LTC1562CG#PBF Linear Technology, LTC1562CG#PBF Datasheet - Page 20

LTC1562CG#PBF

Manufacturer Part Number

LTC1562CG#PBF

Description

IC FILTER UNIV RC QUAD LN 20SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC1562CGPBF.pdf (28 pages)

Specifications of LTC1562CG#PBF

Filter Type

Universal, Continuous-Time

Frequency - Cutoff Or Center

150kHz

Number Of Filters

Max-order

8th

Voltage - Supply

4.75 V ~ 10.5 V, ±4.75 V ~ 5.25 V

Mounting Type

Surface Mount

Package / Case

20-SSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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LTC1562

APPLICATIONS

Notches and Elliptic Responses

The basic (essentially all-pole) LTC1562 circuit tech-

niques described so far will serve many applications.

However, the sharpest-cutoff lowpass, highpass and band-

pass filters include notches (imaginary zero pairs) in the

stopbands. A notch, or band-reject, filter has zero gain at

a frequency f

themselves to reject a narrow band of frequencies. A

number of circuit methods will give notch responses from

an Operational Filter block. Each method exhibits an input-

output transfer function that is a standard 2nd order band-

reject response:

with parameters

values as described below. (

Operational Filter block by its R2 and R

described earlier in Setting f

the gain magnitude |H

DC (f = 0) and H

addition to the notch, the gain changes by a factor:

The common principle in the following circuit methods is

to add a signal to a filtered replica of itself having equal gain

and 180 phase difference at the desired notch frequency

High Frequency Gain

( )

DC Gain

. Notches are also occasionally used by

–

H s

at high frequencies (f >> f

= 2 f

Q s

(j2 f)| has the value H

INFORMATION

and H

and Q). Characteristically,

= 2 f

IN1

Figure 11. Feedforward Notch Configuration for f

and Q are set for the

set by component

INV

1/4 LTC1562

2nd ORDER

resistors as

), so in

R21

) at

IN2

FF2

notch depth (the completeness of cancellation) will be

infinite to the extent that the two paths have matching

gains. Three practical circuit methods are presented here,

with different features and advantages.

Examples and design procedures for practical filters using

these techniques appear in a series of articles attached to

this data sheet on the Linear Technology web site

(www.linear-tech.com). Also available free is the analog

filter design software, FilterCAD for Windows, recom-

mended for designing filters not shown in the Typical

Applications schematics in this data sheet.

Elementary Feedforward Notches

A “textbook” method to get a 180 phase difference at

frequency f

order section (described earlier under Basic Bandpass),

which gives 180 phase shift at the section’s center

frequency f

bandpass section of Figure 6a, at its center frequency f

has a phase shift of 180 and a gain magnitude of H

into virtual ground have the same gains at the 180

frequency (then I

resistor values:

. The two signals then cancel out at frequency f

VIRTUAL

GROUND

. A notch results in Figure 11 if the paths summed

(Figure 11, with C

–

for a notch is to dedicate a bandpass 2nd

GAIN

= 0). This requires a constraint on the

1562 F11

OUT

IN1

= 0), so that f

= f

. The

1562fa

LTC1562CG#PBF Linear Technology, LTC1562CG#PBF Datasheet - Page 20

LTC1562CG#PBF

Specifications of LTC1562CG#PBF

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