EB44 - LatticeECP3 Serial Protocol Evaluation Board - Revision D

July 2010Revision: EB44_01.3

LatticeECP3™ Serial Protocol Board – Revision D

User’s Guide

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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide

IntroductionThe LatticeECP3 Serial Protocol Board (referred to in this document as “SPB”) allows designers to investigate and experiment with the features of the LatticeECP3 high-speed SERDES transceivers. The SPB is available for full and detailed characterization of the high speed I/O channels and includes interfaces for some of the latest protocol interconnections.

The features of the LatticeECP3 Serial Protocol Board can assist engineers with rapid-prototyping and testing their specific designs. The board is an enhanced form-factor of the PCI Express add-in card specification. It allows for x4 PCI Express interconnection that is available for demonstration purposes with some non-standard form-factor issues. The board has several debugging and analyzing features for complete evaluation of the LatticeECP3 device. This guide is intended to be referenced in conjunction with evaluation design tutorials to demonstrate the LatticeECP3 FPGA.

The evaluation board includes provisioning to connect high-speed SERDES channels via SMA connectors to test and measurement equipment. The board is manufactured using standard FR4 dielectric and through-hole vias. The nominal impedance is 50-ohm for single-ended traces and 100-ohm for differential traces.

Figure 1. LatticeECP3 Serial Protocol Board

Board Features• PCI Express x4 edge connector interfaces

– Allow demonstration of PCI Express (x4) interfaces– x4 is non-compliant but will demonstrate x4 functionality with an open-frame motherboard

• Allow control of SERDES PCS registers using the Serial Client Interface (ORCAstra)

• Serial ATA interfaces for host and target configurations

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• RJ45 interface to 10/100/1000 Ethernet

• On-board Boot Flash. – 64M Serial SPI Flash – Parallel Flash via MachXO™ Crossover PLD programming bridge

• Switches, LEDs, displays for demo purposes

• Several debug and analysis connections

• Input connection for lab-power supply

• Power connections and power sources

• ispVM™ programming support

• On-board and external reference clock sources

The contents of this user’s guide include top-level functional descriptions of the various portions of the evaluation board, descriptions of the on-board connectors, diodes and switches and a complete set of schematics of the board.

Figure 2. Serial Protocol Board Outline Drawing

LatticeECP3 DeviceThis board features a LatticeECP3 FPGA with a 1.2V core supply. It can accommodate all pin compatible LatticeECP3 devices in the 1156-ball fpBGA (1mm pitch) package. A complete description of this device can be found in the LatticeECP3 Family Data Sheet.

Note: The connections referenced in this document refer to the LFE3-95E-FF1156 device. Available I/Os and asso-ciated sysIO™ banks may differ for other densities within this device family.

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Applying Power to the Board The LatticeECP3 Serial Protocol Board is ready to power on. The board can be supplied with power from an AC wall-type transformer power supply shipped with the board. Or, it can be supplied from an benchtop supply via ter-minal screw connections. It also has provisions to be supplied from the PCI Express edge fingers from a host board.

To supply power from the factory-supplied wall transformer, simply connect the output connection of the power cord to J1 and plug wall-transformer into an AC wall outlet.

Power Supplies(see Appendix A, Figure 20)

The evaluation board incorporates an alternate scheme to provide power to the board. The board is equipped to accept a main supply via the TB1 connection. This connection is provided to use with a benchtop supply adjusted to provide a nominal +12V DC. An indicator (D1) will illuminate when 12V is applied to the board.

All input power sources and on-board power supplies are fused with surface mounted fuses and have green LEDs to indicate power GOOD status of the intermediate supplies.

Table 1. Board Power Supply Fuses and Indicators LEDs (see Appendix A, Figure 20)

Fuse Designator Function

Power Good LED Designator Function

F1 12V Input Supply Fuse D1 12V Input Good Indicator

F2 1.5V Fuse D6 1.5V Good Indicator

F3 1.2V Core Fuse D3 1.2V Core Good Indicator



F6 1.2V Analog Supply D2 1.2V VCCA Good Indicator


Power can be supplied with either a wall transformer pack, or another external source.

Table 2. External Board Supply Input Terminal (see Appendix A, Figure 20)

TB1 Screw terminal for 12V DCPin 1(square PCB pad) -> +12V DCPin 2 -> Ground

The above-mentioned supplies can be isolated from the on-board regulators by removal of the associated fuse. Surface-mounted test loops are provided to apply alternative power sources to these supplies as required for test-ing purposes.

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Table 3. Power Supply Test Connections

Test Point Designator Supply

LP1 2.5V

LP2 1.5V

LP3 3.3V

LP4 1.8V

LP5 1.2V VCCA

LP6 1.2V VCC Core

PCI Express Power InterfacePower can be sourced to the board via the PCB edge fingers (CN1). This interface allows the user to provide power from a PCI Express host board.

Power ManagementThe evaluation board includes a Lattice ispPAC®-POWR1220AT8 programmable power management IC (U10). This device controls the power sequence and monitors designated board supplies. The POWER GOOD indication LEDS are controlled via this device.

The power management device is factory programmed to control the power supplies. A block diagram of the power management is shown in Figure 3.

Figure 3. Power Management Block DiagramVCC Core, +1.2v , 10A

3_3V, +3.3V, 2A

3.3VIN, +2.5V, 6A

1_5V, +1.5V, 2A

ispPAC

12V INPUT

PCIe Edge12V Wall Adapter12V Input Terminal

MOSFET

1_8V, +1.8V, 2A

1_2VA, +1.2V, 1.5A

2_5V, +2.5V, 1.5A

LDO

LDO

LDO

LDO

POL

POL

LDOETH_1_2V, +1.2V, 0.5A

Programming/FPGA Configuration(see Appendix A, Figure 23)

A programming header is provided on the evaluation board, providing access to the LatticeECP3 JTAG port.

Note: An ispDOWNLOAD™ Cable is included with each ispLEVER®-Base or ispLEVER-Advanced design tool shipment. Cables may also be purchased separately from Lattice.

ispVM Download InterfaceJ12 is an 10-pin JTAG connector used in conjunction with the ispVM USB download cable to program and control the device.

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Table 4. Standard ispVM Programming Cable Configuration

Pin Description

Pin 1 VCC

Pin 2 TDO

Pin 3 TDI

Pin 4 PROGRAMN1

Pin 5 Enable used for alternate programming of the ispPAC-POWR1220AT8 device

Pin 6 TMS

Pin 7 GND

Pin 8 TCK

Pin 9 DONE1

Pin 10 INITN1

1. Denotes optional connection to programming cable.

After initial board setup, use the following procedure to program the evaluation board.

Instructions assume ispVM software has been installed on a local PC.

Connect the ispDOWNLOAD cable rainbow-colored flywires to the connector J12.

Pin 1 = red, 2 = brown, 3 = orange, 4 = open, 5 = open, 6 = purple, 7 = black, 8 = white, 9 = open, 10 = open.

Table 5. ispVM JTAG Connector (see Appendix A, Figure 23)

Pin Function Color

1 PWR Red

2 TDO Brown

3 TDI Orange

5 ISPEN Yellow1

6 TMS Purple

7 GND Black

8 TCK White

1. Only connected for programming the ispPAC-POWR1220AT8 device.

NC NC NC

8910 7 6 3 2 15 4

Programming the Daisy Chain(see Appendix A, Figure 23)

This board includes three Lattice programmable (U1=LFE395, U17= LCMXO1200C, and U13 = POWR1220AT8) devices that can be programmed in a daisy chain. The board also includes a mechanism to daisy chain other Lat-tice evaluation boards that use the same connector standard.

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Figure 4. JTAG Chain

Buffer

LatticeECP3

TDI

TCK

TMS

TCK

ATDI

TMS

TDI

J12

ispEN

TDO TDI TDO TDI TDO

MachXOPower

Manager II

ispVMCable

Daisy ChainOff-Board

BoardJumpers

TDI

J9

An alternative chain can be used when it is desired to only communicate with the ispPAC-POWR1220AT8 device. This alternative method utilizes the ispEN pin to drive the TDISEL input. A logic “1 “driven on the TDISEL of the isp-PAC-POWR1220AT8 will enable the ATDI input ignoring the TDI data of the board JTAG chain and receiving TDI data directly from the ispVM input.

A 2x3 header(J41) completes the on-board JTAG chain between the LatticeECP3 FPGA, the MachXO1200 CPLD and the ispPAC-POWR1220 devices. These jumpers must be in place for proper operation with ispVM.

Figure 5. ALL Devices in Chain Selection (J41)

JTAG daisy-chaining across multiple boards is provisioned on board by jumpers. Header J8 controls the data path to and from the evaluation board TDO. The board is factory programmed with a jumper across pins 1 and 2 of J8. If the user needs to build a JTAG daisy-chain to another Lattice evaluation board the user needs to place jumpers between pins 1 and 3 and 2 and 4 respectively. This will alter the data path off-board via J9, which typically can be connected to another ispVM connector of a Lattice Semiconductor evaluation board. J10 and J11 can also be used for off-board daisy-chaining to wire AND the PROGRAMN and INITN pin respectively between the boards.

Download ProcedureRequirements:

• PC with ispVM System v.17.4 (or later) programming management software, installed with appropriate drivers (USB driver for USB Cable, Windows NT/2000/XP parallel port driver for ispDOWNLOAD Cable). Note: An option to install these drivers is included as part of the ispVM System setup.

• ispDOWNLOAD Cable (pDS4102-DL2A, HW7265-DL3A, HW-USB-1A, etc.)

JTAG DownloadThe LatticeECP3 device can be configured easily via its JTAG port. The device is SRAM-based; it must remain powered on to retain its configuration when programmed in this fashion.

1. Connect the LatticeECP3 Serial Protocol Board to the appropriate power sources and power up board.

2. Connect the ispDOWNLOAD cable to the appropriate header. J12 is used for the 1x10 cable.

3. Start the ispVM System software.

4. Press the SCAN button located in the toolbar. The LatticeECP3 and the MachXO1200 devices will be automat-ically detected.

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Figure 6. Main Downloading Window

5. Double-click the device to open the device information dialog. In the device information dialog, click the Browse button located under Data File. Locate the desired bitstream file (.bit). Click OK to both dialog boxes.

6. Add the data file from the Browse dialog and select OK when complete.

7. To program only the LatticeECP3-95, place the LCMXO1200C and the ispPAC-POWR1220AT8 devices into BYPASS and the LFE3-95 into Erase, Program, Verify mode, as shown below.

Figure 7.

Device Information Window

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Figure 8. Successful Programming Session

8. Click the green GO button. This will begin the download process into the device. Upon successful download, the device will be operational.

Programming the Power Manager DeviceThe J12 header can be used to isolate and program the ispPAC-POWR1220AT8 Power Manager device. This device can be isolated from the others on the chain using the optional ispEN connection from the ispVM program-ming cable. Connecting ispEN to pin 5 on J12 and selecting the optional control in ispVM will isolate the Power Manager. The connection is activated from the Options pull-down menu of the ispVM toolbar. The Cable and I/O Port Setup dialog box is used to select the polarity of this connection to SET LOW.

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Figure 9. Setup for ISPEN Usage

Figure 10. Programming of ispPAC-POWR1220AT8 Power Manager Device

Note: The ispEN connection must be disconnected for complete programming of the other devices on the SPB.

Configuration Status Indicators(see Appendix A, Figure 23)

These LEDs indicate the status of configuration to the FPGA.

• D8 (red) illuminated, this indicates that the programming was aborted or reinitialized driving the INITN output low.

• D11 (green) illuminated, this indicates the successful completion of configuration by releasing the open collector DONE output pin.

• D12 (green) will flash indicating TDI activity.

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• D10 (red) illuminated, this indicates that PROGRAMN is low.

• D9 (red) illuminated, this indicates that GSRN is low.

PROGRAMN and GSRN(see Appendix A, Figure 23)

• These push-button switches assert/de-assert the logic levels on the PROGRAMN (SW3) and GSRN (SW1). Depressing the button drives a logic level “0” to the device.

CFG [2:0](see Appendix A, Figure 23)

• The FPGA CFG pins are set on the board for a particular programming mode via the SW2 DIP switch.

• JTAG programming is independent of the MODE pins and is always available to the user.

• Pushing in (depressing) the switch is ON and sets the value to 0.

Table 6. CFG Mode Selections

CFG2 CFG1 CFG0 Configuration Mode

0(ON) 0(ON) 0(ON) SPI Flash

0(ON) 1(OFF) 0(ON) SPIm

1(OFF) 0(ON) 1(OFF) Slave Serial

1(OFF) 1(OFF) 1(OFF) Slave Parallel

X (don’t care)

X (don’t care)

X (don’t care) ispJTAG

On-Board Serial SPI Flash Memory(see Appendix A, Figure 23)

• One Serial SPI (16-pin TSSOP 64M) Flash memory devices (U11) is on-board for non-volatile configuration memory storage. Either a STMicro M25P64VMF16 or Macronix MX25L6405 device is populated on-board.

• The CFG [2:0] need to be [000] all depressed to read the Flash memory at power-up or after toggling the PRO-GRAMN pin.

• J11 must have a jumper between pins 1 and 2.

Programming Serial SPI Flash MemoryThe Serial SPI Flash memory device can be configured easily via its JTAG port. This mode enables the FPGA to be programmed at power-up or assertion of PROGRAMN with a bitstream stored in the memory device.

1. Connect the evaluation board to the appropriate power sources and power up board.

2. Connect the ispDOWNLOAD cable to the appropriate header. J9 is used for the 1x10 cable.

3. Start the ispVM System software.

4. Press the Scan button located in the toolbar. The LFE3-9, LCMXO1200C and ispPOWR1220AT8 devices will be automatically detected.

5. Double-click the Operation column for the LFE3-95 and the Device Dialog box shown below will open.

6. In the dialog box select the SPI Flash Programming Mode in the Device Access Option pull-down menu. This will open the SPI Serial Flash Dialog box.

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Figure 11. Device Information Dialog Screen

7. The SPI Serial Flash Device dialog box will open. In this box select SPI Flash Erase, Program, Verify in the Operation pull-down menu.

8. Select SPI Serial Flash in the Device Family pull-down menu, STMicro under the Vendor pull-down menu, SPI-M2564 under the Device pull-down menu, and 16-lead SOIC under the Package submenu.

Figure 12. Select Device Dialog Box

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Figure 13. Sample SPI Serial Flash Device Dialog Box

9. Click OK in the SPI Flash Device Dialog box. Then click OK in Select Device dialog box. You will then return to the main configuration screen. If you do not desire to load the LCMXO1200C and the ispPOWR1220 device, these devices should be placed in Flash Bypass mode by double-clicking the Operation column and selecting the Bypass operation shown below.

Figure 14. Flash Bypass for LCMXO1200C Device

10. From the main programming window, Select Go for the top toolbar. This will begin the SPI Serial Flash pro-gramming.

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Figure 15. Programming Main Window

Figure 16. SPI Serial Flash Programming Status Window

Figure 17. Successful SPI Serial Flash Programming Session

On-Board Parallel SPI Flash Memory(see Appendix A, Figure 25)

• A 16-bit parallel Flash device is also available. This board uses a Lattice MachXO Crossover PLD to act as a pro-gramming bridge from the Flash device.

• The CFG [2:0] needs to be [111] all up.

• The ispVM System programming software can be used directly to program either the serial SPI Flash or the par-

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allel Flash devices. Application note AN8077, Parallel Flash Programming and FPGA Configuration, addresses the use of the parallel Flash implementation.

On-Board Clock CapabilitiesDedicated SERDES Reference Clock Inputs(see Appendix A, Figure 26)

• A 156.25 MHz, low-jitter (5x7.5mm surface mount) oscillator is included on-board.– Connected via clock mux to PCSB_REFCLK– Clock control CLOCK_CTRL_SEL0 is connected to both the FPGA (ball #A25) or the Crossover PLD (ball

#N6). Either of these sources selects the clock source of Y1 oscillator or J29 and J33 SMA inputs.

• A 125.00 MHz, low-jitter (5x7.5mm surface mount) oscillator is included on-board. – Connected via clock mux to PCSC_REFCLK– Clock control CLOCK_CTRL_SEL1 is connected to both the FPGA (ball #B25) or the Crossover PLD (ball

#M14). Either of these sources selects the clock source of Y2 oscillator or J30 and J34 SMA inputs.

***SMA connections J29 and J33 can provide an external clock source to PCSB. J29 is the true and J33 is the compliment of the differential pair. The description markings on the evaluation board are incorrect.

***SMA connections J30 and J34 can provide an external clock source to PCSC. J30 is the true and J34 is the compliment of the differential pair. The description markings on the evaluation board are incorrect.

User Defined General Purpose Clock Oscillator(see Appendix A, Figure 31)

A 100 MHz oscillator is included on the board. It is fanned-out to several destinations on the board. They include the following. This oscillator is used for general clocking and should be avoided for jitter sensitive applications.

Table 7. 100 MHz Clock Destinations

Clock Destination Evaluation Board Designation Destination Pin

Crossover PLD U17 A8

FPGA U1 B6

FPGA U1 H17-PCLKT0

FPGA U1 P30-RUM2_GPLLT_IN_A

(see Appendix A, Figure 33)

An auxiliary SMT oscillator area is included on the board. It includes a 5x7.5mm surface-mount pad for the addition of any user-defined oscillator. This oscillator interconnects to FPGA ball numbers AB28 and AB29 that are specifi-cally general purpose PLL inputs to the FPGA fabric.

(see Appendix A, Figure 33)

SMA inputs J38 and J39 are provided to drive any externally generated differential clock onto the board. These 50-ohm terminated SMAs interconnect to FPGA ball numbers U28 and V28 that are specifically PCLKT3_0 and PCLKC3_0 inputs to the FPGA fabric.

SERDES Surface Mounted SMA Connections (see Appendix A, Figure 26)

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DC coupled top-mounted SMA connectors connect to the one quad or four SERDES Tx and Rx channels. These pins are directly coupled to the designated SMA connector creating a path for both input and output differential data.

Table 8. SERDES SMA Test Connectors

Connector SERDES Signal FPGA Pin Connector SERDES Signal FPGA Pin

J13 PCSB_HDINP0 AL17 J21 PCSB_HDOUTP0 AP17

J14 PCSB_HDINN0 AK17 J22 PCSB_HDOUTN0 AN17







Serial ATA Channels(see Appendix A, Figure 26)

High-speed connections are included to attach SATA-type cables to SERDES channels for board-to-board or loop-back purposes. The connectors are configured using the 7-pin SATA specifications.

Figure 18. SATA Connector, Molex Part Number 67800-5050

Table 9. SERDES to SATA Connections

Host Target

CN1 Pin SERDES Pin FPGA Ball # CN2 Pin SERDES Pin FPGA Ball #

1 — GND 1 — GND

2 PCSC_HDOUTP1 AP24 2 PCSC_HDINP0 AL25

3 PCSC_HDOUTN1 AN24 3 PCSC_HDINN0 AK25

4 — GND 4 — GND

5 PCSC_HDINP1 AL24 5 PCSC_HDOUTP0 AP25

6 PCSC_HDINN1 AK24 6 PCSC_HDOUTN0 AN25

7 — GND 7 — GND

SERDES PCI Express Channels(see Appendix A, Figure 26)

This board is equipped to communicate directly as an add-on card to a PCI Express host. It is designed with edge fingers (CN3) to fit directly into a PCI Express host receptacle. Power can be supplied directly from the PCI Express host via the edge-finger connections.

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Table 10. x4 PCI Express Connections

CML Pin Name FPGA PinPCI

ExpressPCI Express

Edge Description

PCSA_HDOUTP_3 AP18 PERp0 A16Integrated end point block transmit pair

PCSA_HDOUTN_3 AN18 PERn0 A17

PCSA_HDINP_3 AL18 PETp0 B14Integrated end point block receive pair

PCSA_HDINN_3 AK18 PETn0 B15









PCSA_HDOUTP_0 AP21 PERp3 A29Integrated End point block transmit pair


PCSA_HDINP_0 AL21 PETp3 B27Integrated End point block receive pair


PCSA_REFCLKP AH19 PCIe_CLKp A13Integrated End point block differential clock pair

PCSA_REFCLKN AH20 PCIe_CLKn A14

PCIE_PERSETN D23 PERSTN A11 Fundamental PCI Express reset

External SERDES Reference Clock Cleaner(see Appendix A, Figure 27)

The Texas Instruments CDC7005 is a high-performance, low-phase noise, and low-skew clock synthesizer and jit-ter cleaner that synchronizes the voltage controlled crystal oscillator (VCXO) frequency to the reference clock. It is included on the evaluation board to demonstrate the use of an external clock cleaner as a means to reuse the SERDES recovered clock for retransmitting. The interconnection from the FPGA brings a single-ended LVCMOS clock from the SERDES to the CDC7005 input. The CDC7005 has an internal prescaler, phase frequency detector, charge pump, operational amplifier, and a LVPECL clock buffer. Along with an external VCXO and loop filter, the device completes a phase locked loop (PLL). Through the PLL operation, the VCXO input clock synchronizes with the reference clock input and ultimately with all clock outputs. All LVPECL clock outputs are completely synchro-nized in terms of phase and frequency with the reference clock input.

Table 11. Reference Clock Interconnections

CDC7005 Outputs 1156 fpBGA Inputs Notes

Y0/Y0b P46/P47 PCSB_REFCLKP/N AH15/AH16Stuffing option R126/R127 must be fitted with 0-ohm resistors for connection to the FPGA reference clock input.

Y1/Y1b P3/P4 RLM1_GPLLT_INA/B Y28/Y27

Y2/Y2b P7/P8 RUM0_GDLLT_INA/B AJ34/AK34

CDC7005 Input 1156 fpBGA Output

REFIN P37 D22 LVCMOS

The jitter cleaning action depends on the PLL loop bandwidth. Up to the loop bandwidth, all noise (jitter) passes through and above the loop bandwidth, all signal noise is cleaned. The ideal loop bandwidth is chosen such that the reference clock source starts exceeding the VCXO noise floor. If the input has lot of jitter, then selecting a low

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loop bandwidth, jitter can be cleaned. For the CDC7005, a low loop (sub 10 Hz) bandwidth can be selected easily. The CDC7005 itself adds a low noise to its outputs. For jitter cleaning operation, the noise performance of VCXO is critical. So, with a proper loop bandwidth and applicable VCXO, the CDC7005 acts as a jitter cleaner. The evalua-tion board is equipped with an Epson-Toyocom TCO2111-245.76MHZ VCXO that is packaged in a 13.9x9.8mm SMT form-factor.

Table 12. CDC7005 Control and Status Signals

CDC7005 Pin Board Feature Description

1 NPD SW5 Push-button that asserts LOW when depressed to power-down CDC7005.

14 NRESET SW6 Push-button that asserts LOW when depressed to RESET CDC7005.

22 STATUS_VCXO D13 Amber LED - CDC7005 PLL locked when lit.

23 STATUS REF D14 Amber LED - CDC7005 valid clock on REF_IN when lit. > 3.5 MHz.

25 STATUS LOCK D15 Amber LED - CDC7005 valid VCXO clock on VCXO_IN when lit.> 10 MHz

The serial interface of the CDC7005 is a simple SPI-compatible interface for writing to the registers of the device. It consists of three control lines: CTRL_CLK, CTRL_DATA, and CTRL_LE. These pins from the CDC7005 are inter-connected to the FPGA to allow for a controller to be built inside the FPGA.

Table 13. CDC7005 Serial Interconnections

CDC7005 1156 fpBGA Ball Number

CTRL_CLK 35 E23

CTRL_DATA 33 C23

CTRL_LE 36 E22

The TI CDC7005 can also be controlled via an interface to header J47. This header can be used in conjunction with the TI programming software required for programming the internal control register of the CDC7005. TI. The software package provides real-time GUI control to the device. The software runs under Windows98, NT, and 2000. Info can be found at www.ti.com/lit/zip/scac037.

Table 14. External Programming Interface for TI CDC7005 Clock Cleaner (See Appendix A, Figure 27)

J47 Pin DB-25 Parallel Cable Description

1 2 Data

2 3 CLK

3 4 LE

4 18 Enable

5 19 GND

FPGA Test Pins(see Appendix A, Figure 31)

General Purpose DIP Switch(see Appendix A, Figure 31, SW14)

General-purpose FPGA pins are available for user applications. FPGA pins are connected to a switch (SW15) that is a SPST-side actuated DIP switch. The switch is physically located on the secondary side of the board along the back-panel edge. The switches are connected to logic level 0 when depressed toward the board and a 1 when away from the board. The designated pins are connected according to the following table.

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Table 15. FPGA Test Pins (See Appendix A, Figure 33)

1156 fpBGABall Number

SW14Switch Position

Y34 1

Y33 2

Y30 3

AA29 4

Y32 5

Y31 6

Y26 7

Y25 8

General-Purpose LEDs(see Appendix A, Figure 31)

The LEDs on the evaluation board are connected to general-purpose FPGA I/O. The purpose of these LEDs is to provide status for user designs. The LEDs must be included in the FPGA design.

Table 16. LED Definitions (See Appendix A, Figure 33)

Name1156 fpBGABall Number PCB Designator LED Color

LED1 W32 D21 Red

LED2 W31 D24 Yellow

LED3 V29 D25 Green

LED4 W28 D27 Blue

LED5 W30 D28 Blue

LED6 W29 D26 Green

LED7 W27 D23 Yellow

LED8 W26 D22 Red

General-Purpose Header(see Appendix A, Figure 31, J40)

A 2x9 header (J10) provides a general-purpose connection to communicate with general purpose FPGA I/Os.

Table 17. General Purpose Header Connections (See Appendix A, Figure 33)

Header Pin1156 fpBGABall Number Header Pin

1156 fpBGA Ball Number

1 GND 2 GND

3 A6 4 E11

5 A8 6 J13

7 A9 8 K13

9 A10 10 B11

11 B10 12 A11

13 J12 14 G12

15 K12 16 G11

17 C11 18 D11

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17-Segment LED Display(see Appendix A, Figure 33, D20)

General-purpose FPGA pins are connected to a 17-segment display according to Table 18. These pins can be driven low to illuminate the display segments.

Table 18. 17-Segment LED Display

Segment 1156 fpBGABall Number

A B

C

DG

F E DP

H

T S R

K M N

U P

A C30

B C29

C B31

D A31

E H25

F H26

G A30

H A29

K A27

M A26

N A28

P B28

R G25

S G26

T D25

U C25

DP D28

Logic Analyzer Probe(see Appendix A, Figure 31, LA1)

An AMP/TYCO 767004 38-position .025 VERT SMD logic analyzer probe connection is provided for the user to uti-lize for test points. This connection provides 34 general I/O signals to be observed on Logic Analyzer probes using Mictor connections such as the Agilent 5346A.

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Table 19. Logic Analyzer To FPGA Pin Reference (See Appendix A, Figure 33)

Signal 1156 fpBGA Ball # Signal 1156 fpBGA Ball #

LA1 G13 LA2 H14

LA3 A13 LA4 B13

LA5 D10 LA6 C10

LA7 C13 LA8 D13

LA9 J15 LA10 H15

LA11 D3 LA12 C2

LA13 C14 LA14 D14

LA15 A14 LA16 B14

LA17 G16 LA18 G17

LA19 D15 LA20 E15

LA21 J16 LA22 H16

LA23 A15 LA24 B15

LA25 E17 LA26 F28

LA27 C16 LA28 D16

LA29 K16 LA30 L16

LA31 A16 LA32 B16

LA33 G18 LA34 F19

10/100/1000Base Ethernet Interface(see Appendix A, Figure 28, U21)

The Marvell 88E1111 Gigabit Ethernet transceiver device (U21) is included on the board. This physical layer device supports 1000BASE-T, 100BASE-TX, and 10BASE-T applications via a standard Media interface to an RJ-45 (Bel Stewart “MAGJACK” p/n L829-1J1T-43) connection. The RJ-45 connection includes network magnetics providing the proper signal conditioning, electro-magnetic interference suppression and signal isolation. This connector includes two LEDs and the board includes four status LEDs from the Marvell device. The LEDs are register-pro-grammed and detailed descriptions are included in the Marvell data sheet.

