modular reference design platform

ORION USER MANUAL

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REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM

MODULAR REFERENCE DESIGN PLATFORM

January 2008

SONET Aggregation and T/E Carrier Applications Group

� © 2007 Exar Corporation

XRUM00001

ORION USER MANUAL

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MODULAR REFERENCE DESIGN PLATFORM REV. 1.05

TABLE OF CONTENTS

1.0 INTRODUCTION TO ORION.................................................................................................................... 41.1 ORION MODULAR REFERENCE DESIGN PLATFORM FEATURES ............................................................... 5

2.0 THE ORION PLATFORM ............................. ............................................................................................ 62.1 THE MODULAR HIGH DENSITY BACKPLANE................................................................................................. 62.2 FPGA BASED USB 2.0 GUI ENABLED SOFTWARE COMMON CONTROL CARD ........................................ 72.3 MODULAR LINE CARD ACCESS SLOT ............................................................................................................ 7

3.0 THE XRT86SH328/221 TRIPLE VOYAGER REFERENCE DESIGN PLATFORM................................. 83.1 MASTER VS SLAVE MODE................................................................................................................................ 83.2 THE XRT86SH328/221 TRIPLE VOYAGER LINE CARD................................................................................... 93.3 THE XRT86SH328/221 TRIPLE VOYAGER T1/E1/J1 MAGNETICS LINE CARD............................................. 93.4 EXAR POWERBLOXTM POWER MANAGEMENT SOLUTION REFERENCE DESIGN................................. 10

4.0 THE XRT86SH221 TRIPLE VOYAGER LITE GRAPHICAL US ER INTERFACE ................................. 114.1 XRT86SH221 TRIPLE VOYAGER LITE GUI SETUP AND INSTALLATION ................................................... 11

4.1.1 MANUALLY LOADING EXAR DRIVERS (IF INSTALLATIO N IS NOT SUCCESSFUL)............................................. 144.2 STARTING THE XRT86SH221 TRIPLE VOYAGER LITE GUI ......................................................................... 164.3 USING THE EVALUATION SOFTWARE .......................................................................................................... 20

4.3.1 OPERATION CONTROL BLOCK ...................... ........................................................................................................... 214.3.1.1 SDH OPERATIONS................................................................................................................................................ 214.3.1.2 TELECOM BUS CONTROL ...................................................................................................................................... 23

4.3.2 RECEIVE SDH OVERHEAD ......................................................................................................................................... 244.3.2.1 RECEIVE REGENERATOR AND MULTIPLEX SECTION OVERHEAD (RECEIVE TOH) .................................................... 244.3.2.2 RECEIVE HIGH-ORDER PATH OVERHEAD (RECEIVE POH) ..................................................................................... 25

4.3.3 RECEIVE REGENERATOR AND MULTIPLEX SECTION PER FORMANCE MONITORS.......................................... 254.3.4 RECEIVE HIGH-ORDER PATH PERFORMANCE MONITORS. .................................................................................. 264.3.5 E1 FRAMER GENERAL CONFIGURATION .............. .................................................................................................. 26

4.3.5.1 E1 FRAMER CONTROL........................................................................................................................................... 264.3.5.2 E1 INTERRUPT ENABLE......................................................................................................................................... 27

4.3.6 TRANSMIT SDH OVERHEAD ........................ .............................................................................................................. 284.3.6.1 TRANSMIT REGENERATOR AND MULTIPLEX SECTION OVERHEAD ........................................................................... 284.3.6.2 TRANSMIT HIGH-ORDER PATH OVERHEAD............................................................................................................. 29

4.3.7 VT MAPPER .................................................................................................................................................................. 304.3.7.1 GLOBAL VT MAPPER CONTROL ............................................................................................................................ 304.3.7.2 CHANNELIZED VT MAPPER CONTROL.................................................................................................................... 304.3.7.3 VT MAPPER PERFORMANCE MONITORS ................................................................................................................ 31

4.3.8 E1 LINE INFERFACE UNIT CONFIGURATION AND CONT ROL ............................................................................... 314.3.9 REGISTER READ/WRITE ACCESS................... .......................................................................................................... 32

5.0 THE XRT86SH328 TRIPLE VOYAGER GRAPHICAL USER IN TERFACE.......................................... 335.1 XRT86SH328 TRIPLE VOYAGER GUI SETUP AND INSTALLATION ............................................................ 33

5.1.1 MANUALLY LOADING EXAR DRIVERS (IF INSTALLATIO N IS NOT SUCCESSFUL)............................................. 376.0 STARTING THE XRT86SH328 TRIPLE VOYAGER GUI ..... ................................................................. 39

6.0.1 MAIN EVALUATION MENU......................... ................................................................................................................. 406.0.2 RECEIVE SONET TRANSPORT OVERHEAD /SDH REGENERATOR AND MULTIPLEX SECTION CONFIGURATION

416.0.2.1 RECEIVE SONET TRANSPORT OVERHEAD /SDH REGENERATOR AND MULTIPLEX SECTION PERFORMANCE MONITORING

ALARMS ................................................................................................................................................................... 416.0.3 RECEIVE SONET PATH OVERHEAD /SDH HIGH-ORDER PATH CONFIGURATION.................................. ............ 42

6.0.3.1 RECEIVE SONET PATH OVERHEAD /SDH HIGH-ORDER PATH PERFORMANCE MONITORING ALARMS .................... 426.0.4 RECEIVE VALIDATED SONET (J0) SECTION AND (J1) PATH AND (J2) VT-PATH TRACE BUFFER /SDH (J0) REGEN -

ERATOR SECTION AND (J1) HIGH-ORDER PATH AND (J2) LO W-ORDER PATH TRACE MESSAGE BUFFER .. 436.0.5 RECEIVE EXPECTED SONET (J0) SECTION AND (J1) PATH AND (J2) VT-PATH TRACE BUFFER /SDH (J0) REGEN-

ERATOR SECTION AND (J1) HIGH-ORDER PATH AND (J2) LO W-ORDER PATH TRACE MESSAGE BUFFER .. 436.0.6 VT MAPPER CONFIGURATION...................... ............................................................................................................. 44

6.0.6.1 VT MAPPER ALARMS............................................................................................................................................ 446.0.7 T1 EGRESS CONFIGURATION ................................................................................................................................... 45

6.0.7.1 T1 EGRESS ALARMS ............................................................................................................................................ 456.0.8 LINE INTERFACE UNIT CONFIGURATION ............ .................................................................................................... 46

6.0.8.1 LINE INTERFACE UNIT PERFORMANCE MONITORING ALARMS ................................................................................. 466.0.9 TRANSMIT SONET TRANSPORT OVERHEAD CONFIGURATI ON........................................................................... 476.0.10 TRANSMIT SONET PATH OVERHEAD CONFIGURATION .. ................................................................................... 476.0.11 TRANSMIT SONET (J0) SECTION AND (J1) PATH AN D (J2) VT-PATH TRACE BUFFER /SDH (J0) REGENERATOR

SECTION AND (J1) HIGH-ORDER PATH AND (J2) LOW-ORDER PATH TRACE MESSAGE BUFFER .................. 48

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6.0.12 T1 INGRESS CONFIGURATION ................................................................................................................................ 486.0.12.1 T1 INGRESS ALARMS.......................................................................................................................................... 49

7.0 PYTHON SCRIPT INTERFACE............................................................................................................. 508.0 XRT86SH221 E1 TEST HEADERS H3 AND H4 ........... ........................................................................ 529.0 XRT86SH328 T1/J1 TEST HEADERS H3 AND H4 ........ ...................................................................... 5510.0 EXAR POWERBLOX TM POWER SUPPLY REFERENCE DESIGN SCHEMATIC DIAGRAM ... ....... 6111.0 TRIPLE VOYAGER LITE XRT86SH221 REFERENCE DESIG N 1 SCHEMATIC DIAGRAM ............ 6212.0 TRIPLE VOYAGER XRT86SH328 REFERENCE DESIGN 2 SCHEMATIC DIAGRAM ..................... 67

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1.0 INTRODUCTION TO ORION

The Orion Modular Reference Design Platform serves to demonstrate Exar’s broadbandproduct portfolio solutions and capabilities in Metropolitan Access Networks. The OrionMRDP can showcase viable solutions within the capabilities of Exar’s product devices in amultitude of network service applications.

Orion Platform Target Deployment Applications:

• Add Drop Multiplexer (ADM)Devices

• Broadband Cross Connect Systems

• Digital Loop Carriers (DLC) • Dense Wave Division MultiplexerTermination Equipment

• Digital Subscriber Line AccessMultiplexer (DSLAM)

• Multi-Service Switches and Routers

• SONET/SDH based transmissionsystems

• Multi-Service Provisioning Platforms

• SONET/SDH based modules • Wireless Broadband Network BaseStations

• Plesiochronous/PDH Networks

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1.1 ORION Modular Reference Design Platform Features

The following features are supported on the Orion MRD Platform.

• Self-Contained Stand Alone Unit

• USB 2.0 Compliant GUI Enabled Software Programmable Control

• Service Oriented Modular Line Card Flexibility

This self-contained module may be used as an evaluation and demonstration tool. TheGUI Applicaton through the USB interface on a Host Personal Computer can be used toprovision and control the use of Exar’s product device to showcase it’s application’sscalability, flexibility, and unique capabilities.

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2.0 THE ORION PLATFORM

The Orion Modular Reference Design Platform is a stand alone unit consisting of:

• A Multi-Layer High Density Backplane

• An FPGA based USB 2.0 GUI Enabled Software Common Control Card

• Three Modular Line Card Access Slot

• A Display Polymer Cube Chassis

• A 240V/120V 30W Integrated Power Supply Unit

2.1 The Modular High Density Backplane

This Modular High Density Backplane has the main function for interconnecting andintegrating the reference design line cards and delivering line card access for functionalitycontrol. It is the key backbone of the Orion platform providing the necessary cross-connects for operability.

FIGURE 1. ORION REFERENCE DESIGN PLATFORM

FIGURE 2. THE MODULAR HIGH DENSITY BACKPLANE

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2.2 FPGA Based USB 2.0 GUI Enabled Software Common Control Card

The Common Control Card has the specific function of provisioning the populatedreference design cards. The FPGA provides direct access to the microprocessor bus thusenabling a GUI supplied software running on a PC with a USB interface to configure andprovision all the elements within the Reference Design Line Cards for demostrating Exardevice’s key operability and unique capabilities and performance.

2.3 Modular Line Card Access Slot

There are three Modular Line Card Access Slot for populating reference design platforms.These slots provide the user scalability and flexibility in choosing design platforms for theirspecific target applications. Customers can quickly evaluate and validate Exar devices inproven solutions with their intended applications before they ever begin to allocate anddevelop significant resources in their project. Having the reference design solution beforedevelopment greatly reduces risk on the customer part in developing new applications forExar devices while quickly gaining confidence in the product performance and viability.With today’s increasingly competitive global market and emerging economicalchallenges, the platform also serves customers seeking a cost reduction alternative totheir existing solutions by having the ability to evaluate Exar devices in exceptional andproven solutions without functional and performance compromise.

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3.0 THE XRT86SH328/221 TRIPLE VOYAGER REFERENCE DESIGN PLATFORM

The XRT86SH328/221 Triple Voyager Reference Design Platform offers an unmatchedhigh density unique solution packing 84 T1 or 63 E1 channels into VT1.5 tributaries anddirectly mapping them into SONET/SDH STS3/STM1 data rate. The main elements in thedesign consists of three XRT86SH328/221 Voyager devices using a common telecom busoperating at 19.44MHz. For optical transmission, the STS3/STM1 telecom bus interfaceis coupled with the XRT91L30 transceiver and an optical module. Each XRT86SH328/221 devices can map 28 T1 or 21 E1 channels for a total of 84 T1 or 63 E1 channels. TheTriple Voyager Design trully demonstrates the XRT86SH328/221 device extraordinarycapabilities and delivers high density T1/E1 applications in the market today.

3.1 Master vs Slave Mode

For STM-1 applications, all three devices should be programmed to Slave. The "Master"device will occupy time slot 0 as a slave so that the system provides 2kHz to all threedevices. This allows the V1 bytes to be aligned. In this mode, B1 is NOT calculated (seeerrata).

FIGURE 3. XRT86SH328 TRIPLE VOYAGER BLOCK DIAGRAM

Serial LVPECLEXAR

XRT91L30 XCVR

STS3 Telecom Bus

EXARXRT86SH328

VoyagerSlave 1

T1 ChannelsChannels 28 - 55



SONET STS3155.52 Mbps

Fra

me

Syn

c

EXAR XRT86SH328

VoyagerMaster

Fra

me

Syn

c

EXARXRT86SH328

VoyagerSlave 2

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3.2 The XRT86SH328/221 Triple Voyager Line Card

The XRT86SH328/221 Triple Voyager Line Card Reference Design Platform exemplifiesExar’s lead in telecommunications silicon industry, providing a highly integrated uniqueSTS3/STM1 SONET/SDH solution in high density VT Mapper T1, E1, and J1 applications.Customers implementing Exar’s innovative solution can deliver cutting edge productswhile significantly reducing their cost with the simplification of their Bill of Materials andBoard System Design.

3.3 The XRT86SH328/221 Triple Voyager T1/E1/J1 Magnetics Line Card

The XRT86SH328/221 Triple Voyager T1/E1/J1 Magnetics Line Card provide access to adensity total of 84 T1 or 63 E1 channels. Each of the three XRT86SH328 Voyager devicemaps 28 T1 or 21 E1 channels.

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3.4 Exar PowerBloxTM Power Management Solution Reference Design

Powering the XRT86SH328/221 Triple Voyager Line Card Reference Design is the Exar’s

proven PowerBloxTM Power Management Solution. The PowerBloxTM PowerManagement Solution is compromised of Exar’s leading edge SP7662 and SP7663 BuckRegulators. The SP7662 is capable of supplying 12 Amps at 3.3V and the SP7663 candrive up to 6 Amps at 1.8V. The SP7662/SP7663 are synchronous step-down switchingregulators optimized for high efficiency. These devices is designed for use with a single5V(SP7662)/4.75V(SP7663) to 22V single supply or 3V to 22V input if an external Vcc isprovided.

The SP7662/SP7663 provides a fully integrated buck regulator solution using a fixed 300/600(respectively) kHz frequency, PWM voltage mode architecture. Protection featuresinclude UVLO, thermal shutdown, output current limit and short circuit protection. TheSP7662 and the SP7663 are available in the space saving DFN package.

PowerBloxTM Power Management Solution

SP7762 Schematic Reference Design

VCC5V

VCC3.3V

VCC5V

ISN

ISP

LX

VFB

ISP ISN

LX

VFB

LX

INPUT VOLTAGE 5V

Wurth-7443112202.2uH,14mOhm.7x7mm,9A

Vout = 0.8V * ( R6/R7 + 1)

Note : Remove R13 if input voltage more than 9.5V

3.30V, 0-12A

VIN

GND

GND

Exar PowerBlox Power Supply Reference Design Daughter Card

C6100ufC6100uf

R10

1

R10

1

R5

61.9K

R5

61.9K

D2LEDD2LED

12

L1

INDUCTOR

L1

INDUCTOR

R31openR31open

T5T5T1

C9

4.7uf

C9

4.7uf

C4

0.1uf

C4

0.1uf

R3453R3453

R14500R14500

T3T3T 1

T4T4T1

R85.1R85.1

T6T6T1

C82200pfC82200pf

C14

22nf

C14

22nf

R30openR30open

T10T10 T 1

R13

0

R13

0

P1P1

T 1

R610KR610K

C13

6.8nf

C13

6.8nf

C15

2.2nf

C15

2.2nf

C7

10nf

C7

10nf

T2T2T 1

R9

1

R9

1

R32openR32open

C1 22

uf

C1 22

uf

C18.1ufC18.1uf

C5

100uf

C5

100uf

R73.16K

R73.16K

C10

100pf

C10

100pf

C2 22

uf

C2 22

uf

SD101AWSDBST3

SD101AWSDBST3

C12

47nf

C12

47nf

R25.11K

R25.11K

DBST1SD101AWSDBST1SD101AWS

T1T1 T 1

C16

2.2nf

C16

2.2nf

R15.11KR15.11K

C11

100pf

C11

100pf

R4

4.02K

R4

4.02KT7T7

T1

U1

SP7662

U1

SP7662

PGND1

PGND2

PGND3

PGND4

GND5

VFB6

COMP7

SS8

GND9

ISN10

ISP11

SWN12

VIN13 LX 14

LX 15

LX 16

BST 17

VIN 18

GND 19

GND 20

UVIN 21

VCC 22

LX 23

LX 24

LX 25

LX 26

SW

N_P

AD

27

GN

D_P

AD

28

VIN

_P

AD

29

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4.0 THE XRT86SH221 TRIPLE VOYAGER LITE GRAPHICAL USE R INTERFACE

The GUI is intended to allow easy access to configure basic registers in the 3 Voyager Litedevices on the reference design platform.

4.1 XRT86SH221 Triple Voyager Lite GUI Setup and Installation

Included in every Orion Modular Reference Design Platform is an Installation file. Locatedwithin the contents of the CDROM, the installation filename for the XRT86SH221 TripleVoyager Reference Design Platform is called "XRT86SH221_OrionEvaluationUSB08022007.exe". This file will automatically load the Exar USB drivers andinstall the XRT86SH221 Triple Voyager Reference Design Platform GUI software.However, if the following steps are performed and the board is NOT recognized by the PC,SEE”MANUALLY LOADING EXAR DRIVERS (IF INSTALLATION IS NOTSUCCESSFUL)” ON PAGE 14. that describes how to manually load the drivers.

Step 1 Double Click the "XRT86SH221_Orion_EvaluationUSB_08022007.exe" file tobring up the following screen. Click on the Next> button.

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Step 2 If there are no changes to the installation directory, Click on the Next > button toproceed. Otherwise, make the necessary changes and Click on the Next > button toproceed.

Step 3 Click the Next> button to continue.

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Step 4 Click on the Install button to continue installation.

Step 5 Click on the Finish button to complete installation. The Exar USB drivers shouldbe properly installed and ready to go. If so, continue to the next section that describes theGraphical User Interface. If not, see the last step below to manually load the Exar USBDrivers.

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4.1.1 Manually Loading Exar Drivers (If Installation is NOT Successful)

If the Evaluation Board is NOT recognized and/or the installation process was NOTsuccessful, most likely there is a driver contention or the driver was not installed in theproper directory from the software. This section describes how to manually load thedrivers.

Note: Each Windows operating system may access the System Hardware differently.Therefore, it is not practical to describe this procedure for each OS. However, the keycomponent is usually the Control Panel of the PC. From the Control Panel, you canaccess the System Properties dialog box. From there, choose the Hardware menu itemand go to the Device Manager…

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The device Manager will bring up the following dialog box. Choose the USB I/O ControlledDevices, select Exar Device, right click, select properties, select Update Driver, and thenfollow the directions to choose the driver from the CD or the /Driver directory in the Exarworking directory ("C:\Program Files\Exar\3VoyagerLites Evaluation Software" by default).

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4.2 STARTING THE XRT86SH221 TRIPLE VOYAGER LITE GUI

The evaluation software allows the user to do the following:

• Configure the XRT86SH221 for proper operation

• Poll current and historical performance status

• Download the FPGA file

• Enable/Disable XRT86SH221 features with the click of a button

Initialization of the GUI

Once the USB Installer program is completed, all files are installed under the directory:"C:\Program Files\Exar\XRT86SH221_Orion Evaluation S oftware " (If the user did notchange the default directory for installation).

There are two ways to initialize the GUI:

• 1. Double Click the file "3VoyagerLitesGui.exe" under the installed directory.

• 2. Click on the Start button then choose Programs > Exar > XRT86SH221_OrionEvaluation Software > XRT86SH221_Orion Evaluation G UI. Once the GUI isinitiated, the software will download a .hex file from the installed directoryautomatically. If the downloading fails, the following dialog box will appear.

If there is an error loading the FPGA file, refer to the section that describes "ManuallyLoading Exar Drivers".

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After executing the program, the following dialog box will appear to notify the user that theFPGA file is being downloaded to the on board FPGA.

If the FPGA has been successfully loaded, the following main dialog box will appear.

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The Main Dialog Box

There are two main selection items on the tool bar.

1. Configuration

2. Special Operations

Under the Configuration menu, the following items will appear. You'll have the option toprogram in each of the three Voyager Lite devices:

• SDH Operation and Control

• E1 Framer

• Receive TOH/POH Blocks

• Transmit TOH/POH Blocks

• VT Mapper

• E1 LIU Registers.

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Under the Special Operations menu, the following items will appear. You'll have the optionto do one of the following:

1. Run Python Script (Script Files are Automatically Loaded)

2. Read/Write Registers (Allows Access to a Manual Read or Write)

3. Download FPGA

4. Debug Window (Interactive Tool to Monitor Register Activity)

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4.3 Using the Evaluation Software

It is possible to achieve full device functionality through the GUI. The XRT86SH221 andother device features are also accessed and can be enabled or disabled through the mainGUI window. Upon each selection, the control pin assertion or software register operationoccurs immediately and is displayed in the main GUI window.

Once the FPGA has been successfully programmed, you should see a similar windowbelow. To begin the Triple Voyager Lite Evaluation, Select "Configuration" on the Menu.

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4.3.1 Operation Control Block

There are two pages in the Operation Control block dialog:

• SDH Operations

• Telecom Bus Control.

Click on the labeled tabs to switch to the wanted page.

4.3.1.1 SDH Operations

Selecting "SDH Operation Control" on the drop list, the following window will appear. Eachof the three XRT86SH221 are independently accessed and controlled by an "OperationControl" window. All dialog boxes have a pull down menu for specifying which device,Slave 0, Slave 1 or Slave 2, is being controlled by the dialog box. Slave 0 device can alsobe converted to Master device by clicking the checkbox on the left of the pull down menu.The default "Operation Control" window will automatically select the "Master" device of thethree XRT86SH221.

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To select and provision the Slave 1 and Slave 2 Voyager Lite device, the user can openmultiple windows (a second and a third "Operation Control" window) by Clicking-On"Configuration" on the Menu followed and selecting "SDH Operation Control" on the droplist. Slave 1 or Slave 2 is selected on the Drop Down List near the bottom of theapplication window.

Status indicators will begin polling upon selecting the Start Poll button and will continue topoll until it is stopped.

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4.3.1.2 Telecom Bus Control

Selecting "Telecom Bus Control" on the drop list, the following window will appear. Again,each of the three XRT86SH221 are independently accessed and controlled by an"Operation Control" window. All dialog boxes have a pull down menu for specifying whichdevice, Slave 0, Slave 1 or Slave 2, is being controlled by the dialog box. Slave 0 devicecan also be converted to Master device by clicking the checkbox on the left of the pulldown menu. The default "Operation Control" window will automatically select the "Master"device of the three XRT86SH221.

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4.3.2 Receive SDH Overhead

On the Receive SDH Overhead dialog, the two pages are for Regenerator and MulitplexSection OH (TOH) and High-Order Path Overhead (POH). There are two buttons, TOHMonitors and POH Monitors, on the bottom of the dialog for displaying status indicators.Click on the two buttons will evoke two separate dialog boxes, which contain all the statusindicators.

