MF6 데이터 시트보기 (PDF) - Unspecified

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MF6

6th Order Switched Capacitor Butterworth Lowpass Filter

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1.0 MF6 Application Hints (Continued)

DS005065-16

DS005065-17

FIGURE 5. VOS Adjust Schemes

Schmitt-trigger threshold voltage levels can change signifi-

cantly causing the R/C oscillator’s frequency to vary greatly

from part to part.

1.4 INPUT IMPEDANCE

Where accuracy in fc is required an external clock can be

used to drive the CLK R input of the MF6. This input is TTL

logic level compatible and also presents a very light load to

the external clock source (z2 µA) with split supplies and

L. Sh tied to system ground. The logic level is programmed

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

description for L. Sh pin).

DS005065-18

1.2 POWER SUPPLY BIASING

a) Equivalent Circuit for MF6 Filter Input

The MF6 can be biased from a single supply or dual split

supplies. The split supply mode shown in Figure 2 and Fig-

ure 3 is the most flexible and easiest to implement. As dis-

cussed earlier split supplies, ±5V to ±7V, will enable the use

of 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.

1.3 OFFSET ADJUST

The VosADJ pin is used in adjusting the output offset level of

the filter section. If this pin is not used it must be tied to the

analog ground (AGND) level, either mid-supply for single

ended supply operation or ground for split supply operation.

This pin sets the zero reference for the output of the filter.

The implementation of this pin can be seen in Figure 5. In

Figure 5a, DC offset is adjusted using a potentiometer; in

Figure 5b, the Op-Amp integrator circuit keeps the average

DC output level at AGND. The circuit in Figure 5b is therefore

appropriate only for AC-coupled signals and signals biased

at AGND.

DS005065-19

b) Actual Circuit for MF6 Filter Input

FIGURE 6. MF6 Filter Input

The MF6 lowpass filter input (FILTER IN pin) is not a high im-

pedance buffer input. This input is a switched capacitor re-

sistor equivalent, and its effective impedance is inversely

proportional to the clock frequency. The equivalent circuit of

the input to the filter can be seen in Figure 6. The input ca-

pacitor charges to the input voltage (Vin) during one half of

the clock period, during the second half the charge is trans-

ferred to the feedback capacitor. The total transfer of charge

in one clock cycle is therefore Q = CinVin, and since current

is defined as the flow of charge per unit time the average in-

put current becomes

Iin = Q/T

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