Datasheet ADCMP566 (Analog Devices) - 10
| Fabricante | Analog Devices |
| Descripción | Dual Ultrafast Voltage Comparator |
| Páginas / Página | 16 / 10 — –VH. +VH. INPUT. 1.5V OVERDRIVE. INPUT VOLTAGE. OUTPUT. 20mV OVERDRIVE. … |
| Formato / tamaño de archivo | PDF / 213 Kb |
| Idioma del documento | Inglés |
–VH. +VH. INPUT. 1.5V OVERDRIVE. INPUT VOLTAGE. OUTPUT. 20mV OVERDRIVE. 03633-0-005. VREF ± VOS. DISPERSION. Q OUTPUT. 03633-0-004. V) m
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link to page 10 link to page 10 link to page 11 link to page 11 link to page 10 ADCMP566 as the variation in propagation delay as the input overdrive
–VH +VH
conditions are changed (Figure 4). For the ADCMP566,
2 2 0V
overdrive dispersion is typically 35 ps as the overdrive is
INPUT
changed from 100 mV to 1 V. This specification applies for
1
both positive and negative overdrive since the ADCMP566 has equal delays for positive and negative going inputs. The 35 ps propagation delay overdrive dispersion of the ADCMP566 offers considerable improvement of the 100 ps dispersion of other similar series comparators.
0 1.5V OVERDRIVE INPUT VOLTAGE OUTPUT 20mV OVERDRIVE 03633-0-005 VREF ± VOS
Figure 5. Comparator Hysteresis Transfer Function
DISPERSION 60 Q OUTPUT 50 03633-0-004
Figure 4. Propagation Delay Dispersion
40 V) m COMPARATOR HYSTERESIS 30 ESIS (
The addition of hysteresis to a comparator is often useful in a noisy environment or where it is not desirable for the compara-
YSTER 20 H
tor to toggle between states when the input signal is at the switching threshold. The transfer function for a comparator
10
with hysteresis is shown in Figure 5. If the input voltage approaches the threshold from the negative direction, the
0–20 –15 –10 –5 0 5 10 15
comparator will switch from a 0 to a 1 when the input crosses ∆
LATCH = LE – LEB (mV)
03633-0-006 +VH/2. The new switching threshold becomes −VH/2. The Figure 6. Comparator Hysteresis Transfer Function comparator will remain in a 1 state until the threshold −V Using Latch Enable Input H/2 is crossed coming from the positive direction. In this manner, noise centered on 0 V input will not cause the comparator to
MINIMUM INPUT SLEW RATE REQUIREMENT
switch states unless it exceeds the region bounded by ±VH/2. As for all high speed comparators, a minimum slew rate must Positive feedback from the output to the input is often used to be met to ensure that the device does not oscillate when the produce hysteresis in a comparator (Figure 9). The major input crosses the threshold. This oscillation is due in part to the problem with this approach is that the amount of hysteresis high input bandwidth of the comparator and the parasitics of varies with the output logic levels, resulting in a hysteresis that the package. Analog Devices recommends a slew rate of 5 V/µs is not symmetrical around zero. or faster to ensure a clean output transition. If slew rates less than 5 V/µs are used, then hysteresis should be added to reduce Another method to implement hysteresis is generated by the oscillation. introducing a differential voltage between LATCH ENABLE and LATCH ENABLE. inputs (Figure 10). Hysteresis generated in this manner is independent of output swing and is symmetri- cal around zero. The variation of hysteresis with input voltage is shown in Figure 6. Rev. 0 | Page 10 of 16 Document Outline SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS THERMAL CONSIDERATIONS ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TIMING INFORMATION APPLICATION INFORMATION CLOCK TIMING RECOVERY OPTIMIZING HIGH SPEED PERFORMANCE COMPARATOR PROPAGATION DELAY DISPERSION COMPARATOR HYSTERESIS MINIMUM INPUT SLEW RATE REQUIREMENT TYPICAL APPLICATION CIRCUITS TYPICAL PERFORMANCE CHARACTERISTICS OUTLINE DIMENSIONS ORDERING GUIDE
–VH +VH
conditions are changed (Figure 4). For the ADCMP566,
2 2 0V
overdrive dispersion is typically 35 ps as the overdrive is
INPUT
changed from 100 mV to 1 V. This specification applies for
1
both positive and negative overdrive since the ADCMP566 has equal delays for positive and negative going inputs. The 35 ps propagation delay overdrive dispersion of the ADCMP566 offers considerable improvement of the 100 ps dispersion of other similar series comparators.
0 1.5V OVERDRIVE INPUT VOLTAGE OUTPUT 20mV OVERDRIVE 03633-0-005 VREF ± VOS
Figure 5. Comparator Hysteresis Transfer Function
DISPERSION 60 Q OUTPUT 50 03633-0-004
Figure 4. Propagation Delay Dispersion
40 V) m COMPARATOR HYSTERESIS 30 ESIS (
The addition of hysteresis to a comparator is often useful in a noisy environment or where it is not desirable for the compara-
YSTER 20 H
tor to toggle between states when the input signal is at the switching threshold. The transfer function for a comparator
10
with hysteresis is shown in Figure 5. If the input voltage approaches the threshold from the negative direction, the
0–20 –15 –10 –5 0 5 10 15
comparator will switch from a 0 to a 1 when the input crosses ∆
LATCH = LE – LEB (mV)
03633-0-006 +VH/2. The new switching threshold becomes −VH/2. The Figure 6. Comparator Hysteresis Transfer Function comparator will remain in a 1 state until the threshold −V Using Latch Enable Input H/2 is crossed coming from the positive direction. In this manner, noise centered on 0 V input will not cause the comparator to
MINIMUM INPUT SLEW RATE REQUIREMENT
switch states unless it exceeds the region bounded by ±VH/2. As for all high speed comparators, a minimum slew rate must Positive feedback from the output to the input is often used to be met to ensure that the device does not oscillate when the produce hysteresis in a comparator (Figure 9). The major input crosses the threshold. This oscillation is due in part to the problem with this approach is that the amount of hysteresis high input bandwidth of the comparator and the parasitics of varies with the output logic levels, resulting in a hysteresis that the package. Analog Devices recommends a slew rate of 5 V/µs is not symmetrical around zero. or faster to ensure a clean output transition. If slew rates less than 5 V/µs are used, then hysteresis should be added to reduce Another method to implement hysteresis is generated by the oscillation. introducing a differential voltage between LATCH ENABLE and LATCH ENABLE. inputs (Figure 10). Hysteresis generated in this manner is independent of output swing and is symmetri- cal around zero. The variation of hysteresis with input voltage is shown in Figure 6. Rev. 0 | Page 10 of 16 Document Outline SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS THERMAL CONSIDERATIONS ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS TIMING INFORMATION APPLICATION INFORMATION CLOCK TIMING RECOVERY OPTIMIZING HIGH SPEED PERFORMANCE COMPARATOR PROPAGATION DELAY DISPERSION COMPARATOR HYSTERESIS MINIMUM INPUT SLEW RATE REQUIREMENT TYPICAL APPLICATION CIRCUITS TYPICAL PERFORMANCE CHARACTERISTICS OUTLINE DIMENSIONS ORDERING GUIDE