EB62 - LatticeECP3 Versa Evaluation Board User's Guide
EB62 - LatticeECP3 Versa Evaluation Board User's Guide
EB62 - LatticeECP3 Versa Evaluation Board User's Guide
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�<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
�<br />
User’s <strong>Guide</strong><br />
August 2012<br />
Revision: <strong>EB62</strong>_01.5
Introduction<br />
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
The <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> allows designers to investigate and experiment with the features of the<br />
<strong>LatticeECP3</strong> Field-Programmable Gate Array. The features of the <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> can assist<br />
engineers with rapid prototyping and testing of their specific designs. The <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> is<br />
part of the <strong>LatticeECP3</strong> <strong>Versa</strong> Development Kit. The guide is intended to be referenced in conjunction with demo<br />
user’s guides to demonstrate the <strong>LatticeECP3</strong> FPGA.<br />
Figure 1. <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong>, Top Side<br />
User<br />
Switches<br />
Status LEDs<br />
USB<br />
Programming<br />
J3 – JTAG<br />
Interface<br />
10/100/1000<br />
RJ-45<br />
Connections<br />
Features<br />
GSRn &<br />
PROGRAMn<br />
Push-buttons<br />
LED<br />
Display<br />
PCI Express x1<br />
SERDES Test<br />
SMA Connectors<br />
DDR3<br />
Memory<br />
On-<strong>Board</strong><br />
Clock<br />
Management<br />
SPI Flash<br />
Configuration<br />
Memory<br />
Half-length PCI Express form-factor<br />
– Allows demonstration of PCI Express x1 interconnection<br />
Electrical testing of one full-duplex SERDES channel via SMA connections<br />
USB-B connection for UART and device programming<br />
Two RJ45 interfaces to 10/100/1000 Ethernet to GMII<br />
On-board Boot Flash<br />
– 64M Serial SPI Flash<br />
DDR3-1333 memory components (64Mb/x16)<br />
Expansion mezzanine interconnection for prototyping<br />
14-segment alpha-numeric display<br />
Switches, LEDs and displays for demo purposes<br />
ispVM programming support<br />
On-board reference clock sources<br />
Expansion Connectors<br />
12V DC<br />
Power Input<br />
J13 – JTAG<br />
Interface
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
The contents of this user’s guide include top-level functional descriptions of the various portions of the evaluation<br />
board, descriptions of the on-board connectors, diodes and switches and a complete set of schematics.<br />
Caution: The <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> contains ESD-sensitive components. ESD safe practices<br />
should be followed while handling and using the evaluation board.<br />
<strong>LatticeECP3</strong> Device<br />
This board features a <strong>LatticeECP3</strong> FPGA with a 1.2V core supply. It can accommodate all pin-compatible<br />
<strong>LatticeECP3</strong> devices in the 484-ball fpBGA (1mm pitch) package. A complete description of this device can be<br />
found in the <strong>LatticeECP3</strong> Family Data Sheet.<br />
Note: The connections referenced in this document refer to the LFE3-35EA-8FN484C device.<br />
Applying Power to the <strong>Board</strong><br />
The <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> is ready to power on. The board can be supplied with power from a PCI<br />
Express host system or standalone with an external wall power module.<br />
The 12V DC input power source is fused with a surface mounted fuse, as noted in Table 1.<br />
Table 1. <strong>Board</strong> Power Supply Fuses – (See Appendix B, Figure 12)<br />
Fuse Designator Description<br />
F1 12V Input Supply Fuse<br />
The board may be plugged into a host PC. Only plug the board into a PCI Express slot when the system is powered<br />
off. Once inserted, the PC can be safely powered on.<br />
Using the evaluation board outside of a PC chassis supply requires the factory-supplied wall supply module. Use of<br />
other supplies is not suggested. GME Technology’s GFP181DA-1215B-1 (or equivalent) is provided with the<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> Development Kit.<br />
Figure 2. Power Distribution Scheme – (See Appendix B, Figure 12)<br />
12_0V<br />
(5A fused)<br />
Power Status LED D13<br />
SW<br />
EN<br />
SW<br />
SW<br />
EN<br />
SW<br />
Programming/FPGA Configuration<br />
EN<br />
LDO SERDES 1_2V, +1.2V, 1A, Power Status LED D12<br />
2_5V, +2.5V, 1.1 A, Power Status LED D31<br />
3_3V, +3.3V, 1.35 A, Power Status LED D9<br />
1_5V, +1.5V, 1.1 A, Power Status LED D11<br />
VCC_CORE, +1.2V, 1.35 A, Power Status LED D10<br />
The <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> has a built-in download controller for programming the <strong>LatticeECP3</strong><br />
FPGA. The built-in module consists of a USB Type-B connector and a USB UART device. To use the built-in download<br />
cable, simply connect a standard USB cable (a USB-B to USB-A cable is included with the <strong>LatticeECP3</strong> <strong>Versa</strong><br />
Development Kit) from J2 to your PC (with ispVM System software installed). The USB hub on the PC will detect<br />
the addition of the USB function, making the built-in cable available for use with the ispVM System software. The<br />
USB cable is connected in parallel to J3.
Alternate ispVM Download Interface<br />
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User’s <strong>Guide</strong><br />
J3 is a 1x10 100mil header that is provided for use with an external Lattice download cable (available separately).<br />
A USB download cable can be attached to the board using J3 to interface with the FPGA (U1).<br />
A separate header is provided to interface to a download cable for the ispClock5406A clock device (U13). U13 is<br />
not interfaced to the built-in download interface. U13 is factory-programmed for use with the reference designs and<br />
should only be altered for customized designs.<br />
A 10-pin JTAG connector is used in conjunction with the ispVM USB download cable to program and control the<br />
device. A separate 10-pin header (J14) is provided for programming U13.<br />
Table 2. ispVM JTAG Connector Pinout (J3 and J14) – (See Appendix B, Figure 5)<br />
ispVM Requirements<br />
Pin Function Color<br />
1 PWR Red<br />
2 TDO Brown<br />
3 TDI Orange<br />
4 N/C —<br />
5 N/C —<br />
6 TMS Purple<br />
7 GND Black<br />
8 TCK White<br />
9 N/C —<br />
10 N/C —<br />
Note: An ispDOWNLOAD cable is included with Lattice Diamond ® design software. This cable is not needed for<br />
the typical use of this board since it includes the built-in download module and only requires the USB cable<br />
included with the board. Standalone ispVM download cables may be purchased separately from Lattice.<br />
After initial board setup, use the following procedure to program the board. Instructions assume that ispVM software<br />
has been installed on a local PC.<br />
Requirements:<br />
PC with ispVM System 18.0 (or later) programming software, installed with appropriate drivers (USB driver for<br />
USB cable, Windows 7/XP/2000/NT parallel port driver for ispDOWNLOAD cable).�<br />
Note: An option to install these drivers is included as part of the ispVM System setup.<br />
ispDOWNLOAD cable (pDS4102-DL2A, HW7265-DL3A, HW-USB-1A, etc.). Required only for alternative FPGA<br />
programming and ispClock5406A reprogramming.
<strong>Board</strong> Programming<br />
Configuration Status Indicators<br />
(see Appendix B, Figure 13)<br />
Figure 3. <strong>LatticeECP3</strong> Status LEDs and Push-button Controls<br />
The LEDs indicate the configuration status of the <strong>LatticeECP3</strong> FPGA.<br />
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
D17 (red) illuminated indicates that programming was aborted or reinitialized, driving the INITN output low.<br />
D20 (green) illuminated indicates the successful completion of configuration by releasing the open collector<br />
DONE output pin.<br />
D19 (red) illuminated indicates that PROGRAMN is low.<br />
D18 (red) illuminated indicates that GSRN is low.<br />
PROGRAMN and GSRN<br />
These push-button switches assert/de-assert the logic levels on PROGRAMN (SW2) and GSRN (SW1). Depressing<br />
the button drives a logic level “0” to the device.<br />
Programming Serial SPI Flash Memory<br />
A serial SPI (16-pin TSSOP, 64M) Flash memory device (U8) is on-board for non-volatile configuration memory<br />
storage. A STMicro M25P64VMF16 device is populated on-board.<br />
The Serial SPI Flash memory device can be configured easily via its JTAG port. This mode enables the FPGA to<br />
be programmed at power-up or assertion of PROGRAMN with a bitstream stored in the memory device.<br />
1. Connect the <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong>.<br />
2. In the dialog box, select SPI Flash Programming Mode in the Device Access Option pull-down menu.
Figure 4. Device Information Dialog Screen<br />
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
3. The SPI Serial Flash Device dialog box will open. In this box, select SPI Flash Erase, Program, Verify in the<br />
Operation pull-down menu.<br />
4. Select SPI Serial Flash in the Device Family pull-down menu, STMicro under the Vendor pull-down menu,<br />
SPI-M2564 under the Device pull-down menu, and 16-lead SOIC under the Package submenu.<br />
Figure 5. Select Device Dialog Box
Figure 6. Sample SPI Serial Flash Device Dialog Box<br />
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
5. Click OK in the SPI Serial Flash Device dialog box. Then click OK in the Select Device dialog box. You will<br />
return to the main configuration screen<br />
6. From the main programming window, select Go from the top toolbar. This will begin the SPI Serial Flash programming.<br />
On-<strong>Board</strong> Clock Capabilities<br />
(See Appendix B, Figure 19)<br />
The <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> allows for several clock source options. Some of these options are controlled<br />
via the ispClock5406A programmable clock manager device. The ispClock5406A enables the reference<br />
clock from the PCI Express interface to provide a reference clock to the SERDES. This is true only when the board<br />
is in a PCI Express host socket. When the board is not in a PCI Express host socket, the clock will be supplied by a<br />
156.25 MHz clock on-board oscillator. Both clock inputs can be fanned out to the dedicated SERDES reference<br />
inputs, FPGA inputs, and to the expansion connectors. The factory default programming only connects the<br />
SERDES reference clock inputs. Factory-defined demonstration designs will control and manage the clock.<br />
Figure 7. Clock Controller Scheme<br />
Clock Select<br />
PCI Express<br />
156.25 MHz<br />
On-board<br />
Oscillator<br />
FPGA<br />
Clock<br />
SERDES<br />
Reference<br />
Clock<br />
PCLKT0<br />
F11<br />
PCLKC0<br />
F12<br />
Expansion Interface<br />
Clock<br />
REFCLKP<br />
V12<br />
REFCLKN<br />
V11<br />
Factory Default<br />
Clock Programming<br />
SERDES Reference<br />
Clock Only
General Purpose Clock Source<br />
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
An on-board 100MHz LVDS oscillator is provided for general purpose use. This clock source is connected to differential<br />
inputs L5 and K6 and must be used as LVDS inputs to the FPGA. This pin pair also provides optimal interface<br />
to the FPGA PLL for customized use.<br />
The PCI Express add-in card specification requires add-in boards to include capabilities to tell the host of its presence.<br />
The <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> allows this optional connection via a board jumper. The factory<br />
default will have two jumpers installed as shown below for the PRSNT connection to the PCI Express host.<br />
Figure 8. PCI Express PRSNT Control Connection<br />
SERDES<br />
J4<br />
1 2<br />
3 4<br />
5 6<br />
PCI Express PRSNT<br />
Jumper Selector<br />
The <strong>LatticeECP3</strong> quad-based SERDES FPGA is utilized on the board for several purposes. The PCSA quad is provisioned<br />
to provide a single, full-duplex PCI Express channel. The high-speed signals are connected to the PCI<br />
Express edge connection.<br />
Table 3. PCI Express Channel Interconnections<br />
Table 4. SMA Test Interconnections<br />
FPGA Test Pins<br />
(see Appendix B, Figure 18)<br />
General Purpose DIP Switches<br />
PETp0 HDINP0 Y15<br />
PETn0 HDINN0 Y14<br />
PERp0 HDOUTP0 AB15<br />
PERn0 HDOUTN0 AB14<br />
J5 HDINP3 Y8<br />
J6 HDINN0 Y9<br />
J7 HDOUTP3 AB8<br />
J8 HDOUTN3 AB9<br />
General purpose FPGA pins are available for user applications. FPGA pins are connected to switch SW3, a SPST<br />
slide-actuated DIP switch. The switches are connected to logic level 0 when moved to the ON position. Switch position<br />
1 is indicated with a dot. These inputs are within a bank connected to 1.5V. The user must program these<br />
inputs to be the LVCMOS15 type in the design.
