sy89465u Micrel Semiconductor, sy89465u Datasheet - Page 8
sy89465u
Manufacturer Part Number
sy89465u
Description
Sy89465u Precision Lvds 1 10 Fanout With 2 1 Runt Pulse Eliminator Mux And Internal Termination
Manufacturer
Micrel Semiconductor
Datasheet
1.SY89465U.pdf
(19 pages)
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Functional Description
RPE MUX and Fail-Safe Input
The SY89465U is optimized for clock switchover
applications where switching from one clock to
another clock without runt pulses (short cycles) is
required. It features two unique circuits:
Runt-Pulse Eliminator (RPE) Circuit
The RPE MUX provides a “glitchless” switchover
between two clocks and prevents any runt pulses
from occurring during the switchover transition. The
design of both clock inputs is identical (i.e., the
switchover sequence and protection is symmetrical
for both input pairs, IN0 or IN1. Thus, either input
pair may be defined as the primary input). If not
required, the RPE function can be permanently
disabled to allow the switchover between inputs to
occur immediately. If the CAP pin is tied directly to
V
multiplexer will function as a normal multiplexer.
Fail-Safe Input (FSI) Circuit
The FSI function provides protection against a
selected input pair that drops below the minimum
amplitude requirement. If the selected input pair
drops sufficiently below the 100mV minimum single-
ended input amplitude limit (V
differentially (V
valid clock state.
December 2007
CC
, the RPE function will be disabled and the
DIFF_IN
), the output will latch to the last
IN
), or 200mV
Timing Diagram 1
8
RPE and FSI Functionality
The basic operation of the RPE MUX and FSI
functionality is described with the following four case
descriptions. All descriptions are related to the true
inputs and outputs. The primary (or selected) clock
is called CLK1; the secondary (or alternate) clock is
called CLK2. Due to the totally asynchronous
relation of the IN and SEL signals and an additional
internal protection against metastability, the number
of pulses required for the operations described in
cases 1-4 can vary within certain limits. Refer to
“Timing Diagrams” section for detailed information.
Case #1: Two Normal Clocks and RPE Enabled
In this case, the frequency difference between the
two running clocks, IN0 and IN1, must not be greater
than 1.5:1. For example, if the IN0 clock is 500MHz,
the IN1 clock must be within the range of 334MHz to
750MHz.
If the SEL input changes state to select the alternate
clock, the switchover from CLK1 to CLK2 will occur
in three stages.
• Stage 1: The output will continue to follow CLK1
• Stage 2: The output will remain LOW for a
• Stage 3: The output follows CLK2.
for a limited number of pulses.
limited number of pulses of CLK2.
hbwhelp@micrel.com
M9999-120607-B
or (408) 955-1690
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