ADA4817-1 Analog Devices, ADA4817-1 Datasheet - Page 22
ADA4817-1
Manufacturer Part Number
ADA4817-1
Description
Low Noise, 1 GHz FastFET Op Amps
Manufacturer
Analog Devices
Datasheet
1.ADA4817-1.pdf
(28 pages)
Specifications of ADA4817-1
-3db Bandwidth
1.05GHz
Slew Rate
870V/µs
Vos
400µV
Ib
2pA
# Opamps Per Pkg
1
Input Noise (nv/rthz)
4nV/rtHz
Vcc-vee
5V to 10V
Isy Per Amplifier
21mA
Packages
CSP,SOIC
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ADA4817-1/ADA4817-2
ACTIVE LOW-PASS FILTER (LPF)
Active filters are used in many applications such as antialiasing
filters and high frequency communication IF strips.
With a 410 MHz gain bandwidth product and high slew rate,
the ADA4817-1/ADA4817-2 is an ideal candidate for active
filters. Moreover, thanks to the low input bias current provided
by the FET stage, the ADA4817-1/ADA4817-2 eliminate any dc
errors. Figure 54 shows the frequency response of 90 MHz and
45 MHz LPFs. In addition to the bandwidth requirements, the slew
rate must be capable of supporting the full power bandwidth of the
filter. In this case, a 90 MHz bandwidth with a 2 V p-p output
swing requires at least 870 V/μs. This performance is achievable
at 90 MHz only because of the wide bandwidth and high slew
rate of the ADA4817-1/ADA4817-2.
The circuit shown in Figure 55 is a 4-pole, Sallen-Key, low-pass
filter (LPF). The filter comprises two identical cascaded Sallen-
Key LPF sections, each with a fixed gain of G = 2. The net gain
of the filter is equal to G = 4 or 12 dB. The actual gain shown in
Figure 54 is 12 dB. This does not take into account the output
voltage being divided in half by the series matching termination
resistor, R
Setting the resistors equal to each other greatly simplifies the
design equations for the Sallen-Key filter. To achieve 90 MHz
the value of R should be set to 182 Ω. However, if the value of R
is doubled, the corner frequency is cut in half to 45 MHz. This
would be an easy way to tune the filter by simply multiplying
the value of R (182 Ω) by the ratio of 90 MHz and the new
corner frequency in megahertz. Figure 54 shows the output of
each stage of the filter and the two different filters corresponding
to R = 182 Ω and R = 365 Ω. It is not recommended to increase
the corner frequency beyond 90 MHz due to bandwidth and
slew rate limitations unless unity-gain stages are acceptable.
T
, and the load resistor.
+IN1
49.9Ω
R
T
R
5.6pF
R
C2
348Ω
R2
Figure 55. 4-Pole Sallen-Key Low-Pass Filter (ADA4817-2)
U1
+5V
–5V
3.9pF
0.1µF
0.1µF
10µF
10µF
348Ω
C1
R1
Rev. A | Page 22 of 28
OUT1
R
Resistor values are kept low for minimal noise contribution,
offset voltage, and optimal frequency response. Due to the low
capacitance values used in the filter circuit, the PCB layout and
minimization of parasitics is critical. A few picofarads can detune
the corner frequency, f
in Figure 55 actually incorporate some stray PCB capacitance.
Capacitor selection is critical for optimal filter performance.
Capacitors with low temperature coefficients, such as NPO
ceramic capacitors and silver mica, are good choices for filter
elements.
5.6pF
R
C4
–12
–15
–18
–21
–24
–27
–30
–33
–36
–39
348Ω
–42
15
12
–3
–6
–9
100k
9
6
3
0
R4
U2
+5V
–5V
Figure 54. Low-Pass Filter Response
3.9pF
0.1µF
0.1µF
10µF
10µF
348Ω
R3
C3
1M
c
, of the filter. The capacitor values shown
OUT2, f = 90MHz
OUT1, f = 90MHz
FREQUENCY (Hz)
49.9Ω
OUT1, f = 45MHz
OUT2, f = 45MHz
R
T
10M
OUT2
100M
1G
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