LMF60CIN-100 National Semiconductor, LMF60CIN-100 Datasheet - Page 10

LMF60CIN-100

Manufacturer Part Number

LMF60CIN-100

Description

IC HIPEREM 60RD SW CAP FIL 14DIP

Manufacturer

National Semiconductor

Datasheet

1.LMF60CIWM-50.pdf (20 pages)

Specifications of LMF60CIN-100

Filter Type

Butterworth, Lowpass Switched Capacitor

Frequency - Cutoff Or Center

30kHz

Number Of Filters

Max-order

6th

Voltage - Supply

4 V ~ 14 V, ±2 V ~ 7.5 V

Mounting Type

Package / Case

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

*LMF60CIN-100

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1 0 LMF60 Application Hints

The LMF60 is comprised of a non-inverting unity gain low-

pass sixth-order Butterworth switched capacitor filter sec-

tion and two undedicated CMOS Op-Amps The switched-

capacitor topology makes the cutoff frequency (where the

gain drops 3 01 dB below the DC gain) a direct ratio (100 1

or 50 1) of the clock frequency supplied to the lowpass filter

Internal integrator time constants set the filter’s cutoff fre-

quency The resistive element of these integrators is actual-

ly a capacitor which is ‘‘switched’’ at the clock frequency

(for a detailed discussion see Input Impedance section)

Varying the clock frequency changes the value of this resis-

tive element and thus the time constant of the integrators

The clock to cutoff frequency ratio (f

ratio of the input and feedback capacitors in the integrators

The higher the clock to cutoff frequency ratio (or the sam-

pling rate) the closer the approximation is to the theoretical

Butterworth response The LMF60 is available in f

ratios of 50 1 (LMF60-50) or 100 1 (LMF60-100)

1 1 CLOCK INPUTS

The LMF60 has a Schmitt-trigger inverting buffer which can

be used to construct a simple R C oscillator The oscillator

www national com

CLK

FIGURE 1 Schmitt Trigger R C Oscillator

) is set by the

CLK

frequency is dependent on the buffer’s threshold levels as

well as on the resistor capacitor tolerance (See Figure 1 )

Schmitt-trigger threshold voltage levels can vary significant-

ly causing the R C oscillator’s frequency to vary greatly

from part to part

Where accuracy in f

used to drive the CLK R input of the LMF60 This input is

TTL logic level compatible and also presents a very light

load to the external clock source ( E 2

plies and L Sh tied to system ground The logic level is pro-

grammed by the voltage applied to level shift (L Sh) pin (See

the Pin Description for L Sh pin)

1 2 POWER SUPPLY BIASING

The LMF60 can be biased from a single supply or dual split

supplies The split supply mode shown in Figures 2 and 3 is

the most flexible and easiest to implement As discussed

earlier split supplies

TTL or CMOS clock logic levels Figure 4 shows two

schemes for single supply biasing In this mode only CMOS

clock logic levels can be used

TL H 9294 – 8

Typically for V

CLK

is required an external clock can be

2V to

RC In

1 37 RC

7V will enable the use of

A) with split sup-

10V

LMF60CIN-100 National Semiconductor, LMF60CIN-100 Datasheet - Page 10

LMF60CIN-100

Specifications of LMF60CIN-100

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