Table 20. PHY Status Indicators

LED Status Description

RJ45- Yellow LED RX

RJ45- Orange LED TX

PCB Amber (D16) LINK 10

PCB Amber (D17) LINK 100

PCB Green (D18) LINK 100

PCB Amber (D19) DUPLEX

The Marvell 88E1111 device communicates via a MAC interface to the LatticeECP3 device via GMII, SGMII, and a standard 10-bit interface. The evaluation board includes the means to setup the required hardware configuration for the PHY to operate in all the supported modes. Hardware configuration options such as PHY address, PHY operat-ing mode, auto-negotiation, and physical connection type must be set up using the configuration switches SW7 to SW13 on the back side of the board. These switches tie the CONFIG[6:0] pins to the control LED output pins. The encoded values of the LED outputs that are tied to the CONFIG[6:0] pins are latched at the de-assertion of the PHY RESETn control.

The switch matrix of the PHY CONFIG pins are described below. DIP switches control the hardware settings. Note: Only one switch position per DIP pack should be on for any configuration.

22


Table 21. PHY Hardware Configuration Switch Control (see Appendix A, Figure 29)

SwitchPosition

88E1111 LED Output Bit[2:0] 88E1111 Hardware Register Map

1 VDDO 111 DIP 88E1111 Pin Bit[2] Bit[1] Bit[0]

2 LED_10 110 SW7 CONFIG0 PHYADDR[2] PHYADDR[1] PHYADDR[0]

3 LED_100 101 SW8 CONFIG1 ENE_PAUSE PHYADDR[4] PHYADDR[3]

4 LED_1000 100 SW9 CONFIG2 ANEG[3] ANEG[2] ANEG[1]

5 LED_DUPLEX 011 SW10 CONFIG3 ANEG[0] ENA_XC DIS_125

6 LED_RX 010 SW11 CONFIG4 MODE[2] MODE[1] MODE[0]

7 LED_TX 001 SW12 CONFIG5 DIS_FC DIS_SLEEP MODE[3]

8 VSS 000 SW13 CONFIG6 SEL_BDT INT_POL 75/50 Ohm

Note: DIP switches SW[7:13] utilize same position mapping.

Table 22. Board DIP Switch Designations for Marvell Transceiver Configuration Pins

SwitchPHY

Configuration Pin

SW7 CONFIG0

SW8 CONFIG1

SW9 CONFIG2

SW10 CONFIG3

SW11 CONFIG4

SW12 CONFIG5

SW13 CONFIG6

Figure 19. DIP Switch Positions for CONFIG Pins

On Off

VCC01

LED LINK102

LED LINK1003

LED LINK1004

LED DUPLEX5

LED RX6

LED TX7

VSS8

23


Table 23. Marvel Transceiver Configuration Defaults

DIP SwitchPHY Config

PinPosition

ONEncoded

Output PinEncoded

Value Description

SW7 CONFIG0 7 LED TX 001 PHY ADDR[2:0] = 001

SW8 CONFIG1 4 LED LINK1000 100 ENABLE PAUSE, PHY ADDR[4:3] = 00

SW9 CONFIG2 1 VCCO 111 Auto Neg., Advertise All, Prefer Slave

SW10 CONFIG3 1 VCCO 111 Enable MDI Crossover, Disable 125 CLK

SW11 CONFIG4 8 VSS 000 1000 Base-X without clock 1000 Base-X Auto Neg. to copper (GBIC)

SW12 CONFIG5 2 LED LINK10 110 Disable fiber/copper, Auto-detect, Enable Sleep

SW13 CONFIG6 8 VSS 000 Select MDC/MDIO, INTn Active High, 50-ohm termination

Table 24. FPGA/MAC to 88E1111 PHY Interconnections (see Appendix A, Figure 33)

MAC Netname 88E1111 Pin 1156 fpBGA Ball Number

GTXCLK E2 A18

TX_CLK D1 J17/PCLKT0_0

TX_ER F2 K20

TX_EN E1 B19

TXD7 J2 A19

TXD6 J1 H19

TXD5 H3 G19

TXD4 H1 F18

TXD3 H2 D18

TXD2 G3 H18

TXD1 G2 J18

TXD0 F1 B18

RX_CLK C1 E19/PCLKT1_0

RX_ER D2 L19

RX_DV B1 C19

RXD7 C5 C20

RXD6 A2 G21

RXD5 A1 G20

RXD4 C4 B20

RXD3 B3 A20

RXD2 C3 K19

RXD1 D3 J19

RXD0 B2 D19

CRS B5 A17

COL B6 B17

S_IN+ A3 AP23

S_IN- A4 AN23

S_CLK+ A5 nc

S_CLK- A6 nc

S_OUT+ A7 AL23

S_OUT- A8 AK23

24


Table 25. 88E1111 Control and Status Interconnections to FPGA (see Appendix A, Figure 33)

PHYControl/Status 88E1111 Pin

1156 fpBGABall Number

MDIO M1 D20

MDC L3 F21

RESETn K3 F22

INTn L1 A21

FREQ_SEL H8 B21

CLK25 H9 D21

Crossover PLD Device(see Appendix A, Figure 25, U17)

The board includes a Lattice LCMXO-1200C Crossover PLD which is used in conjunction with the parallel Flash device for loading the configuration memory of the FPGA. It is also used for general-purpose board management functions. It has several connections to the FPGA and other devices on the board and includes an active high, push-button (SW4) if needed for user designs.

Generic user-defined interconnections are defined in Table 26.

Table 26. MachXO to FPGA Interconnections

MachXO csBGA Ball Number

FPGA fpBGA Ball Number

M1 C3

P13 C4

P10 B1

N7 B2

N8 E4

P11 D4

N13 B3

N1 A2

N3 D5

N4 C6

P1 B4

M12 A3

M2 D6

M3 C5

M4 A4

M6 A5

25


Ordering Information

Description Ordering Part NumberChina RoHS Environment-Friendly

Use Period (EFUP)

LatticeECP3 Serial Protocol Board LFE3-95EA-SP-EVN

Known IssuesSATA Target interface(CN2) channel – Transmit data must be polarity-inverted in FPGA design for correct connec-tion.

SATA Host interface(CN1) channel – Receive data must be polarity-inverted in FPGA design for correct connection.

Technical Support AssistanceHotline: 1-800-LATTICE (North America)

+1-503-268-8001 (Outside North America)e-mail: [email protected]: www.latticesemi.com

Revision HistoryDate Version Change Summary

August 2009 01.0 Initial release.

September 2009 01.1 Updated Programming the Daisy Chain text section.

May 2010 01.2 Added Known Issues section.

July 2010 01.3 Updated Ordering Part Number in the Ordering Information table.

© 2010 Lattice Semiconductor Corp. All Lattice trademarks, registered trademarks, patents, and disclaimers are as listed at www.latticesemi.com/legal. All other brand or product names are trademarks or registered trademarks of their respective holders. The specifications and information herein are subject to change without notice.

http://www.latticesemi.com/corporate/legal/index.cfm

http://www.latticesemi.com/

26


Appendix A. SchematicFigure 20. Cover Page

5 5

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Board Layout

4- Duplex SERDES Channels- Quad PCSB

8- User IO==> LEDS

Config Status LEDs

8- User IO==> SWITCHES

Logic Analyzer

Interface to FPGA IO

User GSRn

FPGA PROGRAMn

Power Input

User IO Header

16 GPIO

PCIe X4

4-Duplex SERDES

Channels

Power

(Sheet 2)

(Sheet 4)

FPGA

Power

Pins

(Sheet 9, 12)

Programming

(Sheet 5)

PCSA(Sheet 12, 13)

(Sheet 12, 13)

Bank 8

ECP3

(Sheet 12)

Bank 0

Bank 3

FPGA

LEDs

Switches

GPIO- SMAs

Bank 6

Test Pins

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Bank 7

Bank 1 Bank 2

SMAs

Power

Mgt.

(Sheet 3)

DQ Test

Loops

(Sheet 15)

USB

RS232

Ethernet

PHY

16-Seg

TI CDC

(Sheet 8, 14)

SERDES

PCSB

PCSC

X4 PCIe

SGMII

SATA Tgt & Host

Test SMA

(Sheet 7)

27


Figure 21. Power Generation5 5

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ted

Fus

e

F3

F12

28C

T-N

D5A

Fas

t-B

lo S

MT

Soc

kete

d F

use

F3

F12

28C

T-N

D5A

Fas

t-B

lo S

MT

Soc

kete

d F

use

+C

410

UF

-16V

-TA

NT

BS

MT

+C

410

UF

-16V

-TA

NT

BS

MT

+C9

330U

F-F

KS

MT

+C9

330U

F-F

KS

MT

+C

1010

UF

-16V

-TA

NT

BS

MT

+C

1010

UF

-16V

-TA

NT

BS

MT

R9

OP

EN

-060

3SM

TR

9O

PE

N-0

603S

MT

TP

9

Tes

tPoi

nt

TP

9

Tes

tPoi

nt1

R11

2K-0

603S

MT

R11

2K-0

603S

MT

TP

5

Tes

tPoi

nt

TP

5

Tes

tPoi

nt1

TB

1

Ter

min

al B

lock

/ED

1202

DS

TB

1

Ter

min

al B

lock

/ED

1202

DS

1 2

U6

SC

1592

U6

SC

1592

ILIM

1

IN2

CN

TL

3

GN

D4

OU

T5

SE

NS

E6

EN

7

TA

B8

LP1 50

16

LP1 50

16

11

R36

0O

PE

N-0

603S

MT

R36

0O

PE

N-0

603S

MT

R2

100R

-080

5SM

TR

210

0R-0

805S

MT

R27

1O

PE

N-0

603S

MT

R27

1O

PE

N-0

603S

MT

28


Figure 22. Power Management5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

HV

OU

T1

PAC_MCLK

TR

IM8

TR

IM7

PAC_RESETn

VPS1VPS0

TD

I_P

AC

TC

K_B

UF

TM

S_B

UF

TD

O_P

AC

TD

I_B

UF

2_5V

PW

R_G

OO

D_V

CC

A

PW

R_G

OO

D_V

CC

PW

R_G

OO

D_3

_3V

PW

R_G

OO

D_2

_5V

PW

R_G

OO

D_1

_5V

PW

R_G

OO

D_1

_8V

PW

R_G

OO

D_V

CC

A

PW

R_G

OO

D_V

CC

PW

R_G

OO

D_3

_3V

PW

R_G

OO

D_2

_5V

PW

R_G

OO

D_1

_5V

PW

R_G

OO

D_1

_8V

PW

R_G

OO

D_V

CC

AP

WR

_GO

OD

_VC

CP

WR

_GO

OD

_3_3

VP

WR

_GO

OD

_2_5

VP

WR

_GO

OD

_1_5

VP

WR

_GO

OD

_1_8

V

V_6

692

TR

IM1

TR

IM2

TR

IM3

TR

IM4

TR

IM5

TR

IM6

PLD

CLK

TR

IM1

TR

IM2TR

IM3

TR

IM4TR

IM5

TR

IM6

3_3V

3_3VIN

3_3V

IN

1_5V

1_8V

1_2V

_A

2_5V

3_3V

IN

3_3V

IN

3_3V

IN3_

3VIN

3_3V

IN

12_0

VIN

12_0

V

3_3V

IN

3_3V

IN

2_5V

3_3V

IN

3_3V

TE

MP

5

TE

MP

_GN

D5

I2C

_SD

A14

I2C

_SC

L14

3_3V

_GA

TE

2

1_5V

_EN

2

1_8V

_EN

2

2_5V

_EN

2

TR

ST

n5

TD

I_B

UF

5T

DI_

PA

C6

TM

S_B

UF

5,6

TC

K_B

UF

5,6

TD

O_P

AC

5

CO

RE

_EN

2

1_2V

A_E

N2

GS

RN

5,6,

14

INIT

N5,

6

DO

NE

5,6

VC

C_T

RIM

2

3_3_

TR

IM2

VC

CA

_TR

IM2

1_5_

TR

IM2

1_8_

TR

IM2

2_5_

TR

IM2

VC

C_C

TR

L2

3_3V

_MO

N2 V

CC

_CO

RE

_MO

N2

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Pow

er M

anag

emen

t

C

317

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Pow

er M

anag

emen

t

C

317

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Pow

er M

anag

emen

t

C

317

Wed

nesd

ay, A

ugus

t 26,

200

9

VCC Core, +1.2v , 10A

3_3V, +3.3V, 2A

3.3VIN, +2.5V, 6A

1_5V, +1.5V, 2A

ispPAC

12V INPUT

PCIe Edge

12V Wall Adapter

12V Input Terminal

MOSFET

1_8V, +1.8V, 2A

1_2VA, +1.2V, 1.5A

2_5V, +2.5V, 1.5A

LDO

LDO

LDO

LDO

POL

POL

LDO

ETH_1_2V, +1.2V, 0.5A

EEPROM

1.8V

2.5V

3.3V

1.5V

VC

CA

VC

C C

OR

E

R30

04_

7K-0

402S

MT

R30

04_

7K-0

402S

MT

U9

MA

X66

92U

9M

AX

6692

VC

C1

GND 5

DX

P2

SD

A7

SC

LK8

ALE

RT

6

OV

ER

T4

DX

N3

C16

100N

F-0

603S

MT

C16

100N

F-0

603S

MT

TP

23T

P23

R29

10K

-040

2SM

TR

2910

K-0

402S

MT

R32

6O

PE

N-0

603S

MT

R32

6O

PE

N-0

603S

MT

R50

330R

-040

2SM

T

R50

330R

-040

2SM

T

Q3

2N22

22/S

OT

23Q

32N

2222

/SO

T23

3

1

2

R33

10K

-040

2SM

TR

3310

K-0

402S

MT

G

D5

LED

-SM

T12

06_G

RE

EN

G

D5

LED

-SM

T12

06_G

RE

EN

R32

2O

PE

N-0

603S

MT

R32

2O

PE

N-0

603S

MT

R30

14_

7K-0

402S

MT

R30

14_

7K-0

402S

MT

R40

1K-0

603S

MT

R40

1K-0

603S

MT

R46

10K

-040

2SM

T

R46

10K

-040

2SM

T

G

D6

LED

-SM

T12

06_G

RE

EN

G

D6

LED

-SM

T12

06_G

RE

EN

TP36 TP36C

19

100N

F-0

603S

MT

C19

100N

F-0

603S

MT

TP

17T

P17

R31

8O

PE

N-0

603S

MT

R31

8O

PE

N-0

603S

MT

G

D7

LED

-SM

T12

06_G

RE

EN

G

D7

LED

-SM

T12

06_G

RE

EN

TP

33T

P33

TP

19T

P19

R35

330R

-040

2SM

T

R35

330R

-040

2SM

T

R28

10K

-040

2SM

TR

2810

K-0

402S

MT

Q6

2N22

22/S

OT

23Q

62N

2222

/SO

T23

3

1

2

TP

32T

P32

C18

1UF-16V-0805SMT

C18

1UF-16V-0805SMT

TP16 TP16

R48

330R

-040

2SM

T

R48

330R

-040

2SM

T

TP

20T

P20

R42

10K

-040

2SM

T

R42

10K

-040

2SM

T

R32

4O

PE

N-0

603S

MT

R32

4O

PE

N-0

603S

MT

ispPAC

Lattice

U10

PO

WR

1220

AT

8

DI

TQ

FP

100

ispPAC

Lattice

U10

PO

WR

1220

AT

8

DI

TQ

FP

100

OU

T20

25

OU

T19

24

OU

T18

23

OU

T17

21

OU

T16

20

OU

T15

19

OU

T14

18

OU

T13

17

OU

T12

16

OU

T11

15

OU

T10

14

OU

T9

12

OU

T8

11

OU

T7

10

OU

T6

9

SM

BA

/OU

T5

8

HV

OU

T4

40

HV

OU

T3

42

HV

OU

T2

85

HV

OU

T1

86

TR

IM8

73

TR

IM7

74

TR

IM6

75

TR

IM5

79

TR

IM4

80

TR

IM3

82

TR

IM2

83

TR

IM1

84

VM

ON

1+47

VM

ON

2+50

VM

ON

3+52

VM

ON

4+54

VM

ON

5+56

VM

ON

6+58

VM

ON

7+62

VM

ON

8+64

VM

ON

9+66

VM

ON

10+

68

VM

ON

11+

70

VM

ON

12+

72

VM

ON

1GS

46

VM

ON

2GS

48

VM

ON

3GS

51

VM

ON

4GS

53

VM

ON

5GS

55

VM

ON

6GS

57

VM

ON

7GS

61

VM

ON

8GS

63

VM

ON

9GS

65

VM

ON

10G

S67

VM

ON

11G

S69

VM

ON

12G

S71

IN67IN56IN44IN32IN21IN197

GNDD 3

GNDD 22

GNDD 36

GNDD 43

GNDD 88

GNDD 98

GNDA 87

GNDA 45

VCCD 94VCCD 38VCCD 13

VCCA 60

VCCPROG 39

VCCINP5

VCCJ33

TDO34

TDI31

ATDI30

TMS28

TCK37

TDISEL32

SCL92SDA93

VPS089

VPS190

MCLK96

PLD

CLK

95

RESETb91

TP

35T

P35

R26

200R

-040

2SM

T

R26

200R

-040

2SM

T

TP

25T

P25

R32

10K

-040

2SM

TR

3210

K-0

402S

MT

C21

100N

F-0

603S

MT

C21

100N

F-0

603S

MT

R38

330R

-040

2SM

T

R38

330R

-040

2SM

TQ

42N

2222

/SO

T23

Q4

2N22

22/S

OT

23

3

1

2

TP38 TP38

R39

10K

-040

2SM

T

R39

10K

-040

2SM

T

R31

6O

PE

N-0

603S

MT

R31

6O

PE

N-0

603S

MT

R34

100R

-060

3SM

TR

3410

0R-0

603S

MT

R31

5O

PE

N-0

603S

MT

R31

5O

PE

N-0

603S

MT

R32

1O

PE

N-0

603S

MT

R32

1O

PE

N-0

603S

MT

R32

0O

PE

N-0

603S

MT

R32

0O

PE

N-0

603S

MT

C23

2200

PF

-040

2SM

T

C23

2200

PF

-040

2SM

T

Q2

2N22

22/S

OT

23Q

22N

2222

/SO

T23

3

1

2

R31

10K

-040

2SM

TR

3110

K-0

402S

MT

R25

0R-0603SMT

R25

0R-0603SMT

G

D3

LED

-SM

T12

06_G

RE

EN

G

D3

LED

-SM

T12

06_G

RE

EN

R32

5O

PE

N-0

603S

MT

R32

5O

PE

N-0

603S

MT

R36

10K

-040

2SM

T

R36

10K

-040

2SM

T

R44

10K

-040

2SM

T04

02D

I

R44

10K

-040

2SM

T04

02D

I

C24

100N

F-0

402S

MT

C24

100N

F-0

402S

MT

TP

13T

P13

R31

7O

PE

N-0

603S

MT

R31

7O

PE

N-0

603S

MT

R45

330R

-040

2SM

T

R45

330R

-040

2SM

T

G

D4

LED

-SM

T12

06_G

RE

EN

G

D4

LED

-SM

T12

06_G

RE

EN

TP37 TP37

D29

MM

BZ

5221

BLT

1/S

OT

23

D29

MM

BZ

5221

BLT

1/S

OT

23

TP

22T

P22

D30

MM

BZ

5221

BLT

1/S

OT

23D

30M

MB

Z52

21B

LT1/

SO

T23

R24

0R-0603SMT

R24

0R-0603SMT

R47

1K-0

603S

MT

R47

1K-0

603S

MT

G

D2

LED

-SM

T12

06_G

RE

EN

G

D2

LED

-SM

T12

06_G

RE

EN

TP

24T

P24

R51

10K

-040

2SM

T

R51

10K

-040

2SM

T

R27

10K

-040

2SM

TR

2710

K-0

402S

MT

C22

10N

F-0

603S

MT

C22

10N

F-0

603S

MT

C20

10N

F-0

603S

MT

C20

10N

F-0

603S

MT

R30

10K

-040

2SM

TR

3010

K-0

402S

MT

+C

17

22UF-16V-TANTBSMT

+C

17

22UF-16V-TANTBSMT

TP

18T

P18

TP15 TP15

R32

3O

PE

N-0

603S

MT

R32

3O

PE

N-0

603S

MT

TP

21T

P21

TP

34T

P34

R43

2K-0

603S

MT

R43

2K-0

603S

MT

R37

2K-0

603S

MT

R37

2K-0

603S

MT

Q5

2N22

22/S

OT

23Q

52N

2222

/SO

T23

3

1

2

R49

10K

-040

2SM

T

R49

10K

-040

2SM

T

U8

24A

A10

25-I

SM

U8

24A

A10

25-I

SM

GN

D4

VC

C8

SD

A5

SC

L6

A0

1

A1

2

A2

3W

P7

R41

330R

-040

2SM

T

R41

330R

-040

2SM

T

R31

9O

PE

N-0

603S

MT

R31

9O

PE

N-0

603S

MT

TP

14T

P14

29


Figure 23. Power Supplies5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

VC

C_C

OR

E

VC

C_C

OR

E

VC

C_C

OR

E

1_5V

PC

SA

_VC

CIB

PC

SA

_VC

CO

B

PC

SA

_VC

CIB

3_3V

1_5V

1_2V

_A

VC

CP

LL

PC

SB

_VC

CIB

1_5V

1_5V

PC

SB

_VC

CO

B

PC

SC

_VC

CIB

1_5V

1_5V

PC

SC

_VC

CO

B

PC

SA

_VC

CO

B

PC

SB

_VC

CIB

PC

SB

_VC

CO

B

PC

SC

_VC

CIB

PC

SC

_VC

CO

B

3_3V

1_2V

_A1_

2V_A

1_2V

_A

1_2V

_A1_

2V_A

1_2V

_A

3_3V

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3-

SP

B E

val B

oard

3.0

Pow

er S

uppl

ies

C

415

Wed

nesd

ay, F

ebru

ary

18, 2

009

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3-

SP

B E

val B

oard

3.0

Pow

er S

uppl

ies

C

415

Wed

nesd

ay, F

ebru

ary

18, 2

009

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3-

SP

B E

val B

oard

3.0

Pow

er S

uppl

ies

C

415

Wed

nesd

ay, F

ebru

ary

18, 2

009

FB

6

BLM

41P

G60

0SN

1

FB

6

BLM

41P

G60

0SN

1

C70

100N

F-0

603S

MT

C70

100N

F-0

603S

MT

C34

2

1UF-16V-0805SMT

C34

2

1UF-16V-0805SMT

C36

10N

F-0

603S

MT

C36

10N

F-0

603S

MT

C97

10N

F-0

603S

MT

C97

10N

F-0

603S

MT

C99

100NF-0603SMT

C99

100NF-0603SMT

C31

100N

F-0

603S

MT

C31

100N

F-0

603S

MT

C53

100N

F-0

603S

MT

C53

100N

F-0

603S

MT

C65

100N

F-0

603S

MT

C65

100N

F-0

603S

MT

C83

100N

F-0

603S

MT

C83

100N

F-0

603S

MT

C73

100N

F-0

603S

MT

C73

100N

F-0

603S

MT

C86

10N

F-0

603S

MT

C86

10N

F-0

603S

MT

FB

11

BLM

41P

G60

0SN

1

FB

11

BLM

41P

G60

0SN

1

C76

100N

F-0

603S

MT

C76

100N

F-0

603S

MT

PP

11P

P11 1 2

C82

100N

F-0

603S

MT

C82

100N

F-0

603S

MT

FB

12

BLM

41P

G60

0SN

1

FB

12

BLM

41P

G60

0SN

1

C42

10N

F-0

603S

MT

C42

10N

F-0

603S

MT

C54

10N

F-0

603S

MT

C54

10N

F-0

603S

MT

C51

100N

F-0

603S

MT

C51

100N

F-0

603S

MT

PP

3P

P3

1 2

C88

10N

F-0

603S

MT

C88

10N

F-0

603S

MT

FB

8

BLM

41P

G60

0SN

1(N

OB

)

FB

8

BLM

41P

G60

0SN

1(N

OB

)

C62

1UF-16V-0805SMT

C62

1UF-16V-0805SMT

C34

10N

F-0

603S

MT

C34

10N

F-0

603S

MT

FB

4

BLM

41P

G60

0SN

1

FB

4

BLM

41P

G60

0SN

1

FB

9

BLM

41P

G60

0SN

1(N

OB

)

FB

9

BLM

41P

G60

0SN

1(N

OB

)

C66

10N

F-0

603S

MT

C66

10N

F-0

603S

MT

C49

100N

F-0

603S

MT

C49

100N

F-0

603S

MT

C85

10N

F-0

603S

MT

C85

10N

F-0

603S

MT

FB

2

BLM

41P

G60

0SN

1(N

OB

)

FB

2

BLM

41P

G60

0SN

1(N

OB

)

Misc Power

EC

P3-

90-1

156B

GA

U1J Misc Power

EC

P3-

90-1

156B

GA

U1J

VC

CA

AD

16

VC

CA

AD

18

VC

CA

AE

19

VC

CA

AC

17

VC

CA

AC

18

VC

CA

AD

13

VC

CA

AE

16

VC

CA

AD

17

VC

CA

AC

22

VC

CA

AE

23

VC

CA

AE

12

VC

CA

AD

22

VC

CA

AE

22

VC

CA

AC

13

VC

CA

AE

13

VC

CA

AD

19

VC

CA

UX

Y23

VC

CA

UX

AA

23

VC

CA

UX

P12

VC

CA

UX

AC

20

VC

CA

UX

AC

14

VC

CA

UX

M20

VC

CA

UX

AA

12

VC

CA

UX

Y12

VC

CA

UX

R12

VC

CA

UX

AC

15

VC

CA

UX

AC

21

VC

CA

UX

M21

VC

CA

UX

R23

VC

CA

UX

M15

VC

CA

UX

M14

VC

CA

UX

P23

VC

CP

LL_L

T13

VC

CP

LL_L

W13

VC

CP

LL_R

T22

VC

CP

LL_R

W22

+C

61

22UF-16V-TANTBSMT

+C

61

22UF-16V-TANTBSMT

C44

1UF-16V-0805SMT

C44

1UF-16V-0805SMT

C75

100N

F-0

603S

MT

C75

100N

F-0

603S

MT

C69

100N

F-0

603S

MT

C69

100N

F-0

603S

MT

C84

100N

F-0

603S

MT

C84

100N

F-0

603S

MT

C63

100N

F-0

603S

MT

C63

100N

F-0

603S

MT

C91

10N

F-0

603S

MT

C91

10N

F-0

603S

MT

FB

3

BLM

41P

G60

0SN

1(N

OB

)

FB

3

BLM

41P

G60

0SN

1(N

OB

)

FB

7

BLM

41P

G60

0SN

1(N

OB

)

FB

7

BLM

41P

G60

0SN

1(N

OB

)