4.3.2.1 Receive Regenerator and Multiplex Section Overhead (Receive TOH)

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4.3.2.2 Receive High-Order Path Overhead (Receive POH)

4.3.3 Receive Regenerator and Multiplex Section Perf ormance Monitors

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4.3.4 Receive High-Order Path Performance Monitors

4.3.5 E1 Framer General Configuration

The dialog box for framer block also has two pages, E1 Framer Control and E1 InterruptEnable. The All Channel Modify button is used to modify all channels on the specifiedboard with the same settings on the current dialog box.

4.3.5.1 E1 Framer control

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4.3.5.2 E1 Interrupt Enable

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4.3.6 Transmit SDH Overhead

The following shows the two pages on the Transmit Overhead dialog

4.3.6.1 Transmit Regenerator and Multiplex Section Overhead

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4.3.6.2 Transmit High-Order Path Overhead

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4.3.7 VT Mapper

The following are the two pages in VT Mapper block control. Click Display Monitors todisplay status indicators.

4.3.7.1 Global VT Mapper Control

4.3.7.2 Channelized VT Mapper Control

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4.3.7.3 VT Mapper Performance Monitors

4.3.8 E1 Line Inferface Unit Configuration and Contr ol

Use this dialog to control the LIU block. Indictors on the right show alarm signals.

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4.3.9 Register Read/Write Access

Use this dialog to access, read or write, values in specified registers.

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5.0 THE XRT86SH328 TRIPLE VOYAGER GRAPHICAL USER INT ERFACE

The GUI is intended to allow easy access to configure basic registers in the 3 Voyagerdevices on the reference design platform.

5.1 XRT86SH328 Triple Voyager GUI Setup and Installation

Included in every Orion Modular Reference Design Platform is an Installation file. Locatedwithin the contents of the CDROM, the installation filename for the XRT86SH328 TripleVoyager Reference Design Platform is called "XR86SH328 setup.exe". This file willautomatically load the Exar USB drivers and install the XRT86SH328 Triple VoyagerReference Design Platform GUI software. However, if the following steps are performedand the board is NOT recognized by the PC, SEE”MANUALLY LOADING EXARDRIVERS (IF INSTALLATION IS NOT SUCCESSFUL)” ON PAG E 37. that describeshow to manually load the drivers.

Step 1 Double Click the "XR86SH328 setup.exe" file to bring up the following screen.Click on the Next> button.

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Step 2 If there are no changes to the installation directory, Click on the Next> button toproceed. Otherwise, make the necessary changes and Click on the Next> button toproceed.

Step 3 Click the Next> button to continue.

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Step 4 Select or De-select Create a Deskstop Icon . Click the Next> button to continue.

Step 5 Click on the Install button to continue installation.

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Step 6 Click on the Finish button to complete installation. The Exar USB drivers shouldbe properly installed and ready to go. If so, continue to the next section that describes theGraphical User Interface. If not, see SEE”MANUALLY LOADING EXAR DRIVERS (IFINSTALLATION IS NOT SUCCESSFUL)” ON PAGE 37. to manually load the Exar USBDrivers.

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5.1.1 Manually Loading Exar Drivers (If Installation is NOT Successful)

If the Evaluation Board is NOT recognized and/or the installation process was NOTsuccessful, most likely there is a driver contention or the driver was not installed in theproper directory from the software. This section describes how to manually load thedrivers.

Note: Each Windows operating system may access the System Hardware differently.Therefore, it is not practical to describe this procedure for each OS. However, the keycomponent is usually the Control Panel of the PC. From the Control Panel, you canaccess the System Properties dialog box. From there, choose the Hardware menu itemand go to the Device Manager…

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The device Manager will bring up the following dialog box. Choose the USB I/O ControlledDevices, select Exar Device, right click, select properties, select Update Driver, and thenfollow the directions to choose the driver from the CD or the /Driver directory in the Exarworking directory ("C:\Program Files\Exar\3VoyagerLites Evaluation Software" by default).

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6.0 STARTING THE XRT86SH328 TRIPLE VOYAGER GUI

The evaluation software allows the user to do the following:

• Configure the XRT86SH328 for proper operation

• Poll current and historical performance status

• Download the FPGA code

• Enable/Disable XRT86SH328 features with the click of a button

After launching the executable, select the option corresponding to the hardwareevaluation system you have.

FPGA download was successful.

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Select the fields that the application will use and the board can support.

6.0.1 Main Evaluation Menu.

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6.0.2 Receive SONET Transport Overhead /SDH Regenera tor and Multiplex SectionConfiguration

6.0.2.1 Receive SONET Transport Overhead /SDH Regenerator and Multiplex SectionPerformance Monitoring Alarms

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6.0.3 Receive SONET Path Overhead /SDH High-Order Pa th Configuration

6.0.3.1 Receive SONET Path Overhead /SDH High-Order Path Performance MonitoringAlarms

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6.0.4 Receive Validated SONET (J0) Section and (J1) Path and (J2) VT-Path Trace Buffer /SDH (J0)Regenerator Section and (J1) High-Order Path and (J 2) Low-Order Path Trace MessageBuffer

6.0.5 Receive Expected SONET (J0) Section and (J1) P ath and (J2) VT-Path Trace Buffer /SDH (J0)Regenerator Section and (J1) High-Order Path and (J 2) Low-Order Path Trace MessageBuffer

ORION USER MANUAL

44


6.0.6 VT Mapper Configuration

6.0.6.1 VT Mapper Alarms

ORION USER MANUAL

45


6.0.7 T1 Egress Configuration

6.0.7.1 T1 Egress Alarms

ORION USER MANUAL

46


6.0.8 Line Interface Unit Configuration

6.0.8.1 Line Interface Unit Performance Monitoring Alarms

ORION USER MANUAL

47


6.0.9 Transmit SONET Transport Overhead Configuratio n

6.0.10 Transmit SONET Path Overhead Configuration

ORION USER MANUAL

48


6.0.11 Transmit SONET (J0) Section and (J1) Path and (J2) VT-Path Trace Buffer /SDH (J0)Regenerator Section and (J1) High-Order Path and (J2) Low-Order Path Trace MessageBuffer

6.0.12 T1 Ingress Configuration

ORION USER MANUAL

49


6.0.12.1 T1 Ingress Alarms

ORION USER MANUAL

50


7.0 PYTHON SCRIPT INTERFACE

Running a Python Script From the GUI

From the main GUI, select the Special Operations menu shown below and click on the"Run Python Script" to continue.

ORION USER MANUAL

51


Once you select the "Run Python Script" option from the Special Operations menu fromthe GUI, the "xrScripting Interface" will pop-up as shown below. At this point, thexrScripting Interface is independent of the GUI and any script files that are run willautomatically overwrite the GUI settings if there is an overlap with the registers.Therefore, caution must be used to keep track of the register configurations if one wantsto toggle back and forth from the

GUI to the xrScripting Interface. The next step is to use the "Special" menu on the toolbar to run the actual test script file.

Note: If you would like to view a particular test script in a plain text editor mode, use the"File" menu on the tool bar and select "Open".

ORION USER MANUAL

52


8.0 XRT86SH221 E1 TEST HEADERS H3 AND H4

There are two test headers H3 and H4 on Front Panel of the XRT86SH221 Triple VoyagerLite device platform. These permit access to all 63 possible E1 channels. Below is amagnified view of the XRT86SH221 Triple Voyager test header diagram. The followingtable has the complete tip and ring transmission and reception lines in reference tochannel assigment location on the H3 and H4 test headers.

TABLE 1: TRIPLE VOYAGER LITE CHANNEL TO PIN LOCATION CROSS REFERENCE GUIDE

E1 CHANNEL

XRT86SH221DEVICE

CHANNELHEADER PIN LOCATION

TTIP TRING RTIP RRING

0 U2 - Master 0 H3 A1 A2 A3 A4


2 U2 - Master 2 H3 A9 A10 A11 A12

3 U2 - Master 3 H3 A13 A14 A15 A16

4 U2 - Master 4 H3 A17 A18 A19 A20

5 U2 - Master 5 H3 A21 A22 A23 A24

6 U2 - Master 6 H3 A25 A26 A27 A28

7 U2 - Master 7 H3 A29 A30 A31 A32

8 U2 - Master 8 H3 A33 A34 A35 A36

9 U2 - Master 9 H3 A37 A38 A39 A40

1245 367891011121323

ABCDE

ABCDE

TTTRRR RTTTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TT

TT

TT

TT

RT

RT

RT

RT

282930313233343536373839404142434445464748

RR

RR

RRTTTRRR RT

TTTRRR RT


TTTRRR RTTTTRRR RT


TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

Ch0-0Ch1-1Ch2-2-3Ch ChCh19-19Ch20-20Ch21-0Ch22-1Ch23-2-3Ch ChCh40-19Ch41-20Ch42-0Ch43-1Ch44-2-3Ch ChCh61-19Ch62-20

gndgndgndgndgndgndgndgndgnd- - - - -

GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG

1245 367891011121323 282930313233343536373839404142434445464748

CH

0

21

42

H3 H4

ORION USER MANUAL

53


10 U2 - Master 10 H3 A41 A42 A43 A44

11 U2 - Master 11 H3 A45 A46 A47 A48

12 U2 - Master 12 H4 A1 A2 A3 A4

13 U2 - Master 13 H4 A5 A6 A7 A8

14 U2 - Master 14 H4 A9 A10 A11 A12

15 U2 - Master 15 H4 A13 A14 A15 A16

16 U2 - Master 16 H4 A17 A18 A19 A20

17 U2 - Master 17 H4 A21 A22 A23 A24

18 U2 - Master 18 H4 A25 A26 A27 A28

19 U2 - Master 19 H4 A29 A30 A31 A32

20 U2 - Master 20 H4 A33 A34 A35 A36

21 U3 - Slave 1 0 H3 B1 B2 B3 B4

22 U3 - Slave 1 1 H3 B5 B6 B7 B8

23 U3 - Slave 1 2 H3 B9 B10 B11 B12

24 U3 - Slave 1 3 H3 B13 B14 B15 B16

25 U3 - Slave 1 4 H3 B17 B18 B19 B20

26 U3 - Slave 1 5 H3 B21 B22 B23 B24

27 U3 - Slave 1 6 H3 B25 B26 B27 B28

28 U3 - Slave 1 7 H3 B29 B30 B31 B32

29 U3 - Slave 1 8 H3 B33 B34 B35 B36

30 U3 - Slave 1 9 H3 B37 B38 B39 B40

31 U3 - Slave 1 10 H3 B41 B42 B43 B44

32 U3 - Slave 1 11 H3 B45 B46 B47 B48

33 U3 - Slave 1 12 H4 B1 B2 B3 B4

34 U3 - Slave 1 13 H4 B5 B6 B7 B8

35 U3 - Slave 1 14 H4 B9 B10 B11 B12

36 U3 - Slave 1 15 H4 B13 B14 B15 B16

37 U3 - Slave 1 16 H4 B17 B18 B19 B20

38 U3 - Slave 1 17 H4 B21 B22 B23 B24

39 U3 - Slave 1 18 H4 B25 B26 B27 B28

40 U3 - Slave 1 19 H4 B29 B30 B31 B32


E1 CHANNEL

XRT86SH221DEVICE



ORION USER MANUAL

54


41 U3 - Slave 1 20 H4 B33 B34 B35 B36

42 U4 - Slave 2 0 H3 C1 C2 C3 C4

43 U4 - Slave 2 1 H3 C5 C6 C7 C8

44 U4 - Slave 2 2 H3 C9 C10 C11 C12

45 U4 - Slave 2 3 H3 C13 C14 C15 C16

46 U4 - Slave 2 4 H3 C17 C18 C19 C20

47 U4 - Slave 2 5 H3 C21 C22 C23 C24

48 U4 - Slave 2 6 H3 C25 C26 C27 C28

49 U4 - Slave 2 7 H3 C29 C30 C31 C32

50 U4 - Slave 2 8 H3 C33 C34 C35 C36

51 U4 - Slave 2 9 H3 C37 C38 C39 C40

52 U4 - Slave 2 10 H3 C41 C42 C43 C44

53 U4 - Slave 2 11 H3 C45 C46 C47 C48

54 U4 - Slave 2 12 H4 C1 C2 C3 C4

55 U4 - Slave 2 13 H4 C5 C6 C7 C8

56 U4 - Slave 2 14 H4 C9 C10 C11 C12

57 U4 - Slave 2 15 H4 C13 C14 C15 C16

58 U4 - Slave 2 16 H4 C17 C18 C19 C20

59 U4 - Slave 2 17 H4 C21 C22 C23 C24

60 U4 - Slave 2 18 H4 C25 C26 C27 C28

61 U4 - Slave 2 19 H4 C29 C30 C31 C32

62 U4 - Slave 2 20 H4 C33 C34 C35 C36


E1 CHANNEL

XRT86SH221DEVICE



ORION USER MANUAL

55


9.0 XRT86SH328 T1/J1 TEST HEADERS H3 AND H4

There are two test headers H3 and H4 on Front Panel of the XRT86SH328 Triple Voyagerdevice platform. These permit access to all 84 possible T1 or J1 channels. Below is amagnified view of the XRT86SH328 Triple Voyager test header diagram. The followingtable has the complete tip and ring transmission and reception lines in reference tochannel assigment location on the H3 and H4 test headers.

TABLE 2: TRIPLE VOYAGER CHANNEL TO PIN LOCATION CROSS REFERENCE GUIDE

T1/J1 CHANNEL

XRT86SH328DEVICE





2 U2 - Master 2 H3 A9 A10 A11 A12

3 U2 - Master 3 H3 A13 A14 A15 A16

4 U2 - Master 4 H3 A17 A18 A19 A20

5 U2 - Master 5 H3 A21 A22 A23 A24

6 U2 - Master 6 H3 A25 A26 A27 A28

7 U2 - Master 7 H3 A29 A30 A31 A32

8 U2 - Master 8 H3 A33 A34 A35 A36

9 U2 - Master 9 H3 A37 A38 A39 A40

1245 36789101112131415161728

ABCDE

ABCDE


TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTT

TT

TT

TTRR

RR

RR

RR

3233343536373839404142434445464748

RR

RR

RRTTTRRR RTTTTRRR RT

TTTRRR RTTTTRRR RT


TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

Ch0-0Ch1-1Ch2-2Ch3-34 ChCh20-20Ch21-21Ch22-22Ch23-23Ch28-0Ch29-1Ch30-2Ch31-34 ChCh48-20Ch49-21Ch50-22Ch51-23Ch56-0Ch57-1Ch58-2Ch59-34 ChCh76-20Ch77-21Ch78-22Ch79-23Ch24-24Ch25-25Ch26-26Ch27-2724

gndgndgndgndgndgndgndgnd- - - -

GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG

1245 367891011121314151617 3233343536373839404142434445464748

H3 H4

ORION USER MANUAL

56


10 U2 - Master 10 H3 A41 A42 A43 A44

11 U2 - Master 11 H3 A45 A46 A47 A48

12 U2 - Master 12 H4 A1 A2 A3 A4

13 U2 - Master 13 H4 A5 A6 A7 A8

14 U2 - Master 14 H4 A9 A10 A11 A12

15 U2 - Master 15 H4 A13 A14 A15 A16

16 U2 - Master 16 H4 A17 A18 A19 A20

17 U2 - Master 17 H4 A21 A22 A23 A24

18 U2 - Master 18 H4 A25 A26 A27 A28

19 U2 - Master 19 H4 A29 A30 A31 A32

20 U2 - Master 20 H4 A33 A34 A35 A36

21 U2 - Master 21 H4 A37 A38 A39 A40

22 U2 - Master 22 H4 A41 A42 A43 A44

23 U2 - Master 23 H4 A45 A46 A47 A48

24 U2 - Master 24 H3 D1 D2 D3 D4

25 U2 - Master 25 H3 D5 D6 D7 D8

26 U2 - Master 26 H3 D9 D10 D11 D12

27 U2 - Master 27 H3 D13 D14 D15 D16

28 U3 - Slave 1 0 H3 B1 B2 B3 B4

29 U3 - Slave 1 1 H3 B5 B6 B7 B8

30 U3 - Slave 1 2 H3 B9 B10 B11 B12

31 U3 - Slave 1 3 H3 B13 B14 B15 B16

32 U3 - Slave 1 4 H3 B17 B18 B19 B20

33 U3 - Slave 1 5 H3 B21 B22 B23 B24

34 U3 - Slave 1 6 H3 B25 B26 B27 B28

35 U3 - Slave 1 7 H3 B29 B30 B31 B32

36 U3 - Slave 1 8 H3 B33 B34 B35 B36

37 U3 - Slave 1 9 H3 B37 B38 B39 B40

38 U3 - Slave 1 10 H3 B41 B42 B43 B44

39 U3 - Slave 1 11 H3 B45 B46 B47 B48

40 U3 - Slave 1 12 H4 B1 B2 B3 B4


T1/J1 CHANNEL

XRT86SH328DEVICE



ORION USER MANUAL

57


41 U3 - Slave 1 13 H4 B5 B6 B7 B8

42 U3 - Slave 1 14 H4 B9 B10 B11 B12

43 U3 - Slave 1 15 H4 B13 B14 B15 B16

44 U3 - Slave 1 16 H4 B17 B18 B19 B20

45 U3 - Slave 1 17 H4 B21 B22 B23 B24

46 U3 - Slave 1 18 H4 B25 B26 B27 B28

47 U3 - Slave 1 19 H4 B29 B30 B31 B32

48 U3 - Slave 1 20 H4 B33 B34 B35 B36

49 U3 - Slave 1 21 H4 B37 B38 B39 B40

50 U3 - Slave 1 22 H4 B41 B42 B43 B44

51 U3 - Slave 1 23 H4 B45 B46 B47 B48

52 U3 - Slave 1 24 H3 D17 D18 D19 D20

53 U3 - Slave 1 25 H3 D21 D22 D23 D24

54 U3 - Slave 1 26 H3 D25 D26 D27 D28

55 U3 - Slave 1 27 H3 D29 D30 D31 D32

56 U4 - Slave 2 0 H3 C1 C2 C3 C4

57 U4 - Slave 2 1 H3 C5 C6 C7 C8

58 U4 - Slave 2 2 H3 C9 C10 C11 C12

59 U4 - Slave 2 3 H3 C13 C14 C15 C16

60 U4 - Slave 2 4 H3 C17 C18 C19 C20

61 U4 - Slave 2 5 H3 C21 C22 C23 C24

62 U4 - Slave 2 6 H3 C25 C26 C27 C28

63 U4 - Slave 2 7 H3 C29 C30 C31 C32

64 U4 - Slave 2 8 H3 C33 C34 C35 C36

65 U4 - Slave 2 9 H3 C37 C38 C39 C40

66 U4 - Slave 2 10 H3 C41 C42 C43 C44

67 U4 - Slave 2 11 H3 C45 C46 C47 C48

68 U4 - Slave 2 12 H4 C1 C2 C3 C4

69 U4 - Slave 2 13 H4 C5 C6 C7 C8

70 U4 - Slave 2 14 H4 C9 C10 C11 C12

71 U4 - Slave 2 15 H4 C13 C14 C15 C16


T1/J1 CHANNEL

XRT86SH328DEVICE



ORION USER MANUAL

58


72 U4 - Slave 2 16 H4 C17 C18 C19 C20

73 U4 - Slave 2 17 H4 C21 C22 C23 C24

74 U4 - Slave 2 18 H4 C25 C26 C27 C28

75 U4 - Slave 2 19 H4 C29 C30 C31 C32

76 U4 - Slave 2 20 H4 C33 C34 C35 C36

77 U4 - Slave 2 21 H4 C37 C38 C39 C40

78 U4 - Slave 2 22 H4 C41 C42 C43 C44

79 U4 - Slave 2 23 H4 C45 C46 C47 C48

80 U4 - Slave 2 24 H3 D33 D34 D35 D36

81 U4 - Slave 2 25 H3 D37 D38 D39 D40

82 U4 - Slave 2 26 H3 D41 D42 D43 D44

83 U4 - Slave 2 27 H3 D45 D46 D47 D48


T1/J1 CHANNEL

XRT86SH328DEVICE



1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748

A

B

C

D

E

A

B

C

D

E


TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT


TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748

A

B

C

D

E


TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT


TTTRRR RTTTTRRR RT


TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

A

B

C

D

E

Ch0-0Ch1-1Ch2-2Ch3-3Ch4-4Ch5-5Ch6-6Ch7-7Ch8-8Ch9-9Ch10-10Ch11-11 Ch12-12Ch13-13Ch14-14Ch15-15Ch16-16Ch17-17Ch18-18Ch19-19Ch20-20Ch21-0Ch22-1Ch23-2Ch24-3Ch25-4Ch26-5Ch27-6Ch28-7Ch29-8Ch30-9Ch31-10Ch32-11 Ch33-12Ch34-13Ch35-14Ch36-15Ch37-16Ch38-17Ch39-18Ch40-19Ch41-20Ch42-0Ch43-1Ch44-2Ch45-3Ch46-4Ch47-5Ch48-6Ch49-7Ch50-8Ch51-9Ch52-10Ch53-11 Ch54-12Ch55-13Ch56-14Ch57-15Ch58-16Ch59-17Ch60-18Ch61-19Ch62-20

H3 H4

gndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgnd- - - - - - - - - - - -

GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG

Device

[CH #]

Main Board

Device #Master/Slave

A[0:20]

B[0:20]

C[0:20]

U2

U3

U4

Master

Slave #1

Slave #2

Header Pin Def.

VOYAGER LITE

Channel Groupings

1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748 1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748

E1

CH #

0 - 20

21 - 41

42 - 62

H3 H4

59

1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748

A

B

C

D

E

A

B

C

D

E


TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT


TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748

A

B

C

D

E


TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RTTTTRRR RT

TTTRRR RT


TTTRRR RTTTTRRR RT


TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

TTTRRR RT

A

B

C

D

E

Ch0-0Ch1-1Ch2-2Ch3-3Ch4-4Ch5-5Ch6-6Ch7-7Ch8-8Ch9-9Ch10-10Ch11-11 Ch12-12Ch13-13Ch14-14Ch15-15Ch16-16Ch17-17Ch18-18Ch19-19Ch20-20Ch21-21Ch22-22Ch23-23Ch28-0Ch29-1Ch30-2Ch31-3Ch32-4Ch33-5Ch34-6Ch35-7Ch36-8Ch37-9Ch38-10Ch39-11 Ch40-12Ch41-13Ch42-14Ch43-15Ch44-16Ch45-17Ch46-18Ch47-19Ch48-20Ch49-21Ch50-22Ch51-23Ch56-0Ch57-1Ch58-2Ch59-3Ch60-4Ch61-5Ch62-6Ch63-7Ch64-8Ch65-9Ch66-10Ch67-11 Ch68-12Ch69-13Ch70-14Ch71-15Ch72-16Ch73-17Ch74-18Ch75-19Ch76-20Ch77-21Ch78-22Ch79-23Ch24-24Ch25-25Ch26-26Ch27-27Ch52-24Ch53-25Ch54-26Ch55-27Ch80-24Ch81-25Ch82-26Ch83-27

H3 H4

gndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgndgnd- - - - - - - - - - - -

GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG

Device

[CH #]

Main Board

Device #Master/Slave

A[0:27]

B[0:27]

C[0:27]

U2

U3

U4

Master

Slave #1

Slave #2

Header Pin Def.

