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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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
• 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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
F4 3.3V Fuse D4 3.3V Good Indicator
F5 1.8V Fuse D7 1.8V Good Indicator
F6 1.2V Analog Supply D2 1.2V VCCA Good Indicator
F7 2.5V Fuse D5 2.5V 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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
• 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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
J15 PCSB_HDINP1 AL16 J23 PCSB_HDOUTP1 AP16
J16 PCSB_HDINN1 AK16 J24 PCSB_HDOUTN1 AN16
J17 PCSB_HDINP2 AL15 J25 PCSB_HDOUTP2 AP15
J18 PCSB_HDINN2 AK15 J26 PCSB_HDOUTN2 AN15
J19 PCSB_HDINP3 AL14 J27 PCSB_HDOUTP3 AP14
J20 PCSB_HDINN3 AK14 J28 PCSB_HDOUTN3 AN14
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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_2 AP19 PERp1 A21Integrated end point block transmit pair
PCSA_HDOUTN_2 AN19 PERn1 A22
PCSA_HDINP_2 AL19 PETp1 B19Integrated end point block receive pair
PCSA_HDINN_2 AK19 PETn1 B20
PCSA_HDOUTP_1 AP20 PERp2 A25Integrated end point block transmit pair
PCSA_HDOUTN_1 AN20 PERn2 A26
PCSA_HDINP_1 AL20 PETp2 B23Integrated end point block receive pair
PCSA_HDINN_1 AK20 PETn2 B24
PCSA_HDOUTP_0 AP21 PERp3 A29Integrated End point block transmit pair
PCSA_HDOUTN_0 AN21 PERn3 A30
PCSA_HDINP_0 AL21 PETp3 B27Integrated End point block receive pair
PCSA_HDINN_0 AK21 PETn3 B28
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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.
21
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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.
26
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
Appendix A. SchematicFigure 20. Cover Page
5 5
4 4
3 3
2 2
1 1
DD
CC
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P3-
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Bethlehem, PA 18017
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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
Logic Analyzer
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)
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LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
Figure 21. Power Generation5 5
4 4
3 3
2 2
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Soc
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d F
use
+C
510
UF
-16V
-TA
NT
BS
MT
+C
510
UF
-16V
-TA
NT
BS
MT
R16
1K-0
603S
MT
R16
1K-0
603S
MT
TP
4
Tes
tPoi
nt
TP
4
Tes
tPoi
nt1
TP
1
Tes
tPoi
nt
TP
1
Tes
tPoi
nt1
R31
2O
PE
N-0
603S
MT
R31
2O
PE
N-0
603S
MT
LP7 50
16
LP7 50
16
11
R27
2O
PE
N-0
603S
MT
R27
2O
PE
N-0
603S
MT
F6
F12
28C
T-N
D5A
Fas
t-B
lo S
MT
Soc
kete
d F
use
F6
F12
28C
T-N
D5A
Fas
t-B
lo S
MT
Soc
kete
d F
use
R27
0O
PE
N-0
603S
MT
R27
0O
PE
N-0
603S
MT
R15
806R
-060
3SM
T
R15
806R
-060
3SM
T
J1
22H
P03
7-2.
1mm
Mal
e P
ower
Jac
k 2.
1mm
J1
22H
P03
7-2.
1mm
Mal
e P
ower
Jac
k 2.
1mm
13
2
U7 SC
1592
U7 SC
1592
ILIM
1
IN2
CN
TL
3
GN
D4
OU
T5
SE
NS
E6
EN
7
TA
B8
F1
F12
51C
T-N
D10
A F
ast-
Blo
SM
T S
ocke
ted
Fus
e
F1
F12
51C
T-N
D10
A F
ast-
Blo
SM
T S
ocke
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
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CF
LAS
H_R
ES
ET
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LAS
H_O
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FLA
SH
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m
FLA
SH
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m
FLA
SH
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FLA
SH
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TE
n
PR
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FP
GA
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PG
A_1
FP
GA
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PG
A_3
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GA
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PG
A_5
FP
GA
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PG
A_7
FP
GA
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PG
A_9
FP
GA
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FP
GA
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FP
GA
_12
FP
GA
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FP
GA
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FP
GA
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FP
GA
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N
CF
G1
CF
G2
CF
G0
FP
GA
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NF
PG
A_C
S1N
FP
GA
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FP
GA
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FP
GA
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FP
GA
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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
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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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
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t 26,
200
9
Titl
e
Siz
eP
roje
ctR
ev
Dat
e:S
heet
of
1605 Valley Center Parkway
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
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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
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NF
12
FLA
SH
_DQ
_9F
13F
LAS
H_D
Q_1
0F
14
FP
GA
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TA
_0G
1
FLA
SH
_DQ
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3F
LAS
H_D
Q_1
G13
FLA
SH
_DQ
_12
G14
FLA
SH
_DQ
_4H
1
FP
GA
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OG
RA
MN
H2
GP
IO16
H12
GP
IO17
H13
FP
GA
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1NH
14
FLA
SH
_DQ
_5J1
TS
ALL
J2
FP
GA
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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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
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B
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2424
2525
2626
2727
2828
2929
3030
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3232
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3535
3636
3737
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26
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38
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
Figure 32. VSS/Decoupling5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
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C_C
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ALL CAPS PLACED UNDER BGA
C36
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GN
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3
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14
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DU
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DT
16
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DT
23
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4
GN
DA
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DA
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GN
DT
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DA
34
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18
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DR
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32
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EC
P3-
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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
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NC237AP12
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C35
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39
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
1605 Valley Center Parkway
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
1605 Valley Center Parkway
Bethlehem, PA 18017
EC
P3
SP
B E
val B
oard
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c.
C
1717
Wed
nesd
ay, A
ugus
t 26,
200
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e
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eP
roje
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heet
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1605 Valley Center Parkway
Bethlehem, PA 18017
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P3
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B E
val B
oard
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c.
C
1717
Wed
nesd
ay, A
ugus
t 26,
200
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Titl
e
Siz
eP
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ctR
ev
Dat
e:S
heet
of
1605 Valley Center Parkway
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
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RS232
C39
810
0NF
X5R
-040
2SM
T04
02
C39
810
0NF
X5R
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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
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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
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9
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T12
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EE
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ED
D31
GR
EE
N_L
ED
12
C40
010
0NF
X5R
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T04
02
C40
010
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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#
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D7
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_18
DS
R#
9
DC
D#
10
CT
S#
11
SLE
EP
#12
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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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
83 2 R98,R117 3_4K-0603SMT Panasonic ERJ-3EKF3401V RES 3.4K OHM 1/10W 1% 0603 SMD
84 2 R99,R120 2_8K-0603SMT Panasonic ERJ-3EKF2801V RES 2.8K 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
Table 27. Bill of Materials (Continued)Item Quantity Reference Part Manufacturer Part Number Description
44
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
Table 27. Bill of Materials (Continued)Item Quantity Reference Part Manufacturer Part Number Description
45
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
Table 27. Bill of Materials (Continued)Item Quantity Reference Part Manufacturer Part Number Description
46
LatticeECP3 Serial Protocol Board – Revision DLattice Semiconductor User’s Guide
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
Table 27. Bill of Materials (Continued)Item Quantity Reference Part Manufacturer Part Number Description