View
11
Download
0
Category
Preview:
Citation preview
ORION USER MANUAL
1
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
2
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
ORION USER MANUAL
3
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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
ORION USER MANUAL
4
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
ORION USER MANUAL
5
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
6
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
ORION USER MANUAL
7
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
8
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
T1 ChannelsChannels 0 - 27
T1 ChannelsChannels 56 - 83
SONET STS3155.52 Mbps
Fra
me
Syn
c
EXAR XRT86SH328
VoyagerMaster
Fra
me
Syn
c
EXARXRT86SH328
VoyagerSlave 2
ORION USER MANUAL
9
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
10
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
ORION USER MANUAL
11
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
12
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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.
ORION USER MANUAL
13
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
14
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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…
ORION USER MANUAL
15
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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).
ORION USER MANUAL
16
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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".
ORION USER MANUAL
17
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
18
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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.
ORION USER MANUAL
19
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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)
ORION USER MANUAL
20
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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.
ORION USER MANUAL
21
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
22
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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.
ORION USER MANUAL
23
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
24
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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)
ORION USER MANUAL
25
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
4.3.2.2 Receive High-Order Path Overhead (Receive POH)
4.3.3 Receive Regenerator and Multiplex Section Perf ormance Monitors
ORION USER MANUAL
26
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
ORION USER MANUAL
28
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
ORION USER MANUAL
29
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
4.3.6.2 Transmit High-Order Path Overhead
ORION USER MANUAL
30
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
ORION USER MANUAL
31
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
32
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
4.3.9 Register Read/Write Access
Use this dialog to access, read or write, values in specified registers.
ORION USER MANUAL
33
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
34
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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.
ORION USER MANUAL
35
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
36
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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.
ORION USER MANUAL
37
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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…
ORION USER MANUAL
38
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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).
ORION USER MANUAL
39
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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.
ORION USER MANUAL
40
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
Select the fields that the application will use and the board can support.
6.0.1 Main Evaluation Menu.
ORION USER MANUAL
41
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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
ORION USER MANUAL
42
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
ORION USER MANUAL
43
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
6.0.6 VT Mapper Configuration
6.0.6.1 VT Mapper Alarms
