AD8017AR-EVAL(2000) 查看數據表(PDF) - Analog Devices
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AD8017AR-EVAL Datasheet PDF : 16 Pages
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AD8017
THEORY OF OPERATION
The AD8017 is a dual high speed CF amplifier that attains new
levels of bandwidth (BW), power, distortion and signal swing,
under heavy current loads. Its wide dynamic performance (in-
cluding noise) is the result of both a new complementary high
speed bipolar process and a new and unique architectural
design. The AD8017 basically uses a two gain stage complemen-
tary design approach versus the traditional “single stage”
complementary mirror structure sometimes referred to as the
Nelson amplifier. Though twin stages have been tried before,
they typically consumed high power since they were of a folded
cascode design much like the AD9617.
This design allows for the standing or quiescent current to add
to the high signal or slew current-induced stages. In the time
domain, the large signal output rise/fall time and slew rate is
typically controlled by the small signal BW of the amplifier and
the input signal step amplitude respectively, not the dc quies-
cent current of the gain stages (with the exception of input level
shift diodes Q1/Q2). Using two stages as opposed to one, also
allows for a higher overall gain bandwidth product (GBWP) for
the same power, thus providing lower signal distortion and the
ability to drive heavier external loads. In addition, the second
gain stage also isolates (divides down) A3’s input reflected load
drive and the nonlinearities created resulting in relatively lower
distortion and higher open-loop gain. See Figure 38.
Overall, when “high” external load drive and low ac distortion is
a requirement, a twin gain stage integrating amplifier like the
AD8017 will provide excellent results for low power over the
traditional single stage complementary devices. In addition,
being a CF amplifier, closed-loop BW variations versus external
gain variations (varying RG) will be much lower compared to a
VF op amp, where the BW varies inversely with gain. Another
key attribute of this amplifier is its ability to run on a single 5 V
supply due in part to its wide common-mode input and output
voltage range capability. For 5 V supply operation, the device
obviously consumes less than half the quiescent power (vs. 12 V
supply) with little degradation in its ac and dc performance
characteristics. See specification pages for comparisons.
DC GAIN CHARACTER
Gain stages A1/A1 and A2/A2 combined provide negative
feedforward transresistance gain. See Figure 38. Stage A3 is a
unity gain buffer which provides external load isolation to A2.
Each stage uses a symmetrical complementary design. (A3 is
also complementary, though not explicitly shown). This is done
to reduce both second order signal distortion and overall quies-
cent power as discussed above. In the quasi dc-to-low frequency
region, the closed loop gain relationship can be approximated as:
G = 1+RF/RG for Noninverting Operation
G = –RF/RG for Inverting Operation
These basic relationships above are common to all traditional
operational amplifiers.
A1
Z1 = R1 || C1
Z1
IPP
IPN
–VI
IQ1
CP1
Q3
Q1
VP
VN
+
–
IR + IFC
Z1
Q2
INP
IE
Q4
IQ1
IPN
A1
IR – IFC
Z1
–VI
CP1
CD
–A2
CP2
ICQ + IO
VO9 –A3
Z2
RL
RF
RN
ICQ – IO
–A2
AD8017
CD
Figure 38. Simplified Block Diagram
VO
CL
REV. A
–11–
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