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Si52147 E
VALUATION
Description
The Si52147 is a nine port PCIe clock generator
compliant to the PCIe Gen1, Gen2 and Gen3 standards.
The Si52147 is a 48-pin QFN device that operates on a
3.3 V power supply and can be controlled using SMBus
signals along with hardware control input pins.The
differential outputs support spread spectrum and can be
controlled through SSON input pin. The Si52147 needs
a crystal or clock input of 25 MHz. The connections are
described in this document.
CKPWRGD/Power down enable
Rev. 0.1 1/12
B
OARD
Power connectors
VDD = 3.3 V
power supply
GND
SDATA/SCLK
DIFF0 Output Enable
DIFF1 Output Enable
Spread Enable Control
DIFF2 Output Enable
DIFF3 Output Enable
DIFF4/DIFF5 Output Enable
DIFF6/DIFF8 Output Enable
DIFF0 connection
for application
DIFF1 connection for
Copyright © 2012 by Silicon Labs
S i 5 2 14 7 - EVB
U
'
SER
S
EVB Features
This document is intended to be used in conjunction
with the Si52147 device and data sheet for the following
tests:
PCIe Gen1, Gen2, Gen3 compliancy
Power consumption test
Jitter performance
2
Testing out I
In-system validation where SMA connectors are
present
External
DIFF8 connection
Clock Input
for application
SDATA
SCLK
GND
Si52147
DIFF2 connection
for application
application
G
UIDE
C code for signal tuning
DIFF7 connection
for application
DIFF3 connection
for application
DIFF6
connection
for
application
DIFF5
connection
for
application
DIFF4
connection
for
application
Si52147-EVB
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Related Manuals for Silicon Laboratories Si52147
Summary of Contents for Silicon Laboratories Si52147
-
Page 1: Evb Features
PCIe Gen1, Gen2 and Gen3 standards. with the Si52147 device and data sheet for the following The Si52147 is a 48-pin QFN device that operates on a tests: 3.3 V power supply and can be controlled using SMBus ... -
Page 2: Front Panel
Si52147-EVB 1. Front Panel DIFF8 Differential output External Clock Input for on Si52147-EVB only DIFF7 Differential output CKPWRGD/ Power down input control VDD Connectors I2C connect -For I2C read and write. In sequence SData, Gnd, SCLK from left to right... - Page 3 Si52147-EVB Table 1. Input Jumper Settings (Continued) SSON SSON Input, 3.3 V-Tolerant Active Input for Spread selection on the Output. Internal 100 k pulldown. 1 = –0.5% Spread enabled, 0 = Spread disabled. SDATA SMBus-Compatible SDATA. SCLK SMBus-Compatible SCLOCK. Table 2. Spread Selection...
- Page 4 Si52147-EVB 1.1. Generating DIFF Outputs from the Si52147 Upon power-on of the device, if the input pins are left floating, by default all DIFF outputs DIFF[0:8] are ON with 100 MHz and with spread spectrum disabled. The input pin headers have clear indication of jumper settings for setting logic low (0) and high (1) as shown below, the jumper placed on middle and left pin will set input OE0 to LOw;...
- Page 5 Si52147-EVB 2. Schematics VDD1 VDD2 VDD12 VDD13 VDD23 VDD34 VDD40 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF DUTGND XOUT_DIFFIN 20pF XTL P/N: XOUT SRC0 DIFF0_14 SRC0# DIFF0#_15 ECS-250-20-5PXDU-F-TR DIFF1_17 Use SMD footprint XIN/CLKIN SRC1 DIFF1#_18 SRC1# 25MHz DIFF2_19 DUTGND SRC2...
- Page 6 Si52147-EVB SCLK/SDATA NC_47 SSON VDD_3.3V VDD_3.3V VDD_3.3V HEADER 1x3 HEADER 1x3 HEADER 1x3 SCLK VDD_3.3V DUTGND DUTGND DUTGND SDATA NC_48 NC_43 VDD_3.3V VDD_3.3V HEADER 1x3 HEADER 1x3 XIN_DIFFIN#1 DUTGND DUTGND XIN_DIFFIN# DUTGND XOUT_DIFFIN1 CKPWRGD_PD# NC_44 XOUT_DIFFIN VDD_3.3V VDD_3.3V HEADER 1x3...
- Page 7 Si52147-EVB OTES Rev. 0.1...
- Page 8 The products must not be used within any Life Support System without the specific written consent of Silicon Laboratories. A "Life Support System" is any product or system intended to support or sustain life and/or health, which, if it fails, can be reasonably expected to result in significant personal injury or death.
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