ORION USER MANUAL
45
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
6.0.7 T1 Egress Configuration
6.0.7.1 T1 Egress Alarms
ORION USER MANUAL
46
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
6.0.8 Line Interface Unit Configuration
6.0.8.1 Line Interface Unit Performance Monitoring Alarms
ORION USER MANUAL
47
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
6.0.9 Transmit SONET Transport Overhead Configuratio n
6.0.10 Transmit SONET Path Overhead Configuration
ORION USER MANUAL
48
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
50
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
1 U2 - Master 1 H3 A5 A6 A7 A8
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 RTTTTRRR RT
TTTRRR RTTTTRRR RT
TTTRRR RTTTTRRR 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
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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
TABLE 1: TRIPLE VOYAGER LITE CHANNEL TO PIN LOCATION CROSS REFERENCE GUIDE
E1 CHANNEL
XRT86SH221DEVICE
CHANNELHEADER PIN LOCATION
TTIP TRING RTIP RRING
ORION USER MANUAL
54
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
TABLE 1: TRIPLE VOYAGER LITE CHANNEL TO PIN LOCATION CROSS REFERENCE GUIDE
E1 CHANNEL
XRT86SH221DEVICE
CHANNELHEADER PIN LOCATION
TTIP TRING RTIP RRING
ORION USER MANUAL
55
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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
CHANNELHEADER PIN LOCATION
TTIP TRING RTIP RRING
0 U2 - Master 0 H3 A1 A2 A3 A4
1 U2 - Master 1 H3 A5 A6 A7 A8
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 RTTTTRRR 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 RTTT
TT
TT
TTRR
RR
RR
RR
3233343536373839404142434445464748
RR
RR
RRTTTRRR RTTTTRRR RT
TTTRRR RTTTTRRR RT
TTTRRR RTTTTRRR 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
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
TABLE 2: TRIPLE VOYAGER CHANNEL TO PIN LOCATION CROSS REFERENCE GUIDE
T1/J1 CHANNEL
XRT86SH328DEVICE
CHANNELHEADER PIN LOCATION
TTIP TRING RTIP RRING
ORION USER MANUAL
57
REV. 1.05 MODULAR REFERENCE DESIGN PLATFORM
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
TABLE 2: TRIPLE VOYAGER CHANNEL TO PIN LOCATION CROSS REFERENCE GUIDE
T1/J1 CHANNEL
XRT86SH328DEVICE
CHANNELHEADER PIN LOCATION
TTIP TRING RTIP RRING
ORION USER MANUAL
58
MODULAR REFERENCE DESIGN PLATFORM REV. 1.05
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
TABLE 2: TRIPLE VOYAGER CHANNEL TO PIN LOCATION CROSS REFERENCE GUIDE
T1/J1 CHANNEL
XRT86SH328DEVICE
CHANNELHEADER PIN LOCATION
TTIP TRING RTIP RRING
1245 36789101112131415161718192021222324252627282930313233343536373839404142434445464748
A
B
C
D
E
A
B
C
D
E
TTTRRR RTTTTRRR 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 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 RTTTTRRR 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 RTTTTRRR RTTTTRRR RT
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 RTTTTRRR RT
TTTRRR RTTTTRRR RT
TTTRRR RTTTTRRR 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 RTTTTRRR 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 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 RTTTTRRR 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 RTTTTRRR RTTTTRRR RT
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 RTTTTRRR RT
TTTRRR RTTTTRRR RT
TTTRRR RTTTTRRR 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
Size Document Number Rev
Date: Sheet of
SP766xOR A
ORION Daughter Power Card
C
1 1Friday, January 11, 2008
Title
Size Document Number Rev
Date: Sheet of
SP766xOR A
ORION Daughter Power Card
C
1 1Friday, January 11, 2008
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
Wurth-7443112202.2uH,14mOhm.7x7mm,9A
1.8V, 0-6A
GND
Vout = 0.8V * ( R18/R23 + 1)
Note : Remove R22 if input voltage more than 9.5V
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
DBST2SD101AWSDBST2SD101AWS
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
DBST1SD101AWSDBST1SD101AWS
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
TxA_D0TxA_D1TxA_D2TxA_D3
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
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 & XRT91L30 STM3/STS1 Reference Design
D
1 5Thursday, January 10, 2008
Reference Design 1
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 & XRT91L30 STM3/STS1 Reference Design
D
1 5Thursday, January 10, 2008
Reference Design 1