VOYAGER

Channel Groupings

1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748 1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748

T1/J1

CH #

0 - 27

28 - 55

56 - 83

H3 H4

60

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

VCC5V

VCC3.3V

1.8V

VCC5V

VCC5V

VCC5V

ISN

ISP

LX

VFB

ISP ISN

LX

VFB

LX

ISN_2

ISP_2

LX_2

VFB_2

ISP_2 ISN_2

LX_2

VFB_2

LX_2

Title

Size Document Number Rev

Date: Sheet of

SP766xOR A

ORION Daughter Power Card

C

1 1Friday, January 11, 2008

Title


Date: Sheet of

SP766xOR A


C


Title


Date: Sheet of

SP766xOR A


C


INPUT VOLTAGE 5V


Vout = 0.8V * ( R6/R7 + 1)


3.30V, 0-12A

VIN

GND

GND


1.8V, 0-6A

GND

Vout = 0.8V * ( R18/R23 + 1)


Exar PowerBlox Power Supply Reference Design Daughter Card

EXAR Power Management Solution

TM

C6100ufC6100uf

R10

1

R10

1

R5

61.9K

R5

61.9K

D2LEDD2LED

12

R165.11KR165.11K

R1810KR1810K

R29openR29open

R20

4.02K

R20

4.02K

R25

1

R25

1

L1

INDUCTOR

L1

INDUCTOR

R155.11KR155.11K

R17453R17453

R31openR31open

M1M1T1

T5T5T1

R19

61.9K

R19

61.9K

C9

4.7uf

C9

4.7uf

R211R211

C17

22uf

C17

22uf

C32

2.2nf

C32

2.2nf

C31

2.2nf

C31

2.2nf

C4

0.1uf

C4

0.1uf

R3453R3453

R14500R14500

T9T9

T1

C242200pfC242200pf

T3T3T 1

D3LEDD3LED

12

C3

22ufC3

22uf

M9M9T1

T4T4T1

C21100ufC21100uf


M2M2T1

R85.1R85.1

T6T6T1

C82200pfC82200pf

C14

22nf

C14

22nf

R238KR238K

R27openR27open

R30openR30open

P3P3T1

T10T10 T 1

C29

6.8nf

C29

6.8nf

C19

0.1uf

C19

0.1uf

P2P2T1

C23

4.7uf

C23

4.7uf

R13

0

R13

0

C25

100pf

C25

100pf

P1P1

T 1

M8M8T1

C20100ufC20100uf

M11M11T1

C27

47nf

C27

47nf

L2

INDUCTOR

L2

INDUCTOR

T8T8

T1

R610KR610K

SD101AWSDBST4

SD101AWSDBST4

C13

6.8nf

C13

6.8nf

C15

2.2nf

C15

2.2nf

C7

10nf

C7

10nf

T2T2T 1

R9

1

R9

1

C28

100pf

C28

100pf

R32openR32open

C1 22

uf

C1 22

uf

C18.1ufC18.1uf

C30

22nf

C30

22nf

C5

100uf

C5

100uf

R73.16K

R73.16K

C22

10nf

C22

10nf

R28openR28open

C10

100pf

C10

100pf

R26

1

R26

1

C2 22

uf

C2 22

uf

SD101AWSDBST3

SD101AWSDBST3

C26.1ufC26.1uf

U2

SP7663

U2

SP7663

PGND1

PGND2

PGND3

PGND4

GND5

VFB6

COMP7

SS8

GND9

ISN10

ISP11

SWN12

VIN13 LX 14

LX 15

LX 16

BST 17

VIN 18

GND 19

GND 20

UVIN 21

VCC 22

LX 23

LX 24

LX 25

LX 26

SW

N_P

AD

27

GN

D_P

AD

28

VIN

_P

AD

29

C12

47nf

C12

47nf

R25.11K

R25.11K


T1T1 T 1

R220

R220

R245.1R245.1

C16

2.2nf

C16

2.2nf

R15.11KR15.11K

C11

100pf

C11

100pf

R4

4.02K

R4

4.02KT7T7

T1

U1

SP7662

U1

SP7662

PGND1

PGND2

PGND3

PGND4

GND5

VFB6

COMP7

SS8

GND9

ISN10

ISP11

SWN12

VIN13 LX 14

LX 15

LX 16

BST 17

VIN 18

GND 19

GND 20

UVIN 21

VCC 22

LX 23

LX 24

LX 25

LX 26

SW

N_P

AD

27

GN

D_P

AD

28

VIN

_P

AD

29

61

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

RxD_D6

RxD_D2

RxD_D7

RxD_D3RxD_D4

RxLOS

RxD_D5

TxDis

SFPDet

TxA_D0TxA_D1TxA_D2TxA_D3TxA_D4TxA_D5TxA_D6TxA_D7

TxA_Clk

RxD_Clk

RxD_D1RxD_D0

SRstSCSSCKSDOSDISDI

RxD_DPRxD_PLRxD_ALRxD_C1J1

TxDisSFPDetRxLOS

TxA_D4

RxD_D1

TxA_D5

RxD_DP

RxD_D0

TxA_D6

RxD_PL

TxA_D7

RxD_AL

RxD_D6

RxD_D2

RxD_D7

RxD_D3RxD_D4RxD_D5

RxD_C1J1

TxA_Clk

RxD_Clk

TxA_D0TxA_D1TxA_D2TxA_D3

TxA_D4

RxD_D1

TxA_D5

RxD_DP

RxD_D0

TxA_D6

RxD_PL

TxA_D7

RxD_AL

RxD_D6

RxD_D2

RxD_D7

RxD_D3RxD_D4RxD_D5

RxD_C1J1

TxA_Clk

RxD_Clk


RxD_DPRxD_DPRxD_PLRxD_PLRxD_ALRxD_ALRxD_C1J1RxD_C1J1

TxA_D0TxA_D1TxA_D2TxA_D3TxA_D4TxA_D5TxA_D6TxA_D7TxA_CLKTxD_DPTxD_PLTxD_ALTxD_C1J1V1

RxD_D0RxD_D1RxD_D2RxD_D3RxD_D4RxD_D5RxD_D6RxD_D7RxD_CLK

TxD_DPTxD_PLTxD_ALTxD_C1J1V1

Tx51_19M

MCLK

TxSBFP

Vcc3v3Dut

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3Dut Vcc3v3Dut

Vcc3v3

Vcc3v3

Vcc3v3

CLK1

TT14A

TR14ART14A

RR14A

TT15A

TR15ART15A

RR15A

TT16A

TT17A

RR17A

RT17ATR17A

TR16ART16A

RR16A

TT18A

TT19A

RR19A

RT19ATR19A

TR18ART18A

RR18A

RR20A

RT20ATR20A

TT20A

TT18B

TT19B

RR19B

RT19BTR19B

TR18BRT18B

RR18B

TT14B

TT15B

TR15BRT15B

RR15B

RR20B

RT20BTR20B

TT20B

TR14B

TT16B

TT17B

RR17B

RT17BTR17B

TR16BRT16B

RR16B

RT14B

RR14B

TT18C

TT19C

RR19C

RT19CTR19C

TR18CRT18C

RR18C

TT14C

TT15C

TR15CRT15C

RR15C

RR20C

RT20CTR20C

TT20C

TR14C

TT16C

TT17C

RR17C

RT17CTR17C

TR16CRT16C

RR16C

RT14C

RR14C

STS12/STS3CDRRefSel

CDRAuxRefSel

LOSextCMUFreqSel

DLOSDisOOF

CDRDis

MCLK

Tx51_19M

CLK0

TxSBFP

INT1INT2

Red Alarm

Yellow Alarm

Blue Alarm 1

Blue Alarm 2

Title


Date: Sheet of

B.1

XRT86SH221 & XRT91L30 STM3/STS1 Reference Design

D

1 5Thursday, January 10, 2008

Reference Design 1

Title


Date: Sheet of

B.1


D


Reference Design 1

Title


Date: Sheet of

B.1


D


Reference Design 1

EXAR CORPORATION

System power provided by EXAR PowerBlox Power Supply Reference Design Daughter Card, SP766xOR

TM

T27T27

T1

L7FBL7FB

R86

1K

R86

1K

RP10 120RP10 120

1423

R106 0R106 0

RP12.7kRP12.7k

14

23

R88

1K

R88

1K

R101 4.7KR101 4.7K

S1

SW DIP-8

S1

SW DIP-8

12345678

161514131211109

T37T37

T1

C300.47uFC300.47uF

U5T91L30

U5T91L30

RST 1

LPTM 2

CMUFreqSel3

TxP

Vdd

4

TxOP5

TxON6

DLOSDis7

xRxClki+8

xRxClki-9

OOF11

CDRDis12

RxIP13

RxIN14

Vdd

3v3

15

RefClk+16

RefClk-17

RxP

Vdd

10

Vdd

3v3

18V

dd3v

331

Vdd

3v3

34

TxPCkDir 48

Vdd

3v3

47V

dd3v

361

GN

D21

GN

D28

GN

D35

GN

D45

GN

D46

GN

D52

GN

D37

GN

D44

TxA

Vdd

38

RxA

Vdd

43

RxD0 19

RxD1 20

RxD2 22

RxD3 23

RxD4 24

RxD5 25

RxD6 26

RxD7 27

RxPClk 29

TxD0 58

TxD1 57

TxD2 56

TxD3 55

TxD4 54

TxD5 53

TxD6 51

TxD7 50

TxPClk 49

DLOOP 62

RLOOPS 63

ALOOP 64CDRefSel60STS12-359

FrmPulse 30

RefClk 36

LOSExt33

TxCap1AP39

TxCap1BP42

TxCap2BN41TxCap2AN40

CDRAuxRefClk32

C29

0.1uF

C29

0.1uF

R104 0R104 0

R99 4.7KR99 4.7K

C13

0.1uF

C13

0.1uF

RP3120

RP3120

14

23

R102 0R102 0

C23

0.1uF

C23

0.1uF

L5FBL5FB

C280.47uFC280.47uF

D6LED-1206

D6LED-1206

21

T28T28

T1

TP2TP2

T1

L8FBL8FB

R10 10R10 10

C10

0.1uF

C10

0.1uF

U4C

XRT86SH221

U4C

XRT86SH221

TTIP15 AE12

TRNG15 AD12

RTIP15 AE11

RRNG15 AF10

TTIP14 AF9

TRNG14 AC11

RTIP14 AF8

RRNG14 AE8

TTIP16 AE16

TRNG16 AC15

RTIP16 AE17

RRNG16 AF18

TTIP17 AD17

TRNG17 AE19

RTIP17 AC17

RRNG17 AD18

TTIP18 AC18

TRNG18 AF23

RTIP18 AE21

RRNG18 AC19

TTIP19 AC20

TRNG19 AE23

RTIP19 AC21

RRNG19 AD22

TTIP20 AE25

TRNG20 AD24

RTIP20 AB23

RRNG20 AC24

RxV

ddA

D11

RxV

ddA

D13

RxV

ddA

D15

RxV

ddA

E18

RxV

ddA

F21

RxV

ddA

E22

RxV

ddA

D23

TxV

ddA

E9

TxV

ddA

C13

TxV

ddA

F17

TxV

ddA

F19

TxV

ddA

D19

TxV

ddA

F25

TxV

ddA

C23

RxG

ND

AE

10

RxG

ND

AF

12

RxG

ND

AF

16

RxG

ND

AC

16

RxG

ND

AF

22

RxG

ND

AD

21

RxG

ND

AC

22

TxG

ND

AD

10

TxG

ND

AF

11

TxG

ND

AD

16

TxG

ND

AF

20

TxG

ND

AD

20

TxG

ND

AE

24

TxG

ND

AF

26

TxD_D0M4

TxD_D1L3

TxD_D2K2

TxD_D3J1

TxD_D4J2

TxD_D5L4

TxD_D6K3

TxD_D7H2

TxD_DPL2

TxD_PLM1

TxD_ALK1

TxD_C1J1V1M2

TxD_ClkN3

RxD_D0U3

RxD_D1W1

RxD_D2W2

RxD_D3Y2

RxD_D4AA1

RxD_D5AB1

RxD_D6AC1

RxD_D7Y3

RxD_DPV2

RxD_PLU2

RxD_ALT4

RxD_C1J1V1V1

RxD_ClkT3

TxSTM0DatN1

TxSTM0FrmP1

TxSTM0ClkN2

RxSTM0DatT2

RxSTM0FrmU1

RxSTM0ClkT1

RxSTM0LOSR4

GPIO_0Y4

GPIO_1AE1

GPIO_2AC2

GPIO_3AD2

GPIO_4H4

GPIO_5C1

GPIO_6E2

GPIO_7F3

xInt0-P4

xInt1-R3

VS

SM

16

VS

SL1

6

VS

SL1

5

VS

ST

16

VS

ST

15

VS

SR

16

VS

SM

11

C24

0.1uF

C24

0.1uF

R110 0R110 0

U112.048MHzU112.048MHz

VDD4

OE1

OUT 3

GND 2

L9FBL9FB

TP3TP3

T1

R91 4.7KR91 4.7K

R5 openR5 open

R97 4.7KR97 4.7K

C21

0.1uF

C21

0.1uF

C7

0.1uF

C7

0.1uF

C14

0.1uF

C14

0.1uF

RP72.7kRP72.7k

14

23

R148 10R148 10

R95 4.7KR95 4.7K

C8

0.1uF

C8

0.1uF

T38T38

T1

RP8

120

RP8

120

1423

C15

0.1uF

C15

0.1uF

R146 470R146 470

C141

0.1uf

C141

0.1uf

C16

0.1uF

C16

0.1uF

L2FBL2FB

U1SFPModule

U1SFPModule

TD+ 18

TD- 19

RD+ 13

RD- 12

GN

D1

GN

D9

TxV

dd16

RxV

dd15

LOS8

TxFLT2

GN

D10

GN

D11

GN

D14

GN

D17

GN

D20

Def24

Def15

Def06

TxDIS3

RSel7

C26

0.1uF

C26

0.1uF

T33T33

T1

R14

710

R14

710

R81

1K

R81

1K

C5

0.1uF

C5

0.1uF

R111 0R111 0

L11FBL11FB C22

0.1uF

C22

0.1uF

RP5120RP5120

14

23

R85

1K

R85

1K

R80

1K

R80

1K

C27 0.1uFC27 0.1uF

R109 0R109 0

T35T35

T1

T29

MCLK

T29

MCLKT1

R78

1K

R78

1K

C17

0.1uF

C17

0.1uF

R6 10R6 10

S2

HEADER 14X2

S2

HEADER 14X2

1234567891011121314 15

16171819202122232425262728

D4LED-1206

D4LED-1206

21

C142

0.1uf

C142

0.1uf

R107 0R107 0

L12FBL12FB

R93 4.7KR93 4.7K

U3C

XRT86SH221

U3C

XRT86SH221

TTIP15 AE12

TRNG15 AD12

RTIP15 AE11

RRNG15 AF10

TTIP14 AF9

TRNG14 AC11

RTIP14 AF8

RRNG14 AE8

TTIP16 AE16

TRNG16 AC15

RTIP16 AE17

RRNG16 AF18

TTIP17 AD17

TRNG17 AE19

RTIP17 AC17

RRNG17 AD18

TTIP18 AC18

TRNG18 AF23

RTIP18 AE21

RRNG18 AC19

TTIP19 AC20

TRNG19 AE23

RTIP19 AC21

RRNG19 AD22

TTIP20 AE25

TRNG20 AD24

RTIP20 AB23

RRNG20 AC24

RxV

ddA

D11

RxV

ddA

D13

RxV

ddA

D15

RxV

ddA

E18

RxV

ddA

F21

RxV

ddA

E22

RxV

ddA

D23

TxV

ddA

E9

TxV

ddA

C13

TxV

ddA

F17

TxV

ddA

F19

TxV

ddA

D19

TxV

ddA

F25

TxV

ddA

C23

RxG

ND

AE

10

RxG

ND

AF

12

RxG

ND

AF

16

RxG

ND

AC

16

RxG

ND

AF

22

RxG

ND

AD

21

RxG

ND

AC

22

TxG

ND

AD

10

TxG

ND

AF

11

TxG

ND

AD

16

TxG

ND

AF

20

TxG

ND

AD

20

TxG

ND

AE

24

TxG

ND

AF

26

TxD_D0M4

TxD_D1L3

TxD_D2K2

TxD_D3J1

TxD_D4J2

TxD_D5L4

TxD_D6K3

TxD_D7H2

TxD_DPL2

TxD_PLM1

TxD_ALK1

TxD_C1J1V1M2

TxD_ClkN3

RxD_D0U3

RxD_D1W1

RxD_D2W2

RxD_D3Y2

RxD_D4AA1

RxD_D5AB1

RxD_D6AC1

RxD_D7Y3

RxD_DPV2

RxD_PLU2

RxD_ALT4

RxD_C1J1V1V1

RxD_ClkT3

TxSTM0DatN1

TxSTM0FrmP1

TxSTM0ClkN2

RxSTM0DatT2

RxSTM0FrmU1

RxSTM0ClkT1

RxSTM0LOSR4

GPIO_0Y4

GPIO_1AE1

GPIO_2AC2

GPIO_3AD2

GPIO_4H4

GPIO_5C1

GPIO_6E2

GPIO_7F3

xInt0-P4

xInt1-R3

VS

SM

16

VS

SL1

6

VS

SL1

5

VS

ST

16

VS

ST

15

VS

SR

16

VS

SM

11

TP5TP5

T1

R90 4.7KR90 4.7K

RP482

RP482

14

23

R144 470R144 470

R105 0R105 0

D3LED-1206

D3LED-1206

21

R77

1K

R77

1K

R100 4.7KR100 4.7K

T31T31

T1

R145 470R145 470

L10FBL10FB

R4 10R4 10

R143 470R143 470

C6

0.1uF

C6

0.1uF

R103 0R103 0

R98 4.7KR98 4.7K

C12

0.1uF

C12

0.1uF

C1 0.1uFC1 0.1uFL6FBL6FB

L1FBL1FB

C19

0.1uF

C19

0.1uF

D5LED-1206

D5LED-1206

21

C180.1uFC180.1uF

L4FBL4FB

C11

0.1uF

C11

0.1uF

C25

0.1uF

C25

0.1uF

TP1TP1

T1

U2C

XRT86SH221

U2C

XRT86SH221

TTIP15 AE12

TRNG15 AD12

RTIP15 AE11

RRNG15 AF10

TTIP14 AF9

TRNG14 AC11

RTIP14 AF8

RRNG14 AE8

TTIP16 AE16

TRNG16 AC15

RTIP16 AE17

RRNG16 AF18

TTIP17 AD17

TRNG17 AE19

RTIP17 AC17

RRNG17 AD18

TTIP18 AC18

TRNG18 AF23

RTIP18 AE21

RRNG18 AC19

TTIP19 AC20

TRNG19 AE23

RTIP19 AC21

RRNG19 AD22

TTIP20 AE25

TRNG20 AD24

RTIP20 AB23

RRNG20 AC24

RxV

ddA

D11

RxV

ddA

D13

RxV

ddA

D15

RxV

ddA

E18

RxV

ddA

F21

RxV

ddA

E22

RxV

ddA

D23

TxV

ddA

E9

TxV

ddA

C13

TxV

ddA

F17

TxV

ddA

F19

TxV

ddA

D19

TxV

ddA

F25

TxV

ddA

C23

RxG

ND

AE

10

RxG

ND

AF

12

RxG

ND

AF

16

RxG

ND

AC

16

RxG

ND

AF

22

RxG

ND

AD

21

RxG

ND

AC

22

TxG

ND

AD

10

TxG

ND

AF

11

TxG

ND

AD

16

TxG

ND

AF

20

TxG

ND

AD

20

TxG

ND

AE

24

TxG

ND

AF

26

TxD_D0M4

TxD_D1L3

TxD_D2K2

TxD_D3J1

TxD_D4J2

TxD_D5L4

TxD_D6K3

TxD_D7H2

TxD_DPL2

TxD_PLM1

TxD_ALK1

TxD_C1J1V1M2

TxD_ClkN3

RxD_D0U3

RxD_D1W1

RxD_D2W2

RxD_D3Y2

RxD_D4AA1

RxD_D5AB1

RxD_D6AC1

RxD_D7Y3

RxD_DPV2

RxD_PLU2

RxD_ALT4

RxD_C1J1V1V1

RxD_ClkT3

TxSTM0DatN1

TxSTM0FrmP1

TxSTM0ClkN2

RxSTM0DatT2

RxSTM0FrmU1

RxSTM0ClkT1

RxSTM0LOSR4

GPIO_0Y4

GPIO_1AE1

GPIO_2AC2

GPIO_3AD2

GPIO_4H4

GPIO_5C1

GPIO_6E2

GPIO_7F3

xInt0-P4

xInt1-R3

VS

SM

16

VS

SL1

6

VS

SL1

5

VS

ST

16

VS

ST

15

VS

SR

16

VS

SM

11

RP22.7kRP22.7k

14

23

C9

0.1uF

C9

0.1uF

RP9

120

RP9

120

1423

U1219.44MHzU1219.44MHz

VDD4

OE1

OUT 3

GND 2

T36T36

T1

R83

1K

R83

1K

R96 4.7KR96 4.7K

C4 0.1uFC4 0.1uF

L3FBL3FB

T34T34

T1

T30

Tx51_19M

T30

Tx51_19MT1

R94 4.7KR94 4.7K

C2 0.1uFC2 0.1uF

C20

0.1uF

C20

0.1uF

R87

1K

R87

1K

R1 openR1 open

R92 4.7KR92 4.7K

T26T26

T1

C3

0.1uF

C3

0.1uF

R82

1K

R82

1K

TP4TP4

T1

R84

1K

R84

1K

R2 10R2 10

T32T32

T1

R79

1K

R79

1K

R108 0R108 0

62

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

Vcc3v3Dut

Vcc3v3Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc1v8Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc3v3Dut

Vcc3v3Dut

AD0AD1AD2AD3AD4AD5AD6AD7AD8AD9AD10AD11AD12AD13AD14AD15AD16AD17

D0D1D2D3D4D5D6D7

PCLK

RSTCS0RDWRDBEN

RDY0INT0

MCLKTx51_19M

uP0uP1uP2

TT4A

TT5A

RR5A

RT5ATR5A

TR4ART4A

RR4A

TT0A

TT1A

TR1ART1A

RR1A

RR6A

RT6ATR6A

TT6A

TR0A

TT2A

TT3A

RR3A

RT3ATR3A

TR2ART2A

RR2A

RT0A

RR0A

TT11A

TT12A

RR12A

RT12ATR12A

TR11ART11A

RR11A

TT7A

TT8A

TR8ART8A

RR8A

RR13A

RT13ATR13A

TT13A

TR7A

TT9A

TT10A

RR10A

RT10ATR10A

TR9ART9A

RR9A

RT7A

RR7A

TxSBFP

ALE

Title


Date: Sheet of

B.1

XRT86SH221 "Master"

C


Reference Design 1

Title


Date: Sheet of

B.1

XRT86SH221 "Master"

C


Reference Design 1

Title


Date: Sheet of

B.1

XRT86SH221 "Master"

