lt1711ims8-trpbf Linear Technology Corporation, lt1711ims8-trpbf Datasheet - Page 12

lt1711ims8-trpbf

Manufacturer Part Number

lt1711ims8-trpbf

Description

Single/dual 4.5ns, 3v/5v/?5v, Rail-to-rail Comparators

Manufacturer

Linear Technology Corporation

Datasheet

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1MHz Series Resonant Crystal Oscillator

with Square and Sinusoid Outputs

Figure 7 shows a classic 1MHz series resonant crystal

oscillator. At series resonance, the crystal is a low imped-

ance and the positive feedback connection is what brings

about oscillation at the series resonant frequency. The RC

feedback around the other path ensures that the circuit

does not find a stable DC operating point and refuse to

oscillate. The comparator output is a 1MHz square wave

(top trace of Figure 8) with jitter measured at better than

28ps

Pin 2 of the comparator, on the other side of the crystal, is

a clean sine wave except for the presence of the small high

LT1711/LT1712

RELATED PARTS

PART NUMBER

LT1016

LT1116

LT1394

LT1671

LT1713/LT1714

LT1719

LT1720/LT1721

TYPICAL APPLICATIO

Figure 7. LT1711 Comparator is Configured as a Series

Resonant Xtal Oscillator. LT1806 Op Amp is Configured

in a Q = 5 Bandpass with f

RMS

0.1 F

–

Linear Technology Corporation

1630 McCarthy Blvd., Milpitas, CA 95035-7417

(408) 432-1900 FAX: (408) 434-0507 www.linear-tech.com

on a 5V supply and 40ps

LT1711

R10

AT-CUT

1MHz

DESCRIPTION

UltraFast Precision Comparator

12ns Single Supply Ground Sensing Comparator

7ns, UltraFast Single Supply Comparator

60ns, Low Power, Single Supply Comparator

Single/Dual 7ns, Low Power, 3V/5V/ 5V, R-R Comparator

4.5ns, Single Supply 3V/5V/ 5V Comparator

Dual/Quad, 4.5ns, Single Supply Comparator

210

6.49k

100pF

SQUARE

0.1 F

= 1MHz

162

RMS

100pF

on a 3V supply. At

–

LT1806S8

100pF

171112 F07

15.8k

SINE

frequency glitch (middle trace of Figure 8). This glitch is

caused by the fast edge of the comparator output feeding

back through crystal capacitance. Amplitude stability of

the sine wave is maintained by the fact that the sine wave

is basically a filtered version of the square wave. Hence,

the usual amplitude control loops associated with sinusoi-

dal oscillators are not necessary.

and buffered by the fast, low noise LT1806 op amp. To

remove the glitch, the LT1806 is configured as a bandpass

filter with a Q of 5 and unity-gain center frequency of

1MHz, with its output shown as the bottom trace of

Figure 8. Distortion was measured at – 70dBc and – 60dBc

on the second and third harmonics, respectively.

and therefore adjustable. The important difference here is that any added amplitude

stabilization or control loop will not be faced with the classical task of avoiding regions of

nonoscillation versus clipping.

Amplitude will be a linear function of comparator output swing, which is supply dependent

Figure 8. Oscillator Waveforms with V

Comparator Output. Middle is Xtal Feedback to Pin 2 at

LT1711 (Note the Glitches). Bottom is Buffered, Inverted

and Bandpass Filtered with a Q = 5 by LT1806

COMMENTS

Industry Standard 10ns Comparator

Single Supply Version of the LT1016

6mA Single Supply Comparator

450 A Single Supply Comparator

7ns/5mA versions of the LT1711/LT1712

4mA Comparator with Rail-to-Rail Outputs and Level Shifting

Dual/Quad Version of the LT1719

1V/DIV

3V/DIV

200ns/DIV

LINEAR TECHNOLOGY CORPORATION 2001

171112f LT/TP 0401 4K • PRINTED IN USA

The sine wave is filtered

= 3V. Top is

171112 F08

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