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 & XRT91L30 STM3/STS1 Reference Design
D
1 5Thursday, January 10, 2008
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
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 "Master"
C
2 5Thursday, January 10, 2008
Reference Design 1
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 "Master"
C
2 5Thursday, January 10, 2008
Reference Design 1
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 "Master"
C
2 5Thursday, January 10, 2008
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
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 "Slave 1"
C
3 5Thursday, January 10, 2008
Reference Design 1
<file name>
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 "Slave 1"
C
3 5Thursday, January 10, 2008
Reference Design 1
<file name>
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH221 "Slave 1"
C
3 5Thursday, January 10, 2008
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
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 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
Size Document Number Rev
Date: Sheet of
Reference Design 1 B.1
XRT86SH221 "Slave 2"
C
4 5Thursday, January 10, 2008
<Document>
Title
Size Document Number Rev
Date: Sheet of
Reference Design 1 B.1
XRT86SH221 "Slave 2"
C
4 5Thursday, January 10, 2008
<Document>
Title
Size Document Number Rev
Date: Sheet of
Reference Design 1 B.1
XRT86SH221 "Slave 2"
C
4 5Thursday, January 10, 2008
<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
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 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
Size Document Number Rev
Date: Sheet of
B.1
Back Plane Connectors
C
5 5Thursday, January 10, 2008
Reference Design 1
Title
Size Document Number Rev
Date: Sheet of
B.1
Back Plane Connectors
C
5 5Thursday, January 10, 2008
Reference Design 1
Title
Size Document Number Rev
Date: Sheet of
B.1
Back Plane Connectors
C
5 5Thursday, January 10, 2008
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_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
RxD_Clk
TxA_D0TxA_D1TxA_D2TxA_D3
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
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 & XRT91L30 STM3/STS1 Reference Design
D
1 6Thursday, January 10, 2008
ORION Reference Design 2b
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 & XRT91L30 STM3/STS1 Reference Design
D
1 6Thursday, January 10, 2008
ORION Reference Design 2b
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 & XRT91L30 STM3/STS1 Reference Design
D
1 6Thursday, January 10, 2008
ORION Reference Design 2b
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
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
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
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
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
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 "Master"
C
2 6Thursday, January 10, 2008
ORION Reference Design 2b
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 "Master"
C
2 6Thursday, January 10, 2008
ORION Reference Design 2b
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 "Master"
C
2 6Thursday, January 10, 2008
ORION Reference Design 2b
EXAR Experience our Connectivity
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_TxDS1OHInd_4 AE26
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_RxDat_2EG_S21_RxDat_3
EG_S21_RxDat_6EG_S21_RxDat_7
EG_S21_RxDat_5EG_S21_RxDat_4
EG_S21_RxDS1CLKEG_S21_RxDS1OHInd_0
EG_S21_RxDS1OHInd_3EG_S21_RxDS1OHInd_4
EG_S21_RxDS1OHInd_2EG_S21_RxDS1OHInd_1
EG_S21_RxDS1ValidEG_S21_RxDS1SLOT0
IG_S21_RxDat_2IG_S21_RxDat_3
IG_S21_RxDat_6IG_S21_RxDat_7
IG_S21_RxDat_5IG_S21_RxDat_4
IG_S21_RxDS1CLKIG_S21_RxDS1OHInd_0
IG_S21_RxDS1OHInd_3IG_S21_RxDS1OHInd_4
IG_S21_RxDS1OHInd_2IG_S21_RxDS1OHInd_1
IG_S21_RxDS1ValidIG_S21_RxDS1SLOT0
IG_S21_RxDat_1IG_S21_RxDat_0
IG_S21_RxDat_2IG_S21_RxDat_3
IG_S21_RxDat_6IG_S21_RxDat_7
IG_S21_RxDat_5IG_S21_RxDat_4
IG_S21_RxDat_1IG_S21_RxDat_0
IG_S21_RxDS1CLKIG_S21_RxDS1ValidIG_S21_RxDS1SLOT0
IG_S21_RxDS1OHInd_0
IG_S21_RxDS1OHInd_3IG_S21_RxDS1OHInd_4
IG_S21_RxDS1OHInd_2IG_S21_RxDS1OHInd_1
EG_S21_RxDat_2EG_S21_RxDat_3
EG_S21_RxDat_6EG_S21_RxDat_7
EG_S21_RxDat_5EG_S21_RxDat_4
EG_S21_RxDS1CLKEG_S21_RxDS1OHInd_0
EG_S21_RxDS1OHInd_3EG_S21_RxDS1OHInd_4
EG_S21_RxDS1OHInd_2EG_S21_RxDS1OHInd_1
EG_S21_RxDS1ValidEG_S21_RxDS1SLOT0
EG_S21_RxDat_1EG_S21_RxDat_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_RxDat_2IG_S21_RxDat_3