C


Reference Design 1

EXAR CORPORATION

C64

0.1uF

C64

0.1uF

C72

0.1uF

C72

0.1uF

L18FBL18FB

C54

0.1uF

C54

0.1uF T7WR T7WRT 1

R49 10R49 10

C51

0.1uF

C51

0.1uF

R119 4.7kR119 4.7k

R51 4.7kR51 4.7k

L22FBL22FB

C48

0.1uF

C48

0.1uF

C68

0.1uF

C68

0.1uF

C75

0.1uF

C75

0.1uF

R120 4.7kR120 4.7k

R47 10R47 10

C65

0.1uF

C65

0.1uF

C56

0.1uF

C56

0.1uF

T8RD T8RDT 1

R46 10R46 10

R1254.7K R1254.7K

L19FBL19FB

R140

4.7k

R140

4.7k

R121 4.7kR121 4.7k

C66

0.1uF

C66

0.1uF

C52

0.1uF

C52

0.1uF

C49

0.1uF

C49

0.1uF

T9CS0 T9CS0T 1

R1264.7K R1264.7K

T3D0 T3D0T 1

C57

0.1uF

C57

0.1uF

C53

0.1uF

C53

0.1uF

C67

0.1uF

C67

0.1uF

R1274.7K R1274.7K

L17FBL17FB

R1284.7K R1284.7K

C50

0.1uF

C50

0.1uF

T4A0 T4A0T 1

C63

0.1uF

C63

0.1uF

C61

0.1uF

C61

0.1uF

C69

0.1uF

C69

0.1uF

C58

0.1uF

C58

0.1uF

C76

0.1uF

C76

0.1uF

T5RDY0 T5RDY0T 1

R48 10R48 10

C590.1uFC590.1uF

R52 4.7kR52 4.7k

C74

0.1uF

C74

0.1uF

C70

0.1uF

C70

0.1uF

R1304.7K R1304.7K

L21 FBL21 FB

J6

CON4AP

J6

CON4AP

+1

+3+ 2

+ 4

C62

0.1uF

C62

0.1uF

T2PCLK T2PCLKT 1

U2BU2B

TTIP8D10

TRNG8B7

RTIP8A5

RRNG8D9

TTIP7B10

TRNG7B9

RTIP7C10

RRNG7A8

TTIP9B6

TRNG9A3

RTIP9C6

RRNG9D7

TTIP10D6

TRNG10C4

RTIP10B2

RRNG10D4

TTIP11AC6

TRNG11AD4

RTIP11AF1

RRNG11AD3

TTIP12AC8

TRNG12AE5

RTIP12AC7

RRNG12AF2

TTIP13AD9

TRNG13AF6

RTIP13AC9

RRNG13AD8

RxV

ddD

12R

xVdd

B8

RxV

ddA

4R

xVdd

B4

RxV

ddA

E4

RxV

ddA

D7

RxV

ddA

F7

TxV

ddC

9T

xVdd

D8

TxV

ddC

5

TxV

ddA

9

TxV

ddA

D5

TxV

ddA

F3

TxV

ddA

E7

RxG

ND

C11

RxG

ND

A7

RxG

ND

C7

RxG

ND

B3

RxG

ND

AE

3R

xGN

DA

E6

RxG

ND

AC

10

TxG

ND

D11

TxG

ND

A6

TxG

ND

B5

TxG

ND

D5

TxG

ND

AC

5T

xGN

DA

D6

TxG

ND

AF

5

TxOH G2

TxOHFrm J3TxOHIns H1

TxOHEnb K4

TxOHClk G1

TxPOHInd F1

RxOH V3

RxOHFrm V4

RxOHVal U4

RxOHClk Y1

RxPOHInd W3

RxTUPOH W4

RxTUPOHFrm AD1

RxTUPOHVal AA3

RxTUPOHClk AA2

TxTUPOH F2

TxTUPOHIns D1

TxTUPOHFrm E1

TxTUPOHEnb J4

TxTUPOHClk H3

AV

ddB

22A

Vdd

B14

AV

ddA

10A

Vdd

D14

AG

ND

A21

AG

ND

A14

AG

ND

C8

AG

ND

C15

VDDo A2

VDDo B1

VDDo G3

VDDo M13

VDDo M14

VDDo M15

VDDo N13

VDDo N14

VDDo N12

VDDo P12

VDDo P13

VDDo P14

VDDo R12

VDDo R13

VDDo R14

VDDo R15

VDDo M12

VDDo N15

VDDo AB2

VDDo AB25

VDDi J23

VDDi L13

VDDi L14

VDDi N11

VDDi N16

VDDi P11

VDDi P16

VDDi T13

VDDi T14

RRxClk0 Y23

RRxClk1 AE26V

SS

C3

VS

SE

3V

SS

AB

4V

SS

AC

4V

SS

H23

VDDo P15

T6DBEN T6DBENT 1

R50 10R50 10

C71

0.1uF

C71

0.1uF

C600.1uFC600.1uF

R1224.7K R1224.7K

C550.1uFC55

0.1uF

C73

0.1uF

C73

0.1uF

L20FBL20FB

U2AU2A

TTIP1 C24

TRNG1 B25

RTIP1 D24

RRNG1 E24

TTIP0 D25

TRNG0 G23

RTIP0 E25

RRNG0 C26

TTIP2 A25

TRNG2 B24

RTIP2 C22

RRNG2 C23

TTIP3 C19

TRNG3 C20

RTIP3 D19

RRNG3 A24

TTIP4 A19

TRNG4 A20

RTIP4 C18

RRNG4 B20

TTIP5 A17

TRNG5 C16

RTIP5 A18

RRNG5 B18

TTIP6 A12

TRNG6 D13

RTIP6 A11

RRNG6 B11

RxV

ddF

23

RxV

ddD

22

RxV

ddC

21

RxV

ddA

22

RxV

ddD

16

RxV

ddA

16

RxV

ddB

13

TxV

ddB

26

TxV

ddD

23

TxV

ddB

23

TxV

ddA

23

TxV

ddB

19

TxV

ddD

15

TxV

ddB

12

RxG

ND

C25

RxG

ND

A26

RxG

ND

D20

RxG

ND

D18

RxG

ND

C17

RxG

ND

B16

RxG

ND

C13

TxG

ND

F24

TxG

ND

E23

TxG

ND

D21

TxG

ND

B21

TxG

ND

D17

TxG

ND

B17

TxG

ND

C12

AG

ND

AF

4

AG

ND

AE

15

AG

ND

AF

24

AV

ddA

C12

AV

ddA

F15

AV

ddA

E20

RSTP2

CST26

RDT23

WRW25

DBENN24

ALET24

RDYP25

INTM24

A0U23

A1Y26

A2U24

A3V25

A4U25

A5R23

A6T25

A7R24

A8R25

A9P24

A10P26

A11N25

A12M26

A13L25

A14K26

A15M23

A16K25

A17J26

D0W26

D1V26

D2U26

D3R26

D4N26

D5N23

D6L26

D7L24

PCLKP23

uP0AA4

uP1AB3

uP2AC3

ExtOscR2xOscEnbA1

TRSTF4

TMSC2

TCKD2

TDID3

TDOE4

MClkG4

TxSBFPN4

Tx51_19MR1

TestModeP3

BLastM25

ScanModeM3

ScanEnbAE2

AV

ddA

F13

AG

ND

AE

13

ATIP1A15

ARING1B15

ANALOG1C14

SENSE1A13

ATIP2AE14

ARING2AF14

ANALOG2AD14

SENSE2AC14

VS

SL1

2

VS

SL1

1

VS

ST

12

VS

ST

11

VS

SR

11

J7

CON4AP

J7

CON4AP

+1

+3+ 2

+ 4

63

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

Vcc3v3Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc3v3Dut

Vcc3v3Dut

AD14

MCLK

AD5

INT1

D6

AD15

Tx51_19M TT4B

TT5B

RR5B

RT5BTR5B

TR4BRT4B

RR4B

AD6

TT0B

TT1B

TR1BRT1B

RR1B

RR6B

RT6BTR6B

TT6B

TR0B

TT2B

TT3B

RR3B

RT3BTR3B

TR2BRT2B

RR2B

RT0B

RR0B

D7

AD16

AD7

PCLK

AD17

AD8

AD0

RST

D0

AD9

CS1

D1

AD10

AD1

RD

D2

AD11

AD2

uP0

WR

D3

AD12

AD3

uP1

DBEN

D4

TT11B

TT12B

RR12B

RT12BTR12B

TR11BRT11B

RR11B

TT7B

TT8B

TR8BRT8B

RR8B

RR13B

RT13BTR13B

TT13B

TR7B

TT9B

TT10B

RR10B

RT10BTR10B

TR9BRT9B

RR9B

RT7B

RR7B

AD13

AD4

uP2

RDY1

D5

TxSBFP

ALE

Title


Date: Sheet of

B.1

XRT86SH221 "Slave 1"