C92

10N

F-0

603S

MT

C92

10N

F-0

603S

MT

C56

10N

F-0

603S

MT

C56

10N

F-0

603S

MT

C81

100N

F-0

603S

MT

C81

100N

F-0

603S

MT

+C

43

22UF-16V-TANTBSMT

+C

43

22UF-16V-TANTBSMT

C28

1UF-16V-0805SMT

C28

1UF-16V-0805SMT

C74

100N

F-0

603S

MT

C74

100N

F-0

603S

MT

C98

10N

F-0

603S

MT

C98

10N

F-0

603S

MT

FB

10

BLM

41P

G60

0SN

1

FB

10

BLM

41P

G60

0SN

1

C26

1UF-16V-0805SMT

C26

1UF-16V-0805SMT

C30

1UF-16V-0805SMT

C30

1UF-16V-0805SMT

C77

100N

F-0

603S

MT

C77

100N

F-0

603S

MT

C38

10N

F-0

603S

MT

C38

10N

F-0

603S

MT

C50

10N

F-0

603S

MT

C50

10N

F-0

603S

MT

+C

27

22UF-16V-TANTBSMT

+C

27

22UF-16V-TANTBSMT

C41

100N

F-0

603S

MT

C41

100N

F-0

603S

MT

C67

100N

F-0

603S

MT

C67

100N

F-0

603S

MT

+C

25

22UF-16V-TANTBSMT

+C

25

22UF-16V-TANTBSMT

+C

29

22UF-16V-TANTBSMT

+C

29

22UF-16V-TANTBSMT

C52

10N

F-0

603S

MT

C52

10N

F-0

603S

MT

PP

1P

P1

1 2

C59

100N

F-0

603S

MT

C59

100N

F-0

603S

MT

C39

100N

F-0

603S

MT

C39

100N

F-0

603S

MT

C90

10N

F-0

603S

MT

C90

10N

F-0

603S

MT

C93

10N

F-0

603S

MT

C93

10N

F-0

603S

MT

C80

1UF-16V-0805SMT

C80

1UF-16V-0805SMT

C71

100N

F-0

603S

MT

C71

100N

F-0

603S

MT

C96

10N

F-0

603S

MT

C96

10N

F-0

603S

MT

C10

0

1UF-16V-0805SMT

C10

0

1UF-16V-0805SMT

C40

10N

F-0

603S

MT

C40

10N

F-0

603S

MT

C46

1UF-16V-0805SMT

C46

1UF-16V-0805SMT

C33

100N

F-0

603S

MT

C33

100N

F-0

603S

MT

C72

100N

F-0

603S

MT

C72

100N

F-0

603S

MT

C57

100N

F-0

603S

MT

C57

100N

F-0

603S

MT

+C

79

22UF-16V-TANTBSMT

+C

79

22UF-16V-TANTBSMT

FB

1

BLM

41P

G60

0SN

1(N

OB

)

FB

1

BLM

41P

G60

0SN

1(N

OB

)

C48

1UF-16V-0805SMT

C48

1UF-16V-0805SMT

+C

101

22UF-16V-TANTBSMT

+C

101

22UF-16V-TANTBSMT

C37

100N

F-0

603S

MT

C37

100N

F-0

603S

MT

Power

EC

P3-

90-1

156B

GA

U1I

Power

EC

P3-

90-1

156B

GA

U1I

VC

CN

13

VC

CA

B16

VC

CN

21

VC

CN

18

VC

CA

B21

VC

CV

22

VC

CN

19

VC

CN

14

VC

CA

B15

VC

CA

B20

VC

CN

15

VC

CU

22

VC

CA

B19

VC

CP

13

VC

CU

13

VC

CR

13

VC

CA

B14

VC

CY

13

VC

CN

16

VC

CA

B18

VC

CV

13

VC

CR

22

VC

CN

20

VC

CP

22

VC

CN

22

VC

CA

B13

VC

CA

B22

VC

CA

B17

VC

CY

22

VC

CA

A13

VC

CA

A22

VC

CN

17

C78

100N

F-0

603S

MT

C78

100N

F-0

603S

MT

+C

45

22UF-16V-TANTBSMT

+C

45

22UF-16V-TANTBSMT

PP

2P

P2

1 2

C64

10N

F-0

603S

MT

C64

10N

F-0

603S

MT

+C

47

22UF-16V-TANTBSMT

+C

47

22UF-16V-TANTBSMT

C32

10N

F-0

603S

MT

C32

10N

F-0

603S

MT

C58

10N

F-0

603S

MT

C58

10N

F-0

603S

MT

C55

100N

F-0

603S

MT

C55

100N

F-0

603S

MT

C95

10N

F-0

603S

MT

C95

10N

F-0

603S

MT

C89

10N

F-0

603S

MT

C89

10N

F-0

603S

MT

C35

100N

F-0

603S

MT

C35

100N

F-0

603S

MT

FB

13B

LM41

PG

600S

N1

FB

13B

LM41

PG

600S

N1

C60

10N

F-0

603S

MT

C60

10N

F-0

603S

MT

C68

10N

F-0

603S

MT

C68

10N

F-0

603S

MT

FB

5

BLM

41P

G60

0SN

1

FB

5

BLM

41P

G60

0SN

1

+C

341

22UF-16V-TANTBSMT

+C

341

22UF-16V-TANTBSMT

C87

10N

F-0

603S

MT

C87

10N

F-0

603S

MT

C94

10N

F-0

603S

MT

C94

10N

F-0

603S

MT

30


Figure 24. Programming5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

TC

K_B

UF

LOC

AL_

TD

I

LOC

AL_

TC

KLO

CA

L_T

MS

PR

OG

RA

MN

GS

RN

INIT

N

DO

NE

DO

NE

INIT

N

FLA

SH

_DIS

FP

GA

_SIS

PI

GSRN

PROGRAMN

CF

G2

CF

G1

CF

G0

LOCAL_TMS

FP

GA

_CS

SP

I0N

_DI

LOCAL_TDI

LOCAL_TCK

SP

I0_Q

CABLE_TDO

LOA

DE

R_C

K

TM

S_B

UF

TD

I_B

UF

CA

BLE

_TD

O

3_3V

FP

GA

_WR

ITE

N

PR

OG

RA

MN

DONE

3_3V

FP

GA

_D2

FP

GA

_D3

FP

GA

_D[0

..7]

FP

GA

_D4

FP

GA

_D6

FP

GA

_D5

FP

GA

_D6

FP

GA

_D7

FP

GA

_D0

SP

IFA

ST

N

FP

GA

_XR

ES

FP

GA

_CC

LK

FP

GA

_D0

FP

GA

_CC

LK

INITN

DO

NE

INIT

N

FP

GA

_SIS

PI

FP

GA

_D1

CF

G2

CF

G1

CF

G0

PROGRAMN

PR

OG

RA

MN

DO

NE

INIT

NF

PG

A_C

CLK

TC

K_B

UF

TM

S_B

UF

TD

I_B

UF

TD

I_X

O

CF

G2

CF

G1

CF

G0

FP

GA

_D7

FP

GA

_SIS

PI

FP

GA

_WR

ITE

N

FP

GA

_D1

FP

GA

_D0

FP

GA

_D3

FP

GA

_D4

FP

GA

_D5

FP

GA

_D6

FP

GA

_D2

SP

I0_Q

FP

GA

_D7

FP

GA

_CS

1NF

PG

A_C

SN

SP

I_C

LK

SP

I_C

LK

FP

GA

_MC

LK

FP

GA

_MC

LKF

PG

A_C

CLK

FP

GA

_CS

SP

I0N

_DI

FP

GA

_CS

SP

I1N

_DO

UT

FP

GA

_CS

SP

I0N

_DI

FP

GA

_CS

SP

I1N

_DO

UT

FP

GA

_CS

N

FP

GA

_CS

N

FP

GA

_CS

1N

FP

GA

_CS

1N

DO

NE

PR

OG

RA

MN

INIT

N

PR

OG

RA

MN

PR

OG

RA

MN

_CH

N

INIT

_CH

N

TC

K_B

UF

TM

S_B

UF

TR

ST

n

FP

GA

_D13

FP

GA

_D12

FP

GA

_D11

FP

GA

_D10

FP

GA

_D9

FP

GA

_D8

FP

GA

_D15

FP

GA

_D14

FPGA_D[8..15]

FP

GA

_XR

ES

TD

O_E

CP

3T

DO

_EC

P3

CA

BLE

_TD

OT

DO

_PA

CT

DI_

EC

P3

TD

I_E

CP

3

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

IN

3_3V

IN

3_3V

IN

3_3V

IN

3_3V

IN

GS

RN

3,6,

14

TM

S_B

UF

3,6

TC

K_B

UF

3,6

LOA

DE

R_C

K6

FP

GA

_CC

LK6

TE

MP

3T

EM

P_G

ND

3

TD

I_B

UF

3

TD

I_X

O6

FP

GA

_D[0

..7]

6

FP

GA

_WR

ITE

N6

PR

OG

RA

MN

6

DO

NE

3,6

INIT

N3,

6

CF

G[0

..2]

6

SP

I_C

LK6

TR

ST

n3

FP

GA

_CS

1N6

FP

GA

_CS

N6

FP

GA

_D[8

..15]

6

TD

O_P

AC

3

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Pro

gram

min

g

C

515

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Pro

gram

min

g

C

515

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Pro

gram

min

g

C

515

Wed

nesd

ay, A

ugus

t 26,

200

9

FROM ISPVM CABLE

This LED

indicates activity

on TDI.

FPGA GSRN

PROGRAMN

DONE indicator will light when

configuration is successfully

completed

INITN indicator will light

if an error occurs during

configuration programming

ON

edoM noitarugifnoC

2GFC

CFG1

CFG0

ispJTAG

Slave Serial

SPIm

SPI Flash

Slave Parallel

0(ON)

XX1(OFF)

1(OFF)

1(OFF)

1(OFF)

1(OFF)

0(ON)

0(ON)

1(OFF)

0(ON)

0(ON)

0(ON)

CONFIG

Status LEDs

PROGRAMN

& GSRN

Pushbuttons

CONFIG

CFG Switches

SPI FLASH

JTAG

X

sysCONFIG

Connector

TMS

TCK

DONE

INITn_OB

NC

TDI_OB

GND

TDO_OB

PROGRAMn_OB

Multi-board JTAG header

TDO Chaining

1-2: TDO Local

1-3, 2-4: Offboard Chain

PROGRAMn Chain

Open: PGM Local

Shunt: Local & Offboard

INITn Chain

Open: INITn Local

Shunt: Local & Offboard

TMS

TCK

DONE

INITn

+3.3V

TDI

GND

TDO

PROGRAMn

ECP3

XO

PWR

VM Cable

TCK

Buffer

TCK

TMS

TDI

TMS

TDO

Daisy ChainOff-Board

TDI

TDO

ID

TI

DT

IDT

OD

TO

DT

OD

T

ATDI

Board Jumpers

JTAG Daisy Chain

PLACE JUMPERS

FOR LOCAL ECP3

JTAG CHAIN

RN1D

EX

BV

8V47

2JV

4.7K

RN1D

EX

BV

8V47

2JV

4.7K

4 5

J10

HE

AD

ER

2

HD

2X1

DI

J10

HE

AD

ER

2

HD

2X1

DI

12

R73

10K

-060

3SM

TR

7310

K-0

603S

MT

C104

100NF-0603SMT

C104

100NF-0603SMT

RN1C

4.7K

RN1C

4.7K

3 6

R75

10K

-060

3SM

TR

7510

K-0

603S

MT

R59

10K

-060

3SM

TR

5910

K-0

603S

MT

R53

680R

-060

3SM

TR

5368

0R-0

603S

MT J7

HE

AD

ER

2X

2J7

HE

AD

ER

2X

2

3 41 2

U14

B

SN

74LV

C12

5A/S

O14

U14

B

SN

74LV

C12

5A/S

O14

3Y8

3A9

3OE

_N10

4Y11

4A12

4OE

_N13

VCC14

SW

2S

W D

IP-3

CT

S 1

94-3

MS

TS

W2

SW

DIP

-3 C

TS

194

-3M

ST

123

654

R68

10K

-060

3SM

T

R68

10K

-060

3SM

T

R76

10K

-060

3SM

TR

7610

K-0

603S

MT

RN1A

4.7K

RN1A

4.7K

1 8

R58

10K

-060

3SM

TR

5810

K-0

603S

MT

C10

2

100NF-0603SMT

C10

2

100NF-0603SMT

U13

NC

7WZ

16-M

AC

O6A

/Fai

rchi

ld T

inyL

ogic

U13

NC

7WZ

16-M

AC

O6A

/Fai

rchi

ld T

inyL

ogic

IN A

11

GND 2

IN A

23

OU

T Y

24

VCC5

OU

T Y

16

R78100R-0603SMT

R78100R-0603SMT

R694_7K-0603SMT

R694_7K-0603SMT

R56

220R-0603SMT

R56

220R-0603SMT

Y

D9

LED

-SM

T12

06_R

ED

Y

D9

LED

-SM

T12

06_R

ED

J6 HE

AD

ER

3

J6 HE

AD

ER

31 2 3

RN1B

4.7K

RN1B

4.7K

2 7

R62

10K

-060

3SM

TR

6210

K-0

603S

MT

J3

HE

AD

ER

2

J3

HE

AD

ER

21 2

C107

100NF-0603SMT

C107

100NF-0603SMT

VCC

GND

TDO

TDI

ispEN_N

NC

TMS

TCK

DONE

INITN

J9 HE

AD

ER

10

VCC

GND

TDO

TDI

ispEN_N

NC

TMS

TCK

DONE

INITN

J9 HE

AD

ER

101

2 3 4 5 6

7

8 9 10

C10

3

10NF-0603SMT

C10

3

10NF-0603SMT

R57

10K

-060

3SM

TR

5710

K-0

603S

MT

J11

HE

AD

ER

2

HD

2X1

DI

J11

HE

AD

ER

2

HD

2X1

DI

12

SW

1

SW

PU

SH

BU

TT

ON

-SP

ST

SW

1

SW

PU

SH

BU

TT

ON

-SP

ST

Configuration

EC

P3-

90-1

156B

GA

U1G

Configuration

EC

P3-

90-1

156B

GA

U1G

CC

LKC

34

CF

G0

B33

CF

G1

F30

CF

G2

D32

DO

NE

G31

INIT

NC

33

PR

10A

/WR

ITE

NE

31

PR

10B

/D0/

SP

IFA

ST

NE

32P

R11

A/D

1G

34P

R11

B/D

2H

33P

R13

A/D

3/S

IG

33P

R13

B/D

4/S

OG

32P

R14

A/D

5H

34P

R14

B/D

6/S

PID

1J3

4P

R16

A/D

7/S

PID

0F

32P

R16

B/B

US

Y/S

ISP

I/AV

DN

F33

PR

5A/H

FP

D33

PR

5B/D

I/CS

SP

I0N

/CE

ND

34

PR

7A/C

S1N

/HO

LDN

/CO

NT

2N/R

DY

G30

PR

7B/C

SN

/SN

/CO

NT

1N/O

EN

F31

PR

8A/D

OU

T/C

SO

N/C

SS

PI1

NE

34

PR

8B/M

CLK

F34

PR

OG

RA

MN

B34

TC

KD

1T

DI

E1

VC

CJ

K10

TD

OC

1T

MS

D2

TE

MP

SE

NS

EA

N4

TE

MP

VS

SA

P4

VC

CIO

8P

25V

CC

IO8

N25

XR

ES

W23

PT

140A

/XD

8A

32P

T14

0B/X

D9

A33

PT

142A

/XD

10D

30P

T14

2B/X

D11

D29

PT

143A

/XD

12B

32P

T14

3B/X

D13

C32

PT

145A

/XD

14D

31P

T14

5B/X

D15

C31

R6410K-0603SMT

R6410K-0603SMT

C106100NF-0603SMT

C106100NF-0603SMT

J5 HE

AD

ER

3

J5 HE

AD

ER

31 2 3

R D12

LED

-SM

T12

06_G

RE

EN

R D12

LED

-SM

T12

06_G

RE

EN

U12

MA

X68

17

U12

MA

X68

17

IN1

1

GND 2

IN2

3

OU

T2

4

VCC5

OU

T1

6

R72

4_7K-0603SMT

R72

4_7K-0603SMT

U11

M25

P64

-FLA

SH

U11

M25

P64

-FLA

SH

S#

7

Q8

DU

13

DU

24

VC

C2

HO

LD#

1

DU

46

DU

35

W#

9V

SS

10D

U5

11D

U6

12D

U7

13D

U8

14D

15C

K16

R55

680R

-060

3SM

TR

5568

0R-0

603S

MT

C108

100NF-0603SMT

C108

100NF-0603SMT

R71 OPEN-0603SMTR71 OPEN-0603SMT

VCC

GND

TDO

TDI

ispEN_N

NC

TMS

TCK

DONE

INITN

J12

HE

AD

ER

10

VCC

GND

TDO

TDI

ispEN_N

NC

TMS

TCK

DONE

INITN

J12

HE

AD

ER

101

2 3 4 5 6

7

8 9 10

G

D11

LED-SMT1206_GREEN

G

D11

LED-SMT1206_GREEN

SW

3

SW

PU

SH

BU

TT

ON

-SP

ST

SW

3

SW

PU

SH

BU

TT

ON

-SP

ST

R6610K-0603SMT

R6610K-0603SMT

R74

220R

-060

3SM

TR

7422

0R-0

603S

MT

R52

10K

-060

3SM

TR

5210

K-0

603S

MT

R67

4_7K

-060

3SM

TR

674_

7K-0

603S

MT

R6510K-0603SMT

R6510K-0603SMT

R54

680R

-060

3SM

TR

5468

0R-0

603S

MT

U14

A

SN

74LV

C12

5A/S

O14

U14

A

SN

74LV

C12

5A/S

O14

1OE

_N1

1A2

1Y3

2OE

_N4

2A5

2Y6

GND 7

R70 OPEN-0603SMTR70 OPEN-0603SMTR63

10K-0603SMTR63

10K-0603SMT

C105

100NF-0603SMT

C105

100NF-0603SMT

J41

HE

AD

ER

3X

2

J41

HE

AD

ER

3X

2

2 4 6

1 3 5

R

D8

LED

-SM

T12

06_R

ED

R

D8

LED

-SM

T12

06_R

ED

J4

HE

AD

ER

17X

2

J4

HE

AD

ER

17X

2

2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34

1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33

Q7

2N22

22/S

OT

23Q7

2N22

22/S

OT

23

3

1

2

R61

10K

-060

3SM

T

R61

10K

-060

3SM

T

Y

D10

LED

-SM

T12

06_R

ED

Y

D10

LED

-SM

T12

06_R

ED

R60

10K

-060

3SM

TR

6010

K-0

603S

MT R77

100R-0603SMT

R77

100R-0603SMT

U15

NC

7WZ

16-M

AC

O6A

/Fai

rchi

ld T

inyL

ogic

U15

NC

7WZ

16-M

AC

O6A

/Fai

rchi

ld T

inyL

ogic

IN A

11

GND 2

IN A

23

OU

T Y

24

VCC5

OU

T Y

16

J8

HE

AD

ER

2X

2

J8

HE

AD

ER

2X

2

3 41 2

31


Figure 25. Parallel FPGA Loader5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

TM

S_B

UF

TD

I_X

OT

DI_

PA

C

TC

K_B

UF

FPGA_D[0..7]

FP

GA

_D2

FP

GA

_D3

FP

GA

_D4

FP

GA

_D5

FP

GA

_D6

FP

GA

_D7

FP

GA

_D0

FP

GA

_D1

LOA

DE

R_C

K

FLA

SH

_A21

FLA

SH

_A20

FLA

SH

_A19

FLA

SH

_A18

FLA

SH

_A17

FLA

SH

_A16

FLA

SH

_A15

FLA

SH

_A14

FLA

SH

_A13

FLA

SH

_A12

FLA

SH

_A11

FLA

SH

_A10

FLA

SH

_A9

FLA

SH

_A8

FLA

SH

_A7

FLA

SH

_A6

FLA

SH

_A5

FLA

SH

_A4

FLA

SH

_A3

FLA

SH

_A2

FLA

SH

_A1

FLA

SH

_A0

FLA

SH

_A9

FLA

SH

_A8

FLA

SH

_A7

FLA

SH

_A6

FLA

SH

_A5

FLA

SH

_A4

FLA

SH

_A3

FLA

SH

_A2

FLA

SH

_A1

FLA

SH

_A0

FLA

SH

_A20

FLA

SH

_A19

FLA

SH

_A18

FLA

SH

_A17

FLA

SH

_A16

FLA

SH

_A15

FLA

SH

_A14

FLA

SH

_A13

FLA

SH

_A12

FLA

SH

_A11

FLA

SH

_A10

FLA

SH

_A21

FLA

SH

_A[0

..21]

FLA

SH

_D0

FLA

SH

_D1

FLA

SH

_D2

FLA

SH

_D3

FLA

SH

_D4

FLA

SH

_D5

FLA

SH

_D6

FLA

SH

_D7

FLA

SH

_D8

FLA

SH

_D9

FLA

SH

_D10

FLA

SH

_D11

FLA

SH

_D12

FLA

SH

_D13

FLA

SH

_D14

FLA

SH

_D15

FLA

SH

_D0

FLA

SH

_D1

FLA

SH

_D2

FLA

SH

_D3

FLA

SH

_D4

FLA

SH

_D5

FLA

SH

_D6

FLA

SH

_D7

FLA

SH

_D8

FLA

SH

_D9

FLA

SH

_D10

FLA

SH

_D11

FLA

SH

_D12

FLA

SH

_D13

FLA

SH

_D14

FLA

SH

_D15

FLA

SH

_D[0

..15]

FLA

SH

_D[0

..15]

FLA

SH

_CLK

FLA

SH

_WE

_N

FLA

SH

_WP

_N_A

CC

FLA

SH

_RE

SE

T_N

FLA

SH

_OE

_N

GS

RN

DO

NE

INIT

N

FLA

SH

_RD

/BY

FLA

SH

_BY

TE

n

FLA

SH

_WE

_NF

LAS

H_W

P_N

_AC

CF

LAS

H_R

ES

ET

_NF

LAS

H_O

E_N

FLA

SH

_CE

m

FLA

SH

_CE

m

FLA

SH

_RD

/BY

FLA

SH

_BY

TE

n

PR

OG

RA

MN

FP

GA

_0F

PG

A_1

FP

GA

_2F

PG

A_3

FP

GA

_4F

PG

A_5

FP

GA

_6F

PG

A_7

FP

GA

_8F

PG

A_9

FP

GA

_10

FP

GA

_11

FP

GA

_12

FP

GA

_13

FP

GA

_14

FP

GA

_15

FP

GA

_WR

ITE

N

CF

G1

CF

G2

CF

G0

FP

GA

_CS

NF

PG

A_C

S1N

FP

GA

_D13

FP

GA

_D12

FP

GA

_D11

FP

GA

_D10

FP

GA

_D9

FP

GA

_D8

FP

GA

_D15

FP

GA

_D14

FPGA_D[8..15]

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

TM

S_B

UF

3,5

TD

I_X

O5

TC

K_B

UF

3,5

FP

GA

_D[0

..7]

5

LOA

DE

R_C

K5

FLA

SH

_CLK

15

GS

RN

3,5,

14

DO

NE

3,5

INIT

N3,

5

PR

OG

RA

MN

5

FP

GA

_[0.

.15]

14

TD

I_P

AC

3

SP

I_C

LK5

FP

GA

_CC

LK5

FP

GA

_WR

ITE

N5

CF

G[0

..2]

5

FP

GA

_CS

1N5

FP

GA

_CS

N5

CLO

CK

_CT

RL_

SE

L07,

14C

LOC

K_C

TR

L_S

EL1

7,14

FP

GA

_D[8

..15]

