LT1715CMS#PBF Linear Technology, LT1715CMS#PBF Datasheet - Page 16

LT1715CMS#PBF

Manufacturer Part Number

LT1715CMS#PBF

Description

IC COMPARATOR 150MHZ DUAL 10MSOP

Manufacturer

Linear Technology

Series

UltraFast™r

Type

General Purposer

Datasheets

1.LT1715CMS.pdf (20 pages)

2.LT1715CMSPBF.pdf (16 pages)

Specifications of LT1715CMS#PBF

Number Of Elements

Output Type

CMOS, Rail-to-Rail, TTL

Voltage - Supply

2.7 V ~ 12 V

Mounting Type

Surface Mount

Package / Case

10-TFSOP, 10-MSOP (0.118", 3.00mm Width)

Comparator Type

High Speed

No. Of Comparators

Response Time

4ns

Ic Output Type

CMOS, TTL

Supply Current

1mA

Supply Voltage Range

2.7V To 12V

Amplifier Case Style

MSOP

No. Of Pins

Rohs Compliant

Yes

Output Compatibility

CMOS, TTL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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APPLICATIONS INFORMATION

LT1715

The bias conditions and signal swings in the output stage

are designed to turn their respective output transistors off

faster than on. This helps minimize the surge of current

from +V

the frequency-dependent increase in power consumption.

The frequency dependence of the supply current is shown

in the Typical Performance Characteristics.

Speed Limits

The LT1715 comparator is intended for high speed ap-

plications, where it is important to understand a few

limitations. These limitations can roughly be divided into

three categories: input speed limits, output speed limits,

and internal speed limits.

There are no signiﬁcant input speed limits except the shunt

capacitance of the input nodes. If the 2pF typical input

nodes are driven, the LT1715 will respond.

The output speed is constrained by three mechanisms, the

ﬁ rst of which is the slew currents available from the output

transistors. To maintain low power quiescent operation,

the LT1715 output transistors are sized to deliver 35mA

to 60mA typical slew currents. This is sufﬁcient to drive

small capacitive loads and logic gate inputs at extremely

high speeds. But the slew rate will slow dramatically with

heavy capacitive loads. Because the propagation delay (t

deﬁnition ends at the time the output voltage is halfway

between the supplies, the ﬁxed slew current makes the

LT1715 faster at 3V than 5V with large capacitive loads

and sufﬁ cient input overdrive.

Another manifestation of this output speed limit is skew,

the difference between t

of the LT1715 vary with the process variations of the PNP

and NPN transistors, for rising edges and falling edges

respectively. The typical 0.5ns skew can have either polar-

ity, rising edge or falling edge faster. Again, the skew will

increase dramatically with heavy capacitive loads.

A ﬁ nal limit to output speed is the turn-on and turn-off

time of the output devices. Each device has substantial

to ground that occurs at transitions, to minimize

and t

–

. The slew currents

)

base charge that requires one nanosecond or more of

active charging or discharging by the bias current of

the Darlington driver stage. When toggle rates are high

enough that insufﬁ cient time is allowed for this turn-on

or turn-off, glitches may occur leading to dropout or runt

pulses. Furthermore, power consumption may increase

nonlinearly if devices are not turned off before the oppos-

ing cycle. However, once the toggle frequency increases

or decreases, the part will easily leave this undesired

operating mode no worse for the wear provided there

is adequate heat sinking toprevent thermal overload. At

frequencies well beyond the maximum toggle rate, the part

will toggle with limited output swing and well controlled

power consumption.

The internal speed limits manifest themselves as disper-

sion. All comparators have some degree of dispersion,

deﬁned as a change in propagation delay versus input

overdrive. The propagation delay of the LT1715 will vary

with overdrive, from a typical of 4ns at 20mV overdrive

to 6ns at 5mV overdrive (typical). The LT1715’s primary

source of dispersion is the hysteresis stage. As a change

of polarity arrives at the gain stage, the positive feedback

of the hysteresis stage subtracts from the overdrive avail-

able. Only when enough time has elapsed for a signal to

propagate forward through the gain stage, backwards

through the hysteresis path and forward through the gain

stage again, will the output stage receive the same level

of overdrive that it would have received in the absence of

hysteresis.

The LT1715 is several hundred picoseconds faster when

to the internal speed limit; the gain stage operates between

bias due to reduced silicon junction capacitances.

In many applications, as shown in the following examples,

there is plenty of input overdrive. Even in applications pro-

viding low levels of overdrive, the LT1715 is fast enough

that the absolute dispersion of 2ns (= 6 – 4) is often small

enough to ignore.

= –5V, relative to single supply operation. This is due

and +V

, and it is faster with higher reverse voltage

1715fa

LT1715CMS#PBF Linear Technology, LT1715CMS#PBF Datasheet - Page 16

LT1715CMS#PBF

Specifications of LT1715CMS#PBF

Available stocks

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