C


Reference Design 1

<file name>

Title


Date: Sheet of

B.1


C


Reference Design 1

<file name>

Title


Date: Sheet of

B.1


C


Reference Design 1

<file name>

EXAR CORPORATION

C104

0.1uF

C104

0.1uF

R54 10R54 10

C880.1uFC880.1uF

R1234.7K R1234.7K

C85

0.1uF

C85

0.1uF

R116 4.7kR116 4.7k

L23FBL23FB

C94

0.1uF

C94

0.1uF

R89 10R89 10

C890.1uFC890.1uF

R1344.7K R1344.7K

L25FBL25FB

C78

0.1uF

C78

0.1uF

C90

0.1uF

C90

0.1uF

R117 4.7kR117 4.7k

C97

0.1uF

C97

0.1uF

L24FBL24FB

C80

0.1uF

C80

0.1uF

C840.1uFC84

0.1uF

R118 4.7kR118 4.7k

C86

0.1uF

C86

0.1uFC83

0.1uF

C83

0.1uF

C79

0.1uF

C79

0.1uF

C95

0.1uF

C95

0.1uF

C87

0.1uF

C87

0.1uF

R62 4.7kR62 4.7k

R1294.7K R1294.7K

C81

0.1uF

C81

0.1uF

R59 10R59 10

U3AU3A

TTIP1 C24

TRNG1 B25

RTIP1 D24

RRNG1 E24

TTIP0 D25

TRNG0 G23

RTIP0 E25

RRNG0 C26

TTIP2 A25

TRNG2 B24

RTIP2 C22

RRNG2 C23

TTIP3 C19

TRNG3 C20

RTIP3 D19

RRNG3 A24

TTIP4 A19

TRNG4 A20

RTIP4 C18

RRNG4 B20

TTIP5 A17

TRNG5 C16

RTIP5 A18

RRNG5 B18

TTIP6 A12

TRNG6 D13

RTIP6 A11

RRNG6 B11

RxV

ddF

23

RxV

ddD

22

RxV

ddC

21

RxV

ddA

22

RxV

ddD

16

RxV

ddA

16

RxV

ddB

13

TxV

ddB

26

TxV

ddD

23

TxV

ddB

23

TxV

ddA

23

TxV

ddB

19

TxV

ddD

15

TxV

ddB

12

RxG

ND

C25

RxG

ND

A26

RxG

ND

D20

RxG

ND

D18

RxG

ND

C17

RxG

ND

B16

RxG

ND

C13

TxG

ND

F24

TxG

ND

E23

TxG

ND

D21

TxG

ND

B21

TxG

ND

D17

TxG

ND

B17

TxG

ND

C12

AG

ND

AF

4

AG

ND

AE

15

AG

ND

AF

24

AV

ddA

C12

AV

ddA

F15

AV

ddA

E20

RSTP2

CST26

RDT23

WRW25

DBENN24

ALET24

RDYP25

INTM24

A0U23

A1Y26

A2U24

A3V25

A4U25

A5R23

A6T25

A7R24

A8R25

A9P24

A10P26

A11N25

A12M26

A13L25

A14K26

A15M23

A16K25

A17J26

D0W26

D1V26

D2U26

D3R26

D4N26

D5N23

D6L26

D7L24

PCLKP23

uP0AA4

uP1AB3

uP2AC3

ExtOscR2xOscEnbA1

TRSTF4

TMSC2

TCKD2

TDID3

TDOE4

MClkG4

TxSBFPN4

Tx51_19MR1

TestModeP3

BLastM25

ScanModeM3

ScanEnbAE2

AV

ddA

F13

AG

ND

AE

13

ATIP1A15

ARING1B15

ANALOG1C14

SENSE1A13

ATIP2AE14

ARING2AF14

ANALOG2AD14

SENSE2AC14

VS

SL1

2

VS

SL1

1

VS

ST

12

VS

ST

11

VS

SR

11

L28FBL28FB

C96

0.1uF

C96

0.1uF

R1314.7K R1314.7K

T14RDY1 T14RDY1T 1

C92

0.1uF

C92

0.1uF

C82

0.1uF

C82

0.1uF

L27FBL27FB

C105

0.1uF

C105

0.1uF

R63 4.7kR63 4.7k

J8

CON4AP

J8

CON4AP

+1

+3+ 2

+ 4

C98

0.1uF

C98

0.1uF

R58 10R58 10

C103

0.1uF

C103

0.1uF

L26FBL26FB

R1324.7K R1324.7K

J9

CON4AP

J9

CON4AP

+1

+3+ 2

+ 4

R141

4.7k

R141

4.7k

T17CS1 T17CS1T 1

C99

0.1uF

C99

0.1uF

C102

0.1uF

C102

0.1uF

R1334.7K R1334.7K

C100

0.1uF

C100

0.1uF

C91

0.1uF

C91

0.1uF

C101

0.1uF

C101

0.1uF

R53 10R53 10

C93

0.1uF

C93

0.1uF

U3BU3B

TTIP8D10

TRNG8B7

RTIP8A5

RRNG8D9

TTIP7B10

TRNG7B9

RTIP7C10

RRNG7A8

TTIP9B6

TRNG9A3

RTIP9C6

RRNG9D7

TTIP10D6

TRNG10C4

RTIP10B2

RRNG10D4

TTIP11AC6

TRNG11AD4

RTIP11AF1

RRNG11AD3

TTIP12AC8

TRNG12AE5

RTIP12AC7

RRNG12AF2

TTIP13AD9

TRNG13AF6

RTIP13AC9

RRNG13AD8

RxV

ddD

12R

xVdd

B8

RxV

ddA

4R

xVdd

B4

RxV

ddA

E4

RxV

ddA

D7

RxV

ddA

F7

TxV

ddC

9T

xVdd

D8

TxV

ddC

5

TxV

ddA

9

TxV

ddA

D5

TxV

ddA

F3

TxV

ddA

E7

RxG

ND

C11

RxG

ND

A7

RxG

ND

C7

RxG

ND

B3

RxG

ND

AE

3R

xGN

DA

E6

RxG

ND

AC

10

TxG

ND

D11

TxG

ND

A6

TxG

ND

B5

TxG

ND

D5

TxG

ND

AC

5T

xGN

DA

D6

TxG

ND

AF

5

TxOH G2


TxOHEnb K4

TxOHClk G1

TxPOHInd F1

RxOH V3

RxOHFrm V4

RxOHVal U4

RxOHClk Y1

RxPOHInd W3

RxTUPOH W4

RxTUPOHFrm AD1

RxTUPOHVal AA3

RxTUPOHClk AA2

TxTUPOH F2

TxTUPOHIns D1

TxTUPOHFrm E1

TxTUPOHEnb J4

TxTUPOHClk H3

AV

ddB

22A

Vdd

B14

AV

ddA

10A

Vdd

D14

AG

ND

A21

AG

ND

A14

AG

ND

C8

AG

ND

C15

VDDo A2

VDDo B1

VDDo G3

VDDo M13

VDDo M14

VDDo M15

VDDo N13

VDDo N14

VDDo N12

VDDo P12

VDDo P13

VDDo P14

VDDo R12

VDDo R13

VDDo R14

VDDo R15

VDDo M12

VDDo N15

VDDo AB2

VDDo AB25

VDDi J23

VDDi L13

VDDi L14

VDDi N11

VDDi N16

VDDi P11

VDDi P16

VDDi T13

VDDi T14

RRxClk0 Y23

RRxClk1 AE26

VS

SC

3V

SS

E3

VS

SA

B4

VS

SA

C4

VS

SH

23

VDDo P15

C77

0.1uF

C77

0.1uF

64

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

Vcc3v3Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc3v3Dut

Vcc3v3Dut

AD14

MCLK

AD5

INT2

D6

AD15

Tx51_19M TT4C

TT5C

RR5C

RT5CTR5C

TR4CRT4C

RR4C

AD6

TT0C

TT1C

TR1CRT1C

RR1C

RR6C

RT6CTR6C

TT6C

TR0C

TT2C

TT3C

RR3C

RT3CTR3C

TR2CRT2C

RR2C

RT0C

RR0C

D7

AD16

AD7

PCLK

AD17

AD8

AD0

RST

D0

AD9

CS2

D1

AD10

AD1

RD

D2

AD11

AD2

uP0

WR

D3

AD12

AD3

uP1

DBEN

D4

TT11C

TT12C

RR12C

RT12CTR12C

TR11CRT11C

RR11C

TT7C

TT8C

TR8CRT8C

RR8C

RR13C

RT13CTR13C

TT13C

TR7C

TT9C

TT10C

RR10C

RT10CTR10C

TR9CRT9C

RR9C

RT7C

RR7C

AD13

AD4

uP2

RDY2

D5

TxSBFP

ALE

Title


Date: Sheet of

Reference Design 1 B.1


C


<Document>

Title


Date: Sheet of



C


<Document>

Title


Date: Sheet of



C


<Document>EXAR CORPORATION

C125

0.1uF

C125

0.1uF

C121

0.1uF

C121

0.1uF

T22RDY2 T22RDY2T 1

C111

0.1uF

C111

0.1uF

R115 4.7kR115 4.7k

R74 4.7kR74 4.7k

C134

0.1uF

C134

0.1uF

J10

CON4AP

J10

CON4AP

+1

+3+ 2

+ 4

C127

0.1uF

C127

0.1uF

R69 10R69 10

C132

0.1uF

C132

0.1uF

L32FBL32FB

R1354.7K R1354.7K

J11

CON4AP

J11

CON4AP

+1

+3+ 2

+ 4

T25CS2 T25CS2T 1

C128

0.1uF

C128

0.1uF

C131

0.1uF

C131

0.1uF

R1364.7K R1364.7K

C120

0.1uF

C120

0.1uF

C129

0.1uF

C129

0.1uF

C130

0.1uF

C130

0.1uF

R142

4.7k

R142

4.7k

R57 10R57 10

C122

0.1uF

C122

0.1uF

C106

0.1uF

C106

0.1uF

U4BU4B

TTIP8D10

TRNG8B7

RTIP8A5

RRNG8D9

TTIP7B10

TRNG7B9

RTIP7C10

RRNG7A8

TTIP9B6

TRNG9A3

RTIP9C6

RRNG9D7

TTIP10D6

TRNG10C4

RTIP10B2

RRNG10D4

TTIP11AC6

TRNG11AD4

RTIP11AF1

RRNG11AD3

TTIP12AC8

TRNG12AE5

RTIP12AC7

RRNG12AF2

TTIP13AD9

TRNG13AF6

RTIP13AC9

RRNG13AD8

RxV

ddD

12R

xVdd

B8

RxV

ddA

4R

xVdd

B4

RxV

ddA

E4

RxV

ddA

D7

RxV

ddA

F7

TxV

ddC

9T

xVdd

D8

TxV

ddC

5

TxV

ddA

9

TxV

ddA

D5

TxV

ddA

F3

TxV

ddA

E7

RxG

ND

C11

RxG

ND

A7

RxG

ND

C7

RxG

ND

B3

RxG

ND

AE

3R

xGN

DA

E6

RxG

ND

AC

10

TxG

ND

D11

TxG

ND

A6

TxG

ND

B5

TxG

ND

D5

TxG

ND

AC

5T

xGN

DA

D6

TxG

ND

AF

5

TxOH G2


TxOHEnb K4

TxOHClk G1

TxPOHInd F1

RxOH V3

RxOHFrm V4

RxOHVal U4

RxOHClk Y1

RxPOHInd W3

RxTUPOH W4

RxTUPOHFrm AD1

RxTUPOHVal AA3

RxTUPOHClk AA2

TxTUPOH F2

TxTUPOHIns D1

TxTUPOHFrm E1

TxTUPOHEnb J4

TxTUPOHClk H3

AV

ddB

22A

Vdd

B14

AV

ddA

10A

Vdd

D14

AG

ND

A21

AG

ND

A14

AG

ND

C8

AG

ND

C15

VDDo A2

VDDo B1

VDDo G3

VDDo M13

VDDo M14

VDDo M15

VDDo N13

VDDo N14

VDDo N12

VDDo P12

VDDo P13

VDDo P14

VDDo R12

VDDo R13

VDDo R14

VDDo R15

VDDo M12

VDDo N15

VDDo AB2

VDDo AB25

VDDi J23

VDDi L13

VDDi L14

VDDi N11

VDDi N16

VDDi P11

VDDi P16

VDDi T13

VDDi T14

RRxClk0 Y23

RRxClk1 AE26

VS

SC

3V

SS

E3

VS

SA

B4

VS

SA

C4

VS

SH

23

VDDo P15

C133

0.1uF

C133

0.1uF

L33FBL33FB

C114

0.1uF

C114

0.1uFC1170.1uFC1170.1uF

R68 10R68 10

L29FBL29FB

R1374.7K R1374.7K

C123

0.1uF

C123

0.1uF

C1180.1uFC1180.1uF

R114 4.7kR114 4.7k

R112 10R112 10

C107

0.1uF

C107

0.1uFL31FBL31FB

C119

0.1uF

C119

0.1uF

C126

0.1uF

C126

0.1uF

L30FBL30FB

R1384.7K R1384.7K

C1130.1uFC113

0.1uF

C109

0.1uF

C109

0.1uFC115

0.1uF

C115

0.1uFC112

0.1uF

C112

0.1uF

C124

0.1uF

C124

0.1uF

C108

0.1uF

C108

0.1uF

R113 4.7kR113 4.7k

R1244.7K R1244.7K

C116

0.1uF

C116

0.1uF

R73 4.7kR73 4.7k

C110

0.1uF

C110

0.1uF

R70 10R70 10

R1394.7K R1394.7K

U4AU4A

TTIP1 C24

TRNG1 B25

RTIP1 D24

RRNG1 E24

TTIP0 D25

TRNG0 G23

RTIP0 E25

RRNG0 C26

TTIP2 A25

TRNG2 B24

RTIP2 C22

RRNG2 C23

TTIP3 C19

TRNG3 C20

RTIP3 D19

RRNG3 A24

TTIP4 A19

TRNG4 A20

RTIP4 C18

RRNG4 B20

TTIP5 A17

TRNG5 C16

RTIP5 A18

RRNG5 B18

TTIP6 A12

TRNG6 D13

RTIP6 A11

RRNG6 B11

RxV

ddF

23

RxV

ddD

22

RxV

ddC

21

RxV

ddA

22

RxV

ddD

16

RxV

ddA

16

RxV

ddB

13

TxV

ddB

26

TxV

ddD

23

TxV

ddB

23

TxV

ddA

23

TxV

ddB

19

TxV

ddD

15

TxV

ddB

12

RxG

ND

C25

RxG

ND

A26

RxG

ND

D20

RxG

ND

D18

RxG

ND

C17

RxG

ND

B16

RxG

ND

C13

TxG

ND

F24

TxG

ND

E23

TxG

ND

D21

TxG

ND

B21

TxG

ND

D17

TxG

ND

B17

TxG

ND

C12

AG

ND

AF

4

AG

ND

AE

15

AG

ND

AF

24

AV

ddA

C12

AV

ddA

F15

AV

ddA

E20

RSTP2

CST26

RDT23

WRW25

DBENN24

ALET24

RDYP25

INTM24

A0U23

A1Y26

A2U24

A3V25

A4U25

A5R23

A6T25

A7R24

A8R25

A9P24

A10P26

A11N25

A12M26

A13L25

A14K26

A15M23

A16K25

A17J26

D0W26

D1V26

D2U26

D3R26

D4N26

D5N23

D6L26

D7L24

PCLKP23

uP0AA4

uP1AB3

uP2AC3

ExtOscR2xOscEnbA1

TRSTF4

TMSC2

TCKD2

TDID3

TDOE4

MClkG4

TxSBFPN4

Tx51_19MR1

TestModeP3

BLastM25

ScanModeM3

ScanEnbAE2

AV

ddA

F13

AG

ND

AE

13

ATIP1A15

ARING1B15

ANALOG1C14

SENSE1A13

ATIP2AE14

ARING2AF14

ANALOG2AD14

SENSE2AC14

VS

SL1

2

VS

SL1

1

VS

ST

12

VS

ST

11

VS

SR

11

L34FBL34FB

65

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

PWRPWRPWRPWRPWRPWRPWRPWRPWRPWR

TT0A

TT5A

TT10A

TT15A

TR0A

TR5A

TR10A

TR15A

TT0B

TT5B

TT10B

TT15B

TR0B

TR5B

TR10B

TR15B

TT0C

TT5C

TT10C

TT15C

TR0C

TR5C

TR10C

TR15C

AD0

AD1

AD2

AD3

AD4

AD5

AD6

AD7

TT11C

TT16C

TR1C

TR6C

TR11C

TR16C

AD8

AD9

AD10

AD11

AD12

AD13

AD14

AD15

TT1A

TT6A

TT11A

TT16A

TR1A

TR6A

TR11A

TR16A

TT1B

TT6B

TT11B

TT16B

TR1B

TR6B

TR11B

TR16B

TT1C

TT6C

TT12C

TT17C

TR2C

TR7C

TR12C

TR17C

AD16

AD17

TT2A

TT7A

TT12A

TT17A

TR2A

TR7A

TR12A

TR17A

TT2B

TT7B

TT12B

TT17B

TR2B

TR7B

TR12B

TR17B

TT2C

TT7C

TT18C

TR3C

TR8C

TR18C

TT3A

TT8A

TT18A

TR8A

TR13A

TR18A

TT3B

TT8B

TT18B

TR3B

TR8B

TR18B

TT3C

TT8C

TT14C

TT19C

TR4C

TR9C

TR14C

TR19C

D0

D1

D2

D3

D4

D5

D6

D7

TT4A

TT9A

TT14A

TT19A

TR9A

TR14A

TR19A

TT4B

TT9B

TT14B

TT19B

TR4B

TR9B

TR14B

TR19B

TT4C

TT9C

CS0

CS1

CS2

INT0

INT1

INT2

DBEN

RD

WR

RST

PCLK

RDY0

RDY1

RDY2

LOSext

CMUFreqSel

DLOSDis

OOF

CDRDis

STS12/STS3

CDRRefSel

CDRAuxRefSel

uP0

uP1

uP2

PSW0

PSW1

CLK0

CLK1

TR3A TR4A

TT20A

TT13A

TR20A

TT20B

TT13B

TR20B

TR13B

TT20C

TT13C

TR20C

TR13C

RT10C

RT15C

RR0C

RR5C

RR10C

RR15C

RT20C

RR20A

RT20A

RR20B

RT0A

RT5A

RT10A

RT15A

RT20B

RR0A

RR5A

RR10A

RR15A

RT0B

RT5B

RT10B

RT15B

RR20C

RR0B

RR5B

RR10B

RR15B

RT0C

RT5C

RT11C

RT16C

RR1C

RR6C

RR11C

RR16C

RT1A

RT6A

RT11A

RT16A

RR1A

RR6A

RR11A

RR16A

RT1B

RT6B

RT11B

RT16B

RR1B

RR6B

RR11B

RR16B

RT1C

RT6C

RT12C

RT17C

RR2C

RR7C

RR12C

RR17C

RT2A

RT7A

RT12A

RT17A

RR2A

RR7A

RR12A

RR17A

RT2B

RT7B

RT12B

RT17B

RR2B

RR7B

RR12B

RR17B

RT2C

RT7C

RR3A

RT13B

RR13C

RT18C

RR3C

RR8C

RR18C

RT3A

RT8A

RT18A

RR8A

RR13A

RR18A

RT3B

RT8B

RT18B

RR3B

RR8B

RR18B

RT3C

RT8C

RT13C

RT13A

RR13B

RR4A

RT14C

RT19C

RR4C

RR9C

RR14C

RR19C

RT4A

RT9A

RT14A

RT19A

RR9A

RR14A

RR19A

RT4B

RT9B

RT14B

RT19B

RR4B

RR9B

RR14B

RR19B

RT4C

RT9C

ALE

Red Alarm

Yellow Alarm

Blue Alarm 1

Blue Alarm 2

TxSBFP

Title


Date: Sheet of

B.1

Back Plane Connectors

C


Reference Design 1

Title


Date: Sheet of

B.1


C


Reference Design 1

Title


Date: Sheet of

B.1


C


Reference Design 1

EXAR CORPORATION

Transmitt Receive

H1E

FBUS_240

H1E

FBUS_240

E1E1

E2E2

E3E3

E4E4

E5E5

E6E6

E7E7

E8E8

E9E9

E10E10

E11E11

E12E12

E13E13

E14E14

E15E15

E16E16

E17E17

E18E18

E19E19

E20E20

E21E21

E22E22

E23E23

E24E24

E25E25

E26E26

E27E27

E28E28

E29E29

E30E30

E31E31

E32E32

E33E33

E34E34

E35E35

E36E36

E37E37

E38E38

E39E39

E40E40

E41E41

E42E42

E43E43

E44E44

E45E45

E46E46

E47E47

E48E48

H2A

FBUS_240

H2A

FBUS_240

A1A1

A2A2

A3A3

A4A4

A5A5

A6A6

A7A7

A8A8

A9A9

A10A10

A11A11

A12A12

A13A13

A14A14

A15A15

A16A16

A17A17

A18A18

A19A19

A20A20

A21A21

A22A22

A23A23

A24A24

A25A25

A26A26

A27A27

A28A28

A29A29

A30A30

A31A31

A32A32

A33A33

A34A34

A35A35

A36A36

A37A37

A38A38

A39A39

A40A40

A41A41

A42A42

A43A43

A44A44

A45A45

A46A46

A47A47

A48A48

H1A

FBUS_240

H1A

FBUS_240

A1A1

A2A2

A3A3

A4A4

A5A5

A6A6

A7A7

A8A8

A9A9

A10A10

A11A11

A12A12

A13A13

A14A14

A15A15

A16A16

A17A17

A18A18

A19A19

A20A20

A21A21

A22A22

A23A23

A24A24

A25A25

A26A26

A27A27

A28A28

A29A29

A30A30

A31A31

A32A32

A33A33

A34A34

A35A35

A36A36

A37A37

A38A38

A39A39

A40A40

A41A41

A42A42

A43A43

A44A44

A45A45

A46A46

A47A47

A48A48

H2B

FBUS_240

H2B

FBUS_240

B1B1

B2B2

B3B3

B4B4

B5B5

B6B6

B7B7

B8B8

B9B9

B10B10

B11B11

B12B12

B13B13

B14B14

B15B15

B16B16

B17B17

B18B18

B19B19

B20B20

B21B21

B22B22

B23B23

B24B24

B25B25

B26B26

B27B27

B28B28

B29B29

B30B30

B31B31

B32B32

B33B33

B34B34

B35B35

B36B36

B37B37

B38B38

B39B39

B40B40

B41B41

B42B42

B43B43

B44B44

B45B45

B46B46

B47B47

B48B48

H1B

FBUS_240

H1B

FBUS_240

B1B1

B2B2

B3B3

B4B4

B5B5

B6B6

B7B7

B8B8

B9B9

B10B10

B11B11

B12B12

B13B13

B14B14

B15B15

B16B16

B17B17

B18B18

B19B19

B20B20

B21B21

B22B22

B23B23

B24B24

B25B25

B26B26

B27B27

B28B28

B29B29

B30B30

B31B31

B32B32

B33B33

B34B34

B35B35

B36B36

B37B37

B38B38

B39B39

B40B40

B41B41

B42B42

B43B43

B44B44

B45B45

B46B46

B47B47

B48B48

H2C

FBUS_240

H2C

FBUS_240

C1C1

C2C2

C3C3

C4C4

C5C5

C6C6

C7C7

C8C8

C9C9

C10C10

C11C11

C12C12

C13C13

C14C14

C15C15

C16C16

C17C17

C18C18

C19C19

C20C20

C21C21

C22C22

C23C23

C24C24

C25C25

C26C26

C27C27

C28C28

C29C29

C30C30

C31C31

C32C32

C33C33

C34C34

C35C35

C36C36

C37C37

C38C38

C39C39

C40C40

C41C41

C42C42

C43C43

C44C44

C45C45

C46C46

C47C47

C48C48

H1C

FBUS_240

H1C

FBUS_240

C1C1

C2C2

C3C3

C4C4

C5C5

C6C6

C7C7

C8C8

C9C9

C10C10

C11C11

C12C12

C13C13

C14C14

C15C15

C16C16

C17C17

C18C18

C19C19

C20C20

C21C21

C22C22

C23C23

C24C24

C25C25

C26C26

C27C27

C28C28

C29C29

C30C30

C31C31

C32C32

C33C33

C34C34

C35C35

C36C36

C37C37

C38C38

C39C39

C40C40

C41C41

C42C42

C43C43

C44C44

C45C45

C46C46

C47C47

C48C48

H2D

FBUS_240

H2D

FBUS_240

D1D1

D2D2

D3D3

D4D4

D5D5

D6D6

D7D7

D8D8

D9D9

D10D10

D11D11

D12D12

D13D13

D14D14

D15D15

D16D16

D17D17

D18D18

D19D19

D20D20

D21D21

D22D22

D23D23

D24D24

D25D25

D26D26

D27D27

D28D28

D29D29

D30D30

D31D31

D32D32

D33D33

D34D34

D35D35

D36D36

D37D37

D38D38

D39D39

D40D40

D41D41

D42D42

D43D43

D44D44

D45D45

D46D46

D47D47

D48D48

H1D

FBUS_240

H1D

FBUS_240

D1D1

D2D2

D3D3

D4D4

D5D5

D6D6

D7D7

D8D8

D9D9

D10D10

D11D11

D12D12

D13D13

D14D14

D15D15

D16D16

D17D17

D18D18

D19D19

D20D20

D21D21

D22D22

D23D23

D24D24

D25D25

D26D26

D27D27

D28D28

D29D29

D30D30

D31D31

D32D32

D33D33

D34D34

D35D35

D36D36

D37D37

D38D38

D39D39

D40D40

D41D41

D42D42

D43D43

D44D44

D45D45

D46D46

D47D47

D48D48

H2E

FBUS_240

H2E

FBUS_240

E1E1

E2E2

E3E3

E4E4

E5E5

E6E6

E7E7

E8E8

E9E9

E10E10

E11E11

E12E12

E13E13

E14E14

E15E15

E16E16

E17E17

E18E18

E19E19

E20E20

E21E21

E22E22

E23E23

E24E24

E25E25

E26E26

E27E27

E28E28

E29E29

E30E30

E31E31

E32E32

E33E33

E34E34

E35E35

E36E36

E37E37

E38E38

E39E39

E40E40

E41E41

E42E42

E43E43

E44E44

E45E45

E46E46

E47E47

E48E48

66

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

RxD_D6

RxD_D2

RxD_D7

RxD_D3RxD_D4RxD_D4RxD_D4

RxLOS

RxD_D5RxD_D5RxD_D5

TxDis

SFPDet

TxA_D0TxA_D0TxA_D0TxA_D1TxA_D1TxA_D1TxA_D2TxA_D3TxA_D4TxA_D5TxA_D6TxA_D6TxA_D6TxA_D7

TxA_ClkTxA_Clk

RxD_ClkRxD_ClkRxD_ClkRxD_Clk

RxD_D1RxD_D1RxD_D1RxD_D0

RxD_DPRxD_PLRxD_ALRxD_C1J1

TxDisSFPDetRxLOS

TxA_D4

RxD_D1

TxA_D5

RxD_DP

RxD_D0

TxA_D6

RxD_PL

TxA_D7

RxD_AL

RxD_D6

RxD_D2

RxD_D7

RxD_D3RxD_D4RxD_D5

RxD_C1J1

RxD_Clk


TxA_D4

RxD_D1

TxA_D5

RxD_DP

RxD_D0

TxA_D6

RxD_PL

TxA_D7

RxD_AL

RxD_D6

RxD_D2

RxD_D7

RxD_D3RxD_D4RxD_D5

RxD_C1J1

RxD_Clk


RxD_DPRxD_DPRxD_PLRxD_PLRxD_ALRxD_ALRxD_C1J1RxD_C1J1

TxA_D0TxA_D1TxA_D2TxA_D3TxA_D4TxA_D5TxA_D6TxA_D7TxA_CLKTxD_DPTxD_PLTxD_ALTxD_C1J1V1

RxD_D0RxD_D1RxD_D2RxD_D3RxD_D4RxD_D5RxD_D6RxD_D7RxD_CLK

TxD_DPTxD_PLTxD_ALTxD_C1J1V1

Tx51_19MTx51_19M

TxSBFP TxSBFP TxSBFP

RxOHRxOHClkRxOHValidRxOHFrameRxPOH_Ind

TxOHClk

RxPOH_Ind

RxOHRxOHClk

RxOHValidRxOHFrame

TxSBFP

TxOHClk

Vcc3v3Dut

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3DutVcc3v3Dut

Vcc3v3

Vcc3v3

Vcc3v3

Vcc3v3

Vcc1v8DutVcc1v8Dut Vcc1v8Dut

CLK1

TT14A

TR14ART14A

RR14A

TT15A

TR15ART15A

RR15A

TT16A

TT17A

RR17A

RT17ATR17A

TR16ART16A

RR16A

STS12/STS3CDRRefSel

CDRAuxRefSel

LOSextCMUFreqSel

DLOSDisOOF

CDRDis

MCLK

Tx51_19M

CLK0

INT1INT2

Red Alarm

Yellow Alarm

Blue Alarm 1

Blue Alarm 2

TT12A

TT11A

TR11A

TR12ART12A

RR12A

RR11A

RT11A

RR13A

TT13A

TR13ART13A

RR10A

TT10A

TT9A

RT9ATR9A

TR10ART10A

RR9A

TT14B

TT12B

TT11B

TR11B

TR12BRT12B

RR12B

RR11B

RT11B

RR13B

TT13B

TR13BRT13B

RR10B

TT10B

TT9B

RT9BTR9B

TR10BRT10B

RR9B

TT15B

TR15BRT15B

RR15B

TR14B

TT16B

TT17B

RR17B

RT17BTR17B

TR16BRT16B

RR16B

RT14B

RR14B

TT14C

TT12C

TT11C

TR11C

TR12CRT12C

RR12C

RR11C

RT11C

RR13C

TT13C

TR13CRT13C

RR10C

TT10C

TT9C

RT9CTR9C

TR10CRT10C

RR9C

TT15C

TR15CRT15C

RR15C

TR14C

TT16C

TT17C

RR17C

RT17CTR17C

TR16CRT16C

RR16C

RT14C

RR14C

Tx44MHz

TxSBFP

TxOH

TxOHInsTxOHFrameTxPOH_IndTxOHEnable

Title


Date: Sheet of

B.1


D


ORION Reference Design 2b

Title


Date: Sheet of

B.1


D



Title


Date: Sheet of

B.1


D



Master ReceiveOverHead Port

Slave 1 TransmitOverHead Port

EXAR Experience our Connectivity

System power provided by EXAR PowerBlox Power Supply Reference Design Daughter Card, SP766xOR