5

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Par

alle

l FP

GA

Loa

der

C

615

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Par

alle

l FP

GA

Loa

der

C

615

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Par

alle

l FP

GA

Loa

der

C

615

Wed

nesd

ay, A

ugus

t 26,

200

9

CPLD RESET

R831K-0603SMT

R831K-0603SMT

R82

2_2K

-060

3SM

TR

822_

2K-0

603S

MT

C11

4

10N

F-0

603S

MT

C11

4

10N

F-0

603S

MT

SW

4S

W4

C117100NF-0603SMT

C117100NF-0603SMT

C11

2

10N

F-0

603S

MT

C11

2

10N

F-0

603S

MT

R81

10K

-060

3SM

TR

8110

K-0

603S

MT

C11

3

100N

F-0

603S

MT

C11

3

100N

F-0

603S

MT

Lattice

FPGA

Loader

LCM

XO

1200

C-C

SB

GA

132

U17

Lattice

FPGA

Loader

LCM

XO

1200

C-C

SB

GA

132

U17 FP

GA

_IN

ITN

A1

CF

G1

A2

CF

G0

A3

FP

GA

_DO

NE

A4

FP

GA

_DA

TA

_1A

5

FLA

SH

_AD

DR

ES

S_1

A6

CLO

CK

A8

FLA

SH

_AD

DR

ES

S_4

A9

FLA

SH

_AD

DR

ES

S_9

A11

FLA

SH

_AD

DR

ES

S_1

9A

12

FLA

SH

_AD

DR

ES

S_1

7A

13

FLA

SH

_AD

DR

ES

S_1

2A

14

SP

I_C

LKB

1

FLA

SH

_CE

mB

2

FLA

SH

_AD

DR

ES

S_2

B3

FLA

SH

_AD

DR

ES

S_3

B5

FLA

SH

_AD

DR

ES

S_0

B6

FP

GA

_DA

TA

_7B

7

FLA

SH

_AD

DR

ES

S_1

3B

8

FLA

SH

_AD

DR

ES

S_5

B9

FLA

SH

_AD

DR

ES

S_7

B10

FLA

SH

_AD

DR

ES

S_1

5B

12

FLA

SH

_AD

DR

ES

S_1

8B

13

FLA

SH

_AD

DR

ES

S_2

1B

14

FLA

SH

_OE

_NC

1

FLA

SH

_CE

0_N

C3

FLA

SH

_DQ

_6C

4

FLA

SH

_AD

DR

ES

S_1

1C

8

FLA

SH

_AD

DR

ES

S_6

C10

FLA

SH

_AD

DR

ES

S_8

C11

FLA

SH

_AD

DR

ES

S_2

0C

12

FLA

SH

_AD

DR

ES

S_1

6C

13

FLA

SH

_AD

DR

ES

S_1

4C

14

FLA

SH

_RD

/BY

D1

FLA

SH

_DQ

_7D

3

FLA

SH

_DQ

_14

D12

FLA

SH

_AD

DR

ES

S_1

0D

14F

PG

A_D

AT

A_6

E3

FLA

SH

_DQ

_8E

13

FLA

SH

_DQ

_15

E14

FLA

SH

_BY

TE

nF

2

FLA

SH

_CE

1_N

F3

FP

GA

_CS

NF

12

FLA

SH

_DQ

_9F

13F

LAS

H_D

Q_1

0F

14

FP

GA

_DA

TA

_0G

1

FLA

SH

_DQ

_0G

3F

LAS

H_D

Q_1

G13

FLA

SH

_DQ

_12

G14

FLA

SH

_DQ

_4H

1

FP

GA

_PR

OG

RA

MN

H2

GP

IO16

H12

GP

IO17

H13

FP

GA

_CS

1NH

14

FLA

SH

_DQ

_5J1

TS

ALL

J2

FP

GA

_DA

TA

_4J3

FLA

SH

_DQ

_13

J12

FLA

SH

_DQ

_11

J13

FP

GA

_DA

TA

_5K

1

FLA

SH

_WE

_NK

2

FU

NC

_RE

SE

TK

12

FLA

SH

_DQ

_2K

13

FLA

SH

_WP

_N_A

CC

L1F

PG

A_C

LKL3

GP

IO0

M1

GP

IO12

M2

GP

IO13

M3

GP

IO14

M4

GP

IO15

M6

NC

M7

FP

GA

_DA

TA

_3M

8

CF

G2

M9

GP

IO11

M12

GP

IO18

M13

GP

IO20

M14

GP

IO7

N1

GP

IO8

N3

GP

IO9

N4

GP

IO19

N6

GP

IO3

N7

GP

IO4

N8

FLA

SH

_DQ

_3N

9

FP

GA

_WR

ITE

NN

10

GP

IO6

N13

FP

GA

_RE

SE

TN

N14

GP

IO10

P1

FP

GA

_CC

LKP

5

FP

GA

_DA

TA

_2P

8

GP

IO2

P10

GP

IO5

P11

GP

IO1

P13

FLA

SH

_RE

SE

T_N

P14

TC

KP

4

TD

IM

5

TD

ON

5

TM

SP

3

GND E1

VCCH3

GND L2

GND P2

VCCP6

VCCAUXP7

GND N11

GND L13

VCCG12

GND D13

GND A10

VCCAUXA7

VCCC7

GND B4

GND F1

GND P9

GND J14

GND C9

VCCIO0C5

VCCIO1B11

VCCIO2E12

VCCIO3L12

VCCIO4M10

VCCIO5N2

VCCIO7D2

VCCIO6K3

SLE

EP

NN

12

FP

GA

_D15

C6

FP

GA

_D14

C2

FP

GA

_D13

K14

FP

GA

_D12

P12

FP

GA

_D11

L14

FP

GA

_D10

M11

FP

GA

_D9

G2

FP

GA

_D8

E2

C11

0

10N

F-0

603S

MT

C11

0

10N

F-0

603S

MT

R80

0R-0

603S

MT

R80

0R-0

603S

MT

R79

OP

EN

-060

3SM

TR

79O

PE

N-0

603S

MT

C11

1

100N

F-0

603S

MT

C11

1

100N

F-0

603S

MT

R84

1K-0

603S

MT

R84

1K-0

603S

MT

C11

6

10N

F-0

603S

MT

C11

6

10N

F-0

603S

MT

C10

9

100N

F-0

603S

MT

C10

9

100N

F-0

603S

MT

U16 S29

GL0

64A

U16 S29

GL0

64A

A21

C4

A20

D3

A19

D4

A18

C3

A17

B2

A16

E6

A15

D6

A14

C6

A13

A6

A12

B6

A11

D5

A10

C5

A9

A5

A8

B5

A7

A2

A6

C2

A5

D2

A4

B1

A3

A1

A2

C1

A1

D1

A0

E1

GN

DH

6

GN

DH

1R

ES

ET

nB

4W

Pn

B3

BY

TE

nF

6R

D/B

YA

3W

En

A4

OE

nG

1C

En

F1

DQ

0E

2D

Q1

H2

DQ

2E

3D

Q3

H3

DQ

4H

4D

Q5

E4

DQ

6H

5D

Q7

E5

DQ

8F

2D

Q9

G2

DQ

10F

3D

Q11

G3

DQ

12F

4D

Q13

G5

DQ

14F

5D

Q15

G6

VC

CG

4

C11

5

100N

F-0

603S

MT

C11

5

100N

F-0

603S

MT

32


Figure 26. SERDES5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

x4_P

ER

p0x4

_PE

Rn0

x4_P

ER

p1x4

_PE

Rn1

x4_P

ET

p3

x4_P

ER

p2x4

_PE

Rn2

x4_P

ER

p3x4

_PE

Rn3

PC

IE_P

ER

ST

N

PC

IE_3

V3

x4_P

ET

p0x4

_PE

Tn0

x4_P

ET

p1x4

_PE

Tn1

x4_P

ET

p2x4

_PE

Tn2

x4_P

ET

n3

PC

IE_3

V3

x4_P

CIE

_CLK

Nx4

_PC

IE_C

LKP

x4_P

ER

p3

x4_P

ER

n3

PC

SA

_HD

OU

TP

0

PC

SA

_HD

OU

TN

0

x4_P

ER

p2

x4_P

ER

n2

PC

SA

_HD

OU

TP

1

PC

SA

_HD

OU

TN

1

x4_P

ER

p1

x4_P

ER

n1

PC

SA

_HD

OU

TP

2

PC

SA

_HD

OU

TN

2

x4_P

ER

p0

x4_P

ER

n0

PC

SA

_HD

OU

TP

3

PC

SA

_HD

OU

TN

3

x4_P

CIE

_CLK

Px4

_PC

IE_C

LKN

PC

SB

_OS

C_P

PC

SB

_OS

C_N

PC

SB

_RE

FC

LKP

PC

SB

_RE

FC

LKN

x4_P

CIE

_CLK

Px4

_PC

IE_C

LKN

PC

SB

_HD

INP

0P

CS

B_H

DIN

N0

PC

SB

_HD

INP

1P

CS

B_H

DIN

N1

PC

SB

_HD

INP

2P

CS

B_H

DIN

N2

PC

SB

_HD

INP

3P

CS

B_H

DIN

N3

PC

SB

_HD

OU

TP

0P

CS

B_H

DO

UT

N0

PC

SB

_HD

OU

TP

1P

CS

B_H

DO

UT

N1

PC

SB

_HD

OU

TP

2P

CS

B_H

DO

UT

N2

PC

SB

_HD

OU

TP

3P

CS

B_H

DO

UT

N3

PC

SB

_RE

FC

LKP

PC

SB

_RE

FC

LKN

PC

SB

_SM

A_P

PC

SB

_SM

A_N

PC

SB

_OS

C_P

PC

SB

_SM

A_P

PC

SB

_RE

FC

LKP

PC

SB

_OS

C_N

PC

SB

_SM

A_N

PC

SB

_RE

FC

LKN

PC

SB

_HD

INP

0

PC

SB

_HD

INP

2

PC

SB

_HD

OU

TP

0

PC

SB

_HD

OU

TP

2

PC

SB

_HD

INN

0

PC

SB

_HD

INN

2

PC

SB

_HD

OU

TN

0

PC

SB

_HD

OU

TN

2

PC

SB

_HD

INP

1

PC

SB

_HD

INP

3

PC

SB

_HD

OU

TP

1

PC

SB

_HD

OU

TP

3

PC

SB

_HD

INN

1

PC

SB

_HD

INN

3

PC

SB

_HD

OU

TN

1

PC

SB

_HD

OU

TN

3

IN_S

AT

A_T

GT

+IN

_SA

TA

_TG

T-

OU

T_S

AT

A_T

GT

+50

OU

T_S

AT

A_T

GT

-50

OU

T_S

AT

A_H

OS

T-

OU

T_S

AT

A_H

OS

T+

IN_S

AT

A_T

GT

+50

IN_S

AT

A_T

GT

-50

PC

SC

_HD

INP

0

PC

SC

_HD

INN

0

IN_S

AT

A_H

OS

T+

50

IN_S

AT

A_H

OS

T-

50

PC

SC

_HD

INP

1

PC

SC

_HD

INN

1

PC

SC

_HD

OU

TP

0

PC

SC

_HD

OU

TN

0

OU

T_S

AT

A_H

OS

T+

OU

T_S

AT

A_H

OS

T-

OU

T_S

AT

A_T

GT

-

OU

T_S

AT

A_T

GT

-O

UT

_SA

TA

_TG

T+

OU

T_S

AT

A_H

OS

T+

50

OU

T_S

AT

A_H

OS

T-

50

PC

SC

_HD

OU

TP

1

PC

SC

_HD

OU

TN

1

OU

T_S

AT

A_T

GT

+

IN_S

AT

A_H

OS

T+

IN_S

AT

A_H

OS

T-

PC

SC

_HD

INP

0P

CS

C_H

DIN

N0

PC

SC

_HD

INP

1P

CS

C_H

DIN

N1

PC

SC

_HD

INP

2E

TH

_SO

UT

PC

SC

_HD

INN

2E

TH

_SO

UT

_nP

CS

C_H

DIN

P3

PC

SC

_HD

INN

3P

CS

C_H

DO

UT

P0

PC

SC

_HD

OU

TN

0P

CS

C_H

DO

UT

P1

PC

SC

_HD

OU

TN

1P

CS

C_H

DO

UT

P2

ET

H_S

INP

CS

C_H

DO

UT

N2

ET

H_S

IN_n

PC

SC

_RE

FC

LKP

PC

SC

_RE

FC

LKN

PC

SB

_RE

FC

LKP

PC

SB

_OS

C_P

PC

SB

_RE

FC

LKN

PC

SB

_OS

C_N

PC

SB

_SM

A_P

PC

SB

_SM

A_N

PC

SB

_RE

FC

LKN

PC

SB

_RE

FC

LKP

PC

SA

_HD

OU

TP

3

PC

SA

_HD

OU

TP

0P

CS

A_H

DO

UT

N0

PC

SA

_HD

OU

TP

2

PC

SA

_HD

OU

TN

3

PC

SA

_HD

OU

TN

2

PC

SA

_HD

OU

TN

1P

CS

A_H

DO

UT

P1

PC

SC

_HD

OU

TN

3P

CS

C_H

DO

UT

P3

PC

SC

_HD

INN

3P

CS

C_H

DIN

P3

PC

SC

_HD

OU

TP

3P

CS

C_H

DO

UT

N3

PC

SC

_OS

C_N

PC

SC

_OS

C_P

PC

SC

_SM

A_N

PC

SC

_SM

A_P

PC

SC

_OS

C_P

PC

SC

_OS

C_N

PC

SC

_SM

A_P

PC

SC

_SM

A_N

PC

SC

_RE

FC

LKN

PC

SC

_RE

FC

LKP

PC

SC

_RE

FC

LKN

PC

SC

_OS

C_P

PC

SC

_SM

A_P

PC

SC

_RE

FC

LKP

PC

SC

_OS

C_N

PC

SC

_SM

A_N

PC

SC

_RE

FC

LKN

PC

SC

_RE

FC

LKP

Q Qn

x4_P

ET

n0x4

_PE

Tp0

x4_P

ET

p3x4

_PE

Tn3

x4_P

ET

p1x4

_PE

Tn1

x4_P

ET

p2x4

_PE

Tn2

1_Q

1_Q

n

12_0

VIN

3_3V

3_3V

PC

SA

_VC

CIB

PC

SA

_VC

CO

B

PC

SB

_VC

CIB

PC

SB

_VC

CO

B

PC

SC

_VC

CIB

PC

SC

_VC

CO

B

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

3_3V

ET

H_S

OU

T9

ET

H_S

OU

T_n

9

ET

H_S

IN9

ET

H_S

IN_n

9

CD

C_Y

0_O

UT

8

CD

C_Y

0B_O

UT

8

PC

IE_P

ER

ST

N14

CLO

CK

_CT

RL_

SE

L06,

14

CLO

CK

_CT

RL_

SE

L16,

14

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

SE

RD

ES

C

715

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

SE

RD

ES

C

715

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

SE

RD

ES

C

715

Wed

nesd

ay, A

ugus

t 26,

200

9

Place near U1

X4 PCIe Board Fingers

B side = PRIMARY Component Side(TOP)

A side = SECONDARY Component Side(BOTTOM)

All Nets are 100-ohm differential pairs.

The P and N traces shall be <20mil matched in length

Host

Target

SATA CONNECTIONS & TERMINATIONS

SMA TEST POINTS- PCSB

NOTE: PLACE

TERMINATIONS

CLOSE TO

DEVICE.

125MHZ

156.25MHZ

NOTE: PLACE

TERMINATIONS

CLOSE TO U18

DEVICE.

NOTE: PLACE

TERMINATIONS

CLOSE TO U18

DEVICE.

REFCLK STUFFING OPTIONS

PCIE TERMINATIONS

REFCLK MUXES

PCSB

PCSC

SMA TEST POINTS

PCSC

SMA REF CLKs

R86

OP

EN

-060

3SM

T

R86

OP

EN

-060

3SM

T

R11

8O

PE

N-0

603S

MT

R11

8O

PE

N-0

603S

MT

J31

SM

A

J31

SM

A

12 3 4 5

J28

SM

A-T

H

SM

AJ2

8

SM

A-T

H

SM

A1

2 3 4 5

Y2

CW

-P42

3-12

5.00

MH

ZY

2C

W-P

423-

125.

00M

HZ

Q_N

5

Q4

VCC6 GND 3

DIS

#1

NC

2

R10

682

R-0

603S

MT

R10

682

R-0

603S

MT

J13

SM

A-T

H

SM

AJ1

3

SM

A-T

H

SM

A1

2 3 4 5

R13

2O

PE

N-0

603S

MT

R13

2O

PE

N-0

603S

MT

MUX

U18

A

MC

100L

VE

L56

MUX

U18

A

MC

100L

VE

L56

D0A

1

D0A

_N2

VB

B0

3

D0B

4

D0B

_N5

CO

M_S

EL

16

SE

L017

Q0_

N18

Q0

19

VCC20

R12

4

82R

-060

3SM

T

R12

4

82R

-060

3SM

T

GA+

A- G

B-

B+ G

CN

1

SA

TA

GA+

A- G

B-

B+ G

CN

1

SA

TA

1 2 3 4 5 6 7

C12

110

NF

-040

2SM

TC

121

10N

F-0

402S

MT

R13

1O

PE

N-0

603S

MT

R13

1O

PE

N-0

603S

MT

J24

SM

A-T

H

SM

AJ2

4

SM

A-T

H

SM

A1

2 3 4 5

C127

10NF-0603SMT

C127

10NF-0603SMT

R11

513

0R-0

603S

MT

R11

513

0R-0

603S

MT

R9382R-0603SMTR9382R-0603SMT

R25

80R

-060

3SM

TR

258

0R-0

603S

MT

R10

113

0R-0

603S

MT

R10

113

0R-0

603S

MT

R11

2

82R-0603SMT

R11

2

82R-0603SMT

R11

7

3_4K

-060

3SM

T

R11

7

3_4K

-060

3SM

T

SERDES

EC

P3-

90-1

156B

GA

U1H SERDES

EC

P3-

90-1

156B

GA

U1H

PC

SA

_HD

INP

0A

L21

PC

SA

_HD

INN

0A

K21

PC

SA

_HD

INP

1A

L20

PC

SA

_HD

INN

1A

K20

PC

SA

_HD

INP

2A

L19

PC

SA

_HD

INN

2A

K19

PC

SA

_HD

INP

3A

L18

PC

SA

_HD

INN

3A

K18

PC

SA

_HD

OU

TP

0A

P21

PC

SA

_HD

OU

TN

0A

N21

PC

SA

_HD

OU

TP

1A

P20

PC

SA

_HD

OU

TN

1A

N20

PC

SA

_HD

OU

TP

2A

P19

PC

SA

_HD

OU

TN

2A

N19

PC

SA

_HD

OU

TP

3A

P18

PC

SA

_HD

OU

TN

3A

N18

PC

SA

_RE

FC

LKP

AH

19

PC

SA

_RE

FC

LKN

AH

20

PC

SA

_VC

CIB

0A

F21

PC

SA

_VC

CIB

1A

F20

PC

SA

_VC

CIB

2A

F19

PC

SA

_VC

CIB

3A

F18

PC

SA

_VC

CO

B0

AG

21

PC

SA

_VC

CO

B1

AG

20

PC

SA

_VC

CO

B2

AG

19

PC

SA

_VC

CO

B3

AG

18

PC

SB

_HD

INP

0A

L17

PC

SB

_HD

INN

0A

K17

PC

SB

_HD

INP

1A

L16

PC

SB

_HD

INN

1A

K16

PC

SB

_HD

INP

2A

L15

PC

SB

_HD

INN

2A

K15

PC

SB

_HD

INP

3A

L14

PC

SB

_HD

INN

3A

K14

PC

SB

_HD

OU

TP

0A

P17

PC

SB

_HD

OU

TN

0A

N17

PC

SB

_HD

OU

TP

1A

P16

PC

SB

_HD

OU

TN

1A

N16

PC

SB

_HD

OU

TP

2A

P15

PC

SB

_HD

OU

TN

2A

N15

PC

SB

_HD

OU

TP

3A

P14

PC

SB

_HD

OU

TN

3A

N14

PC

SB

_RE

FC

LKP

AH

15

PC

SB

_RE

FC

LKN

AH

16

PC

SB

_VC

CIB

0A

F17

PC

SB

_VC

CIB

1A

F16

PC

SB

_VC

CIB

2A

F15

PC

SB

_VC

CIB

3A

F14

PC

SB

_VC

CO

B0

AG

17

PC

SB

_VC

CO

B1

AG

16

PC

SB

_VC

CO

B2

AG

15

PC

SB

_VC

CO

B3

AG

14

PC

SC

_HD

INP

0A

L25

PC

SC

_HD

INN

0A

K25

PC

SC

_HD

INP

1A

L24

PC

SC

_HD

INN

1A

K24

PC

SC

_HD

INP

2A

L23

PC

SC

_HD

INN

2A

K23

PC

SC

_HD

INP

3A

L22

PC

SC

_HD

INN

3A

K22

PC

SC

_HD

OU

TP

0A

P25

PC

SC

_HD

OU

TN

0A

N25

PC

SC

_HD

OU

TP

1A

P24

PC

SC

_HD

OU

TN

1A

N24

PC

SC

_HD

OU

TP

2A

P23

PC

SC

_HD

OU

TN

2A

N23

PC

SC

_HD

OU

TP

3A

P22

PC

SC

_HD

OU

TN

3A

N22

PC

SC

_RE

FC

LKP

AH

22

PC

SC

_RE

FC

LKN

AH

23

PC

SC

_VC

CIB

0A

F24

PC

SC

_VC

CIB

1A

F23

PC

SC

_VC

CIB

2A

F22

PC

SC

_VC

CIB

3A

E20

PC

SC

_VC

CO

B0

AG

24

PC

SC

_VC

CO

B1

AG

23

PC

SC

_VC

CO

B2

AG

22

PC

SC

_VC

CO

B3

AE

21

R91

150R

-060

3SM

T

R91

150R

-060

3SM

T

J16

SM

A-T

H

SM

AJ1

6

SM

A-T

H

SM

A1

2 3 4 5

R13

3O

PE

N-0

603S

MT

R13

3O

PE

N-0

603S

MT

R12

382

R-0

603S

MT

R12

382

R-0

603S

MT

R9482R-0603SMTR9482R-0603SMT

C133

100NF-0603SMT

C133

100NF-0603SMT

R11

182

R-0

603S

MT

R11

182

R-0

603S

MT

C14

510

0NF

X5R

-040

2SM

TC

145

100N

FX

5R-0

402S

MT

R92

150R

-060

3SM

T

R92

150R

-060

3SM

T

C12

210

NF

-040

2SM

TC

122

10N

F-0

402S

MT

R12

7O

PE

N-0

603S

MT

R12

7O

PE

N-0

603S

MT

CN

3

PC

I Exp

ress

x4

Edg

e F

inge

r C

onn.

CN

3

PC

I Exp

ress

x4

Edg

e F

inge

r C

onn.

PR

SN

T1#

A1

+12

VA

2

+12

VA

3

GN

DA

4

JTA

G2

A5

JTA

G3

A6

JTA

G4

A7

JTA

G5

A8

+3.

3VA

9

+3.

3VA

10

PE

RS

T#

A11

GN

DA

12

RE

FC

LK+

A13

RE

FC

LK-

A14

GN

DA

15

PE

Rp0

A16

PE

Rn0

A17

GN

DA

18

RS

VD

_A19

A19

GN

DA

20

PE

Rp1

A21

PE

Rn1

A22

GN

DA

23

GN

DA

24

PE

Rp2

A25

PE

Rn2

A26

GN

DA

27

GN

DA

28

PE

Rp3

A29

PE

Rn3

A30

GN

DA

31

+12

VB

1

+12

VB

2

RS

VD

_B3

B3

GN

DB

4

SM

CLK

B5

SM

DA

TB

6

GN

DB

7

+3.

3VB

8

JTA

G1

B9

3.3V

aux

B10

WA

KE

#B

11

RS

VD

_B12

B12

GN

DB

13

PE

Tp0

B14

PE

Tn0

B15

GN

DB

16

PR

SN

T3#

B17

GN

DB

18

PE

Tp1

B19

PE

Tn1

B20

GN

DB

21

GN

DB

22

PE

Tp2

B23

PE

Tn2

B24

GN

DB

25

GN

DB

26

PE

Tp3

B27

PE

Tn3

B28

GN

DB

29

RS

VD

_B30

B30

PR

SN

T4#

B31

GN

DB

32R

SV

D_A

32A

32

J20

SM

A-T

H

SM

AJ2

0

SM

A-T

H

SM

A1

2 3 4 5

MUX

U18

B

MC

100L

VE

L56MUX

U18

B

MC

100L

VE

L56

D1A

6

D1A

_N7

VB

B1

8

D1B

9

D1B

_N10

VEE 11Q1_

N12

Q1

13

VCC14

SE

L115

C14

410

0NF

X5R

-040

2SM

TC

144

100N

FX

5R-0

402S

MT

R12

02_

8K-0

603S

MT

R12

02_

8K-0

603S

MT

R11

913

0R-0

603S

MT

R11

913

0R-0

603S

MT

+C

118

100N

F-0

603S

MT

+C

118

100N

F-0

603S

MT

C14

310

0NF

X5R

-040

2SM

TC

143

100N

FX

5R-0

402S

MT

C12

410

NF

-040

2SM

TC

124

10N

F-0

402S

MT

C131

100NF-0603SMT

C131

100NF-0603SMT

J32

SM

A

J32

SM

A

12 3 4 5

C134

10NF-0603SMT

C134

10NF-0603SMT

R12

2O

PE

N-0

603S

MT

R12

2O

PE

N-0

603S

MT

R11

41_

62K

-060

3SM

TR

114

1_62

K-0

603S

MT

R13

0O

PE

N-0

603S

MT

R13

0O

PE

N-0

603S

MT

C12

310

NF

-040

2SM

TC

123

10N

F-0

402S

MT

C12

610

NF

-040

2SM

TC

126

10N

F-0

402S

MT

C14

210

0NF

X5R

-040

2SM

TC

142

100N

FX

5R-0

402S

MT

C12

510

NF

-040

2SM

TC

125

10N

F-0

402S

MT

R11

6O

PE

N-0

603S

MT

R11

6O

PE

N-0

603S

MT

+C

119

100N

F-0

603S

MT

+C

119

100N

F-0

603S

MT

J29

SM

A

J29

SM

A

12 3 4 5

R99

2_8K

-060

3SM

TR

992_

8K-0

603S

MT

J27

SM

A-T

H

SM

AJ2

7

SM

A-T

H

SM

A1

2 3 4 5

R12

5O

PE

N-0

603S

MT

R12

5O

PE

N-0

603S

MT

C136

100NF-0603SMT

C136

100NF-0603SMT

J21

SM

A-T

H

SM

AJ2

1

SM

A-T

H

SM

A

12 3 4 5

R89

51R

-060

3SM

TR

8951

R-0

603S

MT

C14

110

0NF

X5R

-040

2SM

TC

141

100N

FX

5R-0

402S

MT

J26

SM

A-T

H

SM

AJ2

6

SM

A-T

H

SM

A1

2 3 4 5

R11

051

R-0

603S

MT

R11

051

R-0

603S

MT

C12

810

NF

-040

2SM

TC

128

10N

F-0

402S

MT

J35

SM

A

J35

SM

A

12 3 4 5

R12

6O

PE

N-0

603S

MT

R12

6O

PE

N-0

603S

MT

C14

010

0NF

X5R

-040

2SM

TC

140

100N

FX

5R-0

402S

MT

J15

SM

A-T

H

SM

AJ1

5

SM

A-T

H

SM

A1

2 3 4 5

R95

1_62

K-0

603S

MT

R95

1_62

K-0

603S

MT

+C

132

10UF-16V-TANTBSMT

+C

132

10UF-16V-TANTBSMT

R33

862

R-0

603S

MT

R33

862

R-0

603S

MT

R85

OP

EN

-060

3SM

T

R85

OP

EN

-060

3SM

T

C137

100NF-0603SMT

C137

100NF-0603SMT

J14

SM

A-T

H

SM

AJ1

4

SM

A-T

H

SM

A1

2 3 4 5

J36

SM

A

J36

SM

A

12 3 4 5

R88130R-0603SMT

R88130R-0603SMT

R12

8O

PE

N-0

603S

MT

R12

8O

PE

N-0

603S

MT

R96

150R

-060

3SM

T

R96

150R

-060

3SM

T

J33

SM

A

J33

SM

A

12 3 4 5

R10

0

1_6R

-060

3SM

T

R10

0

1_6R

-060

3SM

T

R10

3

OP

EN

-060

3SM

T

R10

3

OP

EN

-060

3SM

T

+C

129

100N

F-0

603S

MT

+C

129

100N

F-0

603S

MT

C13

910

0NF

X5R

-040

2SM

TC

139

100N

FX

5R-0

402S

MT

J30

SM

A

J30

SM

A

12 3 4 5

J23

SM

A-T

H

SM

AJ2

3

SM

A-T

H

SM

A1

2 3 4 5

R87130R-0603SMT

R87130R-0603SMT

+C

135

10UF-16V-TANTBSMT

+C

135

10UF-16V-TANTBSMT

J17

SM

A-T

H

SM

AJ1

7

SM

A-T

H

SM

A1

2 3 4 5

R12

9O

PE

N-0

603S

MT

R12

9O

PE

N-0

603S

MT

J22

SM

A-T

H

SM

AJ2

2

SM

A-T

H

SM

A1

2 3 4 5

R90

51R

-060

3SM

TR

9051

R-0

603S

MT

C13

810

0NF

X5R

-040

2SM

TC

138

100N

FX

5R-0

402S

MT

R10

5

130R-0603SMT

R10

5

130R-0603SMT

J34

SM

A

J34

SM

A

12 3 4 5

+C

130

100N

F-0

603S

MT

+C

130

100N

F-0

603S

MT

R10

7

82R

-060

3SM

T

R10

7

82R

-060

3SM

T

R97

150R

-060

3SM

T

R97

150R

-060

3SM

T

GA+

A- G

B-

B+ G

CN

2

SA

TA

GA+

A- G

B-

B+ G

CN

2

SA

TA

1 2 3 4 5 6 7

TP

26T

estP

oint

TP

26T

estP

oint

1

R12

1O

PE

N-0

603S

MT

R12

1O

PE

N-0

603S

MT

R10

851

R-0

603S

MT

R10

851

R-0

603S

MT

R11

3

1_6R

-060

3SM

T

R11

3

1_6R

-060

3SM

T

R98

3_4K

-060

3SM

T

R98

3_4K

-060

3SM

T

J19

SM

A-T

H

SM

AJ1

9

SM

A-T

H

SM

A1

2 3 4 5

C12

010

NF

-040

2SM

TC

120

10N

F-0

402S

MT

Y1

CW

-P42

3-15

6.25

MH

ZY

1C

W-P

423-

156.