Figure 9. <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> LEDs and Switches<br />
The designated pins are connected according to Table 5.<br />
Table 5. FPGA Ball to DIP Switch Position<br />
General Purpose LEDs<br />
(See Appendix B, Figure 18)<br />
FPGA Ball<br />
Number<br />
9<br />
SW3 DIP Switch<br />
Position<br />
J7 1<br />
J6 2<br />
H2 3<br />
H3 4<br />
J3 5<br />
K3 6<br />
J2 7<br />
J1 8<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
The LEDs provided on the <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> are connected to general purpose FPGA I/Os.<br />
These LEDs provide status for user designs and must be included in the design. The LEDs illuminate when the<br />
FPGA output is driven LOW. Table 6 shows the LED and associated FPGA pins. These pins are within an I/O bank<br />
connected to 3.3V and the user should program these to be LVCMOS33 type outputs in the design.<br />
Table 6. LED Definitions<br />
LED<br />
Number<br />
FPGA Ball<br />
Number<br />
PCB<br />
Designator LED Color<br />
LED0 U19 D21 Green<br />
LED1 U18 D22 Green<br />
LED2 AA21 D24 Yellow<br />
LED3 Y20 D25 Yellow<br />
LED4 W19 D26 Red<br />
LED5 V19 D27 Red<br />
LED6 AA20 D29 Blue<br />
LED7 AB20 D28 Blue
Alpha-numeric LED Display<br />
(see Appendix A, Figure 18)<br />
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
A 14-segment alpha-numeric display is provided on the board (D23). These LED segments are connected to general-purpose<br />
FPGA I/Os. The LEDs must be included in the FPGA design. The LEDs illuminate when the FPGA<br />
output is driven LOW. Table 7 shows the LED and associated FPGA pins. These pins are within an I/O bank connected<br />
to 3.3V and the user should program these to be LVCMOS33 outputs in the design.<br />
Figure 10. 14-Segment Display<br />
Table 7. Alpha-numeric LED Definitions<br />
DDR3 Memory Device<br />
(see Appendix B, Figure 17)<br />
fpBGA Ball<br />
fpBGA Ball<br />
Display Number Display Number<br />
A V6 J AB3<br />
B U7 K AB4<br />
C Y6 L W4<br />
D Aa6 M Y5<br />
E U8 N AA4<br />
F T8 P AA5<br />
G R9 DP W5<br />
H T9<br />
The <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> is equipped with a SDRAM memory device (1.5V, 64Mb/x16, 96-ball<br />
FBGA, 667 MHz, DDR3-1333) such as the Micron MT41J64M16JT-15E:G device.<br />
The DDR3 memory includes a 16-bit wide memory controller interface.<br />
The board includes termination of data, address and command signals. It includes all power and external components<br />
needed to demonstrate the memory controller of the <strong>LatticeECP3</strong> device.<br />
A 100 MHz on-board clock oscillator is available to provide a DDR3 reference clock.
Table 8. DDR3 Memory Controller Interconnections<br />
NETNAME<br />
Ethernet Interfaces<br />
(see Appendix B, Figure 18)<br />
484 fpBGA<br />
Ball Number NETNAME<br />
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
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484 fpBGA<br />
Ball Number<br />
DQ0 E5 A0 C8<br />
DQ1 E4 A1 C7<br />
DQ2 D2 A2 B7<br />
DQ3 D1 A3 D8<br />
DQ4 C2 A4 F9<br />
DQ5 B2 A5 E9<br />
DQ6 G5 A6 A3<br />
DQ7 G4 A7 D7<br />
DQ8 G2 A8 A7<br />
DQ9 F1 A9 B8<br />
DQ10 H4 A10 C9<br />
DQ11 E2 A11 C10<br />
DQ12 J4 K_0 K4<br />
DQ13 B1 K_0# K5<br />
DQ14 C1 CAS# A4<br />
DQ15 G3 BA0 B4<br />
DQS0 F5 BA1 E6<br />
DQS0# F4 BA2 D5<br />
DQS1 H5 ODT E7<br />
DQS1# H6 CS0# C6<br />
CEO G8 WE# D6<br />
RAS# A6 VREF E1<br />
CLKP L5 DM0 E3<br />
CLKN K6 DM1 F3<br />
Two Marvell 88E1119R Gigabit Ethernet transceiver devices (U17) are included on the board. This physical layer<br />
device supports 1000BASE-T, 100BASE-TX, and 10BASE-T applications via a standard media interface to a dual<br />
RJ45 connection. The RJ45 connection includes network magnetics providing the proper signal conditioning, electro-magnetic<br />
interference suppression and signal isolation. This connector includes two LEDs and the board<br />
includes four status LEDs from the Marvell device. The LEDs are register-programmed and detailed descriptions<br />
are available in the Marvell device data sheet.<br />
Table 9. PHY Status Indicators<br />
LED Status Description<br />
RJ45 (Yellow) LED RX<br />
RJ45 (Yellow) LED TX<br />
Each Marvell 88E1119R device communicates via a GMII interface to the <strong>LatticeECP3</strong> device.
Table 10. FPGA GPIO to GMII Interfaces<br />
Signal PHY#1 PHY#2<br />
RSTN L3 R21<br />
MDIO L2 U16<br />
MDC: V4 Y18<br />
RXC L4 N19<br />
RX_ER M4 V20<br />
RX_DV M1 U15<br />
RX_D0 M5 AB17<br />
RX-D1 N1 AA17<br />
RX_D2 N6 R19<br />
RX_D3 P6 V21<br />
RX_D4 T2 T17<br />
RX_D5 R2 R18<br />
RX_D6 P5 W21<br />
RX_D7 P3 Y21<br />
TXC C12 M21<br />
TX_EN V3 V22<br />
TX_D0 V1 W22<br />
TX_D1 U1 R16<br />
TX_D2 R3 P17<br />
TX_D3 P1 Y22<br />
TX_D4 N5 T21<br />
TX_D5 N3 U22<br />
TX_D6 N4 P20<br />
TX_D7 N2 U20<br />
GTXCLK M2 M19<br />
CRS P4 P19<br />
COL R1 N18<br />
COMA R4 1<br />
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<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
T15 1<br />
125CLK T3 R17<br />
1. Each PHY device includes a header dedicated to the COMA connection to the device.<br />
The header is populated with a jumper that disables and places the PHY in a low power<br />
configuration. Headers J10 and J12 are used for this purpose. It is assigned to PHYs U9<br />
and U10, respectively.
Table 11. Expansion Connections<br />
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x3 Expansion Connector x4 Expansion Connector<br />
Pin Signal 484-Ball fpBGA Pin Signal 484-Ball fpBGA<br />
1 GND GND 1 HPE-RST# J20<br />
2 NC NC 2 GND GND<br />
3 2.5V 2.5V 3 IO0 B11<br />
4 IO29 D17 4 IO1 B12<br />
5 IO30 J22 5 IO2 A12<br />
6 IO31 K22 6 IO3 A13<br />
7 IO32 L18 7 IO4 E12<br />
8 IO33 L19 8 IO5 E13<br />
9 IO34 L22 9 IO6 C13<br />
10 IO35 M22 10 IO7 C14<br />
11 IO36 K18 11 IO8 D13<br />
12 IO37 K17 12 IO9 D14<br />
13 IO38 H22 13 IO10 A14<br />
14 IO39 H21 14 IO11 B14<br />
15 IO40 G22 15 IO12 F13<br />
16 IO41 G21 16 IO13 F14<br />
17 IO42 J18 17 IO14 A15<br />
18 IO43 J17 18 IO15 B15<br />
19 IO44 F22 19 GND GND<br />
20 IO45 E22 20 3.3V 3.3V<br />
21 5VIN 5VIN 21 IO16 C15<br />
22 GND GND 22 GND GND<br />
23 2.5V 2.5V 23 IO17 D15<br />
24 GND GND 24 GND GND<br />
25 3.3V 3.3V 25 IO18 G15<br />
26 GND GND 26 GND GND<br />
27 3.3V 3.3V 27 IO19 G14<br />
28 GND GND 28 IO20 A16<br />
29 OSC U13 PIN27 29 IO21 B16<br />
30 GND GND 30 GND GND<br />
31 CLKIN E15 31 IO22 F15<br />
32 GND GND 32 IO23 F16<br />
33 CLKOUT D12 33 IO24 A17<br />
34 GND GND 34 GND GND<br />
35 3.3V 3.3V 35 IO25 B18<br />
36 GND GND 36 IO26 A18<br />
37 3.3V 3.3V 37 IO27 A19<br />
38 GND GND 38 CARDSEL# J19<br />
39 3.3V 3.3V 39 IO28 D16<br />
40 GND GND 40 GND GND
References<br />
DS1021, <strong>LatticeECP3</strong> Family Data Sheet<br />
HB1009, <strong>LatticeECP3</strong> Family Handbook<br />
QS013, <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> Quick Start <strong>Guide</strong><br />
UG46, PCI Express Demos for the <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
UG45, DDR3 Demo for the <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
UG44, SERDES Eye/Backplane Demo for the <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
Ordering Information<br />
Description Ordering Part Number<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> LFE3-35EA-VERSA-EVN<br />
Technical Support Assistance<br />
Hotline: 1-800-LATTICE (North America)<br />
+1-503-268-8001 (Outside North America)<br />
e-mail: techsupport@latticesemi.com<br />
Internet: www.latticesemi.com<br />
Revision History<br />
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China RoHS Environment-Friendly<br />
Use Period (EFUP)<br />
Date Version Change Summary<br />
April 2011 01.0 Initial release.<br />
August 2011 01.1 Updated <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong>, Top Side diagram.<br />
Corrected ispVM System software version number in the ispVM<br />
Requirements text section.<br />
Corrected ispVM JTAG Connector Pinout table caption information.<br />
November 2011 01.2 Corrected error in the column headings of the Expansion Connections<br />
table.<br />
February 2012 01.3 Updated document with new corporate logo.<br />
February 2012 01.4 Expansion Connections table – Updated information for pins 31 and 33.<br />
August 2012 01.5 Added alternate Abracon part numbers for Discera oscillators in Bill of<br />
Materials.<br />
© 2012 Lattice Semiconductor Corp. All Lattice trademarks, registered trademarks, patents, and disclaimers are as<br />
listed at www.latticesemi.com/legal. All other brand or product names are trademarks or registered trademarks of<br />
their respective holders. The specifications and information herein are subject to change without notice.
