MAX9692ESE+ Maxim Integrated Products, MAX9692ESE+ Datasheet - Page 5
MAX9692ESE+
Manufacturer Part Number
MAX9692ESE+
Description
IC COMPARATOR W/LE 16-SOIC
Manufacturer
Maxim Integrated Products
Type
with Latchr
Datasheet
1.MAX9691ESA.pdf
(10 pages)
Specifications of MAX9692ESE+
Number Of Elements
1
Output Type
Complementary, ECL
Mounting Type
Surface Mount
Package / Case
16-SOIC (0.154", 3.90mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
__________ Applications Information
Because of the MAX9691/MAX9692/MAX9693s’ large
gain-bandwidth characteristic, special precautions
must be taken to use them. A PC board with a ground
plane is mandatory. Mount 0.01µF ceramic decoupling
capacitors as close to the power-supply pins as possi-
ble, and process the ECL outputs in microstrip fashion,
consistent with the load termination of 50Ω to 200Ω (for
V
layout and terminations at the input may also be help-
ful. Pay close attention to the bandwidth of the decou-
pling and terminating components. Chip components
can be used to minimize lead inductance. Connect
GND1 and GND2 together to a solid copper ground
(V
Figure 1. Regenerative Feedback—High-Speed Receiver with
50Ω Input and Output Termination
T
CC
= -2V). For low-impedance applications, microstrip
= +5V, V
V
IN
Q OUT - Q OUT
EE
200mV/div
200mV/div
50Ω
= -5.2V, R
50Ω
V
IN
_______________________________________________________________________________________
L
R
= 50Ω to V
f
PROPAGATION DELAY
LE
Q
Q
C
f
Single/Dual, Ultra-Fast, ECL-Output
1ns/div
T
, V
50Ω
T
50Ω
Comparators with Latch Enable
= -2V, V
V
V
IN
OD
= 100mV
Typical Operating Characteristics (continued)
= 10mV
MAX9691/3-11
-2V
OD
Layout
= 10mV, T
A
= +25°C, unless otherwise noted.)
plane for the MAX9691/MAX9692. GND1 biases the
input gain stages, while GND2 biases the ECL output
stage. If the LE function is not used, connect the LE pin
to GND (MAX9692/MAX9693) and the complementary
LE to ECL logic high level (MAX9693 only). Do not
leave the inputs of an unused comparator floating for
the MAX9693.
As with all high-speed comparators, the high gain-
bandwidth product of these devices creates oscillation
problems when the input goes through the linear
region. For clean switching without oscillation or steps
in the output waveform, the input must meet certain
minimum slew-rate requirements. The tendency of the
part to oscillate is a function of the layout and source
impedance of the circuit employed. Poor layout and
larger source impedance will increase the minimum
slew-rate requirement.
Figure 1 shows a high-speed receiver application with
50Ω input and output termination. With this configura-
tion, in which a ground plane and microstrip PC board
are used, the minimum slew rate for clean output
switching is 1V/µs.
In many applications, adding regenerative feedback
will assist the input signal through the linear region,
which will lower the minimum slew-rate requirement
considerably. For example, with the addition of positive
feedback components, R
minimum slew-rate requirement can be reduced by a
factor of four.
200mV/div
200mV/div
Q OUT
Q OUT
100MHz OUTPUT RESPONSE
Input Slew-Rate Requirements
1ns/div
f
= 1kΩ and C
MAX9691/3-12
-1.0V
-1.8V
-1.0V
-1.8V
f
= 10pF, the
5
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