25M

HZ

Q_N

5

Q4

VCC6 GND 3

DIS

#1

NC

2

R33

962

R-0

603S

MT

R33

962

R-0

603S

MT

R10

213

0R-0

603S

MT

R10

213

0R-0

603S

MT

R25

90R

-060

3SM

TR

259

0R-0

603S

MT

J18

SM

A-T

H

SM

AJ1

8

SM

A-T

H

SM

A1

2 3 4 5

J25

SM

A-T

H

SM

AJ2

5

SM

A-T

H

SM

A1

2 3 4 5

R10

913

0R-0

603S

MTR10

913

0R-0

603S

MT

R10

4

OP

EN

-060

3SM

T

R10

4

OP

EN

-060

3SM

T

33


Figure 27. Clock Cleaner5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

CD

C_R

ES

ET

CD

C_S

TA

TU

S_R

EF

CD

C_P

WR

DW

N

CD

C_S

TA

TU

S_V

CX

O

CD

C_P

WR

_DW

N

CD

C_V

CX

O_I

NB

CD

C_V

CX

O_I

N

CD

C_S

TA

TU

S_L

OC

K

CD

C_C

P_O

UT

CD

C_Y

0_O

UT

CD

C_R

EF

CLK

V_C

TR

L

Y1

Y1B

Y2

Y2B

Y3

Y3B

Y4

Y4B

Y1

CD

C_Y

1_O

UT

Y1B

CD

C_Y

1B_O

UT

Y2

CD

C_Y

2_O

UT

Y2B

CD

C_Y

2B_O

UT

Y3

Y3B

Y4

Y4B

CD

C_Y

0

CD

C_Y

0BC

DC

_Y0B

_OU

T

CD

C_R

ST

CDC_CTRL_DATA

CDC_CTRL_CLK

CDC_CTRL_LE

CD

C_S

PI_

DA

TA

CD

C_S

PI_

CLK

CD

C_S

PI_

LE

3_3V

CD

C_A

VC

C

CD

C_A

VC

C

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_3

_3V

CD

C_C

TR

L_LE

14C

DC

_CT

RL_

CLK

14

CD

C_C

TR

L_D

AT

A14

CD

C_Y

0_O

UT

7

CD

C_Y

0B_O

UT

7

CD

C_R

EF

CLK

14

CD

C_Y

1_O

UT

14

CD

C_Y

1B_O

UT

14

CD

C_Y

2_O

UT

14

CD

C_Y

2B_O

UT

14

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Clo

ck C

lean

er

C

817

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Clo

ck C

lean

er

C

817

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Clo

ck C

lean

er

C

817

Wed

nesd

ay, A

ugus

t 26,

200

9

Place VCXO as close as possible

to CDC7005 device

R14

6O

PE

N-0

402S

MT

R14

6O

PE

N-0

402S

MT

12

C16

610

NF

-040

2SM

TC

166

10N

F-0

402S

MT

1 2

R13

5O

PE

N-0

603S

MT

R13

5O

PE

N-0

603S

MT

1 2

R14

010

K-0

402S

MT

R14

010

K-0

402S

MT 1

2

C15

833

NF

-040

2SM

TC

158

33N

F-0

402S

MT

1 2

R15

915

0R-0

402S

MT

R15

915

0R-0

402S

MT

12

+C

161

22U

F-1

6V-T

AN

TB

SM

T+

C16

122

UF

-16V

-TA

NT

BS

MT

C14

9

100N

F-0

603S

MT

C14

9

100N

F-0

603S

MT

12

J47

HD

R5

J47

HD

R5

1 2 3 4 5

C41

910

NF

-040

2SM

TC

419

10N

F-0

402S

MT

12

C16

433

NF

-040

2SM

TC

164

33N

F-0

402S

MT

1 2

R13

722

R-0

603S

MT

R13

722

R-0

603S

MT

12

R34

610

K-0

402S

MT

R34

610

K-0

402S

MT

12

C16

310

0NF

-060

3SM

TC

163

100N

F-0

603S

MT

1 2

SW

5S

W5

R15

715

0R-0

402S

MT

R15

715

0R-0

402S

MT

12

R14

813

0R-0

402S

MT

R14

813

0R-0

402S

MT

12

R13

815

0R-0

603S

MT

R13

815

0R-0

603S

MT

1 2

R15

54_

7K-0

402S

MT

R15

54_

7K-0

402S

MT

12

R15

0

750R

-040

2SM

T

R15

0

750R

-040

2SM

T1

2

R13

622

R-0

603S

MT

R13

622

R-0

603S

MT

12

R14

113

0R-0

402S

MT

R14

113

0R-0

402S

MT

12

L2

75 O

HM

@ 1

00M

HZ

L2

75 O

HM

@ 1

00M

HZ

12

C15

010

NF

-040

2SM

TC

150

10N

F-0

402S

MT

12

C16

0

10N

F-0

402S

MT

C16

0

10N

F-0

402S

MT

1 2

R14

710

K-0

402S

MT

R14

710

K-0

402S

MT 1

2

C15

1

100P

F-0

402S

MT

C15

1

100P

F-0

402S

MT

12

R15

615

0R-0

402S

MT

R15

615

0R-0

402S

MT

12

R16

015

0R-0

402S

MT

R16

015

0R-0

402S

MT

12

D14

AM

BE

R_L

ED

D14

AM

BE

R_L

ED

12

R34

310

0K-0

402S

MT

R34

310

0K-0

402S

MT

12

R342100R-0402SMT R342100R-0402SMT12

R15

215

0R-0

402S

MT

R15

215

0R-0

402S

MT

12

R14

412

K-0

402S

MT

R14

412

K-0

402S

MT

12

U31

SN

74LV

125

U31

SN

74LV

125

1Y3

2OE

4

2A5

2Y6

1OE

1

4OE

13

4Y11

3OE

10

3A9

3Y8

VC

C14

GN

D7

4A12

1A2

C41

610P

F-0

402S

MT

C41

610P

F-0

402S

MT

12R

139

150R

-060

3SM

TR

139

150R

-060

3SM

T

1 2

C14

6

10N

F-0

603S

MT

C14

6

10N

F-0

603S

MT

12

C16

510

NF

-040

2SM

TC

165

10N

F-0

402S

MT

1 2

R34

710

0K-0

402S

MT

R34

710

0K-0

402S

MT

12

D15

AM

BE

R_L

ED

D15

AM

BE

R_L

ED

1 2

R15

815

0R-0

402S

MT

R15

815

0R-0

402S

MT

12

C15

310

0NF

-060

3SM

TC

153

100N

F-0

603S

MT

12

+C

154

22U

F-1

6V-T

AN

TB

SM

T

+C

154

22U

F-1

6V-T

AN

TB

SM

T

C15

710

0NF

-060

3SM

TC

157

100N

F-0

603S

MT

1 2

VC

XO

1

TC

O-2

111

VC

XO

1

TC

O-2

111

V_C

TR

L1

EN

2

GN

D3

OU

T4

OU

TB

5V

CC

6

R341100R-0402SMT R341100R-0402SMT12

R15

475

0R-0

402S

MT

R15

475

0R-0

402S

MT

12

SW

6S

W6

R14

210

K-0

402S

MT

R14

210

K-0

402S

MT

12

C41

710P

F-0

402S

MT

C41

710P

F-0

402S

MT

12

+C

162

10U

F-1

6V-T

AN

TB

SM

T+

C16

210

UF

-16V

-TA

NT

BS

MT

C15

210

NF

-040

2SM

TC

152

10N

F-0

402S

MT

12

R14

982

R-0

402S

MT

R14

982

R-0

402S

MT

12

+C

155

22U

F-1

6V-T

AN

TB

SM

T+

C15

522

UF

-16V

-TA

NT

BS

MT

R14

316

0R-0

402S

MT

R14

316

0R-0

402S

MT

12

L1

75 O

HM

@ 1

00M

HZ

L1

75 O

HM

@ 1

00M

HZ

12

C41

510P

F-0

402S

MT

C41

510P

F-0

402S

MT

12

C14

810

0NF

-060

3SM

TC

148

100N

F-0

603S

MT

1 2

C14

7

10N

F-0

603S

MT

C14

7

10N

F-0

603S

MT

12

D13

AM

BE

R_L

ED

D13

AM

BE

R_L

ED

12

R34

410

0K-0

402S

MT

R34

410

0K-0

402S

MT

12

R16

115

0R-0

402S

MT

R16

115

0R-0

402S

MT

12

R34

510

0K-0

402S

MT

R34

510

0K-0

402S

MT

12

+C

156

10U

F-1

6V-T

AN

TB

SM

T+

C15

610

UF

-16V

-TA

NT

BS

MT

R15

315

0R-0

402S

MT

R15

315

0R-0

402S

MT

12

R14

582

R-0

402S

MT

R14

582

R-0

402S

MT

12

U19

CD

C70

05

U19

CD

C70

05

VC

C13

Y2B

8Y

27

VC

C6

VC

C5

CT

RL_

DA

TA

33

AV

CC

32

NC

34

Y3B

12Y

311

VC

C10

VC

C9

VC

C19

CT

RL_

CLK

35

AV

CC

39

AV

CC

38

RE

F_I

N37

CT

RL_

LE36

VC

XO

_IN

B43

VC

XO

_IN

42

VC

C41

I_R

EF

40

NR

ES

ET

14

VC

C15

Y4

16

Y4B

17

VC

C18

NP

D1

VC

C2

Y1

3

Y1B

4

VC

C20

VC

C21

ST

AT

US

_VC

XO

22

ST

AT

US

_RE

F23

GN

D24

ST

AT

US

_LO

CK

25O

PA

_OU

T26

AV

CC

27O

PA

_IP

28O

PA

_IN

29A

VC

C30

CP

_OU

T31

VC

C44

VC

C45

Y0

46Y

0B47

VC

C48

C15

910

NF

-040

2SM

TC

159

10N

F-0

402S

MT

1 2

R15

1

750R

-040

2SM

T

R15

1

750R

-040

2SM

T1

2

R340100R-0402SMT R340100R-0402SMT12

R13

4

OP

EN

-060

3SM

T

R13

4

OP

EN

-060

3SM

T

1 2

C41

810

0NF

-060

3SM

TC

418

100N

F-0

603S

MT

12

34


Figure 28. 1000BASE-T PHY/RJ455 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

ETH_LED_TX_PU

ET

H_S

IN

ETH_LED_RX_PU

ET

H_S

IN_n

ET

H_S

OU

TE

TH

_SO

UT

_n

ET

H_C

FG

0

ET

H_M

D1_

PE

TH

_MD

1_N

ET

H_M

D3_

N

ET

H_M

D2_

PE

TH

_MD

2_N

ET

H_M

D3_

P

ET

H_M

D0_

PE

TH

_MD

0_N

ET

H_C

OM

A

ET

H_C

FG

1

PH

Y_M

DC

PH

Y_N

ET

1P

HY

_RE

SE

T_N

PH

Y_N

ET

2P

HY

_IN

T_N

PH

Y_N

ET

3

PH

Y_M

DIO

PH

Y_N

ET

0

ET

H_C

FG

2

HS

DA

C_T

P

ET

H_C

FG

3

HS

DA

C_n

_TP

ET

H_C

FG

4

ET

H_C

FG

6

ET

H_L

ED

_10_

PU

ET

H_L

ED

_100

0_P

U

ET

H_L

ED

_DU

PLE

X_P

UE

TH

_LE

D_D

UP

LEX

ET

H_L

ED

_100

0

PH

Y_M

DIO

ET

H_L

ED

_100

ET

H_L

ED

_10

PH

Y_M

DC

PH

Y_R

ES

ET

_NP

HY

_IN

T_N

ET

H_L

ED

_100

0E

TH

_LE

D5

ET

H_L

ED

_100

ET

H_L

ED

4E

TH

_LE

D_1

0E

TH

_LE

D3

CLK

25

ET

H_L

ED

_DU

PLE

XE

TH

_LE

D2

ET

H_L

ED

_RX

ET

H_L

ED

1E

TH

_LE

D_T

XE

TH

_LE

D0

PH

Y_C

LK25

ET

H_R

SE

T_N

ET

H_C

FG

5

AV

DD

PH

Y_R

X_D

0P

HY

_RX

_D1

PH

Y_R

X_D

2P

HY

_RX

_D3

ET

H_R

X_D

2

ET

H_R

X_D

0

ET

H_R

X_D

3

ET

H_R

X_D

1

ETH_RX_D[0..7]

PH

Y_R

X_D

4P

HY

_RX

_D5

ET

H_R

X_D

4

PH

Y_R

X_D

7P

HY

_RX

_D6

ET

H_R

X_D

7

ET

H_R

X_D

5E

TH

_RX

_D6

PH

Y_R

X_D

VP

HY

_RX

_ER

ET

H_R

X_D

VE

TH

_RX

_ER

ET

H_R

X_C

LKP

HY

_RX

_CLK

PH

Y_T

X_D

3P

HY

_TX

_D4

ETH_TX_D[0..7]

PH

Y_T

X_D

5

PH

Y_T

X_D

0

ET

H_T

X_D

4

ET

H_T

X_D

6

ET

H_T

X_D

5

ET

H_T

X_D

7

ET

H_T

X_D

0E

TH

_TX

_D1

ET

H_T

X_D

2E

TH

_TX

_D3

PH

Y_T

X_D

6P

HY

_TX

_D7

PH

Y_T

X_D

1P

HY

_TX

_D2

ET

H_T

X_C

LKP

HY

_TX

_ER

ET

H_T

X_E

RE

TH

_TX

_EN

PH

Y_T

X_C

LK

PH

Y_T

X_E

N

ET

H_G

TX

_CLK

PH

Y_G

TX

_CLK

ET

H_C

OL

ET

H_C

RS

PH

Y_C

RS

PH

Y_C

OL

PH

Y_F

RE

Q_S

EL

PH

Y_F

RE

Q_S

EL

PH

Y_N

ET

4P

HY

_CLK

25P

HY

_NE

T5

ET

H_M

D1_

N

ET

H_M

D2_

P

ET

H_M

D1_

P

ET

H_M

D3_

N

ET

H_M

D3_

P

ET

H_L

ED

_TX

_PU

ET

H_L

ED

_RX

_PU

ET

H_M

D2_

N

ET

H_M

D0_

P

ET

H_M

D0_

N

ET

H_L

ED

_TX

ET

H_L

ED

_RX

MD

0_B

IAS

ET

H_M

D0_

P

ET

H_M

D0_

N

ET

H_M

D1_

P

ET

H_M

D1_

N

MD

1_B

IAS

MD

2_B

IAS

ET

H_M

D2_

P

ET

H_M

D2_

N

MD

3_B

IAS

ET

H_M

D3_

P

ET

H_M

D3_

NS

CLK

SC

LKb

ET

H_1

25C

LK

2_5V

2_5V

2_5V

2_5V

3_3V

2_5V

ET

H_1

_2V

2_5V

ET

H_1

_2V

AV

DD

AV

DD

ET

H_1

_2V

AV

DD

ET

H_S

IN7

ET

H_S

IN_n

7

ET

H_S

OU

T7

ET

H_S

OU

T_n

7

ET

H_R

X_D

[0..7

]14

ET

H_R

X_E

R14

ET

H_R

X_D

V14

ET

H_R

X_C

LK14

ET

H_T

X_D

[0..7

]14

ET

H_T

X_C

LK14

ET

H_T

X_E

N14

ET

H_T

X_E

R14

ET

H_G

TX

_CLK

14

ET

H_C

RS

14E

TH

_CO

L14

PH

Y_N

ET

[0..5

]14

ET

H_C

FG

[0..6

]10

ET

H_L

ED

[0..5

]10

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3-

SP

B E

val B

oard

3.0

1000

BA

SE

-T P

HY

/RJ4

5

C

917

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3-

SP

B E

val B

oard

3.0

1000

BA

SE

-T P

HY

/RJ4

5

C

917

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3-

SP

B E

val B

oard

3.0

1000

BA

SE

-T P

HY

/RJ4

5

C

917

Wed

nesd

ay, A

ugus

t 26,

200

9

OSC bypass

DVDD bypass

VDDO bypass

Place termination

resistors RX_D0-7,

RX_ER, RX_DV, RX_CLK,

TX_CLK, CRS, COL

as close to the

G-PHY as possible

using 50 ohm impedence

traces.

Place termination

resistors TX_D0-7,

TX_ER, TX_EN,

GTX_CLK as close to

FPGA as possible

using 50 ohm

impedence traces.

Place 49 ohm termination resistors as

close as possible to G-PHY.

The associated 0.01uF capacitor should

be placed close to the 49 ohm resistors.

MH

1 an

d M

H2

are

0.10

0"di

amet

er p

late

dth

roug

h ho

les

Ethernet RJ45 Connector

Place caps close to RJ45 jack

R17

433

R-0

402S

MT

R17

433

R-0

402S

MT

R17

833

R-0

402S

MT

R17

833

R-0

402S

MT

R20

3

22R

-060

3SM

T

R20

3

22R

-060

3SM

T

R18

633

R-0

402S

MT

R18

633

R-0

402S

MT M

H2

MH

OLE

_10.

100_

PT

H

MH

2M

HO

LE_1

0.10

0_P

TH

1

D17

AM

BE

R_L

ED

led_

0603

DI

D17

AM

BE

R_L

ED

led_

0603

DI

R20

233

R-0

402S

MT

R20

233

R-0

402S

MT

R19

7

49_9

R-0

402S

MT

R19

7

49_9

R-0

402S

MT

R18

933

R-0

402S

MT

R18

933

R-0

402S

MT

R17

533

R-0

402S

MT

R17

533

R-0

402S

MT

C17

010

NF

-060

3SM

TC

170

10N

F-0

603S

MT

R16

622

0R-0

603S

MT

R16

622

0R-0

603S

MT

R16

533

R-0

402S

MT

R16

533

R-0

402S

MT

+C

167

47U

F-1

0V-T

AN

TB

SM

T

+C

167

47U

F-1

0V-T

AN

TB

SM

T

R20

54_

7K-0

402S

MT

R20

54_

7K-0

402S

MT

R19

8

49_9

R-0

402S

MT

R19

8

49_9

R-0

402S

MT

R19

133

R-0

402S

MT

R19

133

R-0

402S

MT

D18

GR

EE

N_L

ED

led_

0603

DI

D18

GR

EE

N_L

ED

led_

0603

DI

MH

1M

HO

LE_1

0.10

0_P

TH

MH

1M

HO

LE_1

0.10

0_P

TH

1

TP

30T

P30

C17

610

0NF

-060

3SM

TC

176

100N

F-0

603S

MT

R17

633

R-0

402S

MT

R17

633

R-0

402S

MT

R20

44_

7K-0

402S

MT

R20

44_

7K-0

402S

MT

U21

88e1

111

117T

FB

GA

DI

U21

88e1

111

117T

FB

GA

DI

MD

IO_0

N1

MD

IO_0

N2

MD

IO_1

N3

MD

IO_1

N4

MD

IO_2

N6

MD

IO_2

N7

MD

IO_3

N8

MD

IO_3

N9

LIN

K10

00A

9

LIN

K10

0B

8

LIN

K10

C8

DU

PLE

XE

8

RX

_LE

DC

9

TX

_LE

DD

9

TD

IL7

TD

OK

8

TM

SL8

TC

KL9

TR

ST

M9

S_I

NA

3

S_I

NA

4

S_C

LKA

5

S_C

LKA

6

S_O

UT

A7

S_O

UT

A8

MD

CL3

MD

IOM

1

HS

DA

CM

5

HS

DA

CM

6

RE

SE

TK

3

INT

L1

RS

ET

M2

GT

X_C

LKE

2

TX

D0

F1

TX

D1

G2

TX

D2

G3

TX

D3

H2

TX

D4

H1

TX

D5

H3

TX

D6

J1

TX

D7

J2

TX

_EN

E1

TX

_ER

F2

TX

_CLK

D1

RX

D0

B2

RX

D1

D3

RX

D2

C3

RX

D3

B3

RX

D4

C4

RX

D5

A1

RX

D6

A2

RX

D7

C5

RX

_ER

D2

RX

_CLK

C1

RX

_DV

B1

SE

L_F

RE

QH

8

CO

NF

IG0

D8

CO

NF

IG1

E9

CO

NF

IG2

F8

CO

NF

IG3

G7

CO

NF

IG4

F9

CO

NF

IG5

G9

CO

NF

IG6

G8

CO

MA

L4

CR

SB

5

CO

LB

6

XT

AL1

H9

XT

AL2

J9

125C

LKK

2

GND D4

GND D5

GND D6

GND E4

GND E5

GND E6

GND F4

GND F5

GND F6

GND G4

GND G5

GND G6

GND H4

GND H5

GND H6

GND J4

GND J5

GND J6

GND K4

GND K5

GND K6

GND L5

GND L6

VSSC H7

DVDDC6

DVDDC7

DVDDD7

DVDDE3

DVDDE7

DVDDF3

DVDDJ3

DVDDJ7

VDDOHF7

VDDOC2

VDDOK1

VDDOHJ8

VDDOB4

VDDOHB9

VDDOXK9

VDDOXL2

AVDDB7

AVDDM3

AVDDM4

AVDDM7

AVDDM8

AVDDN5

R19

9

49_9

R-0

402S

MT

R19

9

49_9

R-0

402S

MT

R19

033

R-0

402S

MT

R19

033

R-0

402S

MT

C18

110

NF

-060

3SM

TC

181

10N

F-0

603S

MT

D19

AM

BE

R_L

ED

led_

0603

DI

D19

AM

BE

R_L

ED

led_

0603

DI

R17

722

0R-0

603S

MT

R17

722

0R-0

603S

MT

R19

3

49_9

R-0

402S

MT

R19

3

49_9

R-0

402S

MT

R20

0

49_9

R-0

402S

MT

R20

0

49_9

R-0

402S

MT

R18

7

1_5K

-040

2SM

T

R18

7

1_5K

-040

2SM

T

R18

033

R-0

402S

MT

R18

033

R-0

402S

MT

TP

31T

P31

C18510NF-0402SMT

C18510NF-0402SMT

1 2

R17

322

0R-0

603S

MT

R17

322

0R-0

603S

MT

TP

29T

P29

C16

910

0NF

-060

3SM

TC

169

100N

F-0

603S

MT

R19

25K

-040

2SM

TR

192

5K-0

402S

MT

1 2 3 6 4 5 7 8

RJ45

J37

RJ-

45

1 2 3 6 4 5 7 8

RJ45

J37

RJ-

45

MD

IA-

10M

DA

CT

12M

DIA

+11

SH

LD1

19

MD

IB+

4

MD

IB-

5M

DB

CT

6

MD

IC+

3

MD

CC

T1

MD

IC-

2

MD

ID+

8

MD

DC

T7

MD

ID-

9S

HLD

220

LED

1-13

LED

1+14

LED

2-15

LED

2+16

C18

210

NF

-060

3SM

TC

182

10N

F-0

603S

MT

R16

733

R-0

402S

MT

R16

733

R-0

402S

MT

C17

910

NF

-060

3SM

TC

179

10N

F-0

603S

MT

R18

833

R-0

402S

MT

R18

833

R-0

402S

MT

C17

710

NF

-060

3SM

TC

177

10N

F-0

603S

MT

R18

133

R-0

402S

MT

R18

133

R-0

402S

MT

C18

010

0NF

-060

3SM

TC

180

100N

F-0

603S

MT

C17

110

0NF

-060

3SM

TC

171

100N

F-0

603S

MT

C18

9

10N

F-0

402S

MT

C18

9

10N

F-0

402S

MT

C18

310

NF

-060

3SM

TC

183

10N

F-0

603S

MT

U20

LT19

63-A

DJ

DI

SO

-8U

20LT

1963

-AD

JD

IS

O-8

IN8

GND 7GND 6

OU

T1

GND 3

AD

J2

EN

5

FB

14B

LM41

PG

600S

N1

FB

14B

LM41

PG

600S

N1

R16

833

R-0

402S

MT

R16

833

R-0

402S

MT

C18

8

10N

F-0

402S

MT

C18

8

10N

F-0

402S

MT

R18

233

R-0

402S

MT

R18

233

R-0

402S

MT

C18

410

NF

-060

3SM

TC

184

10N

F-0

603S

MT

R16

933

R-0

402S

MT

R16

933

R-0

402S

MT

R18

333

R-0

402S

MT

R18

333

R-0

402S

MT

C18

7

10N

F-0

402S

MT

C18

7

10N

F-0

402S

MT

1 2

Y3

25M

Hz

OS

C_S

MT

DI

Y3

25M

Hz

OS

C_S

MT

DI

VC

C4

OU

T3

GN

D2

EN

1

C17

510

0NF

-060

3SM

TC

175

100N

F-0

603S

MT

TP

27T

P27

R19

4

49_9

R-0

402S

MT

R19

4

49_9

R-0

402S

MT

C17

3

1UF-16V-0805SMT

C17

3

1UF-16V-0805SMT

R16

222

0R-0

603S

MT

R16

222

0R-0

603S

MT

R17

033

R-0

402S

MT

R17

033

R-0

402S

MT

R17

233

R-0

402S

MT

R17

233

R-0

402S

MT

TP

28T

P28

R18

433

R-0

402S

MT

R18

433

R-0

402S

MT

C18

6

10N

F-0

402S

MT

C18

6

10N

F-0

402S

MT

1 2

D16

AM

BE

R_L

ED

led_

0603

DI

D16

AM

BE

R_L

ED

led_

0603

DI

C17

810

0NF

-060

3SM

TC

178

100N

F-0

603S

MT

R19

5

49_9

R-0

402S

MT

R19

5

49_9

R-0

402S

MT

+C

172 22UF-16V-TANTBSMT

+C

172 22UF-16V-TANTBSMT

R17

133

R-0

402S

MT

R17

133

R-0

402S

MT

R16

322

0R-0

402S

MT

R16

322

0R-0

402S

MT

R17

933

R-0

402S

MT

R17

933

R-0

402S

MT

R18

533

R-0

402S

MT

R18

533

R-0

402S

MT

R16

422

0R-0

402S

MT

R16

422

0R-0

402S

MT

R20

133

R-0

402S

MT

R20

133

R-0

402S

MT

C16

8

1UF-16V-0805SMT

C16

8

1UF-16V-0805SMT

R19

6

49_9

R-0

402S

MT

R19

6

49_9

R-0

402S

MT

C17

422

0NF

-060

3SM

TC

174

220N

F-0

603S

MT

35


Figure 29. PHY Configuration

5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

ETH_CFG0

ETH_CFG1

ETH_CFG3

ETH_CFG4

ETH_CFG2

ETH_CFG6

ETH_CFG5

ET

H_L

ED

_100

0E

TH

_LE

D5

ET

H_L

ED

_100

ET

H_L

ED

4

ET

H_L

ED

_DU

PLE

XE

TH

_LE

D2

ET

H_L

ED

_RX

ET

H_L

ED

1E

TH

_LE

D_T

XE

TH

_LE

D0

ET

H_L

ED

_10

ET

H_L

ED

3

2_5V

ET

H_C

FG

[0..

