SY89837UMI TR Micrel Inc, SY89837UMI TR Datasheet - Page 4

SY89837UMI TR

Manufacturer Part Number

SY89837UMI TR

Description

Manufacturer

Micrel Inc

Type

Clock Driverr

Datasheet

1.SY89837UMI_TR.pdf (14 pages)

Specifications of SY89837UMI TR

Number Of Clock Inputs

Mode Of Operation

Differential

Output Frequency

2000MHz

Output Logic Level

LVPECL

Operating Supply Voltage (min)

2.375V

Operating Supply Voltage (typ)

2.5/3.3V

Operating Supply Voltage (max)

3.6V

Package Type

MLF

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Signal Type

CML/LVDS/PECL

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Not Compliant

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Micrel, Inc.

RPE MUX and Fail-Safe Input

applications where switching from one clock to another clock

without runt pulses (short cycles) is required. It features two

unique circuits:

1. Runt-Pulse Eliminator (RPE) Circuit

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 pair, 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.

For more detail on how to disable the RPE function within the

MUX, see the “Power-On Reset (POR)” section.

2. Fail-Safe Input (FSI) Circuit

input pair that drops below the minimum amplitude

requirement. If the selected input pair drops sufficiently below

the 200mV minimum single-ended input amplitude limit (V

or 400mV differentially (Vdiff_IN), the output will latch to the

last valid clock state.

M9999-060410

hbwhelp@micrel.com or (408) 955-1690

The SY89837U is optimized for clock switchover

The RPE MUX provides a “glitchless” switchover between

The FSI function provides protection against a selected

DETAILED FUNCTIONAL DESCRIPTION

Figure 2. Timing Diagram 1

RPE 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 through 4 can vary within certain limits. Refer to

“Timing Diagrams” and “Applications” section for detailed

information.

Case #1 Two Normal Clocks and RPE Enabled.

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.

clock, the switchover from CLK1 to CLK2 will occur in three

stages:

The basic operation of the RPE MUX and FSI functionality

In this case the frequency difference between the two

If the SEL input changes state to select the alternate

• Stage 1: The output will continue to follow CLK1

• Stage 2: The output will remain LOW for a lim-

• Stage 3: The output follows CLK2.

for a limited number of pulses.

ited number of pulses of CLK2.

Precision Edge

SY89837U

SY89837UMI TR Micrel Inc, SY89837UMI TR Datasheet - Page 4

SY89837UMI TR

Specifications of SY89837UMI TR

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