LT1715CMSPBF LINER [Linear Technology], LT1715CMSPBF Datasheet - Page 12

LT1715CMSPBF

Manufacturer Part Number

LT1715CMSPBF

Description

4ns, 150MHz Dual Comparator with Independent Input/Output Supplies

Manufacturer

LINER [Linear Technology]

Datasheet

1.LT1715CMSPBF.pdf (20 pages)

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APPLICATIONS INFORMATION

LT1715

Unused Comparators

If a comparator is unused, its output should be left ﬂ oa-

tingto minimize load current. The unused inputs can be

tied off to the rails and power consumption can be further

minimized if the inputs are connected to the power rails

to induce an output low. Connecting the inverting input

to V

easiest method.

Hysteresis

The LT1715 includes internal hysteresis, which makes it

easier to use than many other similar speed comparators.

The input-output transfer characteristic is illustrated in

Figure 5 showing the deﬁ nitions of V

upon the two measurable trip points. The hysteresis band

makes the LT1715 well behaved, even with slowly moving

inputs.

The exact amount of hysteresis will vary from part to part

as indicated in the speciﬁ cations table. The hysteresis level

will also vary slightly with changes in supply voltage and

common mode voltage. A key advantage of the LT1715

is the signiﬁ cant reduction in these effects, which is im-

portant whenever an LT1715 is used to detect a threshold

crossing in one direction only. In such a case, the relevant

trip point will be all that matters, and a stable offset volt-

age with an unpredictable level of hysteresis, as seen in

competing comparators, is useless. The LT1715 is many

and the noninverting input to V

Figure 5. Hysteresis I/O Characteristics

TRIP

–

(= V

TRIP

+ V

HYST

TRIP

– V

TRIP

–

HYST

–

)

TRIP

and V

ΔV

will likely be the

= V

1715 F05

HYST

– V

based

–

times better than prior generation comparators in these

regards. In fact, the CMRR and PSRR tests are performed

by checking for changes in either trip point to the limits

indicated in the speciﬁ cations table. Because the offset

voltage is the average of the trip points, the CMRR and

PSRR of the offset voltage is therefore guaranteed to be

at least as good as those limits. This more stringent test

also puts a limit on the common mode and power supply

dependence of the hysteresis voltage.

Additional hysteresis may be added externally. The rail-

to-rail outputs of the LT1715 make this more predictable

than with TTL output comparators due to the LT1715’s

small variability of V

To add additional hysteresis, set up positive feedback

by adding additional external resistor R3 as shown in

Figure 6. Resistor R3 adds a portion of the output to the

threshold set by the resistor string. The LT1715 pulls the

outputs to +V

with light loads, and to within 400mV with heavy loads.

For the load of most circuits, a good model for the volt-

age on the right side of R3 is 300mV or +V

for a total voltage swing of (+V

With this in mind, calculation of the resistor values needed

is a two-step process. First, calculate the value of R3 based

on the additional hysteresis desired, the output voltage

swing and the impedance of the primary bias string:

Additional hysteresis is the desired overall hysteresis less

the internal 4mV hysteresis.

R3 = (R1||R2)(+V

– 600mV.

Figure 6. Additional External Hysteresis

and ground to within 200mV of the rails

REF

INPUT

– 0.6V)/(additional hysteresis)

(output high voltage).

–

1/2 LT1715

– 300mV) – (300mV) =

1715 F06

– 300mV,

1715fa

LT1715CMSPBF LINER [Linear Technology], LT1715CMSPBF Datasheet - Page 12

LT1715CMSPBF

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