LT1719CS6#TRM Linear Technology, LT1719CS6#TRM Datasheet - Page 18

LT1719CS6#TRM

Manufacturer Part Number

LT1719CS6#TRM

Description

IC COMP R-RINOUT SINGLE SOT23-6

Manufacturer

Linear Technology

Series

UltraFast™r

Type

General Purposer

Datasheet

1.LT1719CS8PBF.pdf (22 pages)

Specifications of LT1719CS6#TRM

Number Of Elements

Output Type

CMOS, Rail-to-Rail, TTL

Voltage - Supply

2.7 V ~ 6 V

Mounting Type

Surface Mount

Package / Case

SOT-23-6

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

LT1719CS6#TRMTR

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LT1719

APPLICATIONS INFORMATION

±V

The input trip points test circuit uses a 1kHz triangle wave

to repeatedly trip the comparator being tested. The LT1719

output is used to trigger switched capacitor sampling of the

triangle wave, with a sampler for each direction. Because the

triangle wave is attenuated 1000:1 and fed to the LT1719’s

differential input, the sampled voltages are therefore 1000

times the input trip voltages. The hysteresis and offset are

computed from the trip points as shown.

Crystal Oscillator

A simple crystal oscillator using an LT1719 is shown on

the ﬁ rst page of this data sheet. The 2k-620Ω resistor pair

set a bias point at the comparator’s noninverting input.

The 2k-1.8k-0.1μF path sets the inverting input node at

an appropriate DC average level based on the output.

The crystal’s path provides resonant positive feedback

and stable oscillation occurs. Although the LT1719 will

give the correct logic output when one input is outside

the common mode range, additional delays may occur

when it is so operated, opening the possibility of spurious

operating modes. Therefore, the DC bias voltages at the

inputs are set near the center of the LT1719’s common

TRIP

Test Circuit

2.7V TO 6V

Figure 8. Crystal Oscillator with a Forced 50% Duty Cycle

620Ω

220Ω

–

CRYSTAL (AT-CUT)

LT1719

1MHz TO 10MHz

0.1μF

GROUND

CASE

1.8k

mode range and the 220Ω resistor attenuates the feedback

to the noninverting input. The circuit will operate with any

AT-cut crystal from 1MHz to 10MHz over a 2.7V to 6V sup-

ply range. As the power is applied, the circuit remains off

until the LT1719 bias circuits activate, at a typical V

2V to 2.2V (25°C), at which point the desired frequency

output is generated.

The output duty cycle of this circuit is roughly 50%, but

it is affected by resistor tolerances and to a lesser extent,

by comparator offsets and timings. If a 50% duty cycle is

required, the circuit of Figure 8 forces a 50% duty cycle.

Crystals are narrow-band elements, so the feedback to

the noninverting input is a ﬁ ltered analog version of the

square wave output. Changing the noninverting reference

level can therefore vary the duty cycle. C1 operates as in

the previous example while A1 compares a band-limited

version of the output and biases C1’s negative input. C1’s

only degree of freedom to respond is variation of pulse

width; hence the output is forced to 50% duty cycle.

Again, the circuit operates from 2.7V to 6V. There is a

slight duty cycle dependence on comparator loading, so

minimal capacitive and resistive loading should be used

in critical applications.

0.1μF

LT1636

–

200k

100k

0.1μF

OUTPUT

1720 F07

1719fa

LT1719CS6#TRM Linear Technology, LT1719CS6#TRM Datasheet - Page 18

LT1719CS6#TRM

Specifications of LT1719CS6#TRM

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