IG_S21_RxDS1OHInd_0
IG_S21_RxDat_4IG_S21_RxDat_5
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
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 "Slave 1"
C
3 6Thursday, January 10, 2008
ORION Reference Design 2b
<file name>
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 "Slave 1"
C
3 6Thursday, January 10, 2008
ORION Reference Design 2b
<file name>
Title
Size Document Number Rev
Date: Sheet of
B.1
XRT86SH328 "Slave 1"
C
3 6Thursday, January 10, 2008
ORION Reference Design 2b
<file name>
EXAR Experience our Connectivity
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
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_TxDS1OHInd_4 AE26
IG_TxDS1CLK AJ29
IG_TxDS1OHInd_3 AK30
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
EG_S12_RxDat_2EG_S12_RxDat_3
EG_S12_RxDat_6EG_S12_RxDat_7
EG_S12_RxDat_5EG_S12_RxDat_4
EG_S12_RxDS1CLKEG_S12_RxDS1OHInd_0
EG_S12_RxDS1OHInd_3EG_S12_RxDS1OHInd_4
EG_S12_RxDS1OHInd_2EG_S12_RxDS1OHInd_1
EG_S12_RxDS1ValidEG_S12_RxDS1SLOT0
IG_S12_RxDat_2IG_S12_RxDat_3
IG_S12_RxDat_6IG_S12_RxDat_7
IG_S12_RxDat_5IG_S12_RxDat_4
IG_S12_RxDS1CLKIG_S12_RxDS1OHInd_0
IG_S12_RxDS1OHInd_3IG_S12_RxDS1OHInd_4
IG_S12_RxDS1OHInd_2IG_S12_RxDS1OHInd_1
IG_S12_RxDS1ValidIG_S12_RxDS1SLOT0
IG_S12_RxDat_1IG_S12_RxDat_0
EG_S12_RxDat_1EG_S12_RxDat_0
IG_S12_RxDat_2IG_S12_RxDat_3
IG_S12_RxDat_6IG_S12_RxDat_7
IG_S12_RxDat_5IG_S12_RxDat_4
IG_S12_RxDS1CLK
IG_S12_RxDS1OHInd_0
IG_S12_RxDS1OHInd_3IG_S12_RxDS1OHInd_4
IG_S12_RxDS1OHInd_2IG_S12_RxDS1OHInd_1
IG_S12_RxDS1ValidIG_S12_RxDS1SLOT0
IG_S12_RxDat_1IG_S12_RxDat_0
EG_S12_RxDat_2EG_S12_RxDat_3
EG_S12_RxDat_6EG_S12_RxDat_7
EG_S12_RxDat_5EG_S12_RxDat_4
EG_S12_RxDS1CLKEG_S12_RxDS1OHInd_0
EG_S12_RxDS1OHInd_3EG_S12_RxDS1OHInd_4
EG_S12_RxDS1OHInd_2EG_S12_RxDS1OHInd_1
EG_S12_RxDS1ValidEG_S12_RxDS1SLOT0
EG_S12_RxDat_1EG_S12_RxDat_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_RxDat_2EG_S12_RxDat_3
EG_S12_RxDS1OHInd_0
EG_S12_RxDat_4EG_S12_RxDat_5
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_RxDat_2IG_S12_RxDat_3
IG_S12_RxDS1OHInd_0
IG_S12_RxDat_4IG_S12_RxDat_5
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
Size Document Number Rev
Date: Sheet of
ORION Reference Design 2b B.1
XRT86SH328 "Slave 2"
C
4 6Thursday, January 10, 2008
Title
Size Document Number Rev
Date: Sheet of
ORION Reference Design 2b B.1
XRT86SH328 "Slave 2"
C
4 6Thursday, January 10, 2008
Title
Size Document Number Rev
Date: Sheet of
ORION Reference Design 2b B.1
XRT86SH328 "Slave 2"
C
4 6Thursday, January 10, 2008
EXAR Experience our Connectivity
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
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_TxDS1OHInd_4 AE26
IG_TxDS1CLK AJ29
IG_TxDS1OHInd_3 AK30
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_RxDat_2IG_S21_RxDat_3
IG_S21_RxDS1OHInd_0
IG_S21_RxDat_4IG_S21_RxDat_5
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_RxDat_2EG_S21_RxDat_3
EG_S21_RxDS1OHInd_0
EG_S21_RxDat_4EG_S21_RxDat_5
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_RxDat_2IG_S12_RxDat_3
IG_S12_RxDS1OHInd_0
IG_S12_RxDat_4IG_S12_RxDat_5
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_RxDat_2EG_S12_RxDat_3
EG_S12_RxDS1OHInd_0
EG_S12_RxDat_4EG_S12_RxDat_5
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
Size Document Number Rev
Date: Sheet of
ORION Reference Design 2b B.1
Voyager (XRT86SH328) - misc
C
5 6Thursday, January 10, 2008
Title
Size Document Number Rev
Date: Sheet of
ORION Reference Design 2b B.1
Voyager (XRT86SH328) - misc
C
5 6Thursday, January 10, 2008
Title
Size Document Number Rev
Date: Sheet of
ORION Reference Design 2b B.1
Voyager (XRT86SH328) - misc
C
5 6Thursday, January 10, 2008
EXAR Experience our Connectivity
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_RxDS1OHInd_4 AC25
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_RxDS1OHInd_0 AC26
IG_RxDS1OHInd_4 AC25
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
Size Document Number Rev
Date: Sheet of
B.1
Back Plane Connectors
C
6 6Thursday, January 10, 2008
ORION Reference Design 2b
Title
Size Document Number Rev
Date: Sheet of
B.1
Back Plane Connectors
C
6 6Thursday, January 10, 2008
ORION Reference Design 2b
Title
Size Document Number Rev
Date: Sheet of
B.1
Back Plane Connectors
C
6 6Thursday, January 10, 2008
ORION Reference Design 2b
Transmit Receive
EXAR Experience our Connectivity
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
Recommended