Appendix A. Schematics<br />
Figure 11. Cover Page<br />
1<br />
2<br />
3<br />
4<br />
5<br />
Revision History:<br />
February 9, 2011 Rev A Final Design JPS<br />
February 24, 2011 Rev B JPS<br />
Power<br />
D D<br />
Designator U1 is the FPGA DUT.<br />
Expansion<br />
Port- 3.3V<br />
1.5V<br />
16-Bit<br />
Device<br />
Power<br />
Pins<br />
DDR3<br />
Bank 0 Bank 1<br />
C C<br />
Expansion<br />
Port-3.3V<br />
USER DIP<br />
SWITCH<br />
PLL<br />
Bank 2<br />
Bank 3<br />
ECP3<br />
FPGA<br />
Bank 7<br />
100.00M<br />
DIFF OSC<br />
Bank 6<br />
USER LEDS<br />
3.3V<br />
GMII<br />
PHY#2<br />
Bank 8<br />
SERDES<br />
3.3V<br />
GMII<br />
PHY#1<br />
15<br />
LED SEGMENT<br />
ARRAY<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
B B<br />
3.3V Programming<br />
SPI<br />
PCSA<br />
CLK5406<br />
PCSA<br />
RefClk<br />
PCIe X1<br />
CH#0<br />
REFERENCE<br />
CLOCKS<br />
PCIe RefClk<br />
SMA Test<br />
CH#3<br />
General Clk<br />
156.25M OSC<br />
Expansion Clk<br />
A A<br />
1605 Valley Center Parkway<br />
Bethlehem, PA 18017<br />
Title<br />
Cover Page<br />
Size Project Rev<br />
B<br />
B<br />
ECP3 VERSA Eval <strong>Board</strong><br />
Date: Monday, March 14, 2011<br />
Sheet 1 of 11<br />
1<br />
2<br />
3<br />
4<br />
5
Figure 12. Power<br />
5<br />
4<br />
3<br />
2<br />
1<br />
U1A<br />
VCC_CORE<br />
Voltage Regulators<br />
+1.2 v<br />
500 mA PCSA_VCCIB<br />
VOUT2 FB1<br />
C1 C2 C3 C4 C5 C6<br />
C8 C9<br />
2_5V<br />
2_5V<br />
BLM41PG600SN1<br />
+ C13<br />
C14<br />
C10<br />
C12<br />
3_3UF-10V-0805SMT<br />
3_3UF-10V-0805SMT<br />
10V<br />
10V<br />
15<br />
10<br />
EN<br />
EN2<br />
PCSA_VCCOB<br />
+1.2 v VOUT1<br />
4<br />
7<br />
3<br />
VOUT1 VOUT2<br />
6<br />
D 500 mA<br />
VOUT1_3 VOUT2_6<br />
D<br />
C16 R2<br />
+ C18<br />
C19<br />
VCCA<br />
R1<br />
0R-0603SMT<br />
0R-0603SMT<br />
1<br />
8 10NF-0402SMT<br />
16<br />
BYP1 BYP2<br />
9<br />
ADJ1<br />
ADJ2<br />
3_3V<br />
R3<br />
OPEN-0603SMT<br />
U2<br />
2.3v minimum input voltage<br />
C20 C21<br />
C24 C25 +<br />
LT3029EDE<br />
0.46 v drop at 500 mA max<br />
VCCA<br />
C28 C29 C31<br />
3_3V<br />
C30<br />
VCCPLL<br />
10uF,25V-1206SMT<br />
C32 C33<br />
C35<br />
6.3V<br />
0805<br />
12_0V<br />
3_3V U3<br />
3_3V<br />
+3.3 v<br />
LT3508EUF<br />
3.3V 1.35 A<br />
C38<br />
D1<br />
16V<br />
1N4448W<br />
D2<br />
+2.5v 2.5V<br />
220NF-0402SMT<br />
1N4448W<br />
1.2v/ms<br />
L1<br />
7<br />
12<br />
1.1 A<br />
C 2_5V<br />
4.7uH-SPD62R-472M<br />
BOOST1<br />
BOOST2<br />
3_3V<br />
C<br />
1.2v/ms<br />
8<br />
11<br />
SW1<br />
SW2<br />
C40<br />
C41<br />
1<br />
18<br />
C42<br />
22uF,6.3V-0805SMT<br />
FB1<br />
FB2<br />
22uF,6.3V-0805SMT<br />
RLP-133 22uF,6.3V-0805SMT<br />
D3<br />
2<br />
17<br />
RLP-133<br />
RLP-133<br />
DFLS220L<br />
TRACK/SS1<br />
TRACK/SS2<br />
24<br />
19<br />
VC1<br />
VC2<br />
R7<br />
23<br />
20<br />
R8<br />
21_5K-0402SMT<br />
PG1<br />
PG2<br />
35_7K-0402SMT<br />
1%<br />
22<br />
RT/SYNC<br />
Power Supply Block Diagram<br />
1%<br />
R12<br />
R13<br />
51K-0402SMT<br />
11_5K-0402SMT<br />
1%<br />
EN<br />
LDO SERDES 1_2V, +1.2 V, 1A<br />
Vout = 0.8*(R8/R13+1) = 3.28 v<br />
SW<br />
2_5V, +2.5V, 1.1 A<br />
12_0V Vout = 0.8*(R7/R9+1) = 2.52 v<br />
EN<br />
12_0V<br />
(5A fused)<br />
DDR3<br />
SW<br />
3_3V, +3.3 V, 1.35 A<br />
C51<br />
10uF,25V-1206SMT<br />
R14<br />
RLP-134<br />
51K-0402SMT<br />
1.5V Power<br />
3_3V U4<br />
3_3V<br />
+1.5v<br />
LT3508EUF<br />
1.1 A<br />
SW<br />
1_5V, +1.5 V, 1.1 A<br />
D5<br />
C53<br />
+1.2 v<br />
1.2v/ms<br />
Core Power<br />
1N4448W<br />
220NF-0402SMT<br />
EN<br />
16V<br />
B 1.35 A<br />
B<br />
7<br />
12<br />
L4<br />
1.2v/ms<br />
VCC_CORE<br />
BOOST1<br />
BOOST2<br />
4.7uH-SPD62R-472M 1_5V<br />
8<br />
11<br />
SW<br />
VCC_CORE, +1.2 V, 1.35 A<br />
SW1<br />
SW2<br />
C54<br />
C55<br />
1<br />
18<br />
C58<br />
22uF,6.3V-0805SMT<br />
FB1<br />
FB2<br />
22uF,6.3V-0805SMT<br />
R13 RLP-133 22uF,6.3V-0805SMT<br />
2<br />
17<br />
D8<br />
RLP-133<br />
GND<br />
RLP-133<br />
TRACK/SS1<br />
TRACK/SS2<br />
DFLS220L<br />
24<br />
19<br />
R15<br />
VC1<br />
VC2<br />
5_11K-0402SMT<br />
23<br />
20<br />
Data Sheet Version = 1.0<br />
1%<br />
DNI PG1<br />
PG2<br />
LFE3-35E-FN484CES<br />
22<br />
DNI<br />
RT/SYNC<br />
TP2<br />
TP4<br />
Vout = 0.8*(R15/R21+1) = 1.21 v<br />
R20<br />
20K-0402SMT<br />
C64<br />
1%<br />
R17<br />
22uF,6.3V-0805SMT<br />
F1<br />
16_9K-0402SMT<br />
RLP-133<br />
J1 12_0VIN 12_0V<br />
1%<br />
Male Power Jack 2.1mm 1<br />
PJ-032A<br />
3<br />
F1251CT-ND<br />
Vout = 0.8*(R16/R17+1) = 1.51 v<br />
5A Fast-Blo SMT Socketed Fuse<br />
GND<br />
L11 GND<br />
M10 GND<br />
E8 GND<br />
U17 GND<br />
U14 GND<br />
N13 GND<br />
AB16 GND<br />
N21 GND<br />
G11 GND<br />
K10 GND<br />
C19 GND<br />
T13 GND<br />
K11 GND<br />
P18 GND<br />
AA11 GND<br />
V7 GND<br />
M3 GND<br />
L10 GND<br />
V9 GND<br />
H15 GND<br />
F6 GND<br />
L13 GND<br />
F17 GND<br />
T11 GND<br />
R8 GND<br />
B17 GND<br />
A1 GND<br />
R15 GND<br />
AA14 GND<br />
V8 GND<br />
P16 GND<br />
U6 GND<br />
N8 GND<br />
U21 GND<br />
J21 GND<br />
K15 GND<br />
L20 GND<br />
H13 GND<br />
L16 GND<br />
A22 GND<br />
J5 GND<br />
V16 GND<br />
W7 GND<br />
AA8 GND<br />
B13 GND<br />
B5 GND<br />
AB7 GND<br />
L7 GND<br />
H10 GND<br />
M11 GND<br />
W20 GND<br />
M7 GND<br />
V15 GND<br />
AA9 GND<br />
T12 GND<br />
P2 GND<br />
E21 GND<br />
C11 GND<br />
AA12 GND<br />
Y16 GND<br />
V14 GND<br />
AA16 GND<br />
H18 GND<br />
M12 GND<br />
R5 GND<br />
W16 GND<br />
AB22 GND<br />
H8 GND<br />
N10 GND<br />
E14 GND<br />
U10 GND<br />
F2 GND<br />
Y7 GND<br />
K2 GND<br />
R10 GND<br />
K12 GND<br />
AA18 GND<br />
L12 GND<br />
U9 GND<br />
T10 GND<br />
AA13 GND<br />
AB1 GND<br />
M13 GND<br />
D3 GND<br />
AA15 GND<br />
AA10 GND<br />
U13 GND<br />
AA7 GND<br />
N12 GND<br />
Y4 GND<br />
M16 GND<br />
K8 GND<br />
V2 GND<br />
G12 GND<br />
B9 GND<br />
K13 GND<br />
N11<br />
RESERVE-AB2 AB2<br />
RESERVE-AA3 AA3<br />
VCC J11<br />
VCC J9<br />
VCC P11<br />
VCC P12<br />
VCC J14<br />
VCC J13<br />
VCC M14<br />
VCC M9<br />
VCC P9<br />
VCC L9<br />
VCC P14<br />
VCC P10<br />
VCC J12<br />
VCC J10<br />
VCC L14<br />
VCC P13<br />
VCCA V13<br />
VCCA U12<br />
VCCA U11<br />
VCCA V10<br />
VCCAUX M8<br />
VCCAUX R11<br />
VCCAUX H11<br />
VCCAUX M15<br />
VCCAUX R12<br />
VCCAUX H12<br />
VCCAUX L8<br />
VCCAUX L15<br />
VCCPLL_L K9<br />
VCCPLL_L N9<br />
VCCPLL_R K14<br />
VCCPLL_R N14<br />
XRES N15<br />
C7<br />
C11<br />
FB2<br />
BLM41PG600SN1<br />
C15<br />
C17<br />
10NF-0402SMT<br />
10uF,25V-1206SMT<br />
R4<br />
OPEN-0603SMT<br />
C22 C23<br />
FB3<br />
BLM41PG600SN1<br />
+ C26 C27<br />
C34<br />
C36 FB4<br />
+ BLM41PG600SN1<br />
R5<br />
10K-0402SMT<br />
C37<br />
10uF,25V-1206SMT<br />
R6<br />
RLP-134<br />
51K-0402SMT<br />
C39<br />
220NF-0402SMT<br />
16V<br />
L2<br />
4.7uH-SPD62R-472M<br />
C43 1000pF-0402SMT<br />
C44 1000pF-0402SMT<br />
D4<br />
DFLS220L<br />
C50<br />
22uF,6.3V-0805SMT<br />
RLP-133<br />
C49<br />
R9<br />
22uF,6.3V-0805SMT<br />
10K-0402SMT<br />
RLP-133<br />
1%<br />
C52<br />
220NF-0402SMT<br />
D6<br />
16V<br />
1N4448W<br />
