LT1715IMS Linear Technology, LT1715IMS Datasheet - Page 4
LT1715IMS
Manufacturer Part Number
LT1715IMS
Description
IC COMPARATOR 150MHZ DUAL 10MSOP
Manufacturer
Linear Technology
Series
UltraFast™r
Type
General Purposer
Datasheet
1.LT1715CMS.pdf
(20 pages)
Specifications of LT1715IMS
Number Of Elements
2
Output Type
CMOS, Rail-to-Rail, TTL
Voltage - Supply
2.7 V ~ 12 V
Mounting Type
Surface Mount
Package / Case
10-TFSOP, 10-MSOP (0.118", 3.00mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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LT1715
ELECTRICAL CHARACTERISTICS
Note 1: Stresses beyond those listed under Absolute Maximum Ratings
may cause permanent damage to the device. Exposure to any Absolute
Maximum Rating condition for extended periods may affect device
reliability and lifetime.
Note 2: The LT1715C is guaranteed functional over the operating range of
–40°C to 85°C.
Note 3: The LT1715C is guaranteed to meet specifi ed performance from
0°C to 70°C. The LT1715°C is designed, characterized and expected to
meet specifi ed performance from –40°C to 85°C but is not tested or
QA sampled at these temperatures. The LT1715I is guaranteed to meet
specifi ed performance from –40°C to 85°C. The LT1715H is guaranteed to
meet specifi ed performance from –40°C to 125°C.
Note 4: Thermal resistances vary depending upon the amount of PC board
metal attached to Pin 5 of the device. θ
FR-4 board covered with 2oz copper on both sides and with 100mm
copper attached to Pin 5. Thermal performance can be improved beyond
the given specifi cation by using a 4-layer board or by attaching more metal
area to Pin 5.
Note 5: If one input is within these common mode limits, the other input
can go outside the common mode limits and the output will be valid.
Note 6: The LT1715 comparator includes internal hysteresis. The trip
points are the input voltage needed to change the output state in each
direction. The offset voltage is defi ned as the average of V
while the hysteresis voltage is the difference of these two.
Note 7: The common mode rejection ratio is measured with V
V
V
TYPICAL PERFORMANCE CHARACTERISTICS
4
EE
CM
= –5V and is defi ned as the change in offset voltage measured from
= –5.1V to V
–1
–2
–3
3
2
1
0
2.5
Input Offset and Trip Voltages
vs Supply Voltage
T
V
V
A
CM
EE
= 25°C
3.0
= GND
= 1V
SUPPLY VOLTAGE, V
CM
3.5
= 3.8V, divided by 8.9V.
4.0
V
V
V
4.5
TRIP
TRIP
OS
CC
+
–
= +V
5.0
S
JA
(V)
5.5
is specifi ed for a 2500mm
1715 G01
6.0
TRIP
–1
–2
–3
3
2
1
0
–60
Input Offset and Trip Voltages
vs Temperature
+
CC
+V
V
V
and V
CM
EE
–40
= 5V,
S
= –5V
= V
= 1V
–20
2
2
TRIP
CC
3/32"
of
= 5V
TEMPERATURE (°C)
–
0
,
20
40
Note 8: The power supply rejection ratio is measured with V
defi ned as the worst of: the change in offset voltage from V
to V
voltage from V
Note 9: Because of internal hysteresis, there is no small-signal region in
which to measure gain. Proper operation of internal circuity is ensured by
measuring V
Note 10: Maximum toggle rate is defi ned as the highest frequency at
which a 100mV sinusoidal input results in an error free output toggling to
greater than 4V when high and to less than 1V when low on a 5V output
supply.
Note 11: Propagation delay measurements made with 100mV steps.
Overdrive is measured relative to V
Note 12: t
low values of overdrive. The LT1715 is 100% tested with a 100mV step
and 20mV overdrive. Correlation tests have shown that t
guaranteed with this test.
Note 13: Propagation Delay Skew is defi ned as:
Note 14: Differential propagation delay is defi ned as the larger of the two:
Note 15: Package inductances combined with asynchronous activity on
the other channel can increase the output jitter. See Channel Interactions
in Applications Information. Specifi cation above is with one channel active
only.
V
V
V
TRIP
TRIP
60
CC
OS
+
–
= +V
80
PD
t
Δt
Δt
100
S
SKEW
OH
PDLH
PDHL
cannot be measured in automatic handling equipment with
= 6V (with V
EE
120
1715 G02
and V
= |t
= 0V to V
= |t
= |t
140
PDLH
OL
PDLHA
PDHLA
with only 20mV of overdrive.
EE
– t
EE
– t
– t
PDHL
= 0V) divided by 3.3V or the change in offset
–4.8
–5.0
–5.2
–5.4
= –6V (with V
4.2
4.0
3.8
3.6
PDLHB
PDHLB
–50
|
Input Common Mode Limits
vs Temperature
TRIP
+V
V
EE
|
|
S
–25
= –5V
= V
±
.
CC
CC
= 5V
0
TEMPERATURE (°C)
= +V
25
S
= 6V) divided by 6V.
50
PD
CC
limits can be
CM
75
= +V
= 1V and is
100
S
1715 G03
= 2.7V
1715fa
125
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