LTC1562IG-2 View Datasheet(PDF) - Linear Technology

Part Name

Description

MFG CO.

LTC1562IG-2

Very Low Noise, Low Distortion Active RC Quad Universal Filter

Linear Technology 

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LTC1562-2

APPLICATIONS INFORMATION

tend to scale with R2.) At high fO these resistors fall below

4k, heavily loading the outputs of the LTC1562-2 and

leading to increased THD and other effects. At the other

extreme, a lower fO limit of 20kHz reflects an arbitrary

upper resistor limit of 1MΩ. The LTC1562-2’s MOS input

circuitry can accommodate higher resistor values than

this, but junction leakage current from the input protection

circuitry may cause DC errors.

The 2nd order transfer functions HLP(s), HBP(s) and

HHP(s) (below) are all inverting so that, for example, at DC

the lowpass gain is – HL. If two such sections are cas-

caded, these phase inversions cancel. Thus, the filter in the

application schematic on the first page of this data sheet

is a dual DC preserving, noninverting, rail-to-rail lowpass

filter, approximating two “straight wires with frequency

selectivity.”

Figure 4 shows further details of 2nd order lowpass,

bandpass and highpass responses. Configurations to

obtain these responses appear in the next three sections.

Basic Lowpass

When ZIN of Figure 3 is a resistor of value RIN, a standard

2nd order lowpass transfer function results from VIN to V2

(Figure 5):

( ) V2(s)

VIN(s)

=

HLP(s)

=

s2

+

–HLωO2

ωO / Q s + ωO2

HL = R2/RIN is the DC gain magnitude. (Note that the

transfer function includes a sign inversion.) Parameters

RIN

VIN

RQ R2

VOUT

INV V1 V2

2nd ORDER

1/4 LTC1562-2

1562 F05

Figure 5. Basic Lowpass Configuration

HB

0.707 HB

BANDPASS RESPONSE

HP

HL

0.707 HL

LOWPASS RESPONSE

HP

HH

0.707 HH

HIGHPASS RESPONSE

fL fO fH

f (LOG SCALE)

fP fC

f (LOG SCALE)

fC

fP

f (LOG SCALE)

1562-2 F04

Q

=

fO

fH –

fL

;

fO

=

fL fH



fL

=

fO





–1

2Q

+





1

2Q





2

+

1









fH

=

fO





1

2Q

+





1

2Q





2

+



1

fC = fO



1–

1

2Q2





+





1–

1

2Q2





2

+

1

fP = fO

1– 1

2Q2







HP

=

HL







1

Q

1





1–

1

4Q2







fC

=

fO









1–

1

2Q2





+





1–

1

2Q2





2

+



1



–1



fP = fO



1–

1

2Q2







–1





HP

=

HH







1

Q



1





1–

1

4Q2





Figure 4. Characteristics of Standard 2nd Order Filter Responses

8

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