L3<br />
4.7uH-SPD62R-472M<br />
C56 1000pF-0402SMT<br />
C57 1000pF-0402SMT<br />
D7<br />
DFLS220L<br />
R16 1%<br />
C245<br />
15K-0402SMT<br />
TP3 TP1<br />
C246<br />
100pF-0402SMT<br />
C63<br />
22uF,6.3V-0805SMT<br />
R21<br />
100pF-0402SMT<br />
RLP-133<br />
10K-0402SMT<br />
1%<br />
SERDES Power<br />
1UF-16V-0805SMT<br />
22UF-16V-TANTBSMT<br />
100NF-0402SMT<br />
100NF-0402SMT<br />
100NF-0402SMT<br />
100NF-0402SMT<br />
100NF-0402SMT<br />
12<br />
11<br />
14<br />
13<br />
10NF-0402SMT<br />
10NF-0402SMT<br />
10NF-0402SMT<br />
10NF-0402SMT<br />
10NF-0402SMT<br />
VIN2<br />
VIN2_11<br />
VIN1<br />
VIN1_13<br />
1UF-16V-0805SMT<br />
22UF-16V-TANTBSMT<br />
NC<br />
GND<br />
GND_PAD<br />
2<br />
5<br />
17<br />
1UF-16V-0805SMT<br />
10NF-0402SMT<br />
10NF-0402SMT<br />
1NF-0402SMT<br />
22UF-16V-TANTBSMT<br />
100NF-0402SMT<br />
100NF-0402SMT<br />
10NF-0402SMT<br />
100NF-0402SMT<br />
1UF-16V-0805SMT<br />
22UF-16V-TANTBSMT<br />
22UF-16V-TANTBSMT<br />
1UF-16V-0805SMT<br />
100NF-0402SMT<br />
10NF-0402SMT<br />
1NF-0402SMT<br />
10<br />
9<br />
2<br />
VIN2<br />
VIN1<br />
1<br />
SHDN 21<br />
2<br />
1<br />
1<br />
1<br />
2<br />
2<br />
C48<br />
330pF-0402SMT<br />
C47<br />
10pF-0402SMT<br />
C46<br />
10pF-0402SMT<br />
C45<br />
330pF-0402SMT<br />
GND6<br />
GND7<br />
GND8<br />
GND9<br />
GND5<br />
6<br />
GND4<br />
GND3<br />
5 GND2<br />
4 GND1<br />
3<br />
R11<br />
34K-0402SMT<br />
13<br />
14<br />
15<br />
16<br />
25<br />
1%<br />
R10<br />
51K-0402SMT<br />
16<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
10<br />
9<br />
2<br />
VIN2<br />
VIN1<br />
SHDN 21<br />
2<br />
1<br />
1<br />
1<br />
1<br />
2<br />
2<br />
C62<br />
330pF-0402SMT<br />
C61<br />
10pF-0402SMT<br />
C60<br />
10pF-0402SMT<br />
C59<br />
330pF-0402SMT<br />
GND6<br />
GND7<br />
GND8<br />
GND9<br />
GND5<br />
6<br />
GND4<br />
GND3<br />
5 GND2<br />
4 GND1<br />
3<br />
13<br />
14<br />
15<br />
16<br />
25<br />
R18<br />
63_4K-0402SMT<br />
R19<br />
30_1K-0402SMT<br />
2<br />
3_3V<br />
2_5V<br />
12_0V<br />
12_0V<br />
12_0V<br />
12_0V<br />
POWER INPUT<br />
+11v to +16v<br />
LED_GREEN_0603<br />
LED_GREEN_0603<br />
R22<br />
R23<br />
12_0VIN<br />
R24<br />
R25<br />
1_8K-1206SMT 1.2V<br />
1_8K-1206SMT<br />
1.2V<br />
D31<br />
D9<br />
1_8K-1206SMT<br />
A 1_8K-1206SMT<br />
2.5V 3.3V<br />
A<br />
G<br />
G<br />
Analog<br />
1.5V<br />
VCC_CORE<br />
R26<br />
220R-0603SMT<br />
R179<br />
220R-0603SMT<br />
LED_GREEN_0603<br />
D12<br />
VCCA<br />
LED_GREEN_0603<br />
D10<br />
12VIN GOOD<br />
G<br />
G<br />
1_5V<br />
G<br />
VCC_CORE<br />
D13<br />
LED_GREEN_0603<br />
D14<br />
SCHOTTKY/VISHAY-V12P10<br />
1605 Valley Center Parkway<br />
Bethlehem, PA 18017<br />
R29<br />
1<br />
10K-0603SMT<br />
3<br />
3<br />
Q3<br />
2N2222/SOT23<br />
LED_GREEN_0603<br />
D11<br />
R28<br />
1<br />
10K-0603SMT<br />
G<br />
Q2<br />
2N2222/SOT23<br />
R27<br />
1<br />
10K-0603SMT<br />
3<br />
Q1<br />
2N2222/SOT23<br />
2<br />
2<br />
2<br />
Title<br />
Power<br />
Size Project Rev<br />
C<br />
B<br />
ECP3- VERSA Eval <strong>Board</strong><br />
Date: Wednesday, February 09, 2011 Sheet 2 of 11<br />
1<br />
2<br />
3<br />
4<br />
5
Figure 13. Programming<br />
1<br />
2<br />
3<br />
4<br />
5<br />
3_3V<br />
3_3V 3_3V<br />
3_3V<br />
C67<br />
C70<br />
C69<br />
C68<br />
C66<br />
100NF-0402SMT<br />
C65<br />
4_7UF-10V-SMT<br />
1 2<br />
FB5<br />
MPZ1608Y600B +<br />
DI<br />
R31<br />
220R-0603SMT<br />
R30<br />
220R-0603SMT<br />
100NF-0402SMT<br />
100NF-0402SMT<br />
100NF-0402SMT<br />
100NF-0402SMT<br />
D D15<br />
D16<br />
D<br />
C72<br />
100NF-0402SMT<br />
3_3V<br />
FTVCC1_8V<br />
3_3V<br />
U5<br />
FT2232HL<br />
FTVCC1_8V 3_3V<br />
U1I<br />
C74<br />
H7<br />
+ 3_3UF-10V-SMT<br />
16 R36 0R-0603SMT<br />
G7<br />
VCCJ<br />
R37<br />
50<br />
ADBUS0 17<br />
G6 TCK<br />
VREGIN<br />
ADBUS1<br />
10K-0603SMT<br />
18 R33 0R-0603SMT<br />
C3<br />
TDI<br />
49<br />
ADBUS2 19 R38 0R-0603SMT<br />
C4 TDO<br />
VREGOUT<br />
ADBUS3 21 JTAG_ACT<br />
TMS<br />
R34<br />
ADBUS4<br />
22<br />
4_7K-0402SMT<br />
USB_N<br />
R39 27R-0603SMT<br />
USB_N_i<br />
7<br />
ADBUS5 23<br />
+3.3V<br />
USB_P<br />
USB_P_i<br />
8<br />
DM<br />
ADBUS6<br />
24<br />
LFE3-35E-FN484CES<br />
TDO<br />
DP<br />
ADBUS7<br />
3_3V<br />
TDI<br />
3_3V<br />
C76<br />
26<br />
PROGRAMn<br />
C75<br />
14<br />
ACBUS0<br />
27<br />
RESET#<br />
ACBUS1 28<br />
TMS<br />
ACBUS2<br />
29<br />
GND<br />
L5<br />
R44 6<br />
ACBUS3 30<br />
R45 R46<br />
TCK<br />
12K-0603SMT<br />
REF<br />
ACBUS4 32<br />
4_7K-0603SMT<br />
DONE<br />
ACBUS5<br />
33<br />
4_7K-0603SMT<br />
J3<br />
INITn<br />
1UH-1206SMT<br />
U6<br />
ACBUS6 34<br />
3_3V<br />
USB1_CS<br />
63<br />
ACBUS7<br />
2 1<br />
CS TDO VCC<br />
USB1_SK<br />
62 EECS<br />
38 TXD_UART<br />
3<br />
TDI<br />
USB Download<br />
USB1_D<br />
61 EECLK<br />
BDBUS0 39 RXD_UART<br />
4<br />
ispEN_N<br />
C77<br />
USB1_Q<br />
EEDATA<br />
BDBUS1<br />
40 UART_ACT<br />
5<br />
NC<br />
100NF-0402SMT<br />
R48 2_2K-0603SMT<br />
BDBUS2 41<br />
6<br />
TMS<br />
93LC56-SO8<br />
DI<br />
2<br />
BDBUS3<br />
43<br />
8<br />
OSCI<br />
BDBUS4<br />
TCK<br />
44<br />
9<br />
BDBUS5<br />
DONE<br />
45<br />
10 7<br />
BDBUS6<br />
INITN GND<br />
C 46<br />
C<br />
3<br />
BDBUS7<br />
OSCO<br />
48<br />
BCBUS0 52<br />
HEADER 10<br />
BCBUS1 53<br />
13<br />
BCBUS2<br />
54<br />
TEST<br />
BCBUS3 55<br />
BCBUS4<br />
57<br />
BCBUS5<br />
FTDI High-Speed USB<br />
58<br />
BCBUS6 59<br />
Y1<br />
BCBUS7<br />
ATS120SM-1 HC-49/US-SM<br />
60<br />
FT2232H<br />
DI<br />
36<br />
SUSPEND#<br />
1 2<br />
C79<br />
1<br />
CLK 2<br />
3<br />
DI<br />
DO 4<br />
5<br />
VSS<br />
ORG<br />
6 NU<br />
7 VCC<br />
1 2<br />
FB6<br />
C71<br />
MPZ1608Y600B + 4_7UF-10V-SMT<br />
DI<br />
C73<br />
100NF-0402SMT<br />
R32 0R-0603SMT<br />
1<br />
1 2<br />
2<br />
3<br />
3 4<br />
R35 27R-0603SMT<br />
4 5<br />
5<br />
R40<br />
J2<br />
4_7K-0402SMT<br />
R41<br />
R42<br />
R43<br />
R47<br />
10K-0402SMT 10K-0402SMT 10K-0402SMT<br />
4_7K-0603SMT<br />
8<br />
R49<br />
1K-0603SMT<br />
R50<br />
1M-0603SMT<br />
DI<br />
LED_GREEN_0603<br />
G<br />
LED_GREEN_0603<br />
G<br />
UART_ACT<br />
JTAG_ACT<br />
12<br />
37<br />
64<br />
VCCIO 20<br />
VCCIO 31<br />
VCCIO 42<br />
VCCIO 56<br />
4<br />
9<br />
VCORE<br />
VCORE<br />
VCORE<br />
VPHY<br />
VPLL<br />
9<br />
8<br />
9<br />
8<br />
Local JTAG<br />
header (ispVM)<br />
FPGA_TDO<br />
FPGA_TDI<br />
FPGA_TMS<br />
FPGA_TCK<br />
USB_MINI_AB<br />
33pF-0402SMT-DNI<br />
33pF-0402SMT-DNI<br />
6<br />
7<br />
6<br />
7<br />
100NF-0603SMT<br />
C78<br />
PWREN#<br />
10<br />
AGND<br />
1<br />
5<br />
GND<br />
11 GND<br />
15 GND<br />
25<br />
GND<br />
35 GND<br />
47<br />
GND<br />
51 GND<br />
GND<br />
C80<br />
12PF-0603SMT<br />
12 MHz<br />
12PF-0603SMT<br />
DI<br />
18pF = 12pF + Ground Plane ( 6pF )<br />
DI<br />
17<br />
3_3V<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
C81<br />
PROGRAMN<br />
& GSRN<br />
Pushbuttons<br />
B B<br />
100NF-0402SMT<br />
R51<br />
4_7K-0402SMT<br />
FPGA GSRN<br />
U7<br />
SW1<br />
1<br />
3_3V<br />
FPGA_CCLK<br />
IN1<br />
