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Si 5 3 2 8 - EVB
Si5328-EVB
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FOR
Y N C
1. Introduction
The Si5328-EVB provides a platform for evaluating Silicon Laboratories' Si5328 Any-Frequency Precision Clock
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Timing IC. The Si5328 is controlled by a microprocessor or MCU (micro-controller unit) via an I
C or SPI interface.
The Si5328 is a jitter attenuator with a loop bandwidth ranging from 0.05 to 6 Hz. When combined with a
low-wander, low-jitter reference oscillator, the Si5328 meets all of the wander, MTIE, TDEV, and other
requirements listed in ITU-T G.8262/Y.1362 and commonly referred to as "SyncE" or "Synchronous Ethernet".
Top (U11 TCXO Plastic Cover Removed)
Bottom
Figure 1. Si5328-EVB
2. Applications
The Si5328 Any-Frequency Precision Clock has a comprehensive feature set for SyncE applications, including
any-frequency synthesis, multiple clock inputs, multiple clock outputs, a programmable loop bandwidth supporting
G.8262 options EEC1 and EEC2, alarm and status outputs, hitless switching between input clocks, programmable
output clock signal format (LVPECL, LVDS, CML, CMOS), and output phase adjustment between output clocks.
For more details, consult the Silicon Laboratories timing products web site at www.silabs.com/timing.
The evaluation board (EVBs) has an MCU (C8051F340) that supports USB communications with a PC host. The
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Si5328 is controlled and monitored through the serial port (either SPI or I
C). A CPLD sits between the MCU and
the Any-Frequency Precision Clock device that performs voltage-level translation. Ribbon headers and SMA
connectors are included so that external clock in, clock out, and status pins can be easily accessed by the user.
The user also has the option of bypassing the MCU and controlling the parts from an external serial device.
Onboard termination is included so that the user can evaluate single-ended or differential as well as ac or dc
coupled clock inputs and outputs. A separate and optional DUT (Device Under Test) power supply connector is
included so that the Any-Frequency Precision Clocks can be run at either 1.8, 2.5 or 3.3 V, while the USB MCU
remains at 3.3 V powered by the USB connector. LEDs are provided for convenient monitoring of key status
signals.
Rev. 0.1 7/13
Copyright © 2013 by Silicon Laboratories
Si5328-EVB
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Summary of Contents for Silicon Laboratories Si5328-EVB
- Page 1 Si5328-EVB Y N C 1. Introduction The Si5328-EVB provides a platform for evaluating Silicon Laboratories' Si5328 Any-Frequency Precision Clock Timing IC. The Si5328 is controlled by a microprocessor or MCU (micro-controller unit) via an I C or SPI interface. The Si5328 is a jitter attenuator with a loop bandwidth ranging from 0.05 to 6 Hz. When combined with a low-wander, low-jitter reference oscillator, the Si5328 meets all of the wander, MTIE, TDEV, and other requirements listed in ITU-T G.8262/Y.1362 and commonly referred to as “SyncE”...
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Page 2: Functional Description
Precision Clock EVB Software and selecting one of the programs. 5. Functional Description The Si5328-EVB software allows for a complete and simple evaluation of the functions, features, and performance of the Si5328 Any-Frequency Precision Clocks. 5.1. Block Diagram Figure 2 is a block diagram of the evaluation board. The MCU communicates to the host PC over a USB connection. - Page 3 TCXO that was used for the G.8262 compliance tests. The Si5328-EVB can be used with the on-board TCXO or an external reference oscillator. If the on-board TCXO is in use, its Vdd can be either 3.3 V or the DUT Vdd, with the default connection being to Vdd.
- Page 4 Si5328-EVB DUT_PWR +3.3 V SS_CPLD_B SS_B SCLK SCLK CPLD Si5328 MOSI MISO Figure 3. SPI Mode Serial Data Flow This EVB can be powered solely by the USB port if the Si5328 and the TCXO are both operating at 3.3 V. The factory default powers the entire board with 3.3 V from the USB connection.
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Page 5: Connectors And Leds
Si5328-EVB 6. Connectors and LEDs 6.1. LEDs There are eight LEDs on the board which provide a quick and convenient means of determining board status. Table 1. LED Status and Description Color Label Green 3.3 V Green DUT_PWR Green Yellow... -
Page 6: Serial Port
Figure 4. Connectors, Jumper Header Locations The Si5328-EVB derives power from its USB connector for the MCU, CPLD, LEDs, etc. When the DUT is to be driven with a Vdd of 3.3 V, USB power can also be used to power the entire evaluation board. For instances when A Vdd of 2.5 V or 1.8 V is desired, the jumper plug at J19 labeled DUT_PWR should be moved from the USB... - Page 7 Si5328-EVB The Si5328-EVB is configured with an on-board TCXO that is suitable for G.8262 applications and has a clipped sine wave output. For purposes of evaluation, a different TCXO/OCXO can be installed on the board. A TXCO with a CMOS output can be used as well as an external XAXB reference oscillator. Table 2 lists the components that need to changed to accommodate these options: Table 2.
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Page 8: Evb Software Installation
Si5328-EVB 7. EVB Software Installation The release notes and the procedure for installing the EVB software can be downloaded from the Silabs web site: www.silabs.com/timing. Follow the links for 1-PLL Jitter attenuators, and look under the Tools tab. 7.1. Precision Clock EVB Software Description There are several programs to control the Precision Clock device. - Page 9 Si5328-EVB 8. Schematics Rev. 0.1...
- Page 10 Si5328-EVB Rev. 0.1...
- Page 11 Si5328-EVB Rev. 0.1...
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Page 12: Bill Of Materials
Si5328-EVB 9. Bill of Materials Table 6. Si5328 Bill of Materials Item Reference Part Mfgr MfgrPartNum C1,C2,C3,C6,C7,C8,C9, 100 nF Venkel C0603X7R160-104KNE C12,C19,C20,C22,C27,C29, C32,C33,C34,C36,C39,C41, C46,C48 C4,C5,C13,C14,C16,C18, 10 nF Venkel C0603X7R160-103KNE C30,C31,C35,C37,C40,C42, C43,C44 C10,C11,C15,C21,C28,C38, 1 µF Venkel C0603X7R6R3-105KNE C45,C47,C49 C17,C24,C26,C50 33 µF... - Page 13 Si5328-EVB Table 6. Si5328 Bill of Materials Item Reference Part Mfgr MfgrPartNum 10 R17,R31,R32,R53,R57 Venkel CR0603-16W-10R0FT 0 R20,R27,R29,R51,R56,R64 Venkel CR0603-16W-000T 66.5 Venkel CR0603-16W-66R5FT R25,R26 R150x4 Panasonic EXB-38V151JV R41,R54 R82x4 Panasonic EXB-38V820JV Venkel CR0603-16W-1130FT Mountain 101-0161-EV Switch U1,U2...
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Page 14: Related Documents
Si5328-EVB 10. Related Documents AN775: Si5328: Synchronous Ethernet* Compliance Test Report AN776: Using the Si5328 in ITU G.8262-Compliant Synchronous Ethernet Applications *Note: ITU-T G.8262Y.1362 EEC Options 1 and 2. Rev. 0.1... - Page 15 Si5328-EVB —P PPENDIX OWERUP AND ACTORY EFAULT ETTINGS These power-up settings were chosen because both 25 MHz and 156.25 MHz are common SyncE clock frequencies. Also, the use of Free Run mode means that, at power-up, the EVB will produce an accurate SyncE clock.
- Page 16 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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