6]9

ET

H_L

ED

[0..5

]9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

PH

Y C

ON

FIG

UR

AT

ION

B

1017

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

PH

Y C

ON

FIG

UR

AT

ION

B

1017

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

PH

Y C

ON

FIG

UR

AT

ION

B

1017

Wed

nesd

ay, A

ugus

t 26,

200

9

ONLY ONE SWITCH PER DIP PACK CAN BE ACTIVE AT A TIME

SW

10

TD

A D

IP-8

SW

10

TD

A D

IP-8

SW

7

TD

A D

IP-8

SW

7

TD

A D

IP-8

SW

9

TD

A D

IP-8

SW

9

TD

A D

IP-8

SW

11

TD

A D

IP-8

SW

11

TD

A D

IP-8

SW

8

TD

A D

IP-8

SW

8

TD

A D

IP-8

SW

13

TD

A D

IP-8

SW

13

TD

A D

IP-8

SW

12

TD

A D

IP-8

SW

12

TD

A D

IP-8

36


Figure 30. Bank 6 and Bank 75 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

1_5V

1_8V

1_8V

1_5V

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B C

ard

3.0

Ban

k 6

and

Ban

k 7

C

1117

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B C

ard

3.0

Ban

k 6

and

Ban

k 7

C

1117

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B C

ard

3.0

Ban

k 6

and

Ban

k 7

C

1117

Wed

nesd

ay, A

ugus

t 26,

200

9

BANK6

BANK7

C21

8

10N

F-0

603S

MT

C21

8

10N

F-0

603S

MT

C22

7

100N

F-0

603S

MT

C22

7

100N

F-0

603S

MT

C21

9

100N

F-0

603S

MT

C21

9

100N

F-0

603S

MT

Bank 6

EC

P3-

90-1

156B

GA

U1E

Bank 6

EC

P3-

90-1

156B

GA

U1E

PL4

4A/L

DQ

49U

2

PL4

4B/L

DQ

49U

1

PL4

6A/L

DQ

49/P

CLK

T6_

0V

9

PL4

6B/L

DQ

49/P

CLK

C6_

0V

8

PL4

7A/L

DQ

49V

2

PL4

7B/L

DQ

49V

1

PL4

9A/L

DQ

S49

V5

PL4

9B/L

DQ

S49

#W

5

PL5

0A/L

DQ

49V

4

PL5

0B/L

DQ

49V

3

PL5

2A/L

DQ

49/V

RE

F1_

6V

7

PL5

2B/L

DQ

49/V

RE

F2_

6W

7

PL5

3A/L

DQ

58W

2

PL5

3B/L

DQ

58W

1

PL5

5A/L

DQ

58W

8

PL5

5B/L

DQ

58W

9

PL5

6A/L

DQ

58W

4

PL5

6B/L

DQ

58W

3

PL5

8A/L

DQ

S58

W6

PL5

8B/L

DQ

S58

#Y

6

PL5

9A/L

DQ

58Y

2

PL5

9B/L

DQ

58Y

1

PL6

1A/L

DQ

58Y

8

PL6

1B/L

DQ

58A

A8

PL6

1E_A

/LD

Q58

/LLM

1_G

PLL

T_F

B_A

Y5

PL6

1E_B

/LD

Q58

/LLM

1_G

PLL

T_F

B_B

Y4

PL6

1E_C

/LD

Q58

/LLM

1_G

PLL

T_I

N_A

Y9

PL6

1E_D

/LD

Q58

/LLM

1_G

PLL

T_I

N_B

Y10

PL6

2A/L

DQ

67A

A2

PL6

2B/L

DQ

67A

A1

PL6

4A/L

DQ

67Y

7

PL6

4B/L

DQ

67A

A7

PL6

5A/L

DQ

67A

A4

PL6

5B/L

DQ

67A

A3

PL6

7A/L

DQ

S67

AA

10

PL6

7B/L

DQ

S67

#A

B9

PL6

8A/L

DQ

67A

B2

PL6

8B/L

DQ

67A

B1

PL7

0A/L

DQ

67A

A5

PL7

0B/L

DQ

67A

B5

PL7

0E_A

/LD

Q67

/LLM

2_G

PLL

T_F

B_A

AD

2

PL7

0E_B

/LD

Q67

/LLM

2_G

PLL

T_F

B_B

AD

1

PL7

0E_C

/LD

Q67

/LLM

2_G

PLL

T_I

N_A

AC

6

PL7

0E_D

/LD

Q67

/LLM

2_G

PLL

T_I

N_B

AC

7

PL7

1AA

D4

PL7

1BA

D3

PL7

4AA

E2

PL7

4BA

E1

PL7

7AA

E4

PL7

7BA

E3

PL7

9E_A

/LLM

3_G

PLL

T_F

B_A

AM

1

PL7

9E_B

/LLM

3_G

PLL

T_F

B_B

AM

2

PL7

9E_C

/LLM

3_G

PLL

T_I

N_A

AL1

PL7

9E_D

/LLM

3_G

PLL

T_I

N_B

AL2

PL8

0A/L

DQ

85A

N1

PL8

0B/L

DQ

85A

N2

PL8

2A/L

DQ

85A

D9

PL8

2B/L

DQ

85A

D8

PL8

3A/L

DQ

85A

P2

PL8

3B/L

DQ

85A

P3

PL8

5A/L

DQ

S85

AJ2

PL8

5B/L

DQ

S85

#A

J3

PL8

6A/L

DQ

85A

L3

PL8

6B/L

DQ

85A

K3

PL8

8A/L

DQ

85A

J4

PL8

8B/L

DQ

85A

K4

PL8

9A/L

DQ

94A

N3

PL8

9B/L

DQ

94A

M3

PL9

1A/L

DQ

94A

J5

PL9

1B/L

DQ

94A

J6

PL9

2A/L

DQ

94A

L5

PL9

2B/L

DQ

94A

M5

PL9

4A/L

DQ

S94

AM

6

PL9

4B/L

DQ

S94

#A

N6

PL9

5A/L

DQ

94A

L4

PL9

5B/L

DQ

94A

M4

PL9

7A/L

DQ

94A

P5

PL9

7B/L

DQ

94A

P6

PB

2AA

H7

PB

2BA

J7

PB

4AA

E9

PB

4BA

D10

PB

5AA

K6

PB

5BA

L6

PB

7AA

F9

PB

7BA

G9

PB

8AA

K7

PB

8BA

L7

PB

14A

AN

7

PB

14B

AP

7

PB

16A

AN

8

PB

16B

AP

8

PB

10A

AK

8

PB

10B

AL8

PB

11A

AM

7

PB

11B

AM

8

VC

CIO

6A

B12

VC

CIO

6V

11

VC

CIO

6V

12

VC

CIO

6A

B11

VT

T6

W11

VT

T6

W10

PB

13A

AH

9

PB

13B

AJ8

C21

6

10N

F-0

603S

MT

C21

6

10N

F-0

603S

MT

C22

4

10N

F-0

603S

MT

C22

4

10N

F-0

603S

MT

C21

7

100N

F-0

603S

MT

C21

7

100N

F-0

603S

MT

C22

5

100N

F-0

603S

MT

C22

5

100N

F-0

603S

MT

C21

5

100N

F-0

603S

MT

C21

5

100N

F-0

603S

MT

C22

3

100N

F-0

603S

MT

C22

3

100N

F-0

603S

MT

C21

4

10N

F-0

603S

MT

C21

4

10N

F-0

603S

MT

C22

6

10N

F-0

603S

MT

C22

6

10N

F-0

603S

MT

C22

2

10N

F-0

603S

MT

C22

2

10N

F-0

603S

MT

Bank 7

EC

P3-

90-1

156B

GA

U1F

Bank 7

EC

P3-

90-1

156B

GA

U1F

PL1

0A/L

DQ

13F

3

PL1

0B/L

DQ

13E

3

PL1

1A/L

DQ

13G

2

PL1

1B/L

DQ

13G

1

PL1

3A/L

DQ

S13

G3

PL1

3B/L

DQ

S13

#H

3

PL1

4A/L

DQ

13H

1

PL1

4B/L

DQ

13J1

PL1

6A/L

DQ

13J3

PL1

6B/L

DQ

13H

2

PL1

7A/L

DQ

22N

4

PL1

7B/L

DQ

22N

3

PL1

9A/L

DQ

22M

5

PL1

9B/L

DQ

22N

5

PL2

0A/L

DQ

22N

2

PL2

0B/L

DQ

22N

1

PL2

2A/L

DQ

S22

M10

PL2

2B/L

DQ

S22

#N

10

PL2

3A/L

DQ

22P

5

PL2

3B/L

DQ

22P

4

PL2

5A/L

DQ

22N

8

PL2

5B/L

DQ

22P

8

PL2

5E_A

/LD

Q22

/LU

M2_

GP

LLT

_FB

_AP

2

PL2

5E_B

//LD

Q22

/LU

M2_

GP

LLT

_FB

_BP

1

PL2

5E_C

/LD

Q22

/LU

M2_

GP

LLT

_IN

_AN

7

PL2

5E_D

//LD

Q22

/LU

M2_

GP

LLT

_IN

_BN

6

PL2

6A/L

DQ

31R

7

PL2

6B/L

DQ

31R

5

PL2

8A/L

DQ

31P

9

PL2

8B/L

DQ

31P

10

PL2

9A/L

DQ

31R

2

PL2

9B/L

DQ

31R

1

PL2

AG

4

PL2

BG

5

PL3

1A/L

DQ

S31

P7

PL3

1B/L

DQ

S31

#P

6

PL3

2A/L

DQ

31R

4

PL3

2B/L

DQ

31R

3

PL3

4A/L

DQ

31/V

RE

F1_

7R

9

PL3

4B/L

DQ

31/V

RE

F2_

7R

10

PL3

5A/L

DQ

40T

6

PL3

5B/L

DQ

40T

5

PL3

7A/L

UM

0_G

DLL

T_I

N_A

/LD

Q40

R8

PL3

7B/L

UM

0_G

DLL

T_I

N_B

/LD

Q40

T7

PL3

8A/L

UM

0_G

DLL

T_F

B_A

/LD

Q40

T4

PL3

8B/L

UM

0_G

DLL

T_F

B_B

/LD

Q40

T3

PL4

0A/L

DQ

S40

T9

PL4

0B/L

DQ

S40

#T

8

PL4

1A/L

DQ

40T

2

PL4

1B/L

DQ

40T

1

PL4

3A/P

CLK

T7_

0/LD

Q40

U9

PL4

3B/P

CLK

C7_

0/LD

Q40

U8

PL4

3E_A

/LU

M0_

GP

LLT

_FB

_AU

5

PL4

3E_B

/LU

M0_

GP

LLT

_FB

_BU

4

PL4

3E_C

/LU

M0_

GP

LLT

_IN

_AU

6

PL4

3E_D

/LU

M0_

GP

LLT

_IN

_BU

7

VC

CIO

7U

12

VC

CIO

7U

11

VC

CIO

7N

12

VC

CIO

7N

11

VT

T7

T11

VT

T7

T10

PL4

AK

9

PL4

BK

8

PL5

AH

5

PL5

BH

4

PL8

A/L

DQ

13F

2

PL8

B/L

DQ

13F

1

37


Figure 31. FPGA Test5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

SW

ITC

H4

SW

ITC

H3

SW

ITC

H2

SW

ITC

H1

SW

ITC

H6

SW

ITC

H7

SW

ITC

H5

SW

ITC

H8

LED

3

LED

6

LED

1

LED

8

LED

4

LED

5

LED

2

LED

7

LA27

LA33

LA31

LA25

LA29

LA17

LA13

LA23

LA21

LA5

LA15

LA11

LA7

LA19

LA3

LA1

LA9

LA34

LA32

LA22

LA26

LA16

LA30

LA14

LA20

LA12

LA28

LA24

LA10

LA6

LA8

LA4

LA2

LA18

FLA

SH

_CLK

OS

C_I

N1

OS

C_I

N3

OS

C_I

N2

SW

ITC

H4

SW

ITC

H3

SW

ITC

H2

SW

ITC

H1

SW

ITC

H6

SW

ITC

H7

SW

ITC

H5

SW

ITC

H8

TP

_8

TP

_3T

P_4

TP

_5T

P_6

TP

_7

TP

_2T

P_1

TP

_0

TP

_9T

P_1

0T

P_1

1

TP

_13

TP

_12

TP

_14

TP

_15

LED

2

LED

3

LED

1

LED

4

LED

5

LED

6

LED

7

LED

8

LED

7_P

U

LED

8_P

U

LED

2_P

U

LED

3_P

U

LED

4_P

U

LED

5_P

U

LED

6_P

U

LED

1_P

U

LED

7_P

U

LED

8_P

U

LED

2_P

U

LED

3_P

U

LED

4_P

U

LED

5_P

U

LED

6_P

U

LED

1_P

U

3_3V

3_3V

3_3V

3_3V

FLA

SH

_CLK

6

SW

ITC

H[1

..8]

14

LA[1

..34]

14

TP

_[0.

.15]

14

OS

C_I

N[1

..3]

14

LED

[1..8

]14

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

D

FP

GA

TE

ST

C

1315

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

D

FP

GA

TE

ST

C

1315

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

D

FP

GA

TE

ST

C

1315

Wed

nesd

ay, A

ugus

t 26,

200

9

LOGIC ANALYZER PROBE

100MHZ GENERAL PURPOSE CLOCKS

DIP SWITCH

LEDs

GENERAL PURPOSE

HEADER

RN

6HE

XB

2HV

471J

V47

0RR

N6H

EX

B2H

V47

1JV

470R

89

Y

D24

LED

-SM

T12

06_Y

ELL

OW

Y

D24

LED

-SM

T12

06_Y

ELL

OW

RN

4DE

XB

2HV

472J

V4_

7KR

N4D

EX

B2H

V47

2JV

4_7K

413

G

D26

LED

-SM

T12

06_G

RE

EN

G

D26

LED

-SM

T12

06_G

RE

EN

B

D27

LED

-SM

T12

06_B

LUE

B

D27

LED

-SM

T12

06_B

LUE

B

D28

LED

-SM

T12

06_B

LUE

B

D28

LED

-SM

T12

06_B

LUE

RN

6AE

XB

2HV

471J

V47

0RR

N6A

EX

B2H

V47

1JV

470R

116

RN

4EE

XB

2HV

472J

V4_

7KR

N4E

EX

B2H

V47

2JV

4_7K

512

Y4

CT

S-C

B3L

V-3

C-1

00.0

0MH

Z-5

0ppm

Y4

CT

S-C

B3L

V-3

C-1

00.0

0MH

Z-5

0ppm

N/C

1

GN

D2

OU

T3

Vcc

4

RN

6CE

XB

2HV

471J

V47

0RR

N6C

EX

B2H

V47

1JV

470R

314

RN

6BE

XB

2HV

471J

V47

0RR

N6B

EX

B2H

V47

1JV

470R

215

C34

3

100N

F-0

603S

MT

C34

3

100N

F-0

603S

MT

RN

4FE

XB

2HV

472J

V4_

7KR

N4F

EX

B2H

V47

2JV

4_7K

611

RN

6DE

XB

2HV

471J

V47

0RR

N6D

EX

B2H

V47

1JV

470R

413

RN

4AE

XB

2HV

472J

V4_

7KR

N4A

EX

B2H

V47

2JV

4_7K

116

R

D22

LED

-SM

T12

06_R

ED

R

D22

LED

-SM

T12

06_R

ED

RN

4GE

XB

2HV

472J

V4_

7KR

N4G

EX

B2H

V47

2JV

4_7K

710

C34

410

0NF

-060

3SM

TC

344

100N

F-0

603S

MT

G

D25

LED

-SM

T12

06_G

RE

EN

G

D25

LED

-SM

T12

06_G

RE

EN

RN

4CE

XB

2HV

472J

V4_

7KR

N4C

EX

B2H

V47

2JV

4_7K

314

RN

6EE

XB

2HV

471J

V47

0RR

N6E

EX

B2H

V47

1JV

470R

512

R

D21

LED

-SM

T12

06_R

ED

R

D21

LED

-SM

T12

06_R

ED

RN

6FE

XB

2HV

471J

V47

0RR

N6F

EX

B2H

V47

1JV

470R

611

RN

4HE

XB

2HV

472J

V4_

7KR

N4H

EX

B2H

V47

2JV

4_7K

89

C34

510

NF

-060

3SM

TC

345

10N

F-0

603S

MT

Y

D23

LED

-SM

T12

06_Y

ELL

OW

Y

D23

LED

-SM

T12

06_Y

ELL

OW

LA1

2_76

7004

LA1

2_76

7004

5V1

SC

L2

GN

D3

SD

A4

CLK

15

CLK

6

77

88

99

1010

1111

1212

1313

1414

1515

1616

1717

1818

1919

2020

2121

2222

2323

2424

2525

2626

2727

2828

2929

3030

3131

3232

3333

3434

3535

3636

3737

3838

GND 39

GND 40

GND 41

GND 42

GND 43

SW

14

SW

DIP

-8/S

M

SW

14

SW

DIP

-8/S

M

RN

4BE

XB

2HV

472J

V4_

7KR

N4B

EX

B2H

V47

2JV

4_7K

215

J40

HE

AD

ER

9X

2

J40

HE

AD

ER

9X

2

2 4 6 8 10 12 14 16 18

1 3 5 7 9 11 13 15 17

RN

6GE

XB

2HV

471J

V47

0RR

N6G

EX

B2H

V47

1JV

470R

710

U28

CY

2304

-1

U28

CY

2304

-1

RE

F1

CLK

A1

2

CLK

A2

3

GN

D4

CLK

B1

5C

LKB

26

VD

D7

FB

K8

38


Figure 32. VSS/Decoupling5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

VC

C_C

OR

E

2_5V

1_5V

1_2V

_A

3_3V

VC

CP

LL

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

VS

S/D

ecou

plin

g

C

1415

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

VS

S/D

ecou

plin

g

C

1415

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

VS

S/D

ecou

plin

g

C

1415

Wed

nesd

ay, A

ugus

t 26,

200

9

ALL CAPS PLACED UNDER BGA

C36

0

1000

PF

-040

2SM

T

C36

0

1000

PF

-040

2SM

T

C36

7

1000

PF

-040

2SM

T

C36

7

1000

PF

-040

2SM

T

C35

0

1000

PF

-040

2SM

T

C35

0

1000

PF

-040

2SM

T

C36

5

1000

PF

-040

2SM

T

C36

5

1000

PF

-040

2SM

T

C35

1

1000

PF

-040

2SM

T

C35

1

1000

PF

-040

2SM

T

C38

2

1000

PF

-040

2SM

T

C38

2

1000

PF

-040

2SM

T

C36

8

1000

PF

-040

2SM

T

C36

8

1000

PF

-040

2SM

T

C37

0

1000

PF

-040

2SM

T

C37

0

1000

PF

-040

2SM

T

C38

5

1000

PF

-040

2SM

T

C38

5

1000

PF

-040

2SM

T

C36

1

1000

PF

-040

2SM

T

C36

1

1000

PF

-040

2SM

T

C36

3

1000

PF

-040

2SM

T

C36

3

1000

PF

-040

2SM

T

C38

1

1000

PF

-040

2SM

T

C38

1

1000

PF

-040

2SM

T

C38

8

1000

PF

-040

2SM

T

C38

8

1000

PF

-040

2SM

T

C35

3

1000

PF

-040

2SM

T

C35

3

1000

PF

-040

2SM

T

C38

3

1000

PF

-040

2SM

T

C38

3

1000

PF

-040

2SM

T

C36

9

1000

PF

-040

2SM

T

C36

9

1000

PF

-040

2SM

T

C36

4

1000

PF

-040

2SM

T

C36

4

1000

PF

-040

2SM

T

C35

8

1000

PF

-040

2SM

T

C35

8

1000

PF

-040

2SM

T

C38

9

1000

PF

-040

2SM

T

C38

9

1000

PF

-040

2SM

T

C38

4

1000

PF

-040

2SM

T

C38

4

1000

PF

-040

2SM

T

C37

1

1000

PF

-040

2SM

T

C37

1

1000

PF

-040

2SM

T

C37

5

1000

PF

-040

2SM

T

C37

5

1000

PF

-040

2SM

T

C35

6

1000

PF

-040

2SM

T

C35

6

1000

PF

-040

2SM

T

C34

7

1000

PF

-040

2SM

T

C34

7

1000

PF

-040

2SM

T

VSS

EC

P3-

90-1

156B

GA

U1L VSS

EC

P3-

90-1

156B

GA

U1L

GN

DA

F10

GN

DY

15

GN

DP

29

GN

DU

3

GN

DJ2

GN

DJ3

0

GN

DA

P9

GN

DK

17

GN

DY

19

GN

DP

21

GN

DP

3

GN

DA

J13

GN

DA

M13

GN

DV

10

GN

DA

H24

GN

DP

11

GN

DU

14

GN

DA

A17

GN

DA

J17

GN

DU

25G

ND

AA

20G

ND

V25

GN

DR

11G

ND

C12

GN

DV

19G

ND

P15

GN

DA

C24

GN

DF

17G

ND

T17

GN

DA

1G

ND

AJ1

4G

ND

T20

GN

DR

15G

ND

AL9

GN

DP

16G

ND

Y29

GN

DU

21G

ND

AA

24G

ND

R21

GN

DA

N30

GN

DW

19G

ND

L24

GN

DA

M17

GN

DA

J19

GN

DA

M22

GN

DA

C11

GN

DJ5

GN

DA

C29

GN

DA

J26

GN

DR

19G

ND

AE

25G

ND

AG

25G

ND

AJ2

2G

ND

B5

GN

DR

6G

ND

AM

25G

ND

Y3

GN

DM

11G

ND

W20

GN

DV

15G

ND

W15

GN

DA

D6

GN

DA

K5

GN

DA

F25

GN

DA

F2

GN

DK

18G

ND

AG

10G

ND

Y16

GN

DJ3

3G

ND

AA

16G

ND

B30

GN

DE

33G

ND

M12

GN

DV

20G

ND

M32

GN

DA

E11

GN

DH

8G

ND

Y24

GN

DA

K9

GN

DY

21G

ND

W21

GN

DA

M18

GN

DA

D20

GN

DU

10G

ND

L23

GN

DA

D14

GN

DA

N9

GN

DR

16G

ND

L21

GN

DC

15G

ND

W14

GN

DP

17G

ND

W12

GN

DT

21G

ND

V21

GN

DA

A19

GN

DE

30G

ND

AH

10G

ND

AE

24G

ND

AJ2

1G

ND

AE

10G

ND

U20

GN

DA

M10

GN

DA

M11

GN

DA

A15

GN

DM

24G

ND

AL2

6G

ND

U29

GN

DL1

5G

ND

M6

GN

DA

C3

GN

DA

D23

GN

DM

16G

ND

E26

GN

DA

M24

GN

DB

9G

ND

F20

GN

DL3

GN

DB

26G

ND

T14

GN

DE

5G

ND

Y11

GN

DL1

1G

ND

AG

27G

ND

AM

15G

ND

AF

33G

ND

C18

GN

DU

17G

ND

M19

GN

DA

K26

GN

DA

J9G

ND

AM

9G

ND

AH

21G

ND

AD

24

GN

DY

17

GN

DA

M26

GN

DU

16

GN

DA

A6

GN

DA

C12

GN

DY

20

GN

DA

J11

GN

DA

J25

GN

DT

15

GN

DA

H14

GN

DA

D21

GN

DP

18

GN

DA

A11

GN

DR

17

GN

DA

E17

GN

DA

P34

GN

DA

H18

GN

DA

J10

GN

DW

18

GN

DA

K33

GN

DA

A14

GN

DV

17

GN

DA

A32

GN

DA

H11

GN

DA

N5

GN

DR

32

GN

DV

6

GN

DA

G8

GN

DL2

0

GN

DC

24

GN

DH

27

GN

DA

K2

GN

DA

D11

GN

DV

16

GN

DA

F30

GN

DA

C19

GN

DA

A21

GN

DF

23

GN

DA

J16

GN

DP

24

GN

DA

M20

GN

DA

J24

GN

DA

N26

GN

DA

M12

GN

DA

M19

GN

DC

21

GN

DT

12

GN

DM

23

GN

DL2

9

GN

DE

9

GN

DA

E18

GN

DV

14

GN

DT

18

GN

DA

J18

GN

DA

M23

GN

DW

16

GN

DW

17

GN

DA

D32

GN

DE

2

GN

DP

14

GN

DV

18

GN

DA

M16

GN

DP

20

GN

DA

P1

GN

DR

14

GN

DR

24

GN

DA

D15

GN

DA

M14

GN

DU

18

GN

DU

19

GN

DP

19

GN

DA

A18

GN

DA

P26

GN

DL1

2

GN

DY

18

GN

DU

15

GN

DA

D12

GN

DT

16

GN

DT

23

GN

DL1

4

GN

DA

J20

GN

DA

H17

GN

DT

19

GN

DA

34

GN

DA

J12

GN

DR

18

GN

DR

20

GN

DA

H25

GN

DA

K30

GN

DY

14

GN

DA

M21

GN

DA

F5

GN

DV

32

GN

DA

J23

GN

DA

C23

GN

DA

J15

GN

DF

14

GN

DA

C16

GN

DF

11

C37

8

1000

PF

-040

2SM

T

C37

8

1000

PF

-040

2SM

T

C37

6

1000

PF

-040

2SM

T

C37

6

1000

PF

-040

2SM

T

C37

2

1000

PF

-040

2SM

T

C37

2

1000

PF

-040

2SM

T

C34

9

1000

PF

-040

2SM

T

C34

9

1000

PF

-040

2SM

T

EC

P3-

90-1

156B

GA

U1K

EC

P3-

90-1

156B

GA

U1K

NC1 B8NC2 B27NC3 B29NC4 C7NC5 C8NC6 C9NC7 C26NC8 C27NC9 D7NC10 D8NC11 D9NC12 D26NC13 D27NC14 E6NC15 E7NC16 E8NC17 E14NC18 E16NC19 E25NC20 E27NC21 E28NC22 E29NC23 F4NC24 F5NC25 F6NC26 F7NC27 F8NC28 F9NC29 F15NC30 F16NC31 F24NC32 F25NC33 F26NC34 F27NC35 F28NC36 F29NC37 G6NC38 G7NC39 G8NC40 G9NC41 G10NC42 G14NC43 G15NC44 G22NC45 G24NC46 G27NC47 G28NC48 G29NC49 H6NC50 H7NC51 H9NC52 H10NC53 H11NC54 H12NC55 H21NC56 H24NC57 H28NC58 H29NC59 H30NC60 H31NC61 H32NC62 J4NC63 J6NC64 J7NC65 J8NC66 J9NC67 J10NC68 J11NC69 J24NC70 J25NC71 J26NC72 J27NC73 J28NC74 J29NC75 J31NC76 J32NC77 K1NC78 K2NC79 K3NC80 K4NC81 K5NC82 K6NC83 K7NC84 K11NC85 K25NC86 K26NC87 K27NC88 K28NC89 K29NC90 K30NC91 K31NC92 K32NC93 K33NC94 K34NC95 L1NC96 L2NC97 L4NC98 L5NC99 L6NC100 L7NC101 L8NC102 L9NC103 L10NC104 L25NC105 L26NC106 L27NC107 L28NC108 L30NC109 L31NC110 L32NC111 L33NC112 L34NC113 M1NC114 M2NC115 M3NC116 M4NC117 M7NC118 M8NC119 M9NC120 M25NC121M26