6 GSRN<br />
R52<br />
3 OUT1<br />
0R-0402SMT<br />
IN2<br />
4 PROGRAMN<br />
OUT2<br />
DONE<br />
R54<br />
3_3V<br />
3_3V 3_3V 3_3V<br />
INITN<br />
10K-0402SMT<br />
INITN indicator will light<br />
FPGA_WRITEN<br />
if an error occurs during<br />
SPIFASTN<br />
configuration programming<br />
680R-0603SMT<br />
MAX6817<br />
R60<br />
PROGRAMN<br />
R58<br />
R56<br />
4_7K-0603SMT<br />
680R-0603SMT<br />
INITN<br />
SW2<br />
TXD_UART<br />
RXD_UART<br />
SPI0_Q<br />
INITN<br />
FPGA_SISPI<br />
R62<br />
OPEN-0402SMT<br />
FPGA_CSSPI0N_DI<br />
DONE indicator will light when<br />
FPGA_CS1N<br />
configuration is successfully GSRN PROGRAMN<br />
3_3V<br />
D20<br />
FPGA_CSN<br />
completed<br />
3_3V<br />
GSRN<br />
FPGA_MCLK<br />
PROGRAMN<br />
R65<br />
C82 C83<br />
SCL [9]<br />
10K-0603SMT<br />
DONE<br />
SDA [9]<br />
CONFIG<br />
PCIE_PERSTN [4]<br />
TP5 FPGA_CCLK R67<br />
SPI FLASH<br />
DONE Status LEDs<br />
10K-0402SMT<br />
U8<br />
CLK_RESETn [9]<br />
3_3V<br />
A FLASH_DIS<br />
FPGA_MCLK<br />
156MHz_EN [9]<br />
A<br />
2<br />
3_3V<br />
FPGA_SISPI<br />
3<br />
VCC<br />
4 DU1<br />
DU2<br />
C85<br />
R69 R71<br />
10K-0402SMT<br />
FPGA_CSSPI0N_DI<br />
7<br />
10K-0402SMT<br />
SPI0_Q<br />
8<br />
S#<br />
NW<br />
Q<br />
1605 Valley Center Parkway<br />
M25P64-FLASH<br />
Bethlehem, PA 18017<br />
Title<br />
Programming<br />
Size Project Rev<br />
C<br />
B<br />
ECP3 VERSA Eval <strong>Board</strong><br />
Date: Friday, March 18, 2011<br />
Sheet 3 of 11<br />
5<br />
4<br />
3<br />
2<br />
1<br />
HOLD#<br />
1<br />
6<br />
DU4<br />
DU3<br />
5<br />
VSS<br />
9<br />
W#<br />
10<br />
D<br />
14<br />
DU8 13<br />
DU7 12<br />
DU6<br />
11<br />
DU5<br />
15 CK 16<br />
U1H<br />
CCLK<br />
LFE3-35E-FN484CES<br />
F20<br />
CFG0 E20<br />
CFG1 E19<br />
CFG2 B21<br />
DONE F21<br />
INITN D20<br />
PR11A/WRITEN J16<br />
PR11B/D0/SPIFASTN H17<br />
PR12A/D1 C22<br />
PR12B/D2 D22<br />
PR14A/D3/SI G17<br />
PR14B/D4/SO G18<br />
PR15A/D5 G19<br />
PR15B/D6/SPID1 G20<br />
PR17A/D7/SPID0 H19<br />
PR17B/BUSY/SISPI H20<br />
PR6A C21<br />
PR6B/DI/CSSPI0N/CSSPIN D21<br />
PR8A/CS1N/HOLDN/CONT2N F19<br />
PR8B/CSN/SN/CONT1N F18<br />
PR9A/DOUT/CSON/CSSPI1N A21<br />
PR9B/MCLK B22<br />
PROGRAMN C20<br />
PT68A C18<br />
PT68B B19<br />
PT70A E18<br />
PT70B E17<br />
PT71A A20<br />
PT71B B20<br />
PT73A D18<br />
PT73B D19<br />
VCCIO8 H16<br />
VCCIO8 G16<br />
680R-0603SMT<br />
R55<br />
D17<br />
R57<br />
R59<br />
R<br />
LED_RED_0603<br />
LED_RED_0603<br />
LED_RED_0603<br />
D18<br />
D19<br />
Q4 1<br />
2N2222/SOT23<br />
C84<br />
R68<br />
10K-0402SMT<br />
VCC 5<br />
GND<br />
R53<br />
SPIFASTN<br />
2<br />
4_7K-0402SMT<br />
R61<br />
Y<br />
Y<br />
220R-0603SMT<br />
FPGA_CSN<br />
PROGRAMN<br />
GSRN<br />
LED_GREEN_0603<br />
FPGA_CS1N<br />
FPGA_WRITEN<br />
G<br />
3<br />
2<br />
R64<br />
10K-0402SMT<br />
R63<br />
10K-0402SMT<br />
R66<br />
10K-0402SMT<br />
10NF-0402SMT<br />
100NF-0402SMT<br />
PROGRAMN<br />
DONE<br />
INITN<br />
10NF-0402SMT<br />
100NF-0603SMT<br />
R70<br />
10K-0402SMT
Figure 14. SERDES<br />
1<br />
2<br />
3<br />
4<br />
5<br />
x1_PETp0<br />
x1_PETn0<br />
J4<br />
PRSNT1#<br />
2 1<br />
PCSA_HDOUTP0 100NFX5R-0402SMT C86<br />
x1_PERp0<br />
PRSNT3#<br />
4 3<br />
6 5<br />
PRSNT [9]<br />
PCSA_HDOUTN0<br />
100NFX5R-0402SMT C87 x1_PERn0<br />
D PCSA_HDINP3<br />
D<br />
PCSA_HDINN3<br />
PCSA_HDOUTP0<br />
HEADER 3X2<br />
PCSA_HDOUTN0<br />
12_0VIN<br />
PCSA_HDOUTP3<br />
PCSA_HDOUTN3<br />
PCSA_REFCLKP<br />
PCSA_REFCLKP [9]<br />
PCSA_REFCLKN<br />
PCSA_REFCLKN [9]<br />
PCSA_VCCIB<br />
3_3V<br />
CN1<br />
PCSA_VCCOB<br />
PRSNT1# A1<br />
B1<br />
A2 PRSNT1#<br />
+12V B2<br />
A3 +12V<br />
+12V B3<br />
A4<br />
+12V<br />
RSVD_B3<br />
A5 GND<br />
GND<br />
A6 JTAG2<br />
A7 JTAG3<br />
C C<br />
A8 JTAG4<br />
PCIE_3V3<br />
PCIE_3V3<br />
A9<br />
JTAG5<br />
A10 +3.3V<br />
R178 OPEN-0603SMT<br />
A11 +3.3V<br />
[3] PCIE_PERSTN<br />
A12 PERST#<br />
PCIE_CLKP<br />
A13 GND<br />
[9] PCIE_CLKP<br />
PCIE_CLKN<br />
A14<br />
REFCLK+<br />
x1_PETp0<br />
[9] PCIE_CLKN<br />
A15 REFCLKx1_PETn0<br />
x1_PERp0<br />
A16 GND<br />
PCSA_VCCOB PCSA_VCCIB<br />
x1_PERn0<br />
A17 PERp0<br />
PRSNT3#<br />
A18 PERn0<br />
GND<br />
B4<br />
B5<br />
SMCLK B6<br />
SMDAT<br />
GND B7<br />
B8<br />
+3.3V<br />
B9<br />
JTAG1<br />
3.3Vaux B10<br />
B11<br />
WAKE# B12<br />
RSVD_B12<br />
GND B13<br />
B14<br />
PETp0 B15<br />
PETn0<br />
GND B16<br />
B17<br />
PRSNT3#<br />
GND B18<br />
U1J<br />
Y15<br />
PCSA_HDINP0<br />
Y14<br />
PCSA_HDINN0 Y12<br />
PCSA_HDINP1 Y13<br />
PCSA_HDINN1 Y11<br />
PCSA_HDINP2 Y10<br />
PCSA_HDINN2<br />
Y8<br />
PCSA_HDINP3 Y9<br />
PCSA_HDINN3 AB15<br />
PCSA_HDOUTP0 AB14<br />
PCSA_HDOUTN0 AB12<br />
PCSA_HDOUTP1<br />
AB13<br />
PCSA_HDOUTN1 AB11<br />
PCSA_HDOUTP2 AB10<br />
PCSA_HDOUTN2 AB8<br />
PCSA_HDOUTP3 AB9<br />
PCSA_HDOUTN3<br />
PCSA_REFCLKN<br />
LFE3-35E-FN484CES<br />
1 TP6<br />
Testpoint<br />
V11<br />
V12<br />
PCSA_REFCLKP<br />
PCSA_VCCIB0 W15<br />
PCSA_VCCIB1 W12<br />
PCSA_VCCIB2 W11<br />
PCSA_VCCIB3 W8<br />
PCSA_VCCOB0 W14<br />
PCSA_VCCOB1 W13<br />
PCSA_VCCOB2 W10<br />
PCSA_VCCOB3 W9<br />
R72<br />
4_7K-0603SMT<br />
PCI Express x1 Edge Finger Conn.<br />
C93<br />
C92<br />
C91<br />
C90<br />
C89<br />
C88<br />
18<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
B B<br />
X1 PCIe <strong>Board</strong> Fingers<br />
B side = Primary Component Side(TOP)<br />
A side = Secondary Component Side(BOTTOM)<br />
All Nets are 85-ohm differential pairs.<br />
The P and N traces shall be
Figure 15. 10/100/1000-T PHY #1/RJ45<br />
1<br />
2<br />
3<br />
4<br />
5<br />
Place caps close to RJ45 jack<br />
PHY1_VCC_CT<br />
C95<br />
3_3V<br />
1 2 PHY1_VDDOR<br />
FB7<br />
Z-600 ohm / 74279265<br />
C100<br />
10NF-0402SMT<br />
10NF-0402SMT<br />
2 1<br />
C96<br />
100NF-0603SMT<br />
C94<br />
C98<br />
C99<br />
10NF-0402SMT 10NF-0402SMT<br />
1<br />
C97<br />
10NF-0402SMT<br />
1<br />
2<br />
2<br />
10uF/6V3/X7R-0805SMT<br />
U1F<br />
SEG0<br />
PB10A<br />
SEG1<br />
SEG[0:14] [8]<br />
PHY1_VDDO<br />
Ethernet RJ45 Connector<br />
SEG2<br />
SEG3<br />
SEG4<br />
SEG5<br />
D D<br />
SEG6<br />
SEG7<br />
ETH1_MD0_P<br />
SEG8<br />
SEG9<br />
ETH1_MD0_N<br />
SEG10<br />
SEG11<br />
ETH1_MD1_P<br />
MH1 and MH2<br />
SEG12<br />
PHY1_AVDDC<br />
SEG13<br />
ETH1_MD1_N<br />
are 0.100"<br />
SEG14<br />
diameter plated<br />
ETH1_MD2_P<br />
through holes<br />
ETH1_MD2_N<br />
1_RSTN<br />
PHY1_MDIO<br />
ETH1_MD3_P<br />
1_RXC<br />
1_RX_ER<br />
ETH1_MD3_N<br />
1_GTXCLK PHY1_GTXCLK<br />
1_RX_DV<br />
PHY1_AVDDX<br />
PHY1_LED0<br />
1_RXD0<br />
PHY1_LED1<br />
1_RXD2<br />
1_TXD7<br />
PHY1_TXD7<br />
1_RXD1<br />
1_TXD6<br />
PHY1_TXD6<br />
1_CRS<br />
1_TXD5<br />
PHY1_TXD5<br />
1_RXD7<br />
1_TXD4<br />
PHY1_TXD4<br />
1_RXD3<br />
1_TXD3<br />
PHY1_TXD3<br />
1_COL<br />
1_RXD6<br />
Place termination<br />
1_TXD2<br />
PHY1_TXD2<br />
resistors TX_D0-7,<br />
Place termination<br />
1_RXD5<br />
TX_ER, TX_EN,<br />
resistors RX_D0-7,<br />
1_TXD1<br />
PHY1_TXD1<br />
GTX_CLK as close to<br />
RX_ER, RX_DV, RX_CLK,<br />
1_RXD4<br />
TX_CLK, CRS, COL, RSTN<br />
C FPGA as possible<br />
