adcmp572 Analog Devices, Inc., adcmp572 Datasheet - Page 10

adcmp572

Manufacturer Part Number

adcmp572

Description

Ultrafast 3.3 V/5 V Single-supply Comparators

Manufacturer

Analog Devices, Inc.

Datasheet

1.ADCMP572.pdf (16 pages)

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ADCMP572/ADCMP573

500 Ω resistor and leaving the LE pin disconnected. In this case,

the resistor value does not depend on the V

should of course be connected to a supply plane for maximum

performance.

OPTIMIZING HIGH SPEED PERFORMANCE

As with any high speed comparator, proper design and layout

techniques are essential to obtaining the specified performance.

Stray capacitance, inductance, inductive power and ground

impedances, or other layout issues can severely limit

performance and often cause oscillation. Discontinuities along

input and output transmission lines can severely limit the

specified pulse width dispersion performance.

For applications working in a 50 Ω environment, input and

output matching has a significant impact on data dependent (or

deterministic) jitter (DJ) and on pulse width dispersion

performance. The ADCMP572/ADCMP573 comparators

provide internal 50 Ω termination resistors for both the V

outputs. The return side for each input termination is pinned

out separately with the V

termination is desired at one or both of the V

the V

(from) the desired termination potential as required. The

termination potential should be carefully bypassed using high

quality bypass capacitors as discussed earlier to prevent

undesired aberrations on the input signal due to parasitic

inductance in the circuit board layout. If a 50 Ω input

termination is not desired, either one or both of the V

termination pins can be left disconnected. In this case, the pins

should be left floating with no external pull-downs or bypassing

capacitors.

When leaving an input termination disconnected, the internal

resistor acts as a small stub on the input transmission path and

can cause problems for very high speed inputs. Reflections

should then be expected from the comparator inputs because

they no longer provide matched impedance to the input path

leading to the device. In this case, it is important to back match

the drive source impedance to the input transmission path to

minimize multiple reflections. For applications in which the

comparator is very close to the driving signal source, the source

impedance should be minimized. High source impedance in

combination with parasitic input capacitance of the comparator

might cause an undesirable degradation in bandwidth at the

input, therefore degrading the overall response. Although the

ADCMP572/ ADCMP573 comparators have been designed to

minimize input capacitance, some parasitic capacitance is

inevitable. It is therefore recommended that the drive source

impedance be no more than 50 Ω for best high speed

performance.

CCO

inputs, and the ADCMP572 provides 50 Ω back terminated

is the signal return for the output stage and V

and V

pins can be connected (or disconnected) to

and V

pins, respectively. If a 50 Ω

CCO

supply voltage.

inputs, then

CCO

pins

and

Rev. 0 | Page 10 of 16

COMPARATOR PROPAGATION

DELAY DISPERSION

The ADCMP572/ADCMP573 comparators are designed to

reduce propagation delay dispersion over a wide input overdrive

range of 5 mV to 500 mV. Propagation delay dispersion is

variation in the propagation delay that results from a change in

the degree of overdrive or slew rate (how far or how fast the

input signal exceeds the switching threshold).

Propagation delay dispersion is a specification that becomes

important in high speed, time-critical applications such as data

communication, automatic test and measurement, instrumenta-

tion, and event driven applications such as pulse spectroscopy,

nuclear instrumentation, and medical imaging. Dispersion is

defined as the variation in propagation delay as the input over-

drive conditions vary (Figure 17 and Figure 18). For the

ADCMP572/ADCMP573, dispersion is typically <15 ps because

the overdrive varies from 10 mV to 500 mV, and the input slew

rate varies from 2 V/ns to 10 V/ns. This specification applies for

both positive and negative signals since the ADCMP572/

ADCMP573 has substantially equal delays for either positive

going or negative going inputs.

INPUT VOLTAGE

Q/Q OUTPUT

INPUT VOLTAGE

Q/Q OUTPUT

Figure 17. Propagation Delay—Overdrive Dispersion

Figure 18. Propagation Delay—Slew Rate Dispersion

10V/ns

1V/ns

500mV OVERDRIVE

10mV OVERDRIVE

DISPERSION

± V

adcmp572 Analog Devices, Inc., adcmp572 Datasheet - Page 10

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