TM

C1730.1uF

C1730.1uF

T27T27

T1

L7FBL7FB

R86

1K

R86

1K

RP10 120RP10 120

1423

R106 0R106 0

RP12.7kRP12.7k

14

23

R88

1K

R88

1K

R101 4.7KR101 4.7K

S1

SW DIP-8

S1

SW DIP-8

12345678

161514131211109

T37T37

T1

R171

330

R171

330

C300.47uFC300.47uF

U5T91L30

U5T91L30

RST 1

LPTM 2

CMUFreqSel3

TxP

Vdd

4

TxOP5

TxON6

DLOSDis7

xRxClki+8

xRxClki-9

OOF11

CDRDis12

RxIP13

RxIN14

Vdd

3v3

15

RefClk+16

RefClk-17

RxP

Vdd

10

Vdd

3v3

18V

dd3v

331

Vdd

3v3

34

TxPCkDir 48

Vdd

3v3

47V

dd3v

361

GN

D21

GN

D28

GN

D35

GN

D45

GN

D46

GN

D52

GN

D37

GN

D44

TxA

Vdd

38

RxA

Vdd

43

RxD0 19

RxD1 20

RxD2 22

RxD3 23

RxD4 24

RxD5 25

RxD6 26

RxD7 27

RxPClk 29

TxD0 58

TxD1 57

TxD2 56

TxD3 55

TxD4 54

TxD5 53

TxD6 51

TxD7 50

TxPClk 49

DLOOP 62

RLOOPS 63

ALOOP 64CDRefSel60STS12-359

FrmPulse 30

RefClk 36

LOSExt33

TxCap1AP39

TxCap1BP42

TxCap2BN41TxCap2AN40

CDRAuxRefClk32

C29

0.1uF

C29

0.1uF

R104 0R104 0

R99 4.7KR99 4.7K

C13

0.1uF

C13

0.1uF

RP3120

RP3120

14

23

R102 0R102 0

C23

0.1uF

C23

0.1uF

L5FBL5FB

C280.47uFC280.47uF

D6LED-1206

D6LED-1206

21

T28T28

T1

GP2GP2

T1

T39T39

T1

L8FBL8FB

R10 10R10 10

C10

0.1uF

C10

0.1uF

L36FB L36FBC24

0.1uF

C24

0.1uF

C1700.1uF

C1700.1uF

U112.048MHzU112.048MHz

VDD4

OE1

OUT 3

GND 2

R110 0R110 0

L9FBL9FB

U4BU4B

TTIP9 D11

TRNG9 B9

RTIP9 D10

RRNG9 E11

TTIP10 C8

TRNG10 E10

RTIP10 A5

RRNG10 B6

TTIP11 A4

TRNG11 C6

RTIP11 F9

RRNG11 E8

TTIP12 C5

TRNG12 F8

RTIP12 A2

RRNG12 B3

TTIP13 E5

TRNG13 C3

RTIP13 A1

RRNG13 B1

TxSTS1DatR5

TxSTS1ClkP3

TxSTS1FrmP2

TxA_PLN3

TxA_C1J1M2

TxA_ClkM1

TxA_ALK1

TxA_D0K2

TxA_DPL2

TxA_D2H1

TxA_D3J2

TxA_D1J1

TxA_D5H2

TxA_D6J3

TxA_D4G1

TxA_D7G2

RxV

ddB

14

RxV

ddD

13

RxV

ddA

9

RxV

ddA

7

RxV

ddE

9

RxV

ddA

3

RxV

ddF

7

TxV

ddA

13

TxV

ddE

13

TxV

ddC

10

TxV

ddD

9

TxV

ddB

5

TxV

ddD

6

TxV

ddD

4

RxG

ND

C14

RxG

ND

B12

RxG

ND

E12

RxG

ND

A6

RxG

ND

D8

RxG

ND

B4

RxG

ND

D5

TxG

ND

B13

TxG

ND

B11

TxG

ND

A8

TxG

ND

B7

TxG

ND

D7

TxG

ND

E7

TxG

ND

B2

Avd

dB

10

Avd

dF

10

Avd

dE

6

Avd

dA

16

Avd

dB

16

AG

ND

C11

AG

ND

C7

AG

ND

C4

AG

ND

D16

AG

ND

C16

Avd

dB

15A

GN

DA

15

RxD_D0Y3

RxD_D1AA2

RxD_D2AB1

RxD_D3AB2

RxD_D4AC1

RxD_D5AA4

RxD_D6AD1

RxD_D7AE1

RxD_ClkV2

RxD_DPV5

RxD_C1J1V1Y1RxD_ALW3RxD_PLV3

RxSTS1DatU1

RxSTS1ClkT1

RxSTS1FrmU2

RxSTS1LOSU5

TTIP14 AF4

TRNG14 AH2

RTIP14 AE5

RRNG14 AE4

TTIP15 AE8

TRNG15 AG5

RTIP15 AF6

RRNG15 AJ2

TTIP16 AJ4

TRNG16 AH5

RTIP16 AK2

RRNG16 AG6

TTIP17 AJ6

TRNG17 AK4

RTIP17 AJ5

RRNG17 AF9

GPIO_0AF2

GPIO_1AE3

GPIO_2AD4

GPIO_3AC5

GPIO_4C1

GPIO_5G4

GPIO_6D2

GPIO_7H5

ExINT0T3

ExINT1T5

TxA_FPP5

RxOHFrameY5

RxOHValidY4

RxOHAA3

RxOHClkW5

RxPOH_IndAB3

RxTUPOHFrameAD2

RxTUPOHValidAB5

RxTUPOHAA5

RxTUPOHClkAB4

TxTUPOHFrameG3

TxTUPOHEnableD1

TxTUPOHClkH4

TxOHClkH3

GP3GP3

T1

R91 4.7KR91 4.7K

R97 4.7KR97 4.7K

L35FB L35FB

C20

0.1uF

C20

0.1uF

C21

0.1uF

C21

0.1uF

C7

0.1uF

C7

0.1uF

C14

0.1uF

C14

0.1uF

S3

OverHead Port

S3

OverHead Port

9

11121

23456 7

8

10

RP72.7kRP72.7k

14

23

R95 4.7KR95 4.7K

C8

0.1uF

C8

0.1uF

T38T38

T1

RP8

120

RP8

120

1423

C1710.1uF

C1710.1uF

C15

0.1uF

C15

0.1uF

R146 470R146 470

C141

0.1uf

C141

0.1uf

C16

0.1uF

C16

0.1uF

L2FBL2FB

U1SFPModule

U1SFPModule

TD+ 18

TD- 19

RD+ 13

RD- 12

GN

D1

GN

D9

TxV

dd16

RxV

dd15

LOS8

TxFLT2

GN

D10

GN

D11

GN

D14

GN

D17

GN

D20

Def24

Def15

Def06

TxDIS3

RSel7

C26

0.1uF

C26

0.1uF

T33T33

T1

R81

1K

R81

1K

C5

0.1uF

C5

0.1uF

R111 0R111 0

L11FBL11FB

C22

0.1uF

C22

0.1uF

RP5120RP5120

14

23

T40

Tx44.736M

T40

Tx44.736MT1

R85

1K

R85

1K

R80

1K

R80

1K

C27 0.1uFC27 0.1uF

R109 0R109 0

T35T35

T1

T29

MCLK

T29

MCLKT1

R78

1K

R78

1K

C1720.1uF

C1720.1uF

C17

0.1uF

C17

0.1uF

R6 10R6 10

R170

330

R170

330

S2

HEADER 14X2

S2

HEADER 14X2

1234567891011121314 15

16171819202122232425262728

D4LED-1206

D4LED-1206

21

C142

0.1uf

C142

0.1uf

U1444.736MHzU1444.736MHz

VDD4

OE1

OUT 3

GND 2

R107 0R107 0

L12FBL12FB

R93 4.7KR93 4.7K

GP5GP5

T1

R90 4.7KR90 4.7K

RP482

RP482

14

23

R144 470R144 470

R105 0R105 0

D3LED-1206

D3LED-1206

21

R77

1K

R77

1K

C143

0.1uf

C143

0.1uf

R100 4.7KR100 4.7K

T31T31

T1

R145 470R145 470

L10FBL10FB

R143 470R143 470

R4 10R4 10

C6

0.1uF

C6

0.1uF

R103 0R103 0

R98 4.7KR98 4.7K

C12

0.1uF

C12

0.1uF

U2BU2B

TTIP9 D11

TRNG9 B9

RTIP9 D10

RRNG9 E11

TTIP10 C8

TRNG10 E10

RTIP10 A5

RRNG10 B6

TTIP11 A4

TRNG11 C6

RTIP11 F9

RRNG11 E8

TTIP12 C5

TRNG12 F8

RTIP12 A2

RRNG12 B3

TTIP13 E5

TRNG13 C3

RTIP13 A1

RRNG13 B1

TxSTS1DatR5

TxSTS1ClkP3

TxSTS1FrmP2

TxA_PLN3

TxA_C1J1M2

TxA_ClkM1

TxA_ALK1

TxA_D0K2

TxA_DPL2

TxA_D2H1

TxA_D3J2

TxA_D1J1

TxA_D5H2

TxA_D6J3

TxA_D4G1

TxA_D7G2

RxV

ddB

14

RxV

ddD

13

RxV

ddA

9

RxV

ddA

7

RxV

ddE

9

RxV

ddA

3

RxV

ddF

7

TxV

ddA

13

TxV

ddE

13

TxV

ddC

10

TxV

ddD

9

TxV

ddB

5

TxV

ddD

6

TxV

ddD

4

RxG

ND

C14

RxG

ND

B12

RxG

ND

E12

RxG

ND

A6

RxG

ND

D8

RxG

ND

B4

RxG

ND

D5

TxG

ND

B13

TxG

ND

B11

TxG

ND

A8

TxG

ND

B7

TxG

ND

D7

TxG

ND

E7

TxG

ND

B2

Avd

dB

10

Avd

dF

10

Avd

dE

6

Avd

dA

16

Avd

dB

16

AG

ND

C11

AG

ND

C7

AG

ND

C4

AG

ND

D16

AG

ND

C16

Avd

dB

15A

GN

DA

15

RxD_D0Y3

RxD_D1AA2

RxD_D2AB1

RxD_D3AB2

RxD_D4AC1

RxD_D5AA4

RxD_D6AD1

RxD_D7AE1

RxD_ClkV2

RxD_DPV5


RxSTS1DatU1

RxSTS1ClkT1

RxSTS1FrmU2

RxSTS1LOSU5

TTIP14 AF4

TRNG14 AH2

RTIP14 AE5

RRNG14 AE4

TTIP15 AE8

TRNG15 AG5

RTIP15 AF6

RRNG15 AJ2

TTIP16 AJ4

TRNG16 AH5

RTIP16 AK2

RRNG16 AG6

TTIP17 AJ6

TRNG17 AK4

RTIP17 AJ5

RRNG17 AF9

GPIO_0AF2

GPIO_1AE3

GPIO_2AD4

GPIO_3AC5

GPIO_4C1

GPIO_5G4

GPIO_6D2

GPIO_7H5

ExINT0T3

ExINT1T5

TxA_FPP5

RxOHFrameY5

RxOHValidY4

RxOHAA3

RxOHClkW5

RxPOH_IndAB3

RxTUPOHFrameAD2

RxTUPOHValidAB5

RxTUPOHAA5

RxTUPOHClkAB4

TxTUPOHFrameG3

TxTUPOHEnableD1

TxTUPOHClkH4

TxOHClkH3

R169

330

R169

330

C1 0.1uFC1 0.1uF

L6FBL6FB

L1FBL1FB

C19

0.1uF

C19

0.1uF

D5LED-1206

D5LED-1206

21

C180.1uFC180.1uF

L4FBL4FB

C11

0.1uF

C11

0.1uF

C25

0.1uF

C25

0.1uF

L37FB L37FB

C1690.1uF

C1690.1uF

GP1GP1

T1

RP22.7kRP22.7k

14

23

C9

0.1uF

C9

0.1uF

RP9

120

RP9

120

1423

U1219.44MHzU1219.44MHz

VDD4

OE1

OUT 3

GND 2

T36T36

T1

R83

1K

R83

1K

R96 4.7KR96 4.7K

C4 0.1uFC4 0.1uF

L3FBL3FB

T34T34

T1

U3BU3B

TTIP9 D11

TRNG9 B9

RTIP9 D10

RRNG9 E11

TTIP10 C8

TRNG10 E10

RTIP10 A5

RRNG10 B6

TTIP11 A4

TRNG11 C6

RTIP11 F9

RRNG11 E8

TTIP12 C5

TRNG12 F8

RTIP12 A2

RRNG12 B3

TTIP13 E5

TRNG13 C3

RTIP13 A1

RRNG13 B1

TxSTS1DatR5

TxSTS1ClkP3

TxSTS1FrmP2

TxA_PLN3

TxA_C1J1M2

TxA_ClkM1

TxA_ALK1

TxA_D0K2

TxA_DPL2

TxA_D2H1

TxA_D3J2

TxA_D1J1

TxA_D5H2

TxA_D6J3

TxA_D4G1

TxA_D7G2

RxV

ddB

14

RxV

ddD

13

RxV

ddA

9

RxV

ddA

7

RxV

ddE

9

RxV

ddA

3

RxV

ddF

7

TxV

ddA

13

TxV

ddE

13

TxV

ddC

10

TxV

ddD

9

TxV

ddB

5

TxV

ddD

6

TxV

ddD

4

RxG

ND

C14

RxG

ND

B12

RxG

ND

E12

RxG

ND

A6

RxG

ND

D8

RxG

ND

B4

RxG

ND

D5

TxG

ND

B13

TxG

ND

B11

TxG

ND

A8

TxG

ND

B7

TxG

ND

D7

TxG

ND

E7

TxG

ND

B2

Avd

dB

10

Avd

dF

10

Avd

dE

6

Avd

dA

16

Avd

dB

16

AG

ND

C11

AG

ND

C7

AG

ND

C4

AG

ND

D16

AG

ND

C16

Avd

dB

15A

GN

DA

15

RxD_D0Y3

RxD_D1AA2

RxD_D2AB1

RxD_D3AB2

RxD_D4AC1

RxD_D5AA4

RxD_D6AD1

RxD_D7AE1

RxD_ClkV2

RxD_DPV5


RxSTS1DatU1

RxSTS1ClkT1

RxSTS1FrmU2

RxSTS1LOSU5

TTIP14 AF4

TRNG14 AH2

RTIP14 AE5

RRNG14 AE4

TTIP15 AE8

TRNG15 AG5

RTIP15 AF6

RRNG15 AJ2

TTIP16 AJ4

TRNG16 AH5

RTIP16 AK2

RRNG16 AG6

TTIP17 AJ6

TRNG17 AK4

RTIP17 AJ5

RRNG17 AF9

GPIO_0AF2

GPIO_1AE3

GPIO_2AD4

GPIO_3AC5

GPIO_4C1

GPIO_5G4

GPIO_6D2

GPIO_7H5

ExINT0T3

ExINT1T5

TxA_FPP5

RxOHFrameY5

RxOHValidY4

RxOHAA3

RxOHClkW5

RxPOH_IndAB3

RxTUPOHFrameAD2

RxTUPOHValidAB5

RxTUPOHAA5

RxTUPOHClkAB4

TxTUPOHFrameG3

TxTUPOHEnableD1

TxTUPOHClkH4

TxOHClkH3

T30

Tx51_19M

T30

Tx51_19MT1

R94 4.7KR94 4.7K

C2 0.1uFC2 0.1uF

C1680.1uF

C1680.1uF

R87

1K

R87

1K

R92 4.7KR92 4.7K

T26T26

T1

C3

0.1uF

C3

0.1uF

R82

1K

R82

1K

GP4GP4

T1

R84

1K

R84

1K

R2 10R2 10

R79

1K

R79

1K

T32T32

T1

R108 0R108 0

67

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

Vcc3v3Dut

AD2

AD12

AD3

AD13

AD4

AD14

D1

AD5

AD15

D2

AD6

AD16

D3

AD7

AD17

D4

AD8

D5D6

AD10

AD1

D7

AD11

D0

AD0

AD9

AD[17:0]

D[7:0]

Vcc3v3DutVcc3v3Dut

Vcc1v8Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc3v3Dut

PCLK

RSTCS0RDWRDBEN

RDY0INT0

MCLKTx51_19M

uP0uP1uP2

TT4A

TT5A

RR5A

RT5ATR5A

TR4ART4A

RR4A

TT0A

TT1A

TR1ART1A

RR1A

RR6A

RT6ATR6A

TT6A

TR0A

TT2A

TT3A

RR3A

RT3ATR3A

TR2ART2A

RR2A

RT0A

RR0A

TT7A

TT8A

TR8ART8A

RR8A

TR7ART7A

RR7A

ALE

TT18A

TR19ART19A

RR19A

TT19A

RR18A

RT18ATR18A

RR20A

TT20A

TR20ART20A

RR21A

TT21A

TR21ART21A

RR22A

TT22A

TR22ART22A

RR23A

TT23A

TR23ART23A

RR24A

TT24A

TR24ART24A

RR25A

TT25A

TR25ART25A

RR26A

TT26A

TR26ART26A

RR27A

TT27A

TR27ART27A

Tx44MHz

Title


Date: Sheet of

B.1

XRT86SH328 "Master"

C



Title


Date: Sheet of

B.1

XRT86SH328 "Master"

C



Title


Date: Sheet of

B.1

XRT86SH328 "Master"

C




C51

0.1uF

C51

0.1uF

R1274.7K R1274.7K

U2AU2A

TTIP1 D25

TRNG1 E24

RTIP1 F23

RRNG1 D26

TTIP0 C28

TRNG0 E26

RTIP0 E27

RRNG0 D28

TTIP2 C25

TRNG2 D24

RTIP2 E23

RRNG2 C26

TTIP3 A26

TRNG3 B25

RTIP3 C24

RRNG3 A27

TTIP4 D20

TRNG4 A24

RTIP4 C22

RRNG4 D21

TTIP5 B20

TRNG5 B21

RTIP5 E18

RRNG5 C20

TTIP6 D17

TRNG6 C18

RTIP6 E17

RRNG6 A20

RxV

ddB

29

RxV

ddF

22

RxV

ddE

22

RxV

ddB

24

RxV

ddB

22

RxV

ddD

18

RxV

ddA

18

TxV

ddD

27

TxV

ddB

28

TxV

ddA

28

TxV

ddD

22

TxV

ddE

19

TxV

ddA

21

TxV

ddA

19

RxG

ND

F24

RxG

ND

A29

RxG

ND

F21

RxG

ND

C23

RxG

ND

C21

RxG

ND

C19

RxG

ND

B18

TxG

ND

F26

TxG

ND

C27

TxG

ND

B27

TxG

ND

E21

TxG

ND

B23

TxG

ND

D19

TxG

ND

B19

AG

ND

A30

AG

ND

D23

AG

ND

A22

AG

ND

C17

AG

ND

E16

AV

ddE

25

AV

ddB

26

AV

ddA

23

AV

ddB

17

AV

ddA

17

AV

ddJ2

5

TTIP7 D14

TRNG7 E14

RTIP7 C13

RRNG7 A12

TTIP8 A11

TRNG8 C12

RTIP8 D12

RRNG8 A10

RSTP1

CSU30

RDV28

WRY30

DBENP30

ALEV30

RDYR26

INTN30

A0AA30

A1V27

A2W29

A3W30

A4V29

A5U28

A6U29

A7T27

A8T29

A9R28

A10R27

A11R30

A12P29

A13N29

A14N28

A15M30

A16M29

A17L30

D0U26

D1U27

D2T26

D3T30

D4R29

D5P27

D6P26

D7N27

PCLKT28

uP0AH1

uP1AG2

uP2AF3

Tx51_19MR3

MClkE3

Tx44MHzR2

TRSTG5

TMSC2

TCKF4

TDIH6

TDOE4

ExtOscR1

xOscEnbF5

TestModeR4

VctVCXOE20

RClkOutC9

ScanEnbAD5

ScanModeL1

BLastP28

Is_E1A25

SENSE2AG14

ANALOG2AH14

ARING2AF15

ATIP2AJ14

SENSE1A14

ANALOG1D15

ARING1C15

ATIP1E15

DS2OutClkT2

DS2InClkT4

Req0Y29

Ack0W28

Req1W27

Ack1AA29R152 4.7kR152 4.7k

T7WR T7WRT 1

C49

0.1uF

C49

0.1uF

C63

0.1uF

C63

0.1uF

R47 10R47 10

R1474.7K R1474.7K

C58

0.1uF

C58

0.1uF

T8RD T8RDT 1

L22FBL22FB

C61

0.1uF

C61

0.1uF

T2PCLK T2PCLKT 1

C56

0.1uF

C56

0.1uF

T9CS0 T9CS0T 1

R1484.7K R1484.7K

C600.1uFC600.1uF

R149 10R149 10

L19FBL19FB

C53

0.1uF

C53

0.1uF

C590.1uFC590.1uF

R151 4.7kR151 4.7k

C52

0.1uF

C52

0.1uF

C550.1uFC55

0.1uF

R119 4.7kR119 4.7k

U2CU2C

TTIP18AJ8

TRNG18AG10

RTIP18AK6

RRNG18AJ7

TTIP19AF13

TRNG19AJ10

RTIP19AK8

RRNG19AJ9

TTIP20AF14

TRNG20AK11

RTIP20AH12

RRNG20AJ11

TxDS1Dat_14 AE2

TxDS1Clk_14 AF1

TxDS1Frm_14 AA6

TxDS1Frm_15 AC3

RxV

ddA

G4

RxV

ddA

J3R

xVdd

AK

3R

xVdd

AK

5R

xVdd

AG

11R

xVdd

AK

10R

xVdd

AK

12

TxV

ddA

G3

TxV

ddA

H4

TxV

ddA

F8

TxV

ddA

H7

TxV

ddA

H9

TxV

ddA

G12

TxV

ddA

J12

RxG

ND

AF

5R

xGN

DA

F7

RxG

ND

AG

7R

xGN

DA

F10

RxG

ND

AK

7R

xGN

DA

H11

RxG

ND

AH

13

TxG

ND

AJ1

TxG

ND

AK

1T

xGN

DA

E9

TxG

ND

AG

8T

xGN

DA

F11

TxG

ND

AK

9T

xGN

DA

G13

AG

ND

AE

7A

GN

DA

E10

AG

ND

AH

10

AG

ND

AF

16A

GN

DA

G16

AV

ddA

H3

AV

ddA

H6

AV

ddA

F12

AV

ddA

J16

AV

ddA

K15

TTIP21AK17

TRNG21AH17

RTIP21AK18

RRNG21AF17

TTIP22AK19

TRNG22AJ19

RTIP22AH19

RRNG22AF18

TTIP23AJ21

TRNG23AF19

RTIP23AH21

RRNG23AJ22

TTIP24AJ23

TRNG24AK25

RTIP24AG22

RRNG24AF21

TTIP25AG23

TRNG25AF22

RTIP25AJ26

RRNG25AH25

TTIP26AF23

TRNG26AJ27

RTIP26AG25

RRNG26AE23

TTIP27 AG26

TRNG27 AF25

RTIP27 AG27

RRNG27 AH28

TxDS1Dat_7 N2

TxDS1Clk_7 P4

TxDS1Frm_7 N1

TxDS1Dat_8 N4

TxDS1Clk_8 M3

TxDS1Dat_9 N5

TxDS1Clk_9 L3

TxDS1Frm_9 M4

TxDS1Dat_10 L4

TxDS1Clk_10 M5

TxDS1Frm_10 K3

TxDS1Clk_11 L5

TxDS1Frm_11 K4

TxDS1Frm_13 E2

EG_TxDS1Dat_0 F27

EG_TxDS1Dat_1 E28

TxDS1Frm_0 H25

EG_TxDS1Dat_3 F28

EG_TxDS1Dat_4 E29

EG_TxDS1Dat_2 G27

EG_TxDS1Dat_6 G28

EG_TxDS1Dat_7 F29

EG_TxDS1Dat_5 K25

EG_TxDS1SLOT0 H28

EG_TxDS1OHInd_0 F30

EG_TxDS1Valid J27

EG_TxDS1OHInd_2 K27

EG_TxDS1CLK H30

EG_TxDS1OHInd_1 L26

EG_TxDS1OHInd_4 J30

RxDS3LOS K29

EG_TxDS1OHInd_3 M26

RxDS3POS M28

RxDS3CLK N26RxDS3NEG L29

TxDS3OH AB29

TxDS3OHIns AB28

IG_TxDS1Dat_1 AA27IG_TxDS1Dat_0 AC29

TxDS3AISEn AF30

IG_TxDS1Dat_3 AB27IG_TxDS1Dat_2 AC28

IG_TxDS1Dat_5 AC27

IG_TxDS1Dat_6 AF29

IG_TxDS1Dat_4 AG30

IG_TxDS1Valid AD27IG_TxDS1SLOT0 AG29

IG_TxDS1Dat_7 AH30

IG_TxDS1OHInd_1 AH29

IG_TxDS1OHInd_2 AD26

IG_TxDS1OHInd_0 AE27


IG_TxDS1CLK AJ29

IG_TxDS1OHInd_3 AK30

TxOH F2

TxOHIns F1

TxPOH_Ind K5

TxOHFrame J4

TxTUPOHIns J5

TxTUPOH F3

R140

4.7k

R140

4.7k

C50

0.1uF

C50

0.1uF

R1304.7K R1304.7K

R121 4.7kR121 4.7k

R1264.7K R1264.7K

L20FBL20FB

T3D0 T3D0T 1

R150 10R150 10

C48

0.1uF

C48

0.1uF

C57

0.1uF

C57

0.1uF

T4A0 T4A0T 1

L18FBL18FB L17

FBL17FB

R1284.7K R1284.7K

T5RDY0 T5RDY0T 1

R52 4.7kR52 4.7k

L21 FBL21 FB

C54

0.1uF

C54

0.1uF

R120 4.7kR120 4.7k

R48 10R48 10

C62

0.1uF

C62

0.1uF T6DBEN T6DBENT 1

68

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

Vcc3v3Dut

AD0

AD2

AD12

AD9

D0

AD3

AD13

AD4

AD14

D1

AD5

AD15

D2

AD6

AD16

D3

AD7

AD17

D4

AD8

D5D6

AD10

AD1

D7

AD11

EG_S21_RxDat_1EG_S21_RxDat_0




EG_S21_RxDS1CLKEG_S21_RxDS1OHInd_0

EG_S21_RxDS1OHInd_3EG_S21_RxDS1OHInd_4


EG_S21_RxDS1ValidEG_S21_RxDS1SLOT0

IG_S21_RxDat_2IG_S21_RxDat_3



IG_S21_RxDS1CLKIG_S21_RxDS1OHInd_0

IG_S21_RxDS1OHInd_3IG_S21_RxDS1OHInd_4


IG_S21_RxDS1ValidIG_S21_RxDS1SLOT0






IG_S21_RxDS1CLKIG_S21_RxDS1ValidIG_S21_RxDS1SLOT0

IG_S21_RxDS1OHInd_0











AD[17:0]

D[7:0]

Vcc3v3Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc1v8DutVcc3v3Dut Vcc3v3Dut

Vcc3v3Dut

MCLK

INT1

Tx51_19M

PCLK

RSTCS1RD

uP0

WR

uP1

DBEN

uP2

RDY1

ALE

RR25B

TT25B

TR25BRT25B

RR21B

TT21B

TR21BRT21B

RR26B

TT26B

TR26BRT26B

RR22B

TT22B

TR22BRT22B

RR23B

TT23B

TR23BRT23B

TT18B

TR19BRT19B

RR19B

TT19B

RR18B

RT18BTR18B

RR20B

TT20B

TR20BRT20B

RR24B

TT24B

TR24BRT24B

RR27B

TT27B

TR27BRT27B

TT4B

TT5B

RR5B

RT5BTR5B

TR4BRT4B

RR4B

TT0B

TT1B

TR1BRT1B

RR1B

RR6B

RT6BTR6B

TT6B

TR0B

TT2B

TT3B

RR3B

RT3BTR3B

TR2BRT2B

RR2B

RT0B

RR0B

TT7B

TT8B

TR8BRT8B

RR8B

TR7BRT7B

RR7B

Tx44MHz

TxOHTxOHIns

TxOHFrameTxPOH_Ind

EG_S21_RxDat_0EG_S21_RxDat_1EG_S21_RxDat_2EG_S21_RxDat_3EG_S21_RxDat_4EG_S21_RxDat_5EG_S21_RxDat_6EG_S21_RxDat_7EG_S21_RxDS1SLOT0EG_S21_RxDS1ValidEG_S21_RxDS1CLKEG_S21_RxDS1OHInd_0EG_S21_RxDS1OHInd_1EG_S21_RxDS1OHInd_2EG_S21_RxDS1OHInd_3EG_S21_RxDS1OHInd_4