C<br />
1_125MHz PHY1_CLK125<br />
using 50 ohm<br />
as close to the<br />
impedence traces.<br />
G-PHY as possible<br />
using 50 ohm impedence<br />
1_TXD0<br />
PHY1_TXD0<br />
traces.<br />
TX and RX traces<br />
1_TX_EN R97 0 PHY1_TX_EN<br />
are all matched length < 2"<br />
PHY1_COMAn<br />
PHY1_XTAL_IN<br />
PHY1_XTAL_OUT<br />
PHY1_TXD3<br />
PHY1_CRS<br />
1_CRS<br />
PHY1_TXD4<br />
PHY1_COL<br />
1_COL<br />
PHY1_MDC<br />
PHY1_TXD5<br />
PHY1_MDC<br />
PHY1_TXD6<br />
PHY1_DVDD<br />
PHY1_TXD7<br />
PHY1_VDDO<br />
3_3V<br />
PHY1_GTXCLK<br />
PHY1_MDIO PHY1_VDDO<br />
PHY1_DVDD<br />
PHY1_VDDO<br />
PHY1_COMAn<br />
PHY1_CLK125<br />
PHY1_LED0<br />
LFE3-35E-FN484CES<br />
PHY1_LED1<br />
PHY1_VDDO<br />
PHY1_DVDD<br />
3_3V<br />
PHY1_LED2<br />
PHY1_XTAL_OUT<br />
1_RSTN<br />
PHY1_RSTN<br />
PHY1_XTAL_IN<br />
PHY1_AVDDC<br />
PHY1_DVDD<br />
PHY1_AVDDR<br />
PHY1_AVDDC<br />
B B<br />
V6<br />
PB10B U7<br />
PB11A Y6<br />
PB11B AA6<br />
PB13A U8<br />
PB13B T8<br />
PB16A R9<br />
PB16B T9<br />
PB2A AB3<br />
PB2B AB4<br />
PB4A W4<br />
PB4B Y5<br />
PB5A AA4<br />
PB5B AA5<br />
PB7A W5<br />
PB7B W6<br />
PB8A AB5<br />
PB8B AB6<br />
L3<br />
PL36A/LDQ41 L2<br />
PL36B/LDQ41<br />
L4<br />
PL38A/PCLKT6_0/LDQ41<br />
PL38B/PCLKC6_0/LDQ41 M4<br />
PL39A/LDQ41 M2<br />
PL39B/LDQ41 M1<br />
PL41A/LDQS41_P M5<br />
PL41B/LDQS41_N N6<br />
PL42A/LDQ41 N2<br />
PL42B/LDQ41 N1<br />
PL44A/VREF1_6/LDQ41 N4<br />
PL44B/VREF2_6/LDQ41 P4<br />
PL45A/LDQ50 N3<br />
PL45B/LDQ50 P3<br />
PL47A/LDQ50 N5<br />
PL47B/LDQ50 P6<br />
PL48A/LDQ50 P1<br />
PL48B/LDQ50 R1<br />
PL50A/LDQS50_P P5<br />
PL50B/LDQS50_N R6<br />
PL51A/LDQ50 R3<br />
PL51B/LDQ50 R2<br />
PL53A/LDQ50 U1<br />
PL53B/LDQ50 U2<br />
PL53E_A/LLM1_GPLLT_FB_A T2<br />
PL53E_B/LLM1_GPLLT_FB_B T1<br />
PL53E_C/LLM1_GPLLT_IN_A T3<br />
PL53E_D/LLM1_GPLLT_IN_B U3<br />
PL56B/LDQ59 P7<br />
PL57A/LDQ59 V1<br />
PL57B/LDQ59 W1<br />
PL59A/LDQS59_P R7<br />
PL59B/LDQS59_N T7<br />
PL60A/LDQ59 V3<br />
PL60B/LDQ59 W3<br />
PL62A/LDQ59 R4<br />
T5<br />
PL62B/LDQ59<br />
PL63A/LDQ68 W2<br />
PL63B/LDQ68 Y1<br />
T4<br />
PL65A/LDQ68<br />
PL65B/LDQ68 U4<br />
PL66A/LDQ68 AA1<br />
PL66B/LDQ68 Y2<br />
PL68A/LDQS68_P T6<br />
PL68B/LDQS68_N U5<br />
PL69A/LDQ68 Y3<br />
PL69B/LDQ68 AA2<br />
PL71A/LDQ68 V4<br />
PL71B/LDQ68 V5<br />
VCCIO6 P8<br />
VCCIO6 N7<br />
VTT6 M6<br />
1 2<br />
FB8<br />
C101 C102<br />
Z-600 ohm / 74279265<br />
J9B<br />
31<br />
1<br />
32<br />
2_MDIA+<br />
2<br />
30 2_MDACT<br />
2_MDIA-<br />
3<br />
24<br />
6<br />
1 2<br />
26 2_MDIB+<br />
FB9<br />
C103 C104<br />
25<br />
2_MDIBCT<br />
4<br />
Z-600 ohm / 74279265<br />
2_MDIB-<br />
5<br />
23<br />
21 2_MDIC+<br />
7<br />
22 2_MDCCT<br />
8<br />
R73<br />
2_MDIC-<br />
100R-0402SMT R74<br />
28<br />
100R-0402SMT<br />
27<br />
2_MDID+<br />
37<br />
29 2_MDDCT 2_SHLD1 38<br />
R75 0<br />
2_MDID- 2_SHLD2<br />
1 2<br />
36<br />
FB10<br />
C106 C105<br />
Gr/Yel 2_LED2+ 35<br />
Z-600 ohm / 74279265<br />
2_LED2-<br />
34<br />
R76 0<br />
Yel 2_LED1+ 33<br />
2_LED1-<br />
R77 0<br />
0826-1X1T-43-F<br />
R78 0<br />
R79 0<br />
R80 0<br />
R81 0<br />
R82 0<br />
R95 0<br />
R96 0<br />
U9<br />
Y2<br />
0R-0402SMT<br />
R98<br />
CRS<br />
R99<br />
25MHZ CRYSTAL<br />
R100<br />
C111<br />
C112<br />
4_7K-0402SMT<br />
R101<br />
27pF-0603SMT 27pF-0603SMT<br />
TP7<br />
4_7K-0402SMT TP8<br />
R102<br />
1K-0402SMT<br />
R103<br />
4_7K-0402SMT<br />
R180<br />
R104<br />
1_8K-0402SMT<br />
C107 C108 C109<br />
C241<br />
C242<br />
54<br />
53<br />
COL<br />
MDC 52<br />
DVDD 51<br />
VDDO 50<br />
MDIO 49<br />
TDO 48<br />
47<br />
TDI<br />
TCK 46<br />
TMS 45<br />
44<br />
TRST_n<br />
DVDD 43<br />
42<br />
XTAL_OUT<br />
XTAL_IN 41<br />
AVDDC 40<br />
HSDACP 39<br />
1<br />
2 TXD[3]<br />
3<br />
TXD[4]<br />
4 TXD[5]<br />
5 TXD[6]<br />
6<br />
TXD[7]<br />
7 GTX_CLK<br />
8<br />
DVDD<br />
9 COMA_n<br />
10 CLK125<br />
11<br />
LED[0]<br />
12 LED[1]<br />
13<br />
VDDO<br />
14 LED[2]<br />
15 RESET_n<br />
16<br />
DIS_REG12<br />
17 DVDD<br />
18<br />
AVDDR<br />
HSDACN<br />
AVDDR<br />
38<br />
AVDDC 37<br />
100NF-0603SMT<br />
10uF/6V3/X7R-0805SMT<br />
PHY1_LED2<br />
RJ45<br />
100NF-0603SMT<br />
10uF/6V3/X7R-0805SMT<br />
1_TXC<br />
[10]<br />
100NF-0603SMT<br />
10uF/6V3/X7R-0805SMT<br />
1_RX_ERR94<br />
0<br />
PHY1_RX_ER<br />
1_RX_DVR93<br />
0<br />
PHY1_RX_DV<br />
1_RXC R92<br />
PHY1_RXC<br />
20R-0402SMT PHY1_VDDOR<br />
1_RXD0 R91 0<br />
PHY1_RXD0<br />
1_RXD1 R90 0<br />
PHY1_RXD1<br />
1_RXD2 R89 0<br />
PHY1_RXD2<br />
1_RXD3 R88 0<br />
PHY1_RXD3<br />
1_RXD4 R87 0<br />
PHY1_RXD4<br />
1_RXD5 R86 0<br />
PHY1_RXD5<br />
1_RXD6 R85 0<br />
PHY1_RXD6<br />
1_RXD7 R84 0<br />
PHY1_RXD7<br />
1_TXC R83<br />
PHY1_TXC<br />
20R-0402SMT PHY1_VDDOR<br />
PHY1_TX_EN<br />
PHY1_TXD0<br />
PHY1_TXD1<br />
PHY1_TXD2<br />
72<br />
TXD[2] 71<br />
TXD[1] 70<br />
TXD[0]<br />
TX_EN 69<br />
VDDOR 68<br />
67<br />
TX_CLK 66<br />
RXD[7] 65<br />
RXD[6]<br />
64<br />
RXD[5] 63<br />
RXD[4]<br />
62<br />
RXD[3] 61<br />
RXD[2] 60<br />
RXD[1]<br />
59<br />
RXD[0]<br />
VDDOR 58<br />
57<br />
RX_CLK 56<br />
RX_DV<br />
RX_ER 55<br />
19<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
100NF-0402SMT<br />
100NF-0402SMT<br />
100NF-0603SMT<br />
C110<br />
AVDDX<br />
CTRL18<br />
NC<br />
MDIN[3]<br />
MDIP[3]<br />
AVDD<br />
AVDD<br />
MDIN[2]<br />
MDIP[2]<br />
MDIN[1]<br />
MDIP[1]<br />
AVDD<br />
AVDD<br />
AVDD<br />
MDIN[0]<br />
MDIP[0]<br />
TSTPT<br />
RSET<br />
100NF-0603SMT<br />
10NF-0402SMT<br />
EPAD<br />
100NF-0603SMT<br />
J10<br />
73<br />
19<br />
20<br />
21<br />
22<br />
23<br />
24<br />
25<br />
26<br />
27<br />
28<br />
29<br />
30<br />
31<br />
32<br />
33<br />
34<br />
35<br />
36<br />
88E1119R_72QFN<br />
PHY1_COMAn<br />
1<br />
2<br />
R105<br />
4_99K-0402SMT<br />
RLP-100<br />
ETH1_MD0_N<br />
ETH1_MD0_P<br />
ETH1_MD2_N<br />
ETH1_MD2_P<br />
ETH1_MD1_N<br />
ETH1_MD1_P<br />
PHY1_AVDD<br />
PHY1_AVDD<br />
ETH1_MD3_P<br />
ETH1_MD3_N<br />
PHY1_AVDDX<br />
HEADER 2<br />
2<br />
1<br />
FB11<br />
Z-600 ohm / 74279265<br />
PHY1_AVDD<br />
C114<br />
C113<br />
GPHY<br />
1.8V Power<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
10uF/6V3/X7R-0805SMT<br />
10uF/6V3/X7R-0805SMT<br />
100NF-0603SMT<br />
3_3V<br />
PHY1_VCC_CT 2<br />
1<br />
C115 C116<br />
FB12<br />
Z-600 ohm / 74279265<br />
C118<br />
R106<br />
PHY1_AVDD<br />
100NF-0603SMT 4_75K-0603SMT<br />
C119 C120 C121 C122<br />
C117<br />
10uF/6V3/X7R-0805SMT<br />
Q5 1<br />
BCP69-16<br />
PHY1_AVDDR 2<br />
1<br />
A C124 C125<br />
FB13<br />
C123<br />
C126<br />
A<br />
Z-600 ohm / 74279265<br />
10uF/6V3/X7R-0805SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
3<br />
100NF-0603SMT<br />
4<br />
2<br />
PHY1_DVDD<br />
C129 C130<br />
C131<br />
C128<br />
100NF-0603SMT<br />
1605 Valley Center Parkway<br />
Bethlehem, PA 18017<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
C127<br />
10uF/6V3/X7R-0805SMT<br />
Title<br />
10/100/1000-T PHY#1/RJ45<br />
Size Project Rev<br />
C<br />
B<br />
ECP3-VERSA Eval <strong>Board</strong><br />
Date: Thursday, February 24, 2011 Sheet 5 of 11<br />
1<br />
4_7UF-16V-0805SMT<br />
2<br />
3<br />
4<br />
5
