EL5181CS ELANTEC [Elantec Semiconductor], EL5181CS Datasheet - Page 8
EL5181CS
Manufacturer Part Number
EL5181CS
Description
8ns High-Speed Comparator
Manufacturer
ELANTEC [Elantec Semiconductor]
Datasheet
1.EL5181CS.pdf
(11 pages)
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Part Number:
EL5181CS
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EL5181C
8ns High-Speed Comparator
Applications Information
Power Supplies and Circuit Layout
The EL5181C comparator operates with single and dual
supply with 5V to 12V between V
put side of the comparator is supplied by a single supply
from 2.7V to 5V. The rail to rail output swing enables
direct connection of the comparator to both CMOS and
TTL logic circuits. As with many high speed devices,
the supplies must be well bypassed. Elantec recom-
mends a 4.7µF tantalum in parallel with a 0.1µF
ceramic. These should be placed as close as possible to
the supply pins. Keep all leads short to reduce stray
capacitance and lead inductance. This will also mini-
m i z e u n w a n t e d p a r a s i t i c f e e d b a c k a r o u n d t h e
comparator. The device should be soldered directly to
the PC board instead of using a socket. Use a PC board
with a good, unbroken low inductance ground plane.
Good ground plane construction techniques enhance sta-
bility of the comparators.
Input Voltage Considerations
The EL5181C input range is specified from 0.1V below
V
limit is that the output still responds correctly to a small
differential input signal. The differential input stage is a
pair of PNP transistors, therefore, the input bias current
flows out of the device. When either input signal falls
below the negative input voltage limit, the parasitic PN
junction formed by the substrate and the base of the PNP
will turn on, resulting in a significant increase of input
bias current. If one of the inputs goes above the positive
input voltage limit, the output will still maintain the cor-
rect logic level as long as the other input stays within the
input range. However, the propagation delay will
increase. When both inputs are outside the input voltage
range, the output becomes unpredictable. Large differ-
ential voltages greater than the supply voltage should be
avoided to prevent damages to the input stage.
Input Slew Rate
Most high speed comparators oscillate when the voltage
of one of the inputs is close to or equal to the voltage on
the other input due to noise or undesirable feedback. For
clean output waveform, the input must meet certain min-
imum slew rate requirements. In some applications, it
S
- to 2.25V below V
S
+. The criterion for the input
S
+ and V
S
-. The out-
8
may be helpful to apply some positive feedback (hyster-
esis) between the output and the positive input. The
hysteresis effectively causes one comparator's input
voltage to move quickly past the other, thus taking the
input out of the region where oscillation occurs. For the
EL5181C, the propagation delay increases when the
input slew rate increases for low overdrive voltages.
With high overdrive voltages, the propagation delay
does not change much with the input slew rate.
Latch Pin Dynamics
The EL5181C contains a “transparent” latch for each
channel. The latch pin is designed to be driven with
either a TTL or CMOS output. When the latch is con-
nected to a logic high level or left floating, the
comparator is transparent and immediately responds to
the changes at the input terminals. When the latch is
switched to a logic low level, the comparator output
remains latched to its value just before the latch’s high-
to-low transition. To guarantee data retention, the input
signal must remain the same state at least 1ns (hold time)
after the latch goes low and at least 2ns (setup time)
before the latch goes low. When the latch goes high, the
new data will appear at the output in approximately 6ns
(latch propagation delay).
Hysteresis
Hysteresis can be added externally. The following two
methods can be used to add hysteresis.
Inverting comparator with hysteresis:
R
and R
follows:
Select the threshold voltage V
R
3
2
. The current through R
adds a portion of the output to the threshold set by R
2
. The calculation of the resistor values are as
R
R
2
1
V
REF
V
IN
1
/R
2
+
-
TH
bias string must be many
R
3
and calculate R
1
and
1
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