
represents a signal on the imaginary plane with mirror
asymmetry about dc.
The AD9786 has two channels of interpolation filters, allowing
both I and Q components to be shaped by the same filter transfer
function. The interpolation filter’s frequency response is a real
transfer function. Two DACs are required to represent a complex
signal. A single DAC can only synthesize a real signal. When a
DAC synthesizes a real signal, negative frequency components
fold onto the positive frequency axis. If the input to the DAC is
mirrored symmetrically about dc, the negative frequency
components fold directly onto the positive frequency compo-
nents in phase-producing, constructive signal summation. If
the input to the DAC is not mirrored symmetrically about dc,
negative frequency components might not be in phase with
positive frequency components, causing destructive signal
summation. Different applications might benefit from either
type of signal summation.
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