Figure 16. 10/100/1000-T PHY #2/RJ45<br />
1<br />
2<br />
3<br />
4<br />
5<br />
Place caps close to RJ45 jack<br />
3_3V<br />
PHY2_VCC_CT<br />
PHY2_VDDOR<br />
1 2<br />
C133<br />
C138<br />
10NF-0402SMT<br />
100NF-0603SMT<br />
FB14<br />
Z-600 ohm / 74279265<br />
C132<br />
C137<br />
10NF-0402SMT<br />
C136<br />
10NF-0402SMT<br />
1<br />
C135<br />
10NF-0402SMT<br />
1<br />
2<br />
2<br />
10NF-0402SMT<br />
2 1<br />
C134<br />
Ethernet RJ45 Connector<br />
10uF/6V3/X7R-0805SMT<br />
1 2 PHY2_VDDO<br />
D D<br />
FB15<br />
C139 C140<br />
Z-600 ohm / 74279265<br />
PHY2_MDIO<br />
2_RX_DV<br />
ETH2_MD0_P<br />
2_RXD0<br />
2_RXD1<br />
ETH2_MD0_N<br />
ETH2_MD1_P<br />
MH1 and MH2<br />
PHY2_AVDDC<br />
ETH2_MD1_N<br />
are 0.100"<br />
C141 C142<br />
diameter plated<br />
ETH2_MD2_P<br />
through holes<br />
PHY2_MDC<br />
ETH2_MD2_N<br />
R108<br />
ETH2_MD3_P<br />
100R-0402SMT<br />
ETH2_MD3_N<br />
PHY2_COMAn<br />
PHY2_LED0<br />
PHY2_AVDDX<br />
PHY2_LED1<br />
2_RSTN<br />
2_RXC<br />
2_GTXCLK<br />
PHY2_GTXCLK<br />
2_COL<br />
2_CRS<br />
2_TXD6<br />
PHY2_TXD6<br />
2_TXD5<br />
PHY2_TXD5<br />
2_TX_EN R112 0<br />
PHY2_TX_EN<br />
2_TXD1<br />
PHY2_TXD1<br />
2_TXD2 R114 0<br />
PHY2_TXD2<br />
Place termination<br />
C 2_TXD3<br />
PHY2_TXD3<br />
Place termination<br />
C<br />
2_TXD0<br />
PHY2_TXD0<br />
resistors RX_D0-7,<br />
resistors TX_D0-7,<br />
2_TXD4 R117 0<br />
PHY2_TXD4<br />
RX_ER, RX_DV, RX_CLK,<br />
2_TXD7 R118 0<br />
PHY2_TXD7<br />
TX_ER, TX_EN,<br />
TX_CLK, CRS, COL<br />
2_RXD7<br />
GTX_CLK as close to<br />
2_RXD6<br />
as close to the<br />
2_RXD2<br />
FPGA as possible<br />
G-PHY as possible<br />
2_RXD5<br />
using 50 ohm<br />
using 50 ohm impedence<br />
2_RXD3<br />
impedence traces.<br />
2_RX_ER<br />
traces.<br />
2_125MHz R131 0 PHY2_CLK125<br />
2_RXD4<br />
TX and RX traces are<br />
all matched length and < 2"<br />
LED0<br />
U10<br />
Y3<br />
LED1<br />
LED[0:7] [8]<br />
LED2<br />
PHY2_XTAL_IN<br />
PHY2_XTAL_OUT<br />
LED3<br />
LED4<br />
LED5<br />
25MHZ CRYSTAL<br />
LED6<br />
LED7<br />
PHY2_TXD3<br />
PHY2_CRS<br />
2_CRS<br />
C150<br />
PHY2_TXD4<br />
CRS<br />
3_3V<br />
PHY2_COL R133<br />
2_COL<br />
PHY2_TXD5<br />
PHY2_MDC<br />
27pF-0603SMT<br />
PHY2_TXD6<br />
PHY2_DVDD<br />
PHY2_TXD7<br />
PHY2_VDDO<br />
PHY2_GTXCLK<br />
PHY2_MDIO PHY2_VDDO<br />
PHY2_DVDD<br />
PHY2_VDDO<br />
PHY2_COMAn<br />
3_3V<br />
TP10 PHY2_CLK125<br />
PHY2_LED0<br />
PHY2_LED1<br />
R137<br />
C145 C146<br />
PHY2_VDDO<br />
PHY2_DVDD 4_7K-0402SMT<br />
PHY2_LED2<br />
PHY2_XTAL_OUT<br />
R181 2_RSTN<br />
PHY2_RSTN<br />
PHY2_XTAL_IN<br />
B B<br />
1_8K-0402SMT<br />
PHY2_AVDDC<br />
PHY2_DVDD<br />
C243<br />
C244<br />
PHY2_AVDDR<br />
PHY2_AVDDC<br />
54<br />
53<br />
COL<br />
MDC 52<br />
DVDD 51<br />
VDDO 50<br />
MDIO 49<br />
TDO 48<br />
47<br />
TDI<br />
TCK 46<br />
TMS 45<br />
44<br />
TRST_n<br />
DVDD 43<br />
42<br />
XTAL_OUT<br />
XTAL_IN 41<br />
AVDDC 40<br />
HSDACP 39<br />
1<br />
2<br />
TXD[3]<br />
3 TXD[4]<br />
4<br />
TXD[5]<br />
5 TXD[6]<br />
6 TXD[7]<br />
7<br />
GTX_CLK<br />
8 DVDD<br />
9<br />
COMA_n<br />
10 CLK125<br />
11 LED[0]<br />
12<br />
LED[1]<br />
13 VDDO<br />
14<br />
LED[2]<br />
15 RESET_n<br />
16 DIS_REG12<br />
17<br />
DVDD<br />
18 AVDDR<br />
HSDACN<br />
AVDDR<br />
38<br />
AVDDC 37<br />
U1E<br />
PB61A<br />
1 2<br />
FB16<br />
Z-600 ohm / 74279265<br />
1 2<br />
FB17<br />
C143 C144<br />
Z-600 ohm / 74279265<br />
R111 0<br />
R116 0<br />
R134<br />
LFE3-35E-FN484CES<br />
4_7K-0402SMT<br />
C147<br />
U16<br />
PB61B U15<br />
PB62A AB17<br />
PB62B AA17<br />
PB64A T14<br />
PB64B R14<br />
PB65A AB18<br />
PB65B AB19<br />
PB67A W18<br />
PB67B W17<br />
PB68A Y17<br />
PB68B Y18<br />
PB70A V18<br />
PB70B V17<br />
PB71A AA19<br />
PB71B Y19<br />
PB73A T15<br />
PB73B T16<br />
PR36A/RDQ41 P22<br />
PR36B/RDQ41 R21<br />
PR38A/PCLKT3_0/RDQ41 N19<br />
PR38B/PCLKC3_0/RDQ41 M19<br />
PR39A/RDQ41 R22<br />
T22<br />
PR39B/RDQ41<br />
PR41A/RDQS41_P N18<br />
PR41B/RDQS41_N P19<br />
T20<br />
PR42A/RDQ41<br />
PR42B/RDQ41 R20<br />
PR44A/VREF1_3/RDQ41 P20<br />
PR44B/VREF2_3/RDQ41 N20<br />
PR45A/RDQ50 U22<br />
PR45B/RDQ50 V22<br />
PR47A/RDQ50 R16<br />
PR47B/RDQ50 P17<br />
PR48A/RDQ50 Y22<br />
PR48B/RDQ50 W22<br />
PR50A/RDQS50_P T21<br />
PR50B/RDQS50_N U20<br />
PR51A/RDQ50 Y21<br />
PR51B/RDQ50 W21<br />
PR53A/RDQ50 R19<br />
PR53B/RDQ50 R18<br />
PR53E_A/RLM1_GPLLT_FB_A/RDQ50 V21<br />
PR53E_B/RLM1_GPLLT_FB_B/RDQ50 V20<br />
PR53E_C/RLM1_GPLLT_IN_A/RDQ50 R17<br />
T17<br />
PR53E_D/RLM1_GPLLT_IN_B/RDQ50<br />
PR63A/RDQ68 AA22<br />
PR63B/RDQ68 AB21<br />
T19<br />
PR65A/RDQ68<br />
T18<br />
PR65B/RDQ68<br />
PR66A/RDQ68 U19<br />
PR66B/RDQ68 U18<br />
PR68A/RDQS68_P AA21<br />
PR68B/RDQS68_N Y20<br />
PR69A/RDQ68 W19<br />
PR69B/RDQ68 V19<br />
PR71A/RDQ68 AA20<br />
PR71B/RDQ68 AB20<br />
VCCIO3 P15<br />
VCCIO3 N16<br />
VTT3 M17<br />
J9A<br />
11<br />
1<br />
12 1_MDIA+<br />
2<br />
10 1_MDACT<br />
1_MDIA-<br />
3<br />
4<br />
6<br />
6<br />
1_MDIB+<br />
5 1_MDIBCT<br />
4<br />
1_MDIB-<br />
5<br />
3<br />
1 1_MDIC+<br />
7<br />
2<br />
1_MDCCT<br />
8<br />
R107<br />
1_MDIC-<br />
100R-0402SMT<br />
8<br />
7<br />
1_MDID+<br />
19<br />
9 1_MDDCT 1_SHLD1 20<br />
1_MDID- 1_SHLD2<br />
16<br />
Gr/Yel 1_LED2+ 15<br />
1_LED2-<br />
14<br />
Yel 1_LED1+ 13<br />
R109 0<br />
1_LED1-<br />
0826-1X1T-43-F<br />
R110 0<br />
R113 0<br />
R115 0<br />
33R-0402SMT<br />
R132<br />
C149<br />
27pF-0603SMT<br />
TP9<br />
R135<br />
4_7K-0402SMT<br />
R136<br />
1K-0402SMT<br />
R138<br />
100NF-0603SMT<br />
10uF/6V3/X7R-0805SMT<br />
PHY2_LED2<br />
RJ45<br />
100NF-0603SMT<br />
10uF/6V3/X7R-0805SMT<br />
2_TXC<br />
[10]<br />
100NF-0603SMT<br />
2_RX_ER<br />
2_RX_DV<br />
2_RXC<br />
2_RXD0<br />
2_RXD1<br />
2_RXD2<br />
2_RXD3<br />
2_RXD4<br />
2_RXD5<br />
2_RXD6<br />
2_RXD7<br />
2_TXC<br />
10uF/6V3/X7R-0805SMT<br />
R130 0<br />
PHY2_RX_ER<br />
R129 0<br />
PHY2_RX_DV<br />
R128<br />
PHY2_RXC<br />
20R-0402SMT PHY2_VDDOR<br />
R127 0<br />
PHY2_RXD0<br />
R126 0<br />
PHY2_RXD1<br />
R125 0<br />
PHY2_RXD2<br />
R124 0<br />
PHY2_RXD3<br />
R123 0<br />
PHY2_RXD4<br />
R122 0<br />
PHY2_RXD5<br />
R121 0<br />
PHY2_RXD6<br />
R120 0<br />
PHY2_RXD7<br />
R119<br />
PHY2_TXC<br />
20R-0402SMT PHY2_VDDOR<br />
PHY2_TX_EN<br />
PHY2_TXD0<br />
PHY2_TXD1<br />
PHY2_TXD2<br />
72<br />
TXD[2]<br />
71<br />
TXD[1] 70<br />
TXD[0]<br />
TX_EN 69<br />
VDDOR 68<br />
67<br />
TX_CLK<br />
66<br />
RXD[7] 65<br />
RXD[6] 64<br />
RXD[5]<br />
63<br />
RXD[4] 62<br />
RXD[3]<br />
61<br />
RXD[2] 60<br />
RXD[1] 59<br />
RXD[0]<br />
VDDOR 58<br />
57<br />
RX_CLK<br />
56<br />
RX_DV<br />
RX_ER 55<br />
20<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
100NF-0402SMT<br />
100NF-0402SMT<br />
100NF-0603SMT<br />
10NF-0402SMT<br />
100NF-0603SMT<br />
EPAD<br />
AVDDX<br />
CTRL18<br />
NC<br />
MDIN[3]<br />
MDIP[3]<br />
AVDD<br />
AVDD<br />
MDIN[2]<br />
MDIP[2]<br />
MDIN[1]<br />
MDIP[1]<br />
AVDD<br />
AVDD<br />
AVDD<br />
MDIN[0]<br />
MDIP[0]<br />
TSTPT<br />
RSET<br />
100NF-0603SMT<br />
C148<br />
J12<br />
73<br />
19<br />
20<br />
21<br />
22<br />
23<br />
24<br />
25<br />
26<br />
27<br />
28<br />