NC122M27

NC123M28

NC124M29

NC125M30

NC126M31

NC127M33

NC128M34

NC129N9

NC130AA9

NC131AB3

NC132AB4

NC133AB6

NC134AB7

NC135AB8

NC136AB10

NC137AB25

NC138AB26

NC139AB27

NC140AB31

NC141AB32

NC142AC1

NC143AC2

NC144AC4

NC145AC5

NC146AC8

NC147AC9

NC148AC10

NC149AC25

NC150AC26

NC151AC27

NC152AC28

NC153AD5

NC154AD7

NC155AD25

NC156AD26

NC157AD27

NC158AD28

NC159AD29

NC160AD30

NC161AD31

NC162AD33

NC163AD34

NC164AE5

NC165AE6

NC166AE7

NC167AE8

NC168AE14

NC169AE15

NC170AE27

NC171AE28

NC172AE33

NC173AE34

NC174AF1

NC175AF3

NC176AF4

NC177AF6

NC178AF7

NC179AF8

NC180AF11

NC181AF12

NC182AF13

NC183AF27

NC184AF28

NC185AF29

NC186AF34

NC187AG1

NC188AG2

NC189AG3

NC190AG4

NC191AG5

NC192AG6

NC193AG7

NC194AG11

NC195AG12

NC196AG13

NC197AG28

NC198AG29

NC199AG30

NC200AG31

NC201AG32

NC202AG33

NC203AG34

NC204AH1

NC205AH2

NC206AH3

NC207AH4

NC208AH5

NC209AH6

NC210AH8

NC211AH12

NC212AH13

NC213AH29

NC214AH30

NC215AH31

NC216AH32

NC217AH34

NC218AJ1

NC219AJ29

NC220AJ30

NC221AJ32

NC222AK1

NC223AK10

NC224AK11

NC225AK12

NC226AK13

NC227AL10

NC228AL11

NC229AL12

NC230AL13

NC231AN10

NC232AN11

NC233AN12

NC234AN13

NC235AP10

NC236AP11

NC237AP12

NC238AP13

C35

5

1000

PF

-040

2SM

T

C35

5

1000

PF

-040

2SM

T

C38

7

1000

PF

-040

2SM

T

C38

7

1000

PF

-040

2SM

T

MH

3

M H

OLE

2

MH

3

M H

OLE

2

C37

3

1000

PF

-040

2SM

T

C37

3

1000

PF

-040

2SM

T

C34

6

1000

PF

-040

2SM

T

C34

6

1000

PF

-040

2SM

T

C38

6

1000

PF

-040

2SM

T

C38

6

1000

PF

-040

2SM

T

C37

7

1000

PF

-040

2SM

T

C37

7

1000

PF

-040

2SM

T

C35

9

1000

PF

-040

2SM

T

C35

9

1000

PF

-040

2SM

T

C37

4

1000

PF

-040

2SM

T

C37

4

1000

PF

-040

2SM

T

C34

8

1000

PF

-040

2SM

T

C34

8

1000

PF

-040

2SM

T

C35

7

1000

PF

-040

2SM

T

C35

7

1000

PF

-040

2SM

T

MH

4

M H

OLE

2

MH

4

M H

OLE

2

C36

2

1000

PF

-040

2SM

T

C36

2

1000

PF

-040

2SM

T

C35

2

1000

PF

-040

2SM

T

C35

2

1000

PF

-040

2SM

T

C36

6

1000

PF

-040

2SM

T

C36

6

1000

PF

-040

2SM

T

C37

9

1000

PF

-040

2SM

T

C37

9

1000

PF

-040

2SM

T

MH

5

M H

OLE

2

MH

5

M H

OLE

2

C39

1

1000

PF

-040

2SM

T

C39

1

1000

PF

-040

2SM

T

C35

4

1000

PF

-040

2SM

T

C35

4

1000

PF

-040

2SM

T

C38

0

1000

PF

-040

2SM

T

C38

0

1000

PF

-040

2SM

T

C39

0

1000

PF

-040

2SM

T

C39

0

1000

PF

-040

2SM

T

39


Figure 33. FPGA Pins5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

ET

H_G

TX

_CLK

FP

GA

_SM

A_N

SE

G_K

SE

G_C

SE

G_P

SE

G_T

SE

G_H

SE

G_E

SE

G_N

SE

G_S

SE

G_U

SE

G_G

SE

G_D

P

SE

G_M

SE

G_D

SE

G_R

SE

G_A

SE

G_B

SE

G_F

I2C

_SC

LI2

C_S

DA

GS

RN

CD

C_C

TR

L_C

LKC

DC

_CT

RL_

LE

CD

C_C

TR

L_D

AT

AP

CIE

_PE

RS

TN

LVD

S_O

UT

N_1

LVD

S_O

UT

P_1

LVD

S_O

UT

N_0

LVD

S_O

UT

P_0

CD

C_R

EF

CLK

CD

C_R

EF

CLK

_i

GP

_CLK

N

GP

_CLK

P

ET

H_T

X_D

4

ET

H_T

X_D

6E

TH

_TX

_D5

ET

H_T

X_D

7

ET

H_T

X_D

0

ET

H_T

X_D

3

ET

H_T

X_C

LK

SE

G_K

SE

G_C

SE

G_P

SE

G_T

SE

G_H

SE

G_E

SE

G_N

SE

G_S

SE

G_U

SE

G_G

SE

G_D

P

SE

G_M

SE

G_D

SE

G_R

SE

G_A

SE

G_B

SE

G_F

ET

H_C

RS

ET

H_C

OL

ET

H_R

X_C

LK

ET

H_T

X_D

1E

TH

_TX

_D2

ET

H_R

X_E

RE

TH

_RX

_DV

ET

H_T

X_E

RE

TH

_TX

_EN

ET

H_R

X_D

2

ET

H_R

X_D

0

ET

H_R

X_D

3

ET

H_R

X_D

1

ET

H_R

X_D

4E

TH

_RX

_D5

ET

H_R

X_D

7E

TH

_RX

_D6

PH

Y_F

RE

Q_S

EL

PH

Y_N

ET

4P

HY

_CLK

25P

HY

_NE

T5

PH

Y_M

DC

PH

Y_N

ET

1P

HY

_RE

SE

T_N

PH

Y_N

ET

2P

HY

_IN

T_N

PH

Y_N

ET

3

PH

Y_M

DIO

PH

Y_N

ET

0

SW

ITC

H4

SW

ITC

H3

SW

ITC

H2

SW

ITC

H1

SW

ITC

H6

SW

ITC

H7

SW

ITC

H5

SW

ITC

H8

LED

2LE

D3

LED

1

LED

4LE

D5

LED

6LE

D7

LED

8

GP

_CLK

NG

P_C

LKP

FP

GA

_0F

PG

A_1

FP

GA

_2F

PG

A_3

FP

GA

_4F

PG

A_5

FP

GA

_6F

PG

A_7

FP

GA

_8F

PG

A_9

FP

GA

_10

FP

GA

_11

FP

GA

_12

FP

GA

_13

FP

GA

_14

FP

GA

_15

TP

_3T

P_4

TP

_5T

P_6

TP

_7

TP

_14

TP

_2T

P_1

TP

_0

TP

_15

TP

_9T

P_1

0T

P_1

1T

P_1

2T

P_1

3

TP

_8

LVD

S_O

UT

N_0

LVD

S_O

UT

P_0

DQ

_TE

ST

OS

C_I

N1

OS

C_I

N2

DQ

SD

QS

#

DQ

0

DQ

0

DQ

1

DQ

1

DQ

S

DQ

S

DQ

2D

Q3

DQ

4D

Q5

DQ

6D

Q7

DQ

2D

Q3

DQ

4D

Q5

DQ

6D

Q7

DQ

S#

DQ

S#

DQ

_TE

ST

DQ

_TE

ST

FP

GA

_SM

A_P

FP

GA

_SM

A_N

VR

EF

1_2

FP

GA

_SM

A_P

LA2

LA19

LA3

LA4

LA5

LA8

LA7

LA6

LA10

LA12

LA11

LA9

LA1

LA14

LA15

LA16

LA17

LA18

LA13

LA20

LA21

LA22

LA23

LA24

LA25

LA26

LA27

LA28

LA29

LA30

LA32

LA33

LA34

US

B_T

XD

US

B_0

US

B_D

TR

#U

SB

_1U

SB

_RT

S#

US

B_2

US

B_R

XD

US

B_3

US

B_R

I#U

SB

_4U

SB

_DS

R#

US

B_5

US

B_D

CD

#U

SB

_6U

SB

_CT

S#

US

B_7

RS

232_

TX

DR

S23

2_1

RS

232_

RX

DR

S23

2_0

LA31

LVD

S_O

UT

N_1

LVD

S_O

UT

P_1

FP

GA

_IN

OS

C_I

N1

OS

C_I

N2

OS

C_I

N3

OS

C_I

N3

3_3V

3_3V

3_3V

2_5V

2_5V

2_5V

1_5V

VC

CIO

2

VT

T2

ET

H_G

TX

_CLK

9

I2C

_SC

L3

I2C

_SD

A3

GS

RN

3,5,

6C

DC

_CT

RL_

LE8

CD

C_C

TR

L_C

LK8

CD

C_C

TR

L_D

AT

A8

CLO

CK

_CT

RL_

SE

L16,

7C

LOC

K_C

TR

L_S

EL0

6,7

PC

IE_P

ER

ST

N7

CD

C_R

EF

CLK

8

ET

H_T

X_D

[0..7

]9

ET

H_R

X_D

[0..7

]9

ET

H_T

X_C

LK9

ET

H_C

RS

9E

TH

_CO

L9

ET

H_R

X_C

LK9

ET

H_R

X_E

R9

ET

H_R

X_D

V9

ET

H_T

X_E

N9

ET

H_T

X_E

R9

PH

Y_N

ET

[0..5

]9

SW

ITC

H[1

..8]

15

LED

[1..8

]15

CD

C_Y

1_O

UT

8C

DC

_Y1B

_OU

T8

FP

GA

_[0.

.15]

6

TP

_[0.

.15]

15

OS

C_I

N[1

..3]

15

CD

C_Y

2_O

UT

8C

DC

_Y2B

_OU

T8

LA[1

..34]

15

US

B_[

0..7

]17

RS

232_

[0..1

]17

OS

C_I

N3

15

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

FP

GA

Pin

s

C

1417

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

FP

GA

Pin

s

C

1417

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

FP

GA

Pin

s

C

1417

Wed

nesd

ay, A

ugus

t 26,

200

9

SEGMENT BGA

A C30

B C29

C B31

D A31

E H25

F H26

G A30

H A29

K A27

M A26

N A28

P B28

R G25

S G26

T D25

U C25

DP D28

16-SEGMENT DISPLAY

NOTE: PLACE

TERMINATIONS

CLOSE TO U1

DEVICE.

FPGA CLOCK

BANK0

BANK1

BANK2

BANK3

50-OHM TRACES

R23

215

0R-0

603S

MT

R23

215

0R-0

603S

MT

R26

113

0R-0

603S

MT

R26

113

0R-0

603S

MT

R33

7

51R

-060

3SM

T

R33

7

51R

-060

3SM

T

RN

2GR

N2G

710

R23

0

51R

-060

3SM

T

R23

0

51R

-060

3SM

T

R23

410

0R-0

603S

MT

R23

410

0R-0

603S

MT

DP

3D

P3

1

2

3

RN

2CR

N2C

314

R23

310

0R-0

603S

MT

R23

310

0R-0

603S

MT

C32

3

10N

F-0

603S

MT

C32

3

10N

F-0

603S

MT

C33

3

10N

F-0

603S

MT

C33

3

10N

F-0

603S

MT

DP

2D

P2

1

2

3C

339

10N

F-0

603S

MT

C33

9

10N

F-0

603S

MT

RN

2HR

N2H

89

C33

4

10N

F-0

603S

MT

C33

4

10N

F-0

603S

MT

C396

100NF-0603SMT

C396

100NF-0603SMT

RN

3AR

N3A

116

R23

70R

-060

3SM

TR

237

0R-0

603S

MT

C32

2

100N

F-0

603S

MT

C32

2

100N

F-0

603S

MT

C34

0

10N

F-0

603S

MT

C34

0

10N

F-0

603S

MT

ABCDEFGHKMNPRSTUDP

D20

LTP

-587

HR

/16-

SE

GM

EN

TABCDEFGHKMNPRSTUDP

D20

LTP

-587

HR

/16-

SE

GM

EN

T

18

211613986547 311 1715121410

C33

2

10N

F-0

603S

MT

C33

2

10N

F-0

603S

MT

RN

3BR

N3B

215

TP

39T

P39

C32

4

10N

F-0

603S

MT

C32

4

10N

F-0

603S

MT

C394

100NF-0603SMT

C394

100NF-0603SMT

C40

8

10N

F-0

603S

MT

C40

8

10N

F-0

603S

MT

RN

3DR

N3D

413

C33

8

10N

F-0

603S

MT

C33

8

10N

F-0

603S

MT

+C

395

10UF-16V-TANTBSMT

+C

395

10UF-16V-TANTBSMT

C32

1

10N

F-0

603S

MT

C32

1

10N

F-0

603S

MT

TP

40T

P40

C40

7

100N

F-0

603S

MT

C40

7

100N

F-0

603S

MT

RN

3ER

N3E

512

R26

0

1_6R

-060

3SM

T

R26

0

1_6R

-060

3SM

T

+C

327

22UF-16V-TANTBSMT

+C

327

22UF-16V-TANTBSMT

R23

522

R-0

603S

MT

R23

522

R-0

603S

MT

12

C40

6

10N

F-0

603S

MT

C40

6

10N

F-0

603S

MT

RN

3FR

N3F

611

J44

HE

AD

ER

2H

D2x

1D

I

J44

HE

AD

ER

2H

D2x

1D

I

12

C33

7

10N

F-0

603S

MT

C33

7

10N

F-0

603S

MT

J39

SM

AJ39

SM

A

12 3 4 5

C32

8

1UF-16V-0805SMT

C32

8

1UF-16V-0805SMT

J38

SM

AJ38

SM

A

12 3 4 5

RN

3GR

N3G

710

RN

2ER

N2E

512

R26

4

82R

-060

3SM

T

R26

4

82R

-060

3SM

T

C32

5

10N

F-0

603S

MT

C32

5

10N

F-0

603S

MT

Bank 0

EC

P3-

90-1

156B

GA

U1A Bank 0

EC

P3-

90-1

156B

GA

U1A

PT

2AC

3

PT

2BC

4

PT

5AB

1

PT

5BB

2

PT

7AE

4

PT

7BD

4

PT

8AB

3

PT

8BA

2

PT

10A

D5

PT

10B

C6

PT

11A

B4

PT

11B

A3

PT

13A

D6

PT

13B

C5

PT

14A

A4

PT

14B

A5

PT

16A

B7

PT

16B

A7

PT

17A

B6

PT

17B

A6

PT

19A

A8

PT

19B

A9

PT

20A

A10

PT

20B

B10

PT

22A

J12

PT

22B

K12

PT

23A

C11

PT

23B

D11

PT

25A

G11

PT

25B

G12

PT

26A

A11

PT

26B

B11

PT

28A

K13

PT

28B

J13

PT

29A

E11

PT

29B

F12

PT

31A

F10

PT

31B

E10

PT

32A

A12

PT

32B

B12

PT

34A

J14

PT

34B

H13

PT

35A

D12

PT

35B

E12

PT

37A

K14

PT

37B

K15

PT

38A

E13

PT

38B

F13

PT

40A

G13

PT

40B

H14

PT

41A

A13

PT

41B

B13

PT

43A

D10

PT

43B

C10

PT

44A

C13

PT

44B

D13

PT

46A

J15

PT

46B

H15

PT

4A/V

RE

F1_

0D

3

PT

4B/V

RE

F2_

0C

2

PT

50A

C14

PT

50B

D14

PT

56A

A14

PT

56B

B14

PT

58A

G16

PT

58B

G17

PT

59A

D15

PT

59B

E15

PT

61A

J16

PT

61B

H16

PT

62A

A15

PT

62B

B15

PT

64A

E17

PT

64B

F18

PT

65A

C16

PT

65B

D16

PT

67A

K16

PT

67B

L16

PT

68A

A16

PT

68B

B16

PT

70A

G18

PT

70B

F19

PT

71A

C17

PT

71B

D17

PT

73A

/PC

LKT

0_0

J17

PT

73B

/PC

LKC

0_0

H17

VC

CIO

0M

17

VC

CIO

0L1

3

VC

CIO

0M

13

VC

CIO

0L1

7C

331

10N

F-0

603S

MT

C33

1

10N

F-0

603S

MT

PP

10P

P10

1 2

RN

3HR

N3H

89

Y5

CW

-P42

3-D

NP

Y5

CW

-P42

3-D

NP

Q_N

5

Q4

VCC6 GND 3

DIS

#1

NC

2

Bank 1

EC

P3-

90-1

156B

GA

U1B Bank 1

EC

P3-

90-1

156B

GA

U1B

PT

74A

A17

PT

74B

B17

PT

76A

/PC

LKT

1_0

E19

PT

76B

/PC

LKC

1_0

E20

PT

77A

A18

PT

77B

B18

PT

79A

J18

PT

79B

H18

PT

80A

D18

PT

80B

E18

PT

82A

G19

PT

82B

H19

PT

83A

A19

PT

83B

B19

PT

85A

K20

PT

85B

L19

PT

86A

C19

PT

86B

D19

PT

88A

J19

PT

88B

K19

PT

89A

A20

PT

89B

B20

PT

91A

G20

PT

91B

G21

PT

95A

C20

PT

95B

D20

PT

97A

F21

PT

97B

F22

PT

98A

A21

PT

98B

B21

PT

101A

D21

PT

101B

E21

PT

103A

H20

PT

103B

J20

PT

104A

A22

PT

104B

B22

PT

106A

J22

PT

106B

J23

PT

107A

C22

PT

107B

D22

PT

109A

J21

PT

109B

H22

PT

110A

A23

PT

110B

B23

PT

112A

E22

PT

112B

E23

PT

113A

C23

PT

113B

D23

PT

115A

K22

PT

115B

K21

PT

116A

A24

PT

116B

B24

PT

118A

G23

PT

118B

H23

PT

119A

D24

PT

119B

E24

PT

121A

K23

PT

121B

K24

PT

122A

A25

PT

122B

B25

PT

124A

C28

PT

124B

D28

PT

125A

C25

PT

125B

D25

PT

127A

G26

PT

127B

G25

PT

128A

B28

PT

128B

A28

PT

130A

A26

PT

130B

A27

PT

131A

A29

PT

131B

A30

PT

133A

H26

PT

133B

H25

PT

134A

A31

PT

134B

B31

PT

136A

/VR

EF

1_1

C29

PT

136B

/VR

EF

2_1

C30

VC

CIO

1L2

2

VC

CIO

1L1

8

VC

CIO

1M

22

VC

CIO

1M

18

R26

213

0R-0

603S

MT

R26

213

0R-0

603S

MT

DP

1D

P1

1

2

3

RN

2AR

N2A

116

C41

3

10N

F-0

603S

MT

C41

3

10N

F-0

603S

MT

C33

6

10N

F-0

603S

MT

C33

6

10N

F-0

603S

MT

C33

0

10N

F-0

603S

MT

C33

0

10N

F-0

603S

MT

RN

2DE

XB

2HV

151J

V

150R

RN

2DE

XB

2HV

151J

V

150R

413

Bank 2

EC

P3-

90-1

156B

GA

U1C

Bank 2

EC

P3-

90-1

156B

GA

U1C

PR

17A

/RD

Q22

N30

PR

17B

/RD

Q22

N29

PR

19A

/RD

Q22

/HS

19N

26

PR

19B

/RD

Q22

/HS

19P

26

PR

20A

/RD

Q22

N32

PR

20B

/RD

Q22

N31

PR

22A

/RD

QS

22N

27

PR

22B

/RD

QS

22#

N28

PR

23A

/RD

Q22

N34

PR

23B

/RD

Q22

N33

PR

25A

/RD

Q22

/HS

25P

28

PR

25B

/RD

Q22

/HS

25P

27

PR

25E

_A/R

UM

2_G

PLL

T_F

B_A

/RD

Q22

P32

PR

25E

_B/R

UM

2_G

PLL

T_F

B_B

/RD

Q22

P31

PR

25E

_C/R

UM

2_G

PLL

T_I

N_A

/RD

Q22

P30

PR

25E

_D/R

UM

2_G

PLL

T_I

N_B

/RD

Q22

R29

PR

26A

/RD

Q31

P34

PR

26B

/RD

Q31

P33

PR

28A

/RD

Q31

/HS

28R

28

PR

28B

/RD

Q31

/HS

28R

27

PR

29A

/RD

Q31

R31

PR

29B

/RD

Q31

R30

PR

31A

/RD

QS

31R

26

PR

31B

/RD

QS

31#

R25

PR

32A

/RD

Q31

R34

PR

32B

/RD

Q31

R33

PR

34A

/VR

EF

1_2/

RD

Q31

/HS

34T

29

PR

34B

/VR

EF

2_2/

RD

Q31

/HS

34T

28

PR

35A

/RD

Q40

T32

PR

35B

/RD

Q40

T31

PR

37A

/RU

M0_

GD

LLT

_IN

_A/R

DQ

40/H

S37

T26

PR

37B

/RU

M0_

GD

LLT

_IN

_B/R

DQ

40/H

S37

T27

PR

38A

/RU

M0_

GD

LLT

_FB

_A/R

DQ

40T

34

PR

38B

/RU

M0_

GD

LLT

_FB

_B/R

DQ

40T

33

PR

40A

/RD

QS

40T

30

PR

40B

/RD

QS

40#

U30

PR

41A

/RD

Q40

U32

PR

41B

/RD

Q40

U31

PR

43A

/PC

LKT

2_0/

RD

Q40

/HS

43U

26

PR

43B

/PC

LKC

2_0/

RD

Q40

/HS

43U

27

PR

43E

_A/R

UM

0_G

PLL

T_F

B_A

/RD

Q40

U34

PR

43E

_B/R

UM

0_G

PLL

T_F

B_B

/RD

Q40

U33

PR

43E

_C/R

UM

0_G

PLL

T_I

N_A

/RD

Q40

V34

PR

43E

_D/R

UM

0_G

PLL

T_I

N_B

/RD

Q40

V33

VC

CIO

2N

24

VC

CIO

2U

23

VC

CIO

2N

23

VC

CIO

2U

24

VT

T2

T25

VT

T2

T24

Bank 3

EC

P3-

90-1

156B

GA

U1D Bank 3

EC

P3-

90-1

156B

GA

U1D

PR

44A

V31

PR

44B

V30

PR

46A

/PC

LKT

3_0

U28

PR

46B

/PC

LKC

3_0

V28

PR

47A

W34

PR

47B

W33

PR

49A

V27

PR

49B

V26

PR

50A

W32

PR

50B

W31

PR

52A

/VR

EF

1_3

V29

PR

52B

/VR

EF

2_3

W28

PR

53A

W30

PR

53B

W29

PR

55A

W27

PR

55B

W26

PR

56A

Y34

PR

56B

Y33

PR

58A

Y30

PR

58B

AA

29

PR

59A

Y32

PR

59B

Y31

PR

61A

Y26

PR

61B

Y25

PR

61E

_A/R

LM1_

GP

LLT

_FB

_AA

A34

PR

61E

_B/R

LM1_

GP

LLT

_FB

_BA

A33

PR

61E

_C/R

LM1_

GP

LLT

_IN

_AY

28

PR

61E

_D/R

LM1_

GP

LLT

_IN

_BY

27

PR

62A

AB

34

PR

62B

AB

33

PR

64A

/HS

64A

A25

PR

64B

/HS

64A

A26

PR

65A

AA

31

PR

65B

AA

30

PR

67A

AB

30

PR

67B

AC

30

PR

68A

AC

34

PR

68B

AC

33

PR

70A

/HS

70A

A28

PR

70B

/HS

70A

A27

PR

70E

_A/R

LM2_

GP

LLT

_FB

_AA

C32

PR

70E

_B/R

LM2_

GP

LLT

_FB

_BA

C31

PR

70E

_C/R

LM2_

GP

LLT

_IN

_AA

B28

PR

70E

_D/R

LM2_

GP

LLT

_IN

_BA

B29

PR

71A

AE

32

PR

71B

AE

31

PR

74A

AE

30

PR

74B

AE

29

PR

77A

AF

32

PR

77B

AF

31

PR

79E

_A/R

LM3_

GP

LLT

_FB

_AA

M34

PR

79E

_B/R

LM3_

GP

LLT

_FB

_BA

M33

PR

79E

_C/R

LM3_

GP

LLT

_IN

_AA

J34

PR

79E

_D/R

LM3_

GP

LLT

_IN

_BA

K34

PR

80A

AN

34

PR

80B

AN

33

PR

82A

/HS

82A

H33

PR

82B

/HS

82A

J33

PR

83A

AP

33

PR

83B

AP

32

PR

85A

AL3

4

PR

85B

AL3

3

PR

86A

AL3

2

PR

86B

AK

32

PR

88A

/HS

88A

J31

PR

88B

/HS

88A

K31

PR

89A

AN

32

PR

89B

AM

32

PR

91A

/HS

91A

L30

PR

91B

/HS

91A

M30

PR

92A

AP

31

PR

92B

AN

31

PR

94A

AP

29

PR

94B

AP

30

PR

95A

AL3

1

PR

95B

AM

31

PR

97A

/HS

97A

M29

PR

97B

/HS

97A

N29

PB

131A

AP

28

PB

131B

AN

28

PB

133A

AP

27

PB

133B

AN

27

PB

134A

AM

27

PB

134B

AL2

7

PB

136A

AH

26

PB

136B

AG

26

PB

137A

AM

28

PB

137B

AL2

8

PB

139A

AK

27

PB

139B

AJ2

7

PB

140A

AK

28

PB

140B

AJ2

8

PB

142A

AH

27

PB

142B

AH

28

PB

143A

AL2

9

PB

143B

AK

29

PB

145A

AF

26

PB

145B

AE

26

VC

CIO

3A

B23

VC

CIO

3A

B24

VC

CIO

3V

24

VC

CIO

3V

23

VT

T3

W25

VT

T3

W24

RN

2FR

N2F

611

C41

4

100N

F-0

603S

MT

C41

4

100N

F-0

603S

MT

C32

9

10N

F-0

603S

MT

C32

9

10N

F-0

603S

MT

C32

6

10N

F-0

603S

MT

C32

6

10N

F-0

603S

MT

SP

26S

P26

1

R23

1

51R

-060

3SM

T

R23

1

51R

-060

3SM

T

J45

SM

AJ45

SM

A

12 3 4 5

RN

3CE

XB

2HV

151J

V15

0RR

N3C

EX

B2H

V15

1JV

150R

314

SP

25S

P25 1

R26

382

R-0

603S

MT

R26

382

R-0

603S

MT

RN

2BR

N2B

215

C33

5

10N

F-0

603S

MT

C33

5

10N

F-0

603S

MT

40


Figure 34. Miscellaneous5 5

4 4

3 3

2 2

1 1

DD

CC

BB

AA

RS

232_

RX

D

RS

232_

TX

DR

S23

2_1

3_3V

US

B_T

XD

US

B_D

TR

#

US

B_R

TS

#

US

B_R

XD

US

B_R

I#

US

B_D

SR

#

US

B_D

CD

#

US

B_C

TS

#

CB

0

CB

1

US

B_P

US

B_N

CB

0

CB

1

US

B_T

XD

US

B_0

US

B_D

TR

#U

SB

_1

US

B_R

TS

#U

SB

_2

US

B_R

XD

US

B_3

US

B_R

I#U

SB

_4

US

B_D

SR

#U

SB

_5

US

B_D

CD

#U

SB

_6

US

B_C

TS

#U

SB

_7

RS

232_

RX

DR

S23

2_0

3_3V

3_3V

US

B_[

0..7

]14

RS

232_

[0..1

]14

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Mis

c.

C

1717

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Mis

c.

C

1717

Wed

nesd

ay, A

ugus

t 26,

200

9

Titl

e

Siz

eP

roje

ctR

ev

Dat

e:S

heet

of


Bethlehem, PA 18017

EC

P3

SP

B E

val B

oard

3.0

Mis

c.

C

1717

Wed

nesd

ay, A

ugus

t 26,

200

9

RS232

C39

810

0NF

X5R

-040

2SM

T04

02

C39

810

0NF

X5R

-040

2SM

T04

02

U29

MA

X32

32T

SS

OP

16

U29

MA

X32

32T

SS

OP

16

GN

D15

VC

C16

R1I

N13

R2I

N8

T2I

N10

T1I

N11

C1+

1

C1-

3

C2+

4

C2-

5

R1O

UT

12

R2O

UT

9

T1O

UT

14

T2O

UT

7

V+

2

V-

6

R32

9

330R

-040

2SM

T

R32

9

330R

-040

2SM

T12

D31

GR

EE

N_L

ED

D31

GR

EE

N_L

ED

12

C40

010

0NF

X5R

-040

2SM

T04

02

C40

010

0NF

X5R

-040

2SM

T04

02

L3

IND

UC

TO

R

L3

IND

UC

TO

R

C40

110

0NF

-060

3SM

TC

401

100N

F-0

603S

MT

R33

110

K-0

603S

MT

R33

110

K-0

603S

MT

FT

232R

U30

FT

232R

U30

TX

D1

DT

R#

2

RT

S#

3

VC

CIO

4

RX

D5

RI#

6

GN

D7

NC

_18

DS

R#

9

DC

D#

10

CT

S#

11

SLE

EP

#12

GP

IO2

13

GP

IO3

14U

SB

DP

15

US

BD

M16

3V3O

UT

17

GN

D18

RE

SE

T#

19

VC

C20

GN

D21

GP

IO0

22

GP

IO1

23

NC

_224

AG

ND

25

TE

ST

26

OS

CI

27

OS

CO

28

C40

5

100N

F-0

603S

MT

C40

5

100N

F-0

603S

MT

J43

USB_MINI_AB

J43

USB_MINI_AB

11

22

33

44

55

7 788

99 6 6

D32

GR

EE

N_L

ED

D32

GR

EE

N_L

ED

12

R33

0

330R

-040

2SM

T

R33

0

330R

-040

2SM

T1

2

C40

2

1UF-16V-0805SMT

C40

2

1UF-16V-0805SMT

C39

910

0NF

X5R

-040

2SM

T04

02

C39

910

0NF

X5R

-040

2SM

T04

02

C39

710

0NF

X5R

-040

2SM

T04

02

C39

710

0NF

X5R

-040

2SM

T04

02

C40

3

10N

F-0

603S

MT

C40

3

10N

F-0

603S

MT

J42 H

EA

DE

R 5

X2

J42 H

EA

DE

R 5

X22 4 6 8 10

1 3 5 7 9

R33

24_

7K-0

603S

MT

R33

24_

7K-0

603S

MT

C40

4

100N

F-0

603S

MT

C40

4

100N

F-0

603S

MT

41


Appendix B. Bill of MaterialsTable 27. Bill of Materials Item Quantity Reference Part Manufacturer Part Number Description

1 2 CN1,CN2 SATA Molex 67800-1005/DK#WM19023-ND

CONN HEADER 7POS VERT SMD 15GOLD

2 1 CN3 PCI Express x4 Edge Finger Conn.

