MAX7421CUA-T Maxim Integrated Products, MAX7421CUA-T Datasheet - Page 10
MAX7421CUA-T
Manufacturer Part Number
MAX7421CUA-T
Description
Active Filter
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX7421EUA.pdf
(14 pages)
Specifications of MAX7421CUA-T
Number Of Channels
1
Cutoff Frequency
30 KHz
Supply Voltage (max)
5.5 V
Maximum Operating Temperature
+ 70 C
Minimum Operating Temperature
0 C
Mounting Style
SMD/SMT
Operating Supply Voltage
5 V
Supply Voltage (min)
4.5 V
Package / Case
uMAX-8
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
5th-Order, Lowpass,
Switched-Capacitor Filters
Figure 1. 5th-Order Ladder Filter Network
An SCF that emulates a passive ladder filter retains
many of the same advantages. The component sensi-
tivity of a passive ladder filter is low when compared to
a cascaded biquadratic design because each compo-
nent affects the entire filter shape rather than a single
pole-zero pair. In other words, a mismatched compo-
nent in a biquadratic design has a concentrated error
on its respective poles, while the same mismatch in a
ladder filter design spreads its error over all poles.
Lowpass elliptic filters such as the MAX7418/MAX7421/
MAX7422/MAX7425 provide the steepest possible
rolloff with frequency of the four most common filter
types (Butterworth, Bessel, Chebyshev, and elliptic).
The high-Q value of the poles near the passband edge
combined with the stopband zeros allow for the sharp
attenuation characteristic of elliptic filters, making these
devices ideal for anti-aliasing and post-DAC filtering in
single-supply systems (see Anti-Aliasing and Post-DAC
Filtering ).
In the frequency domain, the first transmission zero
causes the filter’s amplitude to drop to a minimum level
(Figure 2). Beyond this zero, the response rises as the
frequency increases until the next transmission zero.
The stopband begins at the stopband frequency, f
frequencies above f
the gain at f
the point at which the filter output attenuation falls just
below the passband ripple. The transition ratio (r) is
defined as the ratio of the stopband frequency to the
corner frequency:
The MAX7418/MAX7422 have a transition ratio of 1.6
and typically 53dB of stopband rejection. The
MAX7421/MAX7425 have a transition ratio of 1.25 (pro-
viding a steeper rolloff) and typically 37dB of stopband
rejection.
Lowpass Bessel filters such as the MAX7419/MAX7423
10
______________________________________________________________________________________
+
-
V
R
IN
S
S
. The corner frequency, f
C1
S
L2
, the filter’s gain does not exceed
r = f
C3
Elliptic Characteristics
Bessel Characteristics
S
/ f
C
L4
C5
C
, is defined as
R
L
S
. At
delay all frequency components equally, preserving the
line up shape of step inputs (subject to the attenuation
of the higher frequencies). Bessel filters settle quickly—
an important characteristic in applications that use a
multiplexer (mux) to select an input signal for an ana-
log-to-digital converter (ADC). An anti-aliasing filter
placed between the mux and the ADC must settle
quickly after a new channel is selected.
Lowpass Butterworth filters such as the MAX7420/
MAX7424 provide a maximally flat passband response,
making them ideal for instrumentation applications that
require minimum deviation from the DC gain throughout
the passband.
The difference between Bessel and Butterworth filters
can be observed when a 1kHz square wave is applied
to the filter input (Figure 3, trace A). With the filter cutoff
frequencies set at 5kHz, trace B shows the Bessel filter
response and trace C shows the Butterworth filter
response.
These SCFs are designed for use with external clocks
that have a 40% to 60% duty cycle. When using an
external clock, drive the CLK pin with a CMOS gate
powered from 0 to V
clock adjusts the corner frequency of the filter:
Figure 2. Elliptic Filter Response
PASSBAND
f
C
Butterworth Characteristics
DD
f
C
f
C
. Varying the rate of the external
=
TRANSITION RATIO =
f
S
f
100
CLK
RIPPLE
f
S
STOPBAND
FREQUENCY
f
f
Clock Signal
S
C
External Clock
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