IG_S21_RxDS1SLOT0

IG_S21_RxDS1OHInd_4

IG_S21_RxDS1CLK


IG_S21_RxDS1OHInd_0


IG_S21_RxDS1OHInd_1

IG_S21_RxDat_6

IG_S21_RxDat_0

IG_S21_RxDS1OHInd_2

IG_S21_RxDS1Valid

IG_S21_RxDat_7

IG_S21_RxDat_1

IG_S21_RxDS1OHInd_3

Title


Date: Sheet of

B.1


C



<file name>

Title


Date: Sheet of

B.1


C



<file name>

Title


Date: Sheet of

B.1


C



<file name>


R29 10R29 10

R15 10R15 10

R34 10R34 10

R13 10R13 10

R31 10R31 10

R35 10R35 10

C96

0.1uF

C96

0.1uF

R11 10R11 10

L26FBL26FB

C103

0.1uF

C103

0.1uF

S4

HEADER 16

S4

HEADER 16

123456789

10111213141516

C86

0.1uF

C86

0.1uF

R8 10R8 10

U3CU3C

TTIP18AJ8

TRNG18AG10

RTIP18AK6

RRNG18AJ7

TTIP19AF13

TRNG19AJ10

RTIP19AK8

RRNG19AJ9

TTIP20AF14

TRNG20AK11

RTIP20AH12

RRNG20AJ11

TxDS1Dat_14 AE2

TxDS1Clk_14 AF1

TxDS1Frm_14 AA6

TxDS1Frm_15 AC3

RxV

ddA

G4

RxV

ddA

J3R

xVdd

AK

3R

xVdd

AK

5R

xVdd

AG

11R

xVdd

AK

10R

xVdd

AK

12

TxV

ddA

G3

TxV

ddA

H4

TxV

ddA

F8

TxV

ddA

H7

TxV

ddA

H9

TxV

ddA

G12

TxV

ddA

J12

RxG

ND

AF

5R

xGN

DA

F7

RxG

ND

AG

7R

xGN

DA

F10

RxG

ND

AK

7R

xGN

DA

H11

RxG

ND

AH

13

TxG

ND

AJ1

TxG

ND

AK

1T

xGN

DA

E9

TxG

ND

AG

8T

xGN

DA

F11

TxG

ND

AK

9T

xGN

DA

G13

AG

ND

AE

7A

GN

DA

E10

AG

ND

AH

10

AG

ND

AF

16A

GN

DA

G16

AV

ddA

H3

AV

ddA

H6

AV

ddA

F12

AV

ddA

J16

AV

ddA

K15

TTIP21AK17

TRNG21AH17

RTIP21AK18

RRNG21AF17

TTIP22AK19

TRNG22AJ19

RTIP22AH19

RRNG22AF18

TTIP23AJ21

TRNG23AF19

RTIP23AH21

RRNG23AJ22

TTIP24AJ23

TRNG24AK25

RTIP24AG22

RRNG24AF21

TTIP25AG23

TRNG25AF22

RTIP25AJ26

RRNG25AH25

TTIP26AF23

TRNG26AJ27

RTIP26AG25

RRNG26AE23

TTIP27 AG26

TRNG27 AF25

RTIP27 AG27

RRNG27 AH28

TxDS1Dat_7 N2

TxDS1Clk_7 P4

TxDS1Frm_7 N1

TxDS1Dat_8 N4

TxDS1Clk_8 M3

TxDS1Dat_9 N5

TxDS1Clk_9 L3

TxDS1Frm_9 M4

TxDS1Dat_10 L4

TxDS1Clk_10 M5

TxDS1Frm_10 K3

TxDS1Clk_11 L5

TxDS1Frm_11 K4

TxDS1Frm_13 E2

EG_TxDS1Dat_0 F27

EG_TxDS1Dat_1 E28

TxDS1Frm_0 H25

EG_TxDS1Dat_3 F28

EG_TxDS1Dat_4 E29

EG_TxDS1Dat_2 G27

EG_TxDS1Dat_6 G28

EG_TxDS1Dat_7 F29

EG_TxDS1Dat_5 K25

EG_TxDS1SLOT0 H28

EG_TxDS1OHInd_0 F30

EG_TxDS1Valid J27

EG_TxDS1OHInd_2 K27

EG_TxDS1CLK H30

EG_TxDS1OHInd_1 L26

EG_TxDS1OHInd_4 J30

RxDS3LOS K29

EG_TxDS1OHInd_3 M26

RxDS3POS M28


TxDS3OH AB29

TxDS3OHIns AB28


TxDS3AISEn AF30


IG_TxDS1Dat_5 AC27

IG_TxDS1Dat_6 AF29

IG_TxDS1Dat_4 AG30


IG_TxDS1Dat_7 AH30





IG_TxDS1CLK AJ29


TxOH F2

TxOHIns F1

TxPOH_Ind K5

TxOHFrame J4

TxTUPOHIns J5

TxTUPOH F3

R27 10R27 10

L28FBL28FB

L25FBL25FB

R116 4.7kR116 4.7k

U3AU3A

TTIP1 D25

TRNG1 E24

RTIP1 F23

RRNG1 D26

TTIP0 C28

TRNG0 E26

RTIP0 E27

RRNG0 D28

TTIP2 C25

TRNG2 D24

RTIP2 E23

RRNG2 C26

TTIP3 A26

TRNG3 B25

RTIP3 C24

RRNG3 A27

TTIP4 D20

TRNG4 A24

RTIP4 C22

RRNG4 D21

TTIP5 B20

TRNG5 B21

RTIP5 E18

RRNG5 C20

TTIP6 D17

TRNG6 C18

RTIP6 E17

RRNG6 A20

RxV

ddB

29

RxV

ddF

22

RxV

ddE

22

RxV

ddB

24

RxV

ddB

22

RxV

ddD

18

RxV

ddA

18

TxV

ddD

27

TxV

ddB

28

TxV

ddA

28

TxV

ddD

22

TxV

ddE

19

TxV

ddA

21

TxV

ddA

19

RxG

ND

F24

RxG

ND

A29

RxG

ND

F21

RxG

ND

C23

RxG

ND

C21

RxG

ND

C19

RxG

ND

B18

TxG

ND

F26

TxG

ND

C27

TxG

ND

B27

TxG

ND

E21

TxG

ND

B23

TxG

ND

D19

TxG

ND

B19

AG

ND

A30

AG

ND

D23

AG

ND

A22

AG

ND

C17

AG

ND

E16

AV

ddE

25

AV

ddB

26

AV

ddA

23

AV

ddB

17

AV

ddA

17

AV

ddJ2

5

TTIP7 D14

TRNG7 E14

RTIP7 C13

RRNG7 A12

TTIP8 A11

TRNG8 C12

RTIP8 D12

RRNG8 A10

RSTP1

CSU30

RDV28

WRY30

DBENP30

ALEV30

RDYR26

INTN30

A0AA30

A1V27

A2W29

A3W30

A4V29

A5U28

A6U29

A7T27

A8T29

A9R28

A10R27

A11R30

A12P29

A13N29

A14N28

A15M30

A16M29

A17L30

D0U26

D1U27

D2T26

D3T30

D4R29

D5P27

D6P26

D7N27

PCLKT28

uP0AH1

uP1AG2

uP2AF3

Tx51_19MR3

MClkE3

Tx44MHzR2

TRSTG5

TMSC2

TCKF4

TDIH6

TDOE4

ExtOscR1

xOscEnbF5

TestModeR4

VctVCXOE20

RClkOutC9

ScanEnbAD5

ScanModeL1

BLastP28

Is_E1A25

SENSE2AG14

ANALOG2AH14

ARING2AF15

ATIP2AJ14

SENSE1A14

ANALOG1D15

ARING1C15

ATIP1E15

DS2OutClkT2

DS2InClkT4

Req0Y29

Ack0W28

Req1W27

Ack1AA29

R22 10R22 10

R28 10R28 10

R141

4.7k

R141

4.7k

C82

0.1uF

C82

0.1uF

T14RDY1 T14RDY1T 1

R62 4.7kR62 4.7k

R156 10R156 10

R118 4.7kR118 4.7kR23 10R23 10

C100

0.1uF

C100

0.1uF

R20 10R20 10

R1534.7K R1534.7K

T17CS1 T17CS1T 1

R158 4.7kR158 4.7k

L27FBL27FB

R26 10R26 10

R18 10R18 10

C83

0.1uF

C83

0.1uF

C80

0.1uF

C80

0.1uF

C94

0.1uF

C94

0.1uF

C880.1uFC880.1uF

C101

0.1uF

C101

0.1uF

R1594.7K R1594.7K

R16 10R16 10

R1544.7K R1544.7K

C90

0.1uF

C90

0.1uF

R58 10R58 10

R14 10R14 10

R12 10R12 10

R33 10R33 10

C92

0.1uF

C92

0.1uF

C81

0.1uF

C81

0.1uF

R38 10R38 10R36 10R36 10

R30 10R30 10

R9 10R9 10

R5 10R5 10

C78

0.1uF

C78

0.1uF

S5

HEADER 16

S5

HEADER 16

12345678910111213141516

R7 10R7 10

C105

0.1uF

C105

0.1uF

R25 10R25 10

C79

0.1uF

C79

0.1uFL24FBL24FB

R117 4.7kR117 4.7k

C102

0.1uF

C102

0.1uF

C99

0.1uF

C99

0.1uF

R32 10R32 10

R24 10R24 10

L23FBL23FB

C85

0.1uF

C85

0.1uF

C77

0.1uF

C77

0.1uF

C93

0.1uF

C93

0.1uF

C91

0.1uF

C91

0.1uF

R59 10R59 10

C95

0.1uF

C95

0.1uF

R21 10R21 10

R155 10R155 10

R63 4.7kR63 4.7k

C87

0.1uF

C87

0.1uF

R37 10R37 10

C97

0.1uF

C97

0.1uF

C890.1uFC890.1uF

R19 10R19 10

R17 10R17 10

R1604.7K R1604.7K

C98

0.1uF

C98

0.1uF

R157 4.7kR157 4.7k

C840.1uFC84

0.1uF

C104

0.1uF

C104

0.1uF

69

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

AD0

AD2

AD12

D0

AD3

AD13

AD4

AD14

D1

AD5

AD15

D2

AD6

AD16

D3

AD7

AD17

D4

AD8

D5D6

AD10

AD1

D7

AD11

AD9











IG_S12_RxDS1CLKIG_S12_RxDS1OHInd_0









IG_S12_RxDS1CLK

IG_S12_RxDS1OHInd_0













AD[17:0]

D[7:0]

Vcc3v3Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc3v3Dut

Vcc3v3Dut

MCLK

INT2

Tx51_19M

PCLK

RSTCS2RD

uP0

WR

uP1

DBEN

uP2

RDY2

ALE

RR25C

TT25C

TR25CRT25C

RR21C

TT21C

TR21CRT21C

RR26C

TT26C

TR26CRT26C

RR22C

TT22C

TR22CRT22C

RR23C

TT23C

TR23CRT23C

TT18C

TR19CRT19C

RR19C

TT19C

RR18C

RT18CTR18C

RR20C

TT20C

TR20CRT20C

RR24C

TT24C

TR24CRT24C

RR27C

TT27C

TR27CRT27C

TT4C

TT5C

RR5C

RT5CTR5C

TR4CRT4C

RR4C

TT0C

TT1C

TR1CRT1C

RR1C

RR6C

RT6CTR6C

TT6C

TR0C

TT2C

TT3C

RR3C

RT3CTR3C

TR2CRT2C

RR2C

RT0C

RR0C

TT7C

TT8C

TR8CRT8C

RR8C

TR7CRT7C

RR7C

Tx44MHz

EG_S12_RxDS1SLOT0

EG_S12_RxDS1OHInd_4

EG_S12_RxDS1CLK


EG_S12_RxDS1OHInd_0


EG_S12_RxDS1OHInd_1

EG_S12_RxDat_6

EG_S12_RxDat_0

EG_S12_RxDS1OHInd_2

EG_S12_RxDS1Valid

EG_S12_RxDat_7

EG_S12_RxDat_1

EG_S12_RxDS1OHInd_3

IG_S12_RxDS1SLOT0

IG_S12_RxDS1OHInd_4

IG_S12_RxDS1CLK


IG_S12_RxDS1OHInd_0


IG_S12_RxDS1OHInd_1

IG_S12_RxDat_6

IG_S12_RxDat_0

IG_S12_RxDS1OHInd_2

IG_S12_RxDS1Valid

IG_S12_RxDat_7

IG_S12_RxDat_1

IG_S12_RxDS1OHInd_3

Title


Date: Sheet of

ORION Reference Design 2b B.1


C


Title


Date: Sheet of



C


Title


Date: Sheet of



C



R60 10R60 10

R51 10R51 10

R112 10R112 10

R55 10R55 10

R64 10R64 10

R68 10R68 10

R71 10R71 10

R115 4.7kR115 4.7k

C125

0.1uF

C125

0.1uF

C115

0.1uF

C115

0.1uF

R166 4.7kR166 4.7k

R1674.7K R1674.7K

L32FBL32FB

C132

0.1uF

C132

0.1uF

R44 10R44 10

L34FBL34FB

R67 10R67 10

S7

HEADER 16

S7

HEADER 16

12345678910111213141516

L31FBL31FB

R54 10R54 10

R40 10R40 10

R73 4.7kR73 4.7k

R66 10R66 10

C111

0.1uF

C111

0.1uF

T22RDY2 T22RDY2T 1

R1624.7K R1624.7K

R113 4.7kR113 4.7k

C129

0.1uF

C129

0.1uF

R61 10R61 10

R129 10R129 10

C112

0.1uF

C112

0.1uF

C109

0.1uF

C109

0.1uF

C123

0.1uF

C123

0.1uF

C1170.1uFC1170.1uF

R124 10R124 10

R75 10R75 10

R1364.7K R1364.7K

T25CS2 T25CS2T 1

R50 10R50 10

U4CU4C

TTIP18AJ8

TRNG18AG10

RTIP18AK6

RRNG18AJ7

TTIP19AF13

TRNG19AJ10

RTIP19AK8

RRNG19AJ9

TTIP20AF14

TRNG20AK11

RTIP20AH12

RRNG20AJ11

TxDS1Dat_14 AE2

TxDS1Clk_14 AF1

TxDS1Frm_14 AA6

TxDS1Frm_15 AC3

RxV

ddA

G4

RxV

ddA

J3R

xVdd

AK

3R

xVdd

AK

5R

xVdd

AG

11R

xVdd

AK

10R

xVdd

AK

12

TxV

ddA

G3

TxV

ddA

H4

TxV

ddA

F8

TxV

ddA

H7

TxV

ddA

H9

TxV

ddA

G12

TxV

ddA

J12

RxG

ND

AF

5R

xGN

DA

F7

RxG

ND

AG

7R

xGN

DA

F10

RxG

ND

AK

7R

xGN

DA

H11

RxG

ND

AH

13

TxG

ND

AJ1

TxG

ND

AK

1T

xGN

DA

E9

TxG

ND

AG

8T

xGN

DA

F11

TxG

ND

AK

9T

xGN

DA

G13

AG

ND

AE

7A

GN

DA

E10

AG

ND

AH

10

AG

ND

AF

16A

GN

DA

G16

AV

ddA

H3

AV

ddA

H6

AV

ddA

F12

AV

ddA

J16

AV

ddA

K15

TTIP21AK17

TRNG21AH17

RTIP21AK18

RRNG21AF17

TTIP22AK19

TRNG22AJ19

RTIP22AH19

RRNG22AF18

TTIP23AJ21

TRNG23AF19

RTIP23AH21

RRNG23AJ22

TTIP24AJ23

TRNG24AK25

RTIP24AG22

RRNG24AF21

TTIP25AG23

TRNG25AF22

RTIP25AJ26

RRNG25AH25

TTIP26AF23

TRNG26AJ27

RTIP26AG25

RRNG26AE23

TTIP27 AG26

TRNG27 AF25

RTIP27 AG27

RRNG27 AH28

TxDS1Dat_7 N2

TxDS1Clk_7 P4

TxDS1Frm_7 N1

TxDS1Dat_8 N4

TxDS1Clk_8 M3

TxDS1Dat_9 N5

TxDS1Clk_9 L3

TxDS1Frm_9 M4

TxDS1Dat_10 L4

TxDS1Clk_10 M5

TxDS1Frm_10 K3

TxDS1Clk_11 L5

TxDS1Frm_11 K4

TxDS1Frm_13 E2

EG_TxDS1Dat_0 F27

EG_TxDS1Dat_1 E28

TxDS1Frm_0 H25

EG_TxDS1Dat_3 F28

EG_TxDS1Dat_4 E29

EG_TxDS1Dat_2 G27

EG_TxDS1Dat_6 G28

EG_TxDS1Dat_7 F29

EG_TxDS1Dat_5 K25

EG_TxDS1SLOT0 H28

EG_TxDS1OHInd_0 F30

EG_TxDS1Valid J27

EG_TxDS1OHInd_2 K27

EG_TxDS1CLK H30

EG_TxDS1OHInd_1 L26

EG_TxDS1OHInd_4 J30

RxDS3LOS K29

EG_TxDS1OHInd_3 M26

RxDS3POS M28


TxDS3OH AB29

TxDS3OHIns AB28


TxDS3AISEn AF30


IG_TxDS1Dat_5 AC27

IG_TxDS1Dat_6 AF29

IG_TxDS1Dat_4 AG30


IG_TxDS1Dat_7 AH30





IG_TxDS1CLK AJ29


TxOH F2

TxOHIns F1

TxPOH_Ind K5

TxOHFrame J4

TxTUPOHIns J5

TxTUPOH F3

C119

0.1uF

C119

0.1uF

C130

0.1uF

C130

0.1uF

R164 10R164 10

R53 10R53 10

R114 4.7kR114 4.7k

R56 10R56 10

R142

4.7k

R142

4.7k

R69 10R69 10

R131 10R131 10

C110

0.1uF

C110

0.1uF

R57 10R57 10

R89 10R89 10

R163 10R163 10

C121

0.1uF

C121

0.1uF

C107

0.1uF

C107

0.1uF

L33FBL33FB

R1684.7K R1684.7K

C108

0.1uF

C108

0.1uF

U4AU4A

TTIP1 D25

TRNG1 E24

RTIP1 F23

RRNG1 D26

TTIP0 C28

TRNG0 E26

RTIP0 E27

RRNG0 D28

TTIP2 C25

TRNG2 D24

RTIP2 E23

RRNG2 C26

TTIP3 A26

TRNG3 B25

RTIP3 C24

RRNG3 A27

TTIP4 D20

TRNG4 A24

RTIP4 C22

RRNG4 D21

TTIP5 B20

TRNG5 B21

RTIP5 E18

RRNG5 C20

TTIP6 D17

TRNG6 C18

RTIP6 E17

RRNG6 A20

RxV

ddB

29

RxV

ddF

22

RxV

ddE

22

RxV

ddB

24

RxV

ddB

22

RxV

ddD

18

RxV

ddA

18

TxV

ddD

27

TxV

ddB

28

TxV

ddA

28

TxV

ddD

22

TxV

ddE

19

TxV

ddA

21

TxV

ddA

19

RxG

ND

F24

RxG

ND

A29

RxG

ND

F21

RxG

ND

C23

RxG

ND

C21

RxG

ND

C19

RxG

ND

B18

TxG

ND

F26

TxG

ND

C27

TxG

ND

B27

TxG

ND

E21

TxG

ND

B23

TxG

ND

D19

TxG

ND

B19

AG

ND

A30

AG

ND

D23

AG

ND

A22

AG

ND

C17

AG

ND

E16

AV

ddE

25

AV

ddB

26

AV

ddA

23

AV

ddB

17

AV

ddA

17

AV

ddJ2

5

TTIP7 D14

TRNG7 E14

RTIP7 C13

RRNG7 A12

TTIP8 A11

TRNG8 C12

RTIP8 D12

RRNG8 A10

RSTP1

CSU30

RDV28

WRY30

DBENP30

ALEV30

RDYR26

INTN30

A0AA30

A1V27

A2W29

A3W30

A4V29

A5U28

A6U29

A7T27

A8T29

A9R28

A10R27

A11R30

A12P29

A13N29

A14N28

A15M30

A16M29

A17L30

D0U26

D1U27

D2T26

D3T30

D4R29

D5P27

D6P26

D7N27

PCLKT28

uP0AH1

uP1AG2

uP2AF3

Tx51_19MR3

MClkE3

Tx44MHzR2

TRSTG5

TMSC2

TCKF4

TDIH6

TDOE4

ExtOscR1

xOscEnbF5

TestModeR4

VctVCXOE20

RClkOutC9

ScanEnbAD5

ScanModeL1

BLastP28

Is_E1A25

SENSE2AG14

ANALOG2AH14

ARING2AF15

ATIP2AJ14

SENSE1A14

ANALOG1D15

ARING1C15

ATIP1E15

DS2OutClkT2

DS2InClkT4

Req0Y29

Ack0W28

Req1W27

Ack1AA29

L30FBL30FB

R125 10R125 10

R1374.7K R1374.7K

R46 10R46 10

R165 4.7kR165 4.7kR123 10R123 10

R1354.7K R1354.7K

C134

0.1uF

C134

0.1uF

R39 10R39 10

R49 10R49 10

L29FBL29FB

C114

0.1uF

C114

0.1uF

R1614.7K R1614.7K

C131

0.1uF

C131

0.1uF

C128

0.1uF

C128

0.1uF

R70 10R70 10

C124

0.1uF

C124

0.1uF

R65 10R65 10

C106

0.1uF

C106

0.1uF

C122

0.1uF

C122

0.1uF

C120

0.1uF

C120

0.1uF

R72 10R72 10

C116

0.1uF

C116

0.1uF

C126

0.1uF

C126

0.1uF

C1180.1uFC1180.1uF

R76 10R76 10

R45 10R45 10

R122 10R122 10 R74 4.7kR74 4.7k

R1394.7K R1394.7K

C1130.1uFC113

0.1uF

C133

0.1uF

C133

0.1uF

S6

HEADER 16

S6

HEADER 16

123456789

10111213141516

C127

0.1uF

C127

0.1uF

70

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

Vcc1v8Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc3v3Dut

Vcc1v8Dut

Vcc3v3Dut

TxOHEnable

IG_S21_RxDS1SLOT0

IG_S21_RxDS1OHInd_4

IG_S21_RxDS1CLK


IG_S21_RxDS1OHInd_0


IG_S21_RxDS1OHInd_1

IG_S21_RxDat_6

IG_S21_RxDat_0

IG_S21_RxDS1OHInd_2

IG_S21_RxDS1Valid

IG_S21_RxDat_7

IG_S21_RxDat_1

IG_S21_RxDS1OHInd_3

EG_S21_RxDS1SLOT0

EG_S21_RxDS1OHInd_4

EG_S21_RxDS1CLK


EG_S21_RxDS1OHInd_0


EG_S21_RxDS1OHInd_1

EG_S21_RxDat_6

EG_S21_RxDat_0

EG_S21_RxDS1OHInd_2

EG_S21_RxDS1Valid

EG_S21_RxDat_7

EG_S21_RxDat_1

EG_S21_RxDS1OHInd_3

IG_S12_RxDS1SLOT0

IG_S12_RxDS1OHInd_4

IG_S12_RxDS1CLK


IG_S12_RxDS1OHInd_0


IG_S12_RxDS1OHInd_1

IG_S12_RxDat_6

IG_S12_RxDat_0

IG_S12_RxDS1OHInd_2

IG_S12_RxDS1Valid

IG_S12_RxDat_7

IG_S12_RxDat_1

IG_S12_RxDS1OHInd_3

EG_S12_RxDS1SLOT0

EG_S12_RxDS1OHInd_4

EG_S12_RxDS1CLK


EG_S12_RxDS1OHInd_0


EG_S12_RxDS1OHInd_1

EG_S12_RxDat_6

EG_S12_RxDat_0

EG_S12_RxDS1OHInd_2

EG_S12_RxDS1Valid

EG_S12_RxDat_7

EG_S12_RxDat_1

EG_S12_RxDS1OHInd_3

Title


Date: Sheet of


Voyager (XRT86SH328) - misc

C


Title


Date: Sheet of



C


Title


Date: Sheet of



C



L46 FBL46 FB

C155

0.1uF

C155

0.1uFL41FBL41FB

C161

0.1uF

C161

0.1uF

L43FBL43FB

C152

0.1uF

C152

0.1uF

U4DU4D

TxDS3Pos Y28

TxDS3CLK AB30TxDS3Neg V26

TxDS3OHEnable W26

TxDS3OHClk AD30

TxDS3OHFrame Y27

IG_RxDS1Dat_3 Y26

IG_RxDS1Dat_4 AD29

IG_RxDS1Dat_2 AE30

IG_RxDS1Dat_6 AA26

IG_RxDS1Dat_7 AD28

IG_RxDS1Dat_5 AE29

IG_RxDS1VALID AA25IG_RxDS1SLOT0 AE28

RxDS1Frm_25AB26

IG_RxDS1OHInd_1 AF28

IG_RxDS1OHInd_2 AJ30

IG_RxDS1OHInd_0 AC26


IG_RxDS1CLK AF27

IG_RxDS1OHInd_3 AG28

RxV

ddA

H16

RxV

ddA

J18

RxV

ddA

K21

RxV

ddA

F20

RxV

ddA

J25

RxV

ddA

G24

RxV

ddA

J28

TxV

ddA

G18

TxV

ddA

K22

TxV

ddA

K24

TxV

ddA

E21

TxV

ddA

K28

TxV

ddA

E24

TxV

ddA

J17

RxG

ND

AK

16R

xGN

DA

H18

RxG

ND

AH

20R

xGN

DA

G21

RxG

ND

AH

24R

xGN

DA

E22

RxG

ND

AH

27

TxG

ND

AG

17T

xGN

DA

K20

TxG

ND

AG

20T

xGN

DA

J24

TxG

ND

AK

27T

xGN

DA

H26

TxG

ND

AF

26

AV

ddA

G19

AV

ddA

K26

AV

ddA

K29

AV

ddA

K14

AV

ddA

G15

AG

ND

AJ2

0A

GN

DA

H23

AG

ND

AF

24

AG

ND

AJ1

5A

GN

DA

H15

AV

ddA

K13

AG

ND

AJ1

3

Vdd1v8P14

Vdd1v8P15

Vdd1v8P16

Vdd1v8P17

Vdd1v8R14

Vdd1v8R15

Vdd1v8R16

Vdd1v8R17

Vdd1v8T14

Vdd1v8T15

Vdd1v8T16

Vdd1v8T17

Vdd1v8U14

Vdd1v8U15

Vdd1v8U16

Vdd1v8U17

Vdd1v8AB25

Vdd1v8AD3

Vdd1v8J6

Vdd3v3N15

Vdd3v3N16

Vdd3v3R13

Vdd3v3R18

Vdd3v3T13

Vdd3v3T18

Vdd3v3V15

Vdd3v3V16

RxDS1Clk_12E1RxDS1Dat_14AC4RxDS1Frm_14AG1RxDS1Frm_16AC2RxDS1Dat_18W4RxDS1Clk_18Y2RxDS1Frm_18AA1RxDS1Dat_19V4RxDS1Clk_19W1RxDS1Frm_19W2RxDS1Dat_20U4RxDS1Clk_20U3RxDS1Frm_20V1

