ltc1569-7 Linear Technology Corporation, ltc1569-7 Datasheet - Page 5

ltc1569-7

Manufacturer Part Number

ltc1569-7

Description

Linear Phase, Dc Accurate, Tunable 10th Order Lowpass Filter

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC1569-7.pdf (12 pages)

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BLOCK DIAGRA

both input pins. The DC gain from IN

(Pin 8) is 1.0, and the DC gain from Pin 2 to Pin 8 is –1. The

input range, input resistance and output range are de-

scribed in the Applications Information section. Input

voltages which exceed the power supply voltages should

be avoided. Transients will not cause latchup if the current

into/out of the input pins is limited to 20mA.

GND (Pin 3): The GND pin is the reference voltage for the

filter and should be externally biased to 2V (1.11V) to

maximize the dynamic range of the filter in applications

using a single 5V (3V) supply. For single supply operation,

the GND pin should be bypassed with a quality 1 F

ceramic capacitor to V

circuit biasing the GND pin should be less than 2k as the

GND pin generates a small amount of AC and DC current.

For dual supply operation, connect Pin 3 to a high quality

DC ground. A ground plane should be used. A poor ground

will increase DC offset, clock feedthrough, noise and

distortion.

quality 1 F ceramic bypass capacitor is required from V

(Pin 7) to V

internal clock drivers. The bypass should be as close as

possible to the IC. In dual supply applications (Pin 3 is

grounded), an additional 0.1 F bypass from V

GND (Pin 3) and V

mended.

The maximum voltage difference between GND (Pin 3) and

–

(Pin 7) should not exceed 5.5V.

/IN

FUNCTIONS

–

(Pins 4, 7): For 3V, 5V and 5V applications a

(Pins 1, 2): Signals can be applied to either or

–

(Pin 4) to provide the transient energy for the

–

(Pin 4) to GND (Pin 3) is recom-

–

(Pin 4). The impedance of the

GND

–

(Pin 1) to OUT

(Pin 7) to

FILTER NETWORK

LINEAR PHASE

CONTROL

10TH ORDER

POWER

OSCILLATOR

PRECISION

DIVIDER/

BUFFER

DIV/CLK (Pin 5): DIV/CLK serves two functions. When the

internal oscillator is enabled, DIV/CLK can be used to

engage an internal divider. The internal divider is set to 1:1

when DIV/CLK is shorted to V

is set to 4:1 when DIV/CLK is allowed to float (a 100pF

bypass to V

to 16:1 when DIV/CLK is shorted to V

divide-by-4 and divide-by-16 modes the power supply

current is reduced by typically 60%.

When the internal oscillator is disabled (R

to V

external clock signal. For proper filter operation, the clock

waveform should be a squarewave with a duty cycle as

close as possible to 50% and CMOS voltages levels (see

Electrical Characteristics section for voltage levels). DIV/

CLK pin voltages which exceed the power supply voltages

should be avoided. Transients will not cause latchup if the

fault current into/out of the DIV/CLK pin is limited to 40mA.

pin and V

of the resistor determines the frequency of oscillation. The

maximum recommended resistor value is 40k and the

minimum is 3.8k/8k (single 5V/3V supply). The internal

oscillator is disabled by shorting the R

(Please refer to the Applications Information section.)

OUT (Pin 8): Filter Output. This pin can drive 10k and/or

40pF loads. For larger capacitive loads, an external 100

series resistor is recommended. The output pin can ex-

ceed the power supply voltages by up to 2V without

latchup.

(Pin 6): Connecting an external resistor between the R

–

) DIV/CLK becomes an input pin for applying an

(Pin 7) enables the internal oscillator. The value

–

OUT

DIV/CLK

is recommended). The internal divider is set

1569-7 BD

EXT

–

(Pin 4). The internal divider

LTC1569-7

pin to V

(Pin 7). In the

–

shorted

(Pin 4).

ltc1569-7 Linear Technology Corporation, ltc1569-7 Datasheet - Page 5

ltc1569-7

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