LT1720IS8 Linear Technology, LT1720IS8 Datasheet - Page 20
LT1720IS8
Manufacturer Part Number
LT1720IS8
Description
IC COMP R-RINOUT DUAL 8-SOIC
Manufacturer
Linear Technology
Series
UltraFast™r
Type
General Purposer
Datasheet
1.LT1720CS8PBF.pdf
(28 pages)
Specifications of LT1720IS8
Number Of Elements
2
Output Type
CMOS, Rail-to-Rail, TTL
Voltage - Supply
2.7 V ~ 6 V
Mounting Type
Surface Mount
Package / Case
8-SOIC (0.154", 3.90mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LT1720IS8
Manufacturer:
LINEAR/凌特
Quantity:
20 000
Company:
Part Number:
LT1720IS8#PBF
Manufacturer:
LINEAR
Quantity:
1 000
Company:
Part Number:
LT1720IS8#TRPBF
Manufacturer:
LINEAR
Quantity:
7 877
APPLICATIONS INFORMATION
LT1720/LT1721
You don’t need expensive equipment to confi rm the actual
overall performance of this circuit. All you need is a respect-
able waveform generator (capable of >~100kHz), a splitter, a
variety of cable lengths and a 20MHz or 60MHz oscilloscope.
Split a single pulse source into different cable lengths and
then into the delay detector, feeding the longer cable into
the Y input (see Figure 15). A 6 foot cable length difference
will create a ~9.2ns delay (using 66% propagation speed
RG-58 cable), and should result in easily measured 1.70μs
output pulses. A 12 foot cable length difference will result
in ~18.4ns delay and 2.07μs output pulses. The difference
20
2V
0V
Figure 15. RG-58 Cable with Velocity of Propogation = 66%;
Delay at Y = (n – 1) • 1.54ns
Figure 14. Log Pulse Stretcher Output Pulse vs Input Pulse
1 FOOT CABLE
NANOSECOND
INPUT RANGE
14
12
10
8
6
4
2
0
SPLITTER
1
10
MEASURED
t
PULSE
100
(ns)
n FOOT CABLE
CIRCUIT OF
FIGURE 12
1000
EQUATION 1
X
Y
L
17201 F14
10000
OUTPUT RANGE
MICROSECOND
(SEE TEXT)
t
OUT
17201 F15
in the two output pulse widths is the per-octave response
of your circuit (see Equation (3)). Shorter cable length dif-
ferences can be used to get a plot of circuit performance
down to 1.5ns (if any), which can then later be used as a
lookup reference when you have moved from quantifying the
circuit to using the circuit. (Note there is a slight aberration
in performance below 10ns. See Figure 14.) As a fi nal check,
feed the circuit with identical cable lengths and check that
it is not producing any output pulses.
10ns Triple Overlap Generator
The circuit of Figure 16 utilizes an LT1721 to generate three
overlapping outputs whose pulse edges are separated by
10ns as shown. The time constant is set by the RC net-
work on the output of comparator A. Comparator B and D
trip at fi xed percentages of the exponential voltage decay
across the capacitor. The 4.22kΩ feed-forward to the C
comparator’s inverting input keeps the delay differences
the same in each direction despite the exponential nature
of the RC network’s voltage.
There is a 15ns delay to the fi rst edge in both directions,
due to the 4.5ns delay of two LT1721 comparators, plus 6ns
delay in the RC network. This starting delay is shortened
somewhat if the pulse was shorter than 40ns because the
RC network will not have fully settled; however, the 10ns
edge separations stay constant.
The values shown utilize only the lowest 75% of the supply
voltage span, which allows it to work down to 2.7V supply.
The delay differences grow a couple nanoseconds from
5V to 2.7V supply due to the fi xed V
grow as a percentage at low supply voltage. To keep this
effect to a minimum, the 1kΩ pull-up on comparator A
provides equal loading in either state.
Fast Waveform Sampler
Figure 17 uses a diode-bridge-type switch for clean, fast
waveform sampling. The diode bridge, because of its
inherent symmetry, provides lower AC errors than other
semiconductor-based switching technologies. This circuit
features 20dB of gain, 10MHz full power bandwidth and
100μV/°C baseline uncertainty. Switching delay is less
than 15ns and the minimum sampling window width for
full power response is 30ns.
OL
/V
OH
drops which
17201fc
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