LT1715CMS#PBF Linear Technology, LT1715CMS#PBF Datasheet - Page 13
LT1715CMS#PBF
Manufacturer Part Number
LT1715CMS#PBF
Description
IC COMPARATOR 150MHZ DUAL 10MSOP
Manufacturer
Linear Technology
Series
UltraFast™r
Type
General Purposer
Specifications of LT1715CMS#PBF
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)
Comparator Type
High Speed
No. Of Comparators
2
Response Time
4ns
Ic Output Type
CMOS, TTL
Supply Current
1mA
Supply Voltage Range
2.7V To 12V
Amplifier Case Style
MSOP
No. Of Pins
10
Rohs Compliant
Yes
Output Compatibility
CMOS, TTL
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
APPLICATIO S I FOR ATIO
The level translator designs assume one gate load. Mul-
tiple gates can have significant I
mission line routing and termination issues also make this
case difficult.
ECL, and particularly PECL, is valuable technology for
high speed system design, but it must be used with care.
With less than a volt of swing, the noise margins need to
be evaluated carefully. Note that there is some degrada-
tion of noise margin due to the 5% resistor selections
shown. With 10KH/E, there is no temperature compensa-
tion of the logic levels, whereas the LT1715 and the
circuits shown give levels that are stable with tempera-
ture. This will lower the noise margin over temperature.
In some configurations it is possible to add compensation
with diode or transistor junctions in series with the
resistors of these networks.
For more information on ECL design, refer to the ECLiPS
data book (DL140), the 10KH system design handbook
(HB205) and PECL design (AN1406), all from Motorola,
now ON Semiconductor.
Circuit Description
The block diagram of the LT1715 is shown in Figure 9. The
circuit topology consists of a differential input stage, a
gain stage with hysteresis and a complementary com-
mon-emitter output stage. All of the internal signal paths
utilize low voltage swings for high speed at low power.
+IN
–IN
U
+
–
U
A
V1
V
V
CC
EE
IH
loading, and the trans-
W
+
+
Figure 9. LT1715 Block Diagram
NONLINEAR STAGE
+
–
U
A
V2
The input stage topology maximizes the input dynamic
range available without requiring the power, complexity
and die area of two complete input stages such as are
found in rail-to-rail input comparators. With a single 2.7V
supply, the LT1715 still has a respectable 1.6V of input
common mode range. The differential input voltage range
is rail-to-rail, without the large input currents found in
competing devices. The input stage also features phase
reversal protection to prevent false outputs when the
inputs are driven below the –100mV common mode
voltage limit.
The internal hysteresis is implemented by positive, nonlin-
ear feedback around a second gain stage. Until this point,
the signal path has been entirely differential. The signal
path is then split into two drive signals for the upper and
lower output transistors. The output transistors are con-
nected common emitter for rail-to-rail output operation.
The Schottky clamps limit the output voltages at about
300mV from the rail, not quite the 50mV or 15mV of Linear
Technology’s rail-to-rail amplifiers and other products.
But the output of a comparator is digital, and this output
stage can drive TTL or CMOS directly. It can also drive ECL,
as described earlier, or analog loads.
The bias conditions and signal swings in the output stage
are designed to turn their respective output transistors off
faster than on. This helps minimize the surge of current
from + V
S
to ground that occurs at transitions, to minimize
+
–
+
–
1715 F09
+V
OUT
GND
S
LT1715
13
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