LTC1064-3CN Linear Technology, LTC1064-3CN Datasheet - Page 7

LTC1064-3CN

Manufacturer Part Number

LTC1064-3CN

Description

IC FILTR 8TH ORDR LOWPASS 14-DIP

Manufacturer

Linear Technology

Datasheet

1.LTC1064-3CSWPBF.pdf (12 pages)

Specifications of LTC1064-3CN

Filter Type

Bessel, Lowpass Switched Capacitor

Frequency - Cutoff Or Center

95kHz

Number Of Filters

Max-order

8th

Voltage - Supply

±2.375 V ~ 8 V

Mounting Type

Through Hole

Package / Case

14-DIP (0.300", 7.62mm)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

LTC1064-3CN

Manufacturer:

LINEAR/凌特

Quantity:

20 000

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PI FU CTIO S

NC (Pins 1, 6, 8 and 13): The “no connection” pins should

be preferably grounded. These pins are not internally

connected.

18k resistor tied to the inverting input of an op amp. Pin 2

is protected against static discharge. The device’s output,

Pin 9, is the output of an op amp which can typically

source/sink 3mA/1mA. Although the internal op amps are

unity gain stable, driving long coax cables is not recom-

mended.

When testing the device for noise and distortion, the

output, Pin 9, should be buffered (Figure 1). The op amp

power supply wire (or trace) should be connected

directly to the power source. To eliminate switching

transients from filter output, buffer filter output with a

third order lowpass (see Figure 5).

AGND (Pins 3, 5): For dual supply operation these pins

should be connected to a ground plane. For single supply

operation both pins should be tied to one half supply

(Figure 3).

capacitor to an adequate analog ground. Low noise,

nonswitching power supplies are recommended. To avoid

latchup when the power supplies exhibit high turn-on

transients, a 1N5817 Schottky diode should be added

from the V

, V

–

OUT

(Pins 4, 12): Should be bypassed with a 0.1µF

(Pins 2, 9): The input Pin 2 is connected to an

and V

–

pins to ground (Figure 1, 2 and 3).

(Pin Numbers Refer to the 14-Pin Package)

Pin 7 and Pin 14 is recommended. This connection should

be preferably done under the IC package. In a breadboard,

use a one inch, or less, shielded coaxial cable: the shield

should be grounded. In a PC board, use a one inch trace or

less; surround the trace by a ground plane.

50/100 (Pin 10): Ratio Pin.The DC level at this pin deter-

mines the ratio of clock frequency to the –3dB frequency of

the filter. The ratio is 75:1 when Pin 10 is at V

Pin 10 is at GND and 150:1 when Pin 10 is at V

should be bypassed with a 0.1µF capacitor to analog

ground when it’s connected to V

Tables 2 through 8 for typical gain and delay responses for

the three ratios.

1.4V. For ±8V and 0V to 5V supplies the logic threshold

levels are 2.2V and 3V respectively. The logic threshold

levels vary ±100mV over the full military temperature

range. The recommended duty cycle of the input clock is

50% although for clock frequencies below 500kHz the

clock “on” time can be as low as 200ns. The maximum

clock frequency for ±5V supplies is 4MHz. For ±7V sup-

plies and above, the maximum clock frequency is 7MHz.

Do not allow the clock levels to exceed the power supplies.

For single supply operation ≥6V use level shifting at Pin 11

with T

CLK

A, OUT C (Pins 7, 14): A very short connection between

(Pin 11): For ±5V supplies the logic threshold level is

L levels (see Figure 4).

–

or V

LTC1064-3

(Figure 1). See

, 120:1 when

–

. This pin

10643fa

LTC1064-3CN Linear Technology, LTC1064-3CN Datasheet - Page 7

LTC1064-3CN

Specifications of LTC1064-3CN

Available stocks

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