GNDN13

GNDN14

GNDN17

GNDN18

GNDP13

GNDP18

GNDU13

GNDU18

GNDV13

GNDV14

GNDV17

GNDV18

GNDD3

GNDG6

GNDG25

GNDAC6

GNDAD6

GNDAD25

EG_RxDS1Dat_1 B30

EG_RxDS1Dat_2 G26

EG_RxDS1Dat_0 C29

EG_RxDS1Dat_4 C30

EG_RxDS1Dat_5 H26

EG_RxDS1Dat_3 D29

EG_RxDS1Dat_7 H27

RxDS1Clk_2J26

EG_RxDS1Dat_6 D30

EG_RxDS1SLOT0 G29

EG_RxDS1OHInd_0 K26

EG_RxDS1Valid E30

EG_RxDS1OHInd_2 H29

RxDS3OHEnable J28

EG_RxDS1OHInd_1 G30

RxDS3OH K28

RxDS3OHCLK L27

RxDS3OHFrame J29

EG_RxDS1OHInd_4 K30

EG_RxDS1CLK M27

EG_RxDS1OHInd_3 L28

IG_RxDS1Dat_0 AC30

IG_RxDS1Dat_1 AA28

C164

0.1uF

C164

0.1uF

C144

0.1uF

C144

0.1uF

C166

0.1uF

C166

0.1uF

C153

0.1uF

C153

0.1uF

U3DU3D

TxDS3PosY28

TxDS3CLKAB30TxDS3NegV26

TxDS3OHEnableW26

TxDS3OHClkAD30

TxDS3OHFrameY27

IG_RxDS1Dat_3Y26

IG_RxDS1Dat_4AD29

IG_RxDS1Dat_2AE30

IG_RxDS1Dat_6AA26

IG_RxDS1Dat_7AD28

IG_RxDS1Dat_5AE29

IG_RxDS1VALIDAA25IG_RxDS1SLOT0AE28

RxDS1Frm_25 AB26

IG_RxDS1OHInd_1AF28

IG_RxDS1OHInd_2AJ30

IG_RxDS1OHInd_0AC26

IG_RxDS1OHInd_4AC25

IG_RxDS1CLKAF27

IG_RxDS1OHInd_3AG28

RxV

ddA

H16

RxV

ddA

J18

RxV

ddA

K21

RxV

ddA

F20

RxV

ddA

J25

RxV

ddA

G24

RxV

ddA

J28

TxV

ddA

G18

TxV

ddA

K22

TxV

ddA

K24

TxV

ddA

E21

TxV

ddA

K28

TxV

ddA

E24

TxV

ddA

J17

RxG

ND

AK

16

RxG

ND

AH

18

RxG

ND

AH

20

RxG

ND

AG

21

RxG

ND

AH

24

RxG

ND

AE

22

RxG

ND

AH

27

TxG

ND

AG

17

TxG

ND

AK

20

TxG

ND

AG

20

TxG

ND

AJ2

4

TxG

ND

AK

27

TxG

ND

AH

26

TxG

ND

AF

26

AV

ddA

G19

AV

ddA

K26

AV

ddA

K29

AV

ddA

K14

AV

ddA

G15

AG

ND

AJ2

0

AG

ND

AH

23

AG

ND

AF

24

AG

ND

AJ1

5

AG

ND

AH

15

AV

ddA

K13

AG

ND

AJ1

3

Vdd1v8 P14

Vdd1v8 P15

Vdd1v8 P16

Vdd1v8 P17

Vdd1v8 R14

Vdd1v8 R15

Vdd1v8 R16

Vdd1v8 R17

Vdd1v8 T14

Vdd1v8 T15

Vdd1v8 T16

Vdd1v8 T17

Vdd1v8 U14

Vdd1v8 U15

Vdd1v8 U16

Vdd1v8 U17

Vdd1v8 AB25

Vdd1v8 AD3

Vdd1v8 J6

Vdd3v3 N15

Vdd3v3 N16

Vdd3v3 R13

Vdd3v3 R18

Vdd3v3 T13

Vdd3v3 T18

Vdd3v3 V15

Vdd3v3 V16

RxDS1Clk_12 E1RxDS1Dat_14 AC4RxDS1Frm_14 AG1RxDS1Frm_16 AC2RxDS1Dat_18 W4RxDS1Clk_18 Y2

RxDS1Frm_18 AA1RxDS1Dat_19 V4RxDS1Clk_19 W1

RxDS1Frm_19 W2RxDS1Dat_20 U4RxDS1Clk_20 U3

RxDS1Frm_20 V1

GND N13

GND N14

GND N17

GND N18

GND P13

GND P18

GND U13

GND U18

GND V13

GND V14

GND V17

GND V18

GND D3

GND G6

GND G25

GND AC6

GND AD6

GND AD25

EG_RxDS1Dat_1B30

EG_RxDS1Dat_2G26

EG_RxDS1Dat_0C29

EG_RxDS1Dat_4C30

EG_RxDS1Dat_5H26

EG_RxDS1Dat_3D29

EG_RxDS1Dat_7H27

RxDS1Clk_2 J26

EG_RxDS1Dat_6D30

EG_RxDS1SLOT0G29

EG_RxDS1OHInd_0K26

EG_RxDS1ValidE30

EG_RxDS1OHInd_2H29

RxDS3OHEnableJ28

EG_RxDS1OHInd_1G30

RxDS3OHK28

RxDS3OHCLKL27

RxDS3OHFrameJ29

EG_RxDS1OHInd_4K30

EG_RxDS1CLKM27

EG_RxDS1OHInd_3L28

IG_RxDS1Dat_0AC30

IG_RxDS1Dat_1AA28

C158

0.1uF

C158

0.1uF

C162

0.1uF

C162

0.1uF

L42FBL42FB

C160

0.1uF

C160

0.1uF

U2DU2D

TxDS3Pos Y28

TxDS3CLK AB30TxDS3Neg V26

TxDS3OHEnable W26

TxDS3OHClk AD30

TxDS3OHFrame Y27

IG_RxDS1Dat_3 Y26

IG_RxDS1Dat_4 AD29

IG_RxDS1Dat_2 AE30

IG_RxDS1Dat_6 AA26

IG_RxDS1Dat_7 AD28

IG_RxDS1Dat_5 AE29

IG_RxDS1VALID AA25IG_RxDS1SLOT0 AE28

RxDS1Frm_25AB26

IG_RxDS1OHInd_1 AF28

IG_RxDS1OHInd_2 AJ30



IG_RxDS1CLK AF27

IG_RxDS1OHInd_3 AG28

RxV

ddA

H16

RxV

ddA

J18

RxV

ddA

K21

RxV

ddA

F20

RxV

ddA

J25

RxV

ddA

G24

RxV

ddA

J28

TxV

ddA

G18

TxV

ddA

K22

TxV

ddA

K24

TxV

ddA

E21

TxV

ddA

K28

TxV

ddA

E24

TxV

ddA

J17

RxG

ND

AK

16R

xGN

DA

H18

RxG

ND

AH

20R

xGN

DA

G21

RxG

ND

AH

24R

xGN

DA

E22

RxG

ND

AH

27

TxG

ND

AG

17T

xGN

DA

K20

TxG

ND

AG

20T

xGN

DA

J24

TxG

ND

AK

27T

xGN

DA

H26

TxG

ND

AF

26

AV

ddA

G19

AV

ddA

K26

AV

ddA

K29

AV

ddA

K14

AV

ddA

G15

AG

ND

AJ2

0A

GN

DA

H23

AG

ND

AF

24

AG

ND

AJ1

5A

GN

DA

H15

AV

ddA

K13

AG

ND

AJ1

3

Vdd1v8P14

Vdd1v8P15

Vdd1v8P16

Vdd1v8P17

Vdd1v8R14

Vdd1v8R15

Vdd1v8R16

Vdd1v8R17

Vdd1v8T14

Vdd1v8T15

Vdd1v8T16

Vdd1v8T17

Vdd1v8U14

Vdd1v8U15

Vdd1v8U16

Vdd1v8U17

Vdd1v8AB25

Vdd1v8AD3

Vdd1v8J6

Vdd3v3N15

Vdd3v3N16

Vdd3v3R13

Vdd3v3R18

Vdd3v3T13

Vdd3v3T18

Vdd3v3V15

Vdd3v3V16

RxDS1Clk_12E1RxDS1Dat_14AC4RxDS1Frm_14AG1RxDS1Frm_16AC2RxDS1Dat_18W4RxDS1Clk_18Y2RxDS1Frm_18AA1RxDS1Dat_19V4RxDS1Clk_19W1RxDS1Frm_19W2RxDS1Dat_20U4RxDS1Clk_20U3RxDS1Frm_20V1

GNDN13

GNDN14

GNDN17

GNDN18

GNDP13

GNDP18

GNDU13

GNDU18

GNDV13

GNDV14

GNDV17

GNDV18

GNDD3

GNDG6

GNDG25

GNDAC6

GNDAD6

GNDAD25

EG_RxDS1Dat_1 B30

EG_RxDS1Dat_2 G26

EG_RxDS1Dat_0 C29

EG_RxDS1Dat_4 C30

EG_RxDS1Dat_5 H26

EG_RxDS1Dat_3 D29

EG_RxDS1Dat_7 H27

RxDS1Clk_2J26

EG_RxDS1Dat_6 D30

EG_RxDS1SLOT0 G29

EG_RxDS1OHInd_0 K26

EG_RxDS1Valid E30

EG_RxDS1OHInd_2 H29

RxDS3OHEnable J28

EG_RxDS1OHInd_1 G30

RxDS3OH K28

RxDS3OHCLK L27

RxDS3OHFrame J29

EG_RxDS1OHInd_4 K30

EG_RxDS1CLK M27

EG_RxDS1OHInd_3 L28

IG_RxDS1Dat_0 AC30

IG_RxDS1Dat_1 AA28

C151

0.1uF

C151

0.1uFC150

0.1uF

C150

0.1uF

C157

0.1uF

C157

0.1uF

C165

0.1uF

C165

0.1uF

C156

0.1uF

C156

0.1uFC145

0.1uF

C145

0.1uF

C167

0.1uF

C167

0.1uF

C154

0.1uF

C154

0.1uF

C159

0.1uF

C159

0.1uF

L40FBL40FB

L45FB L45FB

L39FBL39FB

C149

0.1uF

C149

0.1uF

C163

0.1uF

C163

0.1uFL44 FBL44 FB

C146

0.1uF

C146

0.1uF

C148

0.1uF

C148

0.1uFC147

0.1uF

C147

0.1uF

L38FBL38FB

71

5

5

4

4

3

3

2

2

1

1

D D

C C

B B

A A

AD0

AD1

AD2

AD3

AD4

AD5

AD6

AD7

AD8

AD9

AD10

AD11

AD12

AD13

AD14

AD15

AD16

AD17

D0

D1

D2

D3

D4

D5

D6

D7

AD[17:0]

D[7:0]

PWRPWRPWRPWRPWRPWRPWRPWRPWRPWR

TT0A

TT5A

TT10A

TT15A

TR0A

TR5A

TR10A

TR15A

TT0B

TT5B

TT10B

TT15B

TR0B

TR5B

TR10B

TR15B

TT0C

TT5C

TT10C

TT15C

TR0C

TR5C

TR10C

TR15C

TT11C

TT16C

TR1C

TR6C

TR11C

TR16C

TT1A

TT6A

TT11A

TT16A

TR1A

TR6A

TR11A

TR16A

TT1B

TT6B

TT11B

TT16B

TR1B

TR6B

TR11B

TR16B

TT1C

TT6C

TT12C

TT17C

TR2C

TR7C

TR12C

TR17C

TT2A

TT7A

TT12A

TT17A

TR2A

TR7A

TR12A

TR17A

TT2B

TT7B

TT12B

TT17B

TR2B

TR7B

TR12B

TR17B

TT2C

TT7C

TT18C

TR3C

TR8C

TR18C

TT3A

TT8A

TT18A

TR8A

TR13A

TR18A

TT3B

TT8B

TT18B

TR3B

TR8B

TR18B

TT3C

TT8C

TT14C

TT19C

TR4C

TR9C

TR14C

TR19C

TT4A

TT9A

TT14A

TT19A

TR9A

TR14A

TR19A

TT4B

TT9B

TT14B

TT19B

TR4B

TR9B

TR14B

TR19B

TT4C

TT9C

CS0

CS1

CS2

INT0

INT1

INT2

DBEN

RD

WR

RST

PCLK

RDY0

RDY1

RDY2

LOSext

CMUFreqSel

DLOSDis

OOF

CDRDis

STS12/STS3

CDRRefSel

CDRAuxRefSel

uP0

uP1

uP2

PSW0

PSW1

CLK0

CLK1

TR3A TR4A

TT20A

TT13A

TR20A

TT20B

TT13B

TR20B

TR13B

TT20C

TT13C

TR20C

TR13C

RT10C

RT15C

RR0C

RR5C

RR10C

RR15C

RT20C

RR20A

RT20A

RR20B

RT0A

RT5A

RT10A

RT15A

RT20B

RR0A

RR5A

RR10A

RR15A

RT0B

RT5B

RT10B

RT15B

RR20C

RR0B

RR5B

RR10B

RR15B

RT0C

RT5C

RT11C

RT16C

RR1C

RR6C

RR11C

RR16C

RT1A

RT6A

RT11A

RT16A

RR1A

RR6A

RR11A

RR16A

RT1B

RT6B

RT11B

RT16B

RR1B

RR6B

RR11B

RR16B

RT1C

RT6C

RT12C

RT17C

RR2C

RR7C

RR12C

RR17C

RT2A

RT7A

RT12A

RT17A

RR2A

RR7A

RR12A

RR17A

RT2B

RT7B

RT12B

RT17B

RR2B

RR7B

RR12B

RR17B

RT2C

RT7C

RR3A

RT13B

RR13C

RT18C

RR3C

RR8C

RR18C

RT3A

RT8A

RT18A

RR8A

RR13A

RR18A

RT3B

RT8B

RT18B

RR3B

RR8B

RR18B

RT3C

RT8C

RT13C

RT13A

RR13B

RR4A

RT14C

RT19C

RR4C

RR9C

RR14C

RR19C

RT4A

RT9A

RT14A

RT19A

RR9A

RR14A

RR19A

RT4B

RT9B

RT14B

RT19B

RR4B

RR9B

RR14B

RR19B

RT4C

RT9C

ALE

Red Alarm

Yellow Alarm

Blue Alarm 1

Blue Alarm 2

TT21A TT22A TT23A TT24A

TT25A TT26A TT27A

TR21A TR22A TR23A TR24A

TR25A TR26A TR27A

TT21B TT22B TT23B TT24B

TT25B TT26B TT27B

TR21B TR22B TR23B TR24B

TR25B TR26B TR27B

TT21C TT22C TT23C TT24C

TT25C TT26C TT27C

TR21C TR22C TR23C TR24C

TR25C TR26C TR27C

RT21A RT22A RT23A RT24A

RT25A RT26A RT27A

RR21A RR22A RR23A RR24A

RR25A RR26A RR27A

RT21B RT22B RT23B RT24B

RT25B RT26B RT27B

RR21B RR22B RR23B RR24B

RR25B RR26B RR27B

RT21C RT22C RT23C RT24C

RT25C RT26C RT27C

RR21C RR22C RR23C RR24C

RR25C RR26C RR27C

TxSBFP

Title


Date: Sheet of

B.1


C



Title


Date: Sheet of

B.1


C



Title


Date: Sheet of

B.1


C



Transmit Receive


H1E

FBUS_240

H1E

FBUS_240

E1E1

E2E2

E3E3

E4E4

E5E5

E6E6

E7E7

E8E8

E9E9

E10E10

E11E11

E12E12

E13E13

E14E14

E15E15

E16E16

E17E17

E18E18

E19E19

E20E20

E21E21

E22E22

E23E23

E24E24

E25E25

E26E26

E27E27

E28E28

E29E29

E30E30

E31E31

E32E32

E33E33

E34E34

E35E35

E36E36

E37E37

E38E38

E39E39

E40E40

E41E41

E42E42

E43E43

E44E44

E45E45

E46E46

E47E47

E48E48

H2A

FBUS_240

H2A

FBUS_240

A1A1

A2A2

A3A3

A4A4

A5A5

A6A6

A7A7

A8A8

A9A9

A10A10

A11A11

A12A12

A13A13

A14A14

A15A15

A16A16

A17A17

A18A18

A19A19

A20A20

A21A21

A22A22

A23A23

A24A24

A25A25

A26A26

A27A27

A28A28

A29A29

A30A30

A31A31

A32A32

A33A33

A34A34

A35A35

A36A36

A37A37

A38A38

A39A39

A40A40

A41A41

A42A42

A43A43

A44A44

A45A45

A46A46

A47A47

A48A48

H1A

FBUS_240

H1A

FBUS_240

A1A1

A2A2

A3A3

A4A4

A5A5

A6A6

A7A7

A8A8

A9A9

A10A10

A11A11

A12A12

A13A13

A14A14

A15A15

A16A16

A17A17

A18A18

A19A19

A20A20

A21A21

A22A22

A23A23

A24A24

A25A25

A26A26

A27A27

A28A28

A29A29

A30A30

A31A31

A32A32

A33A33

A34A34

A35A35

A36A36

A37A37

A38A38

A39A39

A40A40

A41A41

A42A42

A43A43

A44A44

A45A45

A46A46

A47A47

A48A48

H2B

FBUS_240

H2B

FBUS_240

B1B1

B2B2

B3B3

B4B4

B5B5

B6B6

B7B7

B8B8

B9B9

B10B10

B11B11

B12B12

B13B13

B14B14

B15B15

B16B16

B17B17

B18B18

B19B19

B20B20

B21B21

B22B22

B23B23

B24B24

B25B25

B26B26

B27B27

B28B28

B29B29

B30B30

B31B31

B32B32

B33B33

B34B34

B35B35

B36B36

B37B37

B38B38

B39B39

B40B40

B41B41

B42B42

B43B43

B44B44

B45B45

B46B46

B47B47

B48B48

H1B

FBUS_240

H1B

FBUS_240

B1B1

B2B2

B3B3

B4B4

B5B5

B6B6

B7B7

B8B8

B9B9

B10B10

B11B11

B12B12

B13B13

B14B14

B15B15

B16B16

B17B17

B18B18

B19B19

B20B20

B21B21

B22B22

B23B23

B24B24

B25B25

B26B26

B27B27

B28B28

B29B29

B30B30

B31B31

B32B32

B33B33

B34B34

B35B35

B36B36

B37B37

B38B38

B39B39

B40B40

B41B41

B42B42

B43B43

B44B44

B45B45

B46B46

B47B47

B48B48

H2C

FBUS_240

H2C

FBUS_240

C1C1

C2C2

C3C3

C4C4

C5C5

C6C6

C7C7

C8C8

C9C9

C10C10

C11C11

C12C12

C13C13

C14C14

C15C15

C16C16

C17C17

C18C18

C19C19

C20C20

C21C21

C22C22

C23C23

C24C24

C25C25

C26C26

C27C27

C28C28

C29C29

C30C30

C31C31

C32C32

C33C33

C34C34

C35C35

C36C36

C37C37

C38C38

C39C39

C40C40

C41C41

C42C42

C43C43

C44C44

C45C45

C46C46

C47C47

C48C48

H1C

FBUS_240

H1C

FBUS_240

C1C1

C2C2

C3C3

C4C4

C5C5

C6C6

C7C7

C8C8

C9C9

C10C10

C11C11

C12C12

C13C13

C14C14

C15C15

C16C16

C17C17

C18C18

C19C19

C20C20

C21C21

C22C22

C23C23

C24C24

C25C25

C26C26

C27C27

C28C28

C29C29

C30C30

C31C31

C32C32

C33C33

C34C34

C35C35

C36C36

C37C37

C38C38

C39C39

C40C40

C41C41

C42C42

C43C43

C44C44

C45C45

C46C46

C47C47

C48C48

H2D

FBUS_240

H2D

FBUS_240

D1D1

D2D2

D3D3

D4D4

D5D5

D6D6

D7D7

D8D8

D9D9

D10D10

D11D11

D12D12

D13D13

D14D14

D15D15

D16D16

D17D17

D18D18

D19D19

D20D20

D21D21

D22D22

D23D23

D24D24

D25D25

D26D26

D27D27

D28D28

D29D29

D30D30

D31D31

D32D32

D33D33

D34D34

D35D35

D36D36

D37D37

D38D38

D39D39

D40D40

D41D41

D42D42

D43D43

D44D44

D45D45

D46D46

D47D47

D48D48

H1D

FBUS_240

H1D

FBUS_240

D1D1

D2D2

D3D3

D4D4

D5D5

D6D6

D7D7

D8D8

D9D9

D10D10

D11D11

D12D12

D13D13

D14D14

D15D15

D16D16

D17D17

D18D18

D19D19

D20D20

D21D21

D22D22

D23D23

D24D24

D25D25

D26D26

D27D27

D28D28

D29D29

D30D30

D31D31

D32D32

D33D33

D34D34

D35D35

D36D36

D37D37

D38D38

D39D39

D40D40

D41D41

D42D42

D43D43

D44D44

D45D45

D46D46

D47D47

D48D48

H2E

FBUS_240

H2E

FBUS_240

E1E1

E2E2

E3E3

E4E4

E5E5

E6E6

E7E7

E8E8

E9E9

E10E10

E11E11

E12E12

E13E13

E14E14

E15E15

E16E16

E17E17

E18E18

E19E19

E20E20

E21E21

E22E22

E23E23

E24E24

E25E25

E26E26

E27E27

E28E28

E29E29

E30E30

E31E31

E32E32

E33E33

E34E34

E35E35

E36E36

E37E37

E38E38

E39E39

E40E40

E41E41

E42E42

E43E43

E44E44

E45E45

E46E46

E47E47

E48E48

72

modular reference design platform

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