PCB Edge finger

3 1 C1 470UF-FKSMT Panasonic EEV-FK1V471Q CAP 470UF 35V ELECT FK SMD

4 5 C2,C199,C211,C233,C280 100UF-FKSMT Panasonic EEE-FK1V101XP CAP 100UF 35V ELECT FK SMD

5 6 C3,C6,C9,C12,C14,C15 330UF-FKSMT Panasonic EEE-FK1C331P CAP 330UF 16V ELECT FK SMD

6 16 C4,C5,C7,C8,C10,C11,C13,C132,C135,C156,C162,C201,C213,C234,C282,C395

10UF-16V-TANTBSMT AVX TAJB106K016R CAP TANTALUM 10UF 16V 10% SMD

7 121 C16,C19,C21,C31,C33,C35,C37,C39,C41,C49,C51,C53,C55,C57,C59,C63,C65,C67,C69,C70,C71,C72,C73,C74,C75,C76,C77,C78,C81,C82,C83,C84,C99,C102,C104,C105,C106,C107,C108,C109,C111,C113,C115,C117,C118,C119,C129,C130,C131,C133,C136,C137,C148,C149,C153,C157,C163,C169,C171,C175,C176,C178,C180,C190,C192,C194,C196,C198,C202,C204,C206,C208,C210,C215,C217,C219,C223,C225,C227,C228,C230,C232,C239,C240,C242,C245,C250,C253,C254,C257,C259,C261,C264,C266,C268,C270,C272,C274,C275,C277,C279,C286,C287,C290,C292,C294,C300,C302,C304,C305,C307,C310,C312,C314,C316,C318,C320,C343,C344,C394,C396

100NF-0603SMT Panasonic ECJ-1VF1C104Z CAP .1UF 16V CERAMIC Y5V 0603

8 21 C17,C25,C27,C29,C43,C45,C47,C61,C79,C101,C154,C155,C161,C172,C237,C246,C255,C283,C296,C327,C341

22UF-16V-TANTBSMT Kemet T491B226M016AT

9 27 C18,C26,C28,C30,C44,C46,C48,C62,C80,C100,C168,C173,C191,C200,C203,C212,C229,C235,C238,C247,C256,C276,C281,C284,C297,C328,C342

1UF-16V-0805SMT Panasonic ECJ-2FB1C105K CAP 1UF 16V CERAMIC 0805 X5R

10 113 C20,C22,C32,C34,C36,C38,C40,C42,C50,C52,C54,C56,C58,C60,C64,C66,C68,C85,C86,C87,C88,C89,C90,C91,C92,C93,C94,C95,C96,C97,C98,C103,C110,C112,C114,C116,C127,C134,C146,C147,C170,C177,C179,C181,C182,C183,C184,C195,C197,C207,C209,C214,C216,C218,C222,C224,C226,C236,C241,C243,C244,C248,C249,C251,C252,C258,C260,C262,C263,C265,C267,C269,C271,C273,C285,C288,C289,C291,C293,C295,C298,C299,C301,C303,C306,C308,C309,C311,C313,C315,C317,C319,C321,C322,C323,C324,C325,C326,C329,C330,C331,C332,C333,C334,C335,C336,C337,C338,C339,C340,C345,C392,C393

10NF-0603SMT Kemet C0603C103K5RACTU CAP .01UF 50V CERAMIC X7R 0603

11 1 C23 2200PF-0402SMT AVX 0402YC223KAT2A CAP CERM .022UF 10% 16V X7R 0402

12 1 C24 100NF-0402SMT Yageo 04022F104Z7B20D CAP .10UF 16V CERAMIC Y5V 0402

Alt: CC0402ZRY5V7BB104

13 19 C120,C121,C122,C123,C124,C125,C126,C128,C150,C152,C159,C160,C165,C166,C185,C186,C187,C188,C189

10NF-0402SMT Panasonic ECJ0EB1E103K CAP .01UF 25V CERAMIC X7R 0402

14 8 C138,C139,C140,C141,C142,C143,C144,C145

100NFX5R-0402SMT Kemet C0402C104K8PACTU CAP .10UF 10V CERAMIC X5R 0402

15 1 C151 100PF-0402SMT AVX 04026C101KAT2A CAP CER 100PF 6.3V X7R 0402

Alt: ECJ-0EB1E101K

16 2 C158,C164 33NF-0402SMT AVX 0402YD333KAT2A CAP CERM .033UF 10% 16V X5R 0402

17 5 C167,C193,C205,C231,C278 47UF-10V-TANTBSMT Kemet B45196H2476K209 CAP TANTALUM 47UF 10V 10% SMD

18 1 C174 220NF-0603SMT AVX 06036C224KAT2A CAP CER .22UF 6.3V X7R 0603

Alt: 0603ZC224KAT2A

19 46 C346,C347,C348,C349,C350,C351,C352,C353,C354,C355,C356,C357,C358,C359,C360,C361,C362,C363,C364,C365,C366,C367,C368,C369,C370,C371,C372,C373,C374,C375,C376,C377,C378,C379,C380,C381,C382,C383,C384,C385,C386,C387,C388,C389,C390,C391

1000PF-0402SMT Panasonic ECJ-0EB1E102K CAP 1000PF 25V CERAMIC X7R 0402

20 2 DP1,DP2 DIFFTESTPOINT

21 11 D1,D2,D3,D4,D5,D6,D7,D11,D12,D25,D26 LED-SMT1206_GREEN Panasonic LNJ316C83RA LED GREEN (UP) W/LENS 1206

42


22 5 D8,D9,D10,D21,D22 LED-SMT1206_RED Panasonic LNJ211R82RA LED RED (UP) W/LENS 1206

23 6 D13,D14,D15,D16,D17,D19 AMBER_LED Lite-On LTST-C190AKT LED AMBER CLEAR 0603 SMD

24 1 D18 GREEN_LED Lite-On LTST-C190GKT LED GREEN CLEAR 0603 SMD

25 1 D20 LTP-587HR/16-SEGMENT Lite-On LTP-587HR 16-segment array

26 2 D23,D24 LED-SMT1206_YELLOW Panasonic LNJ411K84RA LED YELLOW (UP) W/LENS 1206

27 2 D27,D28 LED-SMT1206_BLUE Panasonic LNJ916C8BRA LED BLUE (UP) W/LENS 1206

28 6 FB1,FB2,FB3,FB7,FB8,FB9 BLM41PG600SN1(NOB)

29 13 FB4,FB5,FB6,FB10,FB11,FB12,FB13,FB14,FB15,FB16,,FB18,FB19,FB20,

BLM41PG600SN1 Murata BLM41PG600SN1L FERRITE CHIP 60 OHM 6000MA 1806

30 2 F1, F3 F1251CT-ND Littlefuse þ FUSEBLOCK WITH 10A FUSE SMD

31 5 F2,F4,F5,F6,F7 F1228CT-ND Littlefuse 0154005.DR FUSEBLOCK WITH 5A FUSE SMD

32 1 J1 22HP037-2.1mm Condor 22HP037A power input

33 4 J2,J3,J10,J11 HEADER 2 Samtec TSW-102-07-T-S 2x1-0.25 Header

34 1 J4 ( SEE ECN FOR Placement ) HEADER 17X2 Samtec TSW-117-07-T-D 17x2-0.25 Header

35 2 J5,J6 HEADER 3 Samtec TSW-103-07-T-S 3x1-0.25 Header

36 2 J7,J8 HEADER 2X2 Samtec TSW-102-07-T-D 2x2-0.25 Header

37 2 J9,J12 HEADER 10 Samtec TSW-110-07-T-S 10x1-0.25 Header

38 16 J13,J14,J15,J16,J17,J18,J19,J20,J21,J22,J23,J24,J25,J26,J27,J28

Rosenberger 32K153-400E3 Rosenberger 32K153-400E3 TH- SMA connector

Alt 32K153-400L5

39 10 J29,J30,J31,J32,J33,J34,J35,J36,J38,J39 SMA Molex 73391-0060 CONN JACK SMA STR 50 OHM PCB

40 1 J37 RJ-45 Bel Fuse L-829-1J1T-43 Integrated RJ45 Connector

41 1 J40 HEADER 9X2 Samtec TSW-109-07-T-D 9x2-0.25 Header

42 1 LA1 2_767004 Amp 2-767004-2 CONN RECEPT 38POS .025 VERT SMD

43 7 LP1,LP2,LP3,LP4,LP5,LP6,LP7 5016 Keystone Electronics 5016 TEST POINT PC COMPACT SMT

44 2 L1,L2 75 OHM @ 100MHZ Murata BLM18BA750SN1D

45 2 MH1,MH2 MHOLE_1

46 3 MH3,MH4,MH5 M HOLE2

47 10 PP1,PP2,PP3,PP4,PP5,PP7,PP8,PP9,PP10,PP11

PROBEPOINT

48 1 Q1 NTMS4503 ON Semiconductor NTMS4503NR2G MOSFET N-CH 28V 14A 8-SOIC

49 6 Q2,Q3,Q4,Q5,Q6,Q7 2N2222/SOT23 Diodes Inc MMBT2222A-7 TRANS NPN 40V 350MW SMD SOT-23

50 1 RN1 EXBV8V472JV Panasonic EXBV8V472JV RES ARRAY 4.7K OHM 5% 4 RES SMD

51 2 RN2,RN3 EXB2HV151JV Panasonic EXB2HV151JV RES ARRAY 150 OHM 5% 8 RES SMD

52 1 RN4 EXB2HV472JV Panasonic EXB2HV472JV RES ARRAY 4.7K OHM 5% 8 RES SMD

53

54 1 RN6 EXB2HV471JV Panasonic EXB2HV471JV RES ARRAY 470 OHM 5% 8 RES SMD

55 4 RP1,RP2,RP3,RP4 CTS-RT1402B7 CTS Corporation Resistor/Electrocomponents

RT2402B7 RES NET DDR SDRAM 50 OHM 3X9 BGA

56 1 R1 470R-1206SMT Panasonic ERJ-8GEYJ471V RES 470 OHM 1/4W 5% 1206 SMD

57 4 R2,R12,R13,R14 100R-0805SMT Panasonic ERJ-6GEYJ101V RES 100 OHM 1/8W 5% 0805 SMD

58 20 R3,R4,R24,R25,R80,R207,R209,R211,R215,R217,R222,R227,R236,R237,R249,R254,R258,R259,R265,R266

0R-0603SMT Panasonic ERJ-3GEY0R00V RES ZERO OHM 1/10W 5% 0603 SMD

59 1 R6 1_13K-0603SMT Panasonic ERJ-3EKF1131V RES 1.13K OHM 1/10W 1% 0603 SMD

60 0 50R-0603SMT Vishay FC0603E50R0BTBT1 RES 50 OHM 125MW .1% 0603 SMD

61 2 R7,R8 OPEN-0805SMT

Table 27. Bill of Materials (Continued)Item Quantity Reference Part Manufacturer Part Number Description

43


62 47 R70,R71,R79,R85,R86,R103,R104,R116,R118,R121,R122,R125,R126,R127,R128,R129,R130,R131,R132,R133,R134,R135,R214,R220,R226,R250,R251,R267,R268,R270,R271,R272,R310.R311,R312,R315,R316,R317,R318,R319,R320,R321,R322,R323,R324,R325,R326

OPEN-0603SMT

63 1 R10 12_1K-0603SMT Susumu Co Ltd RG1608P-1212-B-T5 RES 12.1K OHM 1/10W .1% 0603 SMD

64 4 R11,R19,R37,R43 2K-0603SMT Panasonic ERJ-3EKF2001V RES 2.00K OHM 1/10W 1% 0603 SMD

65 1 R15 806R-0603SMT Panasonic ERJ-3EKF8060V RES 806 OHM 1/10W 1% 0603 SMD

66 0 R16 49_9R-0603SMT Yageo RC0603FR-0749R9L RES 49.9 OHM 1/10W 1% 0603 SMD

Alt: RC0603FR-0749R9L

67 5 R34,R77,R78,R233,R234 100R-0603SMT Panasonic ERA-3YEB101V RES 100 OHM 1/16W .1% 0603 SMD

68 0 R18 66_5R-0603SMT Vishay CRCW060366R5FKEA RES 66.5 OHM 1/10W 1% 0603 SMD

69 21 R9,R21,R22,R23,R52,R57,R58,R59,R60,R61,R62,R63,R64,R65,R66,R68,R73,R75,R76,R81,R314

10K-0603SMT Panasonic ERJ-3GEYJ103V RES 10K OHM 1/10W 5% 0603 SMD

70 1 R26 200R-0402SMT Panasonic ERJ-2RKF2000X RES 200 OHM 1/16W 1% 0402 SMD

71 17 R27,R28,R29,R30,R31,R32,R33,R36,R39,R42,R44,R46,R49,R51,R140,R142,R147

10K-0402SMT Panasonic ERJ-2RKF1002X RES 10.0K OHM 1/16W 1% 0402 SMD

72 6 R35,R38,R41,R45,R48,R50 330R-0402SMT Panasonic ERJ-2GEJ331X RES 330 OHM 1/16W 5% 0402 SMD

73 19 R5,R18,R16,R17,R40,R47,R83,R84,R212,R216,R219,R223,R224,R228,R229,R246,R247,R252,R253

1K-0603SMT Panasonic ERJ-3EKF1001V RES 1.00K OHM 1/16W 1% 0603 SMD

74 3 R53,R54,R55 680R-0603SMT Panasonic ERJ-3GEYJ681V RES 680 OHM 1/10W 5% 0603 SMD

75 6 R56,R74,R162,R166,R173,R177 220R-0603SMT Panasonic ERJ-3GEYJ221V RES 220 OHM 1/10W 5% 0603 SMD

76 7 R67,R69,R72,R206,R208,R210,R218 4_7K-0603SMT Panasonic ERJ-3GEYJ472V RES 4.7K OHM 1/10W 5% 0603 SMD

77 1 R82 2_2K-0603SMT Panasonic ERJ-3GEYJ222V RES 2.2K OHM 1/10W 5% 0603 SMD

78 10 R87,R88,R101,R102,R105,R109,R115,R119,R261,R262

130R-0603SMT Panasonic ERA-3YEB131V RES 130 OHM 1/16W .1% 0603 SMD

79 6 R89,R90,R108,R110,R230,R231 51R-0603SMT Panasonic ERJ-3GEYJ510V RES 51 OHM 1/10W 5% 0603 SMD

80 7 R91,R92,R96,R97,R138,R139,R232 150R-0603SMT Panasonic ERA-3YEB151V RES 150 OHM 1/16W .1% 0603 SMD

81 10 R93,R94,R106,R107,R111,R112,R123,R124,R263,R264

82R-0603SMT Yageo RC0603FR-0782RL RES 82.0 OHM 1/10W 1% 0603 SMD

Alt: RC0603FR-0782RL

82 2 R95,R114 1_62K-0603SMT Panasonic ERJ-3EKF1621V RES 1.62K OHM 1/10W 1% 0603 SMD



85 3 R100,R113,R260 1_6R-0603SMT Panasonic ERJ-3GEYJ1R6V RESISTOR 1.6 OHM 1/10W 5% 0603

86 2 R141,R148 130R-0402SMT Panasonic ERJ-2RKF1300X RES 130 OHM 1/16W 1% 0402 SMD

87 1 R143 160R-0402SMT Panasonic ERJ-2RKF1600X RES 160 OHM 1/16W 1% 0402 SMD

88 1 R144 12K-0402SMT Rohm MCR01MZPF1202 RES 12.0K OHM 1/16W 1% 0402 SMD

89 2 R145,R149 82R-0402SMT Panasonic ERJ-2RKF82R0X RES 82 OHM 1/16W 1% 0402 SMD

Alt: CRCW040282R0FKED

90 1 R146 OPEN-0402SMT

91 3 R150,R151,R154 750R-0402SMT Panasonic ERJ-2RKF7500X RES 750 OHM 1/16W 1% 0402 SMD

92 8 R152,R153,R156,R157,R158,R159,R160,R161

150R-0402SMT Panasonic ERJ-2RKF1500X RES 150 OHM 1/16W 1% 0402 SMD

93 5 R155,R204,R205,R300,R301 4_7K-0402SMT Panasonic ERJ-2RKF4701X RES 4.70K OHM 1/16.0W 1% 0402 SM


44


94 2 R163,R164 220R-0402SMT Panasonic ERJ-2RKF2200X RES 220 OHM 1/16W 1% 0402 SMD

95 25 R165,R167,R168,R169,R170,R171,R172,R174,R175,R176,R178,R179,R180,R181,R182,R183,R184,R185,R186,R188,R189,R190,R191,R201,R202

33R-0402SMT Panasonic ERJ-2GEJ330X RES 33 OHM 1/16W 5% 0402 SMD

96 1 R187 1_5K-0402SMT Panasonic ERJ-2RKF1501X RES 1.50K OHM 1/16W 1% 0402 SMD

97 1 R192 5K-0402SMT Panasonic ERJ-2RKF5001X RES 5K OHM 1/16W 1% 0402 SMD

Alt: ERJ-2RKF4991X

98 8 R193,R194,R195,R196,R197,R198,R199,R200

49_9R-0402SMT Panasonic ERJ-2RKF49R9X RES 49.9 OHM 1/16W 1% 0402 SMD

99 5 R136,R137,R203,R235 22R-0603SMT Yageo RC0603FR-0722RL RES 22.0 OHM 1/10W 1% 0603 SMD

100 5 R213,R221,R225,R248,R255 1K_ADJ/SMT3MM BC Components ST3A102CT POT 1K 3MM CERM SQ S/T SMD

101

102 2 R256,R257 100R-0402SMT Panasonic ERJ-2GEJ101X RES 100 OHM 1/16W 5% 0402 SMD

103 24 SP1,SP2,SP3,SP4,SP5,SP6,SP7,SP8,SP9,SP10,SP11,SP12,SP13,SP14,SP15,SP16,SP17,SP18,SP19,SP20,SP21,SP22,SP23,SP24

TEST POINT

104 2 SW1,SW3 SW PUSHBUTTON-SPST C&K Components EP11FPD SPST- Momentary RA SMT

105 1 SW2 SW DIP-3 CTS 194-3MST CTS Corporation Resistor/Electrocomponents

194-3MST SWITCH SIDE ACTUATED GOLD 3 SEC

106 3 SW4,SW5,SW6 EVQ-P2H02B Panasonic EVQ-P2H02B SWITCH LT 4.7MMX3.5MM 250GF SMD

107 7 SW7,SW8,SW9,SW10,SW11,SW12,SW13 TDA DIP-8 ITT TDA08H0SK1 SWITCH DIP 8POS HALF PITCH SMT

108 1 SW14 SW DIP-8/SM C&K Components BPA08SB 8-POSITION DIP PACK

109 1 TB1 Terminal Block/ED1202DS On-Shore Tech. ED120/2DS TERMINAL BLOCK 5.08MM VERT 2POS

110 38 TP1,TP2,TP3,TP4,TP5,TP6,TP7,TP8,TP9,TP10,TP11,TP12,TP13,TP14,TP15,TP16,TP17,TP18,TP19,TP20,TP21,TP22,TP23,TP24,TP25,TP26,TP27,TP28,TP29,TP30,TP31,TP32,TP33,TP34,TP35,TP36,TP37,TP38

TestPoint

111 1 U1 LFE3-95E-#FN1156CES LATTICE SUPPLIED

112 1 U4 PTH12060W Texas Instruments PTH12060WAH TH MODULE PIP 12VIN 10A ADJ 10-TH

113 4 U3,U5,U6,U7 SC1592 Semtech SC1592IMTRT IC LDO ADJ REG 3A TO-263-7

114 1 U8 24AA1025-ISM Microchip Technology 24AA1025-I/SM IC SRL EEPROM 1024K 1.8V 8SOIC

115 1 U9 MAX6692 Maxim MAX6692MSA IC TEMP SENSING I2C

116 1 U10 POWR1220AT8 LATTICE SUPPLIED

117 1 U11 M25P64-FLASH Macronix MX25L6405MC20G IC SRL FLASH 64MBIT 3V 16-SOP Wide(300MIL)

118 1 U12 MAX6817 Maxim MAX6817-EUT+T ±15kV ESD-Protected, Dual, CMOS Switch Debouncers

119 2 U13,U15 NC7WZ16-MACO6A/Fairchild TinyLogic

Fairchild NC7WZ16P6X IC BUFFER UHS DUAL SC70-6

120 1 U14 SN74LVC125A/SO14 Texas Instruments SN74LVC125AD IC QUAD BUS BUFFER GATE 14-SOIC

121 1 U16 S29GL064A Spansion S29GL064N90BFI040 48fBGA FLASH-VBN048

122 1 U17 LCMXO1200C-CSBGA132 LATTICE SUPPLIED

123 1 U18 MC100LVEL56 ON Semiconductor MC100LVEL56DW 3.3V ECL Dual Differential 2:1 Multiplexer

124 1 U19 CDC7005 Texas Instruments CDC7005-QFN Clock cleaner QFN package

125 1 U20 LT1963-ADJ Linear Tech LT1963ES8 IC REG LDO ADJ 1.5A LN 8SOIC

126 1 U21 88e1111 Marvell 88e1111-Bx-BAB-C000(Bx indicates any revision code)

single-port Gigabit Ether-net(117TFBGA)

127 4 U22,U23,U24,U26 LP2996-SO8 National Semi LP2996M IC DDR TERMINATION REG 8SOIC

130 1 U28 CY2304-1 Cypress Semiconductor CY2304SC-1 zero delay buffer

131 1 VCXO1 TCO-2111 Epson-Toyocom TCO2111-245.76MHZ VCXO 13.9x9.8mm SMT

Alt: TCO-2111T 245.7600MHZ:RO


45


132 1 Y1 CW-P423-156.25MHZ Connor-Winfield CW-P423F-156.25MHZ 5x7.5mm SMT Oscillator 156.25MHz

133 1 Y2 CW-P423-125.00MHZ Connor-Winfield CW-P423F-125.0MHZ 5x7.5mm SMT Oscillator 1525.0MHz

134 1 Y3 25MHz Epson Toyocom Corporation SG-636PCE 25.0000MC0:ROHS OSCILLATOR 25.0000MHZ SMD 10.5mm x 5.8mm

135 1 Y4 CTS-CB3LV-3C-100.00MHZ-50ppm

CTS-Frequency Controls CB3LV-3C-100M0000-T OSC CLOCK 100.000 MHZ 3.3V SMD

136 DNP Y5 5x7.5mm SMT Oscillator

137 1 U2 PTH12060L Texas Instruments PTH12060LAH TH MODULE PIP 12VIN 10A ADJ 10-TH(0.8v-1.8v)

138 2 D29,D30 MMBZ5221BLT1 On-Semi MMBZ5221BLT1 Zener Voltage Regulators 225 mW SOT?23 Surface Mount

139 0 Q20 MMBT3906 Diodes Inc MMBT3906-7-F TRANS PNP 40V 300MW SMD SOT23

140 1 R20 464R-0603SMT Panasonic ERJ-3EKF4640V RES 464 OHM 1/10W 1% 0603 SMD

141 A/R Socket ISI HLS-341156-B-10

142 1 R269 ERJ-3EKF4531V Panasonic ERJ-3EKF4531V

143 0 FB17 , FB21 CRCW12100000ZSTA Vishay

144 2 R327,R328 0R-2010SMT Vishay/Dale CRCW20100000Z0EF RES 0.0 OHM1/2W 5% 2010 SMD

145 1 J42 HEADER2X5 Samtec TSW-105-07-T-D 5x2-0.25 Header

146 1 U29 MAX3232 Texas Instruments MAX3232IPWR IC DRVR/RCVR MLTCH RS232 16TSSOP

147 4 C397, C398, C399, C400 100NFX5R-0402SMT Kemet C0402C104K8PACTU CAP .10UF 10V CERAMIC X5R 0402

148 1 U30 FT232 Future Technology DevicesInternational Ltd

FTDI_FT232RL USB Serial Converter SSOP28

149 1 C402 1UF-16V-0805SMT Panasonic ECJ-2FB1C105K CAP 1UF 16V CERAMIC 0805 X5R

150 2 C403,C407 10NF-0603SMT Kemet C0603C103K5RACTU CAP .01UF 50V CERAMIC X7R 0603

151 2 C404, C405 100NF-0603SMT Panasonic ECJ-1VF1C104Z CAP .1UF 16V CERAMIC Y5V 0603

152 1 R331 10K-0603SMT Panasonic ERJ-3GEYJ103V RES 10K OHM 1/10W 5% 0603 SMD

153 1 J43 USB MINI AB MOLEX MOLEX_56579-0576

154 1 L3 INDUCTOR Panasonic Inductor 1uH 10% 230mA 1210 (Digikey PCD1008CT-ND)

ELJ-FA1R0KF2

155 2 TP39, TP40 TestPoint

156 1 J45 SMA Molex 73391-0060 CONN JACK SMA STR 50 OHM PCB

157 1 R337 50R-0603SMT Vishay FC0603E50R0BTBT1 RES 50 OHM 125MW .1% 0603 SMD

158 2 C406, C408 1K-0603 Kemet C0603C103K5RACTU CAP .01UF 50V CERAMIC X7R 0603

159 1 C401 100NF-0603SMT Panasonic ECJ-1VF1C104Z CAP .1UF 16V CERAMIC Y5V 0603

160 2 SP25, SP26 TestPoint

161 1 DP3 DIFFTESTPOINT

162 2 D31, D32 GREEN_LED Lite-On LTST-C190GKT

163 2 R329, R330 330R-0402SMT Panasonic ERJ-2GEJ331X RES 330 OHM 1/16W 5% 0402 SMD

164 1 J41 HEADER3X2 Samtec TSW-103-07-T-D 3x2-0.25 Header

165 1 J44 HEADER 2 Samtec TSW-102-07-T-S 2x1-0.25 Header

166 4 R353,R354,R355,R356 1K-0603SMT Panasonic ERJ-3EKF1001V RES 1.00K OHM 1/16W 1% 0603 SMD

167 2 R338, R339 62R-0603SMT Panasonic ERJ-3GEYJ620V RES 62 OHM 1/10W 5% 0603 SMD

168 3 R340,R341,R342 100R-0402SMT Panasonic ERJ-2GEJ101X RES 100 OHM 1/10W 5% 0402 SMD

169 4 R343,R344,R345,R347 100K-0402SMT Panasonic ERJ-2GEJ104X RES 100K OHM 1/10W 5% 0402 SMD

179 1 R346 10K-0603SMT Panasonic ERJ-2RKF1002X RES 10.0K OHM 1/16W 1% 0402 SMD


46


180 4 C418,C409,C411,C413 100NF-0603SMT Panasonic ECJ-1VF1C104Z CAP .1UF 16V CERAMIC Y5V 0603

181 5 C419,C427,C431,C220,C221 10NF-0402SMT Panasonic ECJ0EB1E103K CAP .01UF 25V CERAMIC X7R 0402

182 1 U31 SN74LV125 Texas Instruments SN74LVC125AD IC QUAD BUS BUFFER GATE 14-SOIC

183 3 C415,C416,C417 10PF-0402SMT Panasonic ECJ-0EC1H100D CAP 10PF 50V CERAMIC 0402 SMD

184 2 R350,R351 0R-0603SMT Panasonic ERJ-3GEY0R00V RES ZERO OHM 1/10W 5% 0603 SMD

185 1 J48 SMA Molex 73391-0060 CONN JACK SMA STR 50 OHM PCB

186 1 J47 HDR5 Samtec TSW-105-07-T-S 5x1-0.25 Header

187 3 D33,D34,D35 SCHOTTKY/VISHAYV12P10 Vishay V12P10-E3/87A TO277 SCHOTTKY DIODE

188 6 C420,C421,C422,C423,C425,C429 10UF-16V-TANTBSMT AVX TAJB106K016R CAP TANTALUM 10UF 16V 10% SMD

189 4 R357,R358,R359,R360 OPEN-0603SMT

190 3 R348,R349,R352,R373 50R-0603SMT Vishay FC0603E50R0BTBT1 RES 50 OHM 125MW .1% 0603 SMD

191 8 C424,C426,C428,C430,C438,C410,C412,C414

100NF-0603SMT Panasonic ECJ-1VF1C104Z CAP .1UF 16V CERAMIC Y5V 0603

192 6 R361,R362,R364,R365,R367,R368 50R-0402SMT Vishay FC0402E50R0BTBST1 RES 50 OHM 50MW .1% 0402 SMD

193 2 R363,R366 1_6R-0603SMT Panasonic ERJ-3GEYJ1R6V RESISTOR 1.6 OHM 1/10W 5% 0603

194 2 Y6,Y7 CRYSTEK_133MHZ Crystek CCLD-033-50-133.000 OSC LVDS 133.0 MHZ 3.3V 7mmx5mm SMD

195 2 R256,R257 50R-0402SMT Vishay FC0402E50R0BTBST1 RES 50 OHM 50MW .1% 0402 SMD

196 1 R269 Do Not Populate

197 2 R300, R301 10K-0402SMT Panasonic ERJ-2RKF1002X RES 10.0K OHM 1/16W 1% 0402 SMD

198 1 R228 240R-0603SMT Panasonic ERA-3YEB241V RES 240 OHM 1/16W .1% 0603 SMD


Documents

EB44 - LatticeECP3 Serial Protocol Evaluation Board - Revision D