LMH7220_14 Datasheet, PDF(16/34 Page) Texas Instruments – LMH7220 High Speed Comparator with LVDS Output

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LMH7220_14 Datasheet, PDF (16/34 Pages) Texas Instruments – LMH7220 High Speed Comparator with LVDS Output

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LMH7220

SNOSAL3E â SEPTEMBER 2006 â REVISED MAY 2013

www.ti.com

Differential

Input Signal

Output Q

Differential

Output Signal

'tPDLH

tPDH

tPDL

tPDHd

Voverdrive

'tPDHL

tPDL

tPDH

80% or 90%

10% or 20%

80% or 90%

tPDLd 10% or 20%

trd

tfd

tPDLH = (tPDH + tPDL)/ 2

tPDHL = (tPDL + tPDH)/ 2

tPD = (tPDLH + tPDHL)/ 2

VO 'tPDLH = | tPDH - tPDL |

'tPDHL = | tPDL - tPDH |

VO 'tPD = 'tPDLH + 'tPDHL)/ 2

'tPDQ = | tPDH - tPDL |

'tPDQ = | tPDL - tPDH |

tPDd = (tPDHd + tPDLd)/ 2

'tPDd = | tPDHd - tPDLd |

Figure 21. Propagation Delay Definition

DELAY AND DISPERSION

Comparators are widely used to connect the analog world to the digital one. The accuracy of a comparator is

dictated by its DC properties such as offset voltage and hysteresis and by its timing aspects such as rise and fall

times and delay. For low frequency applications most comparators are much faster than the analog input signals

they handle. The timing aspects are less important here than the accuracy of the input switching levels. The

higher the frequency, the more important the timing properties of the comparator become, because the response

of the comparator can give e.g. a noticeable change in time frame or duty cycle. A designer has to know these

effects in order to deal with them. In order to predict what the output signal will do compared to the input signal,

several parameters are defined which describe the behavior of the comparator. For a good understanding of the

timing parameters discussed in the following section, a brief explanation is given and several timing diagrams are

shown for clarification.

PROPAGATION DELAY

The propagation delay parameter is defined as the time it takes for the comparator to change the output level

halfway in its transition from L to H or H to L, in reaction to the moment the input signal crosses the switching

level. Due to this definition there are two parameters, tPDH and tPDL (Figure 22). Both parameters donât

necessarily have the same value. It is possible that differences will occur due to a different response of the

internal circuitry. As a result of this effect another parameter is defined: ÎtPD. This parameter is defined as the

absolute value of the difference between tPDH and tPDL.

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