AD8541ARTZ-REEL Analog Devices Inc, AD8541ARTZ-REEL Datasheet - Page 14
AD8541ARTZ-REEL
Manufacturer Part Number
AD8541ARTZ-REEL
Description
IC,Operational Amplifier,SINGLE,CMOS,TSOP,5PIN,PLASTIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD8541AKSZ-REEL7.pdf
(20 pages)
Specifications of AD8541ARTZ-REEL
Design Resources
Logarithmic Audio Volume Control with Glitch Reduction Using AD5292 (CN0120)
Amplifier Type
General Purpose
Number Of Circuits
1
Output Type
Rail-to-Rail
Slew Rate
0.92 V/µs
Gain Bandwidth Product
1MHz
Current - Input Bias
4pA
Voltage - Input Offset
1000µV
Current - Supply
45µA
Current - Output / Channel
30mA
Voltage - Supply, Single/dual (±)
2.7 V ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
SOT-23-5, SC-74A, SOT-25
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
-3db Bandwidth
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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Price
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Manufacturer:
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AD8541/AD8542/AD8544
APPLICATIONS
NOTCH FILTER
The AD854x have very high open-loop gain (especially with a
supply voltage below 4 V), which makes it useful for active filters of
all types. For example, Figure 36 illustrates the AD8542 in the
classic twin-T notch filter design. The twin-T notch is desired
for simplicity, low output impedance, and minimal use of op
amps. In fact, this notch filter can be designed with only one op
amp if Q adjustment is not required. Simply remove U2 as
illustrated in Figure 37. However, a major drawback to this
circuit topology is ensuring that all the Rs and Cs closely match.
The components must closely match or notch frequency offset
and drift causes the circuit to no longer attenuate at the ideal
notch frequency. To achieve desired performance, 1% or better
component tolerances or special component screens are usually
required. One method to desensitize the circuit-to-component
mismatch is to increase R2 with respect to R1, which lowers Q.
A lower Q increases attenuation over a wider frequency range
but reduces attenuation at the peak notch frequency.
V
V
IN
2.5V
IN
2.5V
f
f
0
0
=
=
REF
2πRC
4 1 –
REF
1
Figure 37. 60 Hz Twin-T Notch Filter, Q = ∞ (Ideal)
R1 + R2
1
R1
26.7nF
Figure 36. 60 Hz Twin-T Notch Filter, Q = 10
53.6µF
100kΩ
C
R
C
R
2C
2C
R/2
R/2
50kΩ
26.7nF
100kΩ
C
C
R
R
1/2 AD8542
2
3
2
3
V
7
IN
5.0V
U1
U1
5.0V
7
8
U2
4
4
1/2 AD8542
AD8541
6
1
5
6
2.5V
REF
R2
2.5kΩ
R1
97.5kΩ
V
V
OUT
OUT
Rev. F | Page 14 of 20
Figure 38 is an example of the AD8544 in a notch filter circuit. The
frequency dependent negative resistance (FDNR) notch filter has
fewer critical matching requirements than the twin-T notch, where
as the Q of the FDNR is directly proportional to a single resistor R1.
Although matching component values is still important, it is also
much easier and/or less expensive to accomplish in the FDNR
circuit. For example, the twin-T notch uses three capacitors
with two unique values, whereas the FDNR circuit uses only
two capacitors, which may be of the same value. U3 is simply a
buffer that is added to lower the output impedance of the circuit.
COMPARATOR FUNCTION
A comparator function is a common application for a spare op
amp in a quad package. Figure 39 illustrates ¼ of the AD8544 as a
comparator in a standard overload detection application. Unlike
many op amps, the AD854x family can double as comparators
because this op amp family has a rail-to-rail differential input
range, rail-to-rail output, and a great speed vs. power ratio.
R2 is used to introduce hysteresis. The AD854x, when used as
comparators, have 5 μs propagation delay at 5 V and 5 μs
overload recovery time.
V
IN
2.5V
Figure 39. AD854x Comparator Application—Overload Detector
1/4 AD8544
REF
f =
L = R
V
Figure 38. FDNR 60 Hz Notch Filter with Output Buffer
2π LC1
IN
2.5V
2
7
C2
1
REF
U2
1kΩ
6
5
R1
Q ADJUST
200Ω
2.5V
R1
1µF
1µF
C2
C1
2.5V
DC
R
2.61kΩ
R
2.61kΩ
R
2.61kΩ
R
2.61kΩ
REF
10
1MΩ
R2
9
1/4 AD8541
2.5V
U3
1/4 AD8544
3
2
REF
13
12
U1
4
8
U4
11
1/4 AD8544
1/4 AD8544
1
14
V
OUT
V
OUT
NC
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