LTC1066-1CSW#TR Linear Technology, LTC1066-1CSW#TR Datasheet - Page 7

LTC1066-1CSW#TR

Manufacturer Part Number

LTC1066-1CSW#TR

Description

IC FILTER LP 8TH ORDER 18SOIC

Manufacturer

Linear Technology

Datasheet

1.LTC1066-1CSWPBF.pdf (20 pages)

Specifications of LTC1066-1CSW#TR

Filter Type

Bessel, Lowpass Switched Capacitor

Frequency - Cutoff Or Center

50kHz

Number Of Filters

Max-order

8th

Voltage - Supply

4.75 V ~ 16 V, ±2.375 V ~ 8 V

Mounting Type

Surface Mount

Package / Case

18-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Power Supply Pins (5, 18, 4, 10)

The power supply pins should be bypassed with a 0.1µF

capacitor to an adequate analog ground. The bypass

capacitors should be connected as close as possible to the

power supply pins. The V

10) should always be tied to the same positive supply and

negative supply value respectively. Low noise linear sup-

plies are recommended. Switching power supplies are not

recommended as they will lower the filter dynamic range.

When the LTC1066-1 is powered up with dual supplies

and, if V

diode (1N4148) between pin 10 and ground to prevent

power supply reversal and latch-up. A signal diode

(1N4148) is also recommended between pin 5 and ground

if the negative supply is applied prior to the positive supply

and the positive supply is floating. Note, in most labora-

tory supplies, reversed biased diodes are always con-

nected between the supply output terminals and ground,

and the above precautions are not necessary. However,

when the filter is powered up with conventional 3-terminal

regulators, the diodes are recommended.

Analog Ground Pin (15)

The filter performance depends on the quality of the

analog signal ground. For either dual or single supply

operation, an analog ground plane surrounding the pack-

age is recommended. The analog ground plane should be

connected to any digital ground at a single point. For dual

supply operation, pin 15 should be connected to the

analog ground plane. For single supply operation pin 15

should be biased at 1/2 supply and should be bypassed to

the analog ground plane with at least a 1µF capacitor (see

Typical Applications). For single 5V operation and for

minimizes passband gain and phase variations.

Clock Input Pin (9)

Any TTL or CMOS clock source with a square-wave output

and 50% duty cycle (±10%) is an adequate clock source

for the device. The power supply for the clock source

should not be the filter’s power supply. The analog ground

for the filter should be connected to clock’s ground at a

single point only. Table 5 shows the clock’s low and high

CLK

≥ 1.4MHz, pin 15 should be biased at 2V. This

FUNCTIONS

is applied prior to a floating V

pins (5, 18) and the V

–

, connect a signal

–

pins (4,

level threshold values for a dual or single supply operation.

Sine waves are not recommended for clock input frequen-

cies less than 100kHz, since excessively slow clock rise or

fall times generate internal clock jitter (maximum clock

rise or fall time ≤ 1µs). The clock signal should be routed

from the left side of the IC package and perpendicular to it

to avoid coupling to any input or output analog signal path.

A 200Ω resistor between clock source and pin 9 will slow

down the rise and fall times of the clock to further reduce

charge coupling.

Table 5. Clock Source High and Low Threshold Levels

POWER SUPPLY

Dual Supply = ±7.5V

Dual Supply = ±5V

Dual Supply = ±2.5V

Single Supply = 12V

Single Supply = 5V

50:1/100:1 Pin (8)

The DC level at pin 8 determines the ratio of the clock to

the filter cutoff frequency. When pin 8 is connected to

50:1 and the filter response is elliptic. The design of the

internal switched-capacitor filter was optimized for a 50:1

operation.

When pin 8 is connected to ground (or 1/2 supply for

single supply operation), the f

100:1 and the filter response is pseudolinear phase (see

Group Delay vs Frequency in Typical Performance Charac-

teristic section).

When pin 8 is connected to V

operation), the f

response is transitional Butterworth elliptic. The Typical

Performance Characteristics provide all the necessary

information.

If the DC level at pin 8 is mechanically switched, a 10k

resistor should be connected between pin 8 and the DC

source.

Input Pins (2, 3, 14, 16)

Pin 3 (+IN A) and pin 2 (–IN A) are the positive and

negative inputs of an internal high performance op amp A

the clock-to-cutoff frequency ratio (f

CLK

/ f

CUTOFF

HIGH LEVEL

≥ 2.18V

≥ 1.45V

≥ 0.73V

≥ 7.80V

≥ 1.45V

–

ratio is 100:1 and the filter

CLK

(or ground for single supply

/ f

CUTOFF

LTC1066-1

CLK

ratio is equal to

LOW LEVEL

≤ – 2.0V

≤ 0.5V

≤ 6.5V

≤ 0.5V

/ f

CUTOFF

10661fa

) is

LTC1066-1CSW#TR Linear Technology, LTC1066-1CSW#TR Datasheet - Page 7

LTC1066-1CSW#TR

Specifications of LTC1066-1CSW#TR

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