29<br />
30<br />
31<br />
32<br />
33<br />
34<br />
35<br />
36<br />
88E1119R_72QFN<br />
PHY2_COMAn<br />
1<br />
2<br />
R139<br />
4_99K-0402SMT<br />
RLP-100<br />
ETH2_MD0_N<br />
ETH2_MD0_P<br />
ETH2_MD2_N<br />
ETH2_MD2_P<br />
ETH2_MD1_N<br />
ETH2_MD1_P<br />
PHY2_AVDD<br />
ETH2_MD3_N<br />
ETH2_MD3_P<br />
PHY2_AVDD<br />
PHY2_AVDDX<br />
HEADER 2<br />
PHY2_AVDD 2<br />
1<br />
C151 C152<br />
FB18<br />
Z-600 ohm / 74279265<br />
3_3V<br />
PHY2_AVDD<br />
C153 C154 C155 C156<br />
C160<br />
R140<br />
PHY2_VCC_CT 2<br />
1<br />
100NF-0603SMT 4_75K-0603SMT<br />
C157 C158<br />
FB19<br />
Z-600 ohm / 74279265<br />
C159<br />
10uF/6V3/X7R-0805SMT<br />
A Q6 1<br />
A<br />
BCP69-16<br />
PHY2_AVDDR 2<br />
1<br />
C162 C163<br />
FB20<br />
C161<br />
C164<br />
Z-600 ohm / 74279265<br />
10uF/6V3/X7R-0805SMT<br />
100NF-0603SMT<br />
PHY2_DVDD<br />
C166 C167 C168 C169<br />
C165<br />
1605 Valley Center Parkway<br />
Bethlehem, PA 18017<br />
Title<br />
10/100/1000-T PHY#2/RJ45<br />
Size Project Rev<br />
C<br />
B<br />
ECP3-VERSA Eval <strong>Board</strong><br />
Date: Thursday, February 24, 2011 Sheet 6 of 11<br />
5<br />
4<br />
3<br />
2<br />
1<br />
GPHY<br />
1.8V Power<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
3<br />
4<br />
2<br />
10uF/6V3/X7R-0805SMT<br />
10uF/6V3/X7R-0805SMT 10uF/6V3/X7R-0805SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
4_7UF-16V-0805SMT<br />
100NF-0603SMT
Figure 17. DDR3 Memory<br />
5<br />
4<br />
3<br />
2<br />
1<br />
1_5V<br />
2_5V<br />
DDR3_DQ0<br />
DDR3_DQ1<br />
DDR3_DQ2 ALL Memory controller<br />
MEMORY DEVICE TERMINATION for ADDRESS/ CONTROL SIGNALS<br />
DDR3_DQ3<br />
DDR3_DQ4 buses, clocks, and control<br />
Termination<br />
2_5V<br />
DDR3_DQ5<br />
1_5V<br />
DDR3_DQ6 traces must be 50 Ohm<br />
at end of line Memory U1 Pin<br />
DDR3_VTT<br />
DDR3_DQ7<br />
DDR3_VDD<br />
Transmission lines<br />
VTT<br />
DDR3_DQ8<br />
X2<br />
X1<br />
DDR3_DQ9<br />
DDR3_DQ10<br />
+ C176<br />
DDR3_DQ11<br />
X1 needs to be matched length<br />
U12<br />
DDR3_DQ12<br />
DDR3_DQ13<br />
for all traces<br />
DDR3_SD0 2<br />
DDR3_DQ14<br />
SD<br />
DDR3_DQ15<br />
DDR3_VREF<br />
DDR3_DQS0<br />
D VSENSE D<br />
DDR3_DQS0#<br />
1_5V<br />
DDR3_DQS1<br />
DDR3_VTT<br />
1_5V<br />
DDR3_DQS1#<br />
DDR3_VDDQ<br />
C179 +<br />
FB22<br />
LP2998-SO8<br />
DDR3_A0<br />
DDR3_A1<br />
+ C180 C181<br />
DDR3_A2<br />
BLM41PG600SN1<br />
DDR3_A3<br />
DDR3_A4<br />
DDR3_A5<br />
DDR3_A6<br />
DDR3_VDD<br />
DDR3_A7<br />
DDR3_A8<br />
DDR3_A6<br />
DDR3_BA1<br />
DDR3_A9<br />
DDR3_A4<br />
DDR3_A8<br />
DDR3_A10<br />
DDR3_A1<br />
DDR3_A11<br />
DDR3_A11<br />
DDR3_A10<br />
DDR3_A12<br />
DDR3_A12<br />
DDR3_CAS#<br />
DDR3_RAS#<br />
DDR3_A0<br />
DDR3_BA2<br />
DDR3_BA0<br />
DDR3_A9<br />
DDR3_A2<br />
1_5V<br />
DDR3_BA1<br />
DDR3_A7<br />
DDR3_A5<br />
DDR3_BA2<br />
DDR3_BA0<br />
DDR3_A3<br />
MEM_VREF<br />
DDR3_VDDQ<br />
DDR3_CAS#<br />
DDR3_K0<br />
DDR3_K0#<br />
DDR3_CE0<br />
Place Address/Control Termination Resistors as close as possible to Memory Chip U7<br />
DDR3_CS0#<br />
DDR3_DM0<br />
DDR3_DM1<br />
DDR3_ODT0<br />
DDR3_VTT<br />
DDR3_RAS#<br />
DDR3_RST#<br />
DDR3_WE#<br />
ZQ0<br />
MEM_VREF<br />
C C<br />
1_5V<br />
ECP3_VREF<br />
DDR3_WE#<br />
DDR3_ODT0<br />
DDR3_CE0<br />
DDR3_CS0#<br />
3<br />
R141<br />
U11A<br />
FB21<br />
0R-0603SMT<br />
B2<br />
D9 VDD<br />
K2<br />
VDD<br />
BLM41PG600SN1<br />
K8 VDD<br />
G7 VDD<br />
N1<br />
VDD<br />
N9 VDD<br />
4<br />
R1<br />
VDD<br />
VREF<br />
R9 VDD<br />
5<br />
8<br />
VDD<br />
VDDQ VTT<br />
A1<br />
PP1<br />
A8 VDDQ<br />
C178<br />
C1<br />
VDDQ<br />
C9 VDDQ<br />
D2 VDDQ<br />
E9<br />
VDDQ<br />
F1 VDDQ<br />
H2<br />
VDDQ<br />
H9 VDDQ<br />
VDDQ<br />
A9<br />
B3 VSS<br />
A3<br />
E1<br />
VSS<br />
B3<br />
A3<br />
A1<br />
G8 VSS<br />
C3 B3<br />
J2 VSS<br />
D3 C3<br />
J8<br />
VSS<br />
E3<br />
D3<br />
M1 VSS<br />
F3 E3<br />
M9<br />
VSS<br />
G3<br />
F3<br />
P1 VSS<br />
H3 G3<br />
R143<br />
P9 VSS<br />
J3 H3<br />
T1<br />
VSS<br />
J3<br />
T9 VSS<br />
R1=50 Ohm R1 R1<br />
VSS<br />
RP1<br />
OPEN-0603SMT<br />
CTS-RT1402B7<br />
B1<br />
B9 VSSQ<br />
D1<br />
VSSQ<br />
D8 VSSQ<br />
E2<br />
VSSQ<br />
E8 VSSQ<br />
F9 VSSQ<br />
G1<br />
VSSQ<br />
G9 VSSQ<br />
VSSQ<br />
M8<br />
H1<br />
VREFCA<br />
VREFDQ<br />
ddr3-96bga<br />
R151<br />
R152<br />
50R-0402SMT 50R-0402SMT<br />
A1<br />
B1 B1<br />
C1 C1<br />
D1 D1<br />
E1 E1<br />
F1<br />
F1<br />
G1 G1<br />
H1 H1<br />
U11B<br />
DQ0<br />
R144<br />
J1<br />
J1<br />
OPEN-0603SMT<br />
R146<br />
0R-0603SMT<br />
R148<br />
R153<br />
50R-0402SMT<br />
OPEN-0603SMT<br />
ddr3-96bga<br />
R155<br />
50R-0402SMT<br />
E3<br />
F7<br />
DQ1 F2<br />
DQ2 F8<br />
DQ3<br />
DQ4 H3<br />
DQ5 H8<br />
DQ6 G2<br />
DQ7 H7<br />
A0 N3<br />
A1 P7<br />
A2 P3<br />
A3 N2<br />
A4 P8<br />
A5 P2<br />
A6 R8<br />
A7 R2<br />
T8<br />
A8<br />
A9 R3<br />
A10/AP L7<br />
A11 R7<br />
A12/BC# N7<br />
BA0 M2<br />
BA1 N8<br />
CAS# K3<br />
CK J7<br />
CK# K7<br />
CKE K9<br />
L2<br />
CS#<br />
LDM E7<br />
LDQS F3<br />
LDQS# G3<br />
K1<br />
ODT J3<br />
RAS#<br />
T2<br />
RST# L3<br />
WE#<br />
ZQ L8<br />
J1<br />
NC_J1 L1<br />
NC_L1<br />
J9<br />
NC_J9 L9<br />
NC_L9 T3<br />
NC_T3<br />
T7<br />
NC_T7<br />
NC_M7 M7<br />
DQ8 D7<br />
DQ9 C3<br />
DQ10 C8<br />
DQ11 C2<br />
DQ12 A7<br />
DQ13 A2<br />
DQ14 B8<br />
DQ15 A3<br />
UDM D3<br />
UDQS C7<br />
UDQS# B7<br />
BA2 M3<br />
+<br />
C171<br />
C177 +<br />
R145<br />
0R-0603SMT<br />
C203<br />
10NF-0402SMT<br />
R149<br />
R150<br />
50R-0402SMT<br />
OPEN-0603SMT<br />
R154<br />
50R-0402SMT<br />
100NF-0603SMT<br />
C170<br />
C174<br />
C173<br />
22UF-16V-TANTBSMT<br />
100NF-0603SMT<br />
C175<br />
47UF-16V-TANTBSMT<br />
1UF-16V-0805SMT<br />
100NF-0603SMT<br />
C172<br />
R142<br />
4_7K-0603SMT<br />
1UF-16V-0805SMT<br />
DDR3_VS<br />
AVIN 6<br />
PVIN 7<br />
1<br />
GND<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
C188<br />
100NF-0603SMT<br />
C186<br />
100NF-0603SMT<br />
C185<br />
100NF-0603SMT<br />
C184<br />
C183<br />
1UF-16V-0805SMT<br />
22UF-16V-TANTBSMT<br />
10UF-16V-TANTBSMT<br />
1UF-16V-0805SMT<br />
1<br />
C189<br />
10NF-0603SMT<br />
C187<br />
2<br />
A2 A2<br />
B2 B2<br />
C2 C2<br />
D2 D2<br />
E2 E2<br />
F2<br />
F2<br />
G2 G2<br />
H2 H2<br />
J2<br />
10NF-0603SMT<br />
10NF-0603SMT<br />
C182<br />
J2<br />
100UF-D3POSCAP<br />
C195<br />
C194<br />
C193<br />
C192<br />
C191<br />
C190<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
C201<br />
C200<br />
C199<br />
C198<br />
C197<br />
C196<br />
DDR3_VREF<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
DDR3_K0<br />
PLACE CLOSE TO MEMORY CHIP<br />
1<br />
10NF-0402SMT<br />
C202<br />
2<br />
DDR3_K0#<br />
R147<br />
240R-0603SMT<br />
C205<br />
C204<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
21<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
DDR3_DQS0#<br />
DDR3_VTT<br />
DDR3_DQS0<br />
DDR3_DQS1<br />
U1B<br />
DDR3_DQS1#<br />
DDR3_WE#<br />
PT10A/TDQ7<br />
DDR3_A7<br />
DDR3_A6<br />
DDR3_DM0<br />
DDR3_CAS#<br />
DDR3_RST#<br />
DDR3_A12<br />
DDR3_DQ0<br />
DDR3_CE0<br />
DDR3_DQ1<br />
DDR3_DQ5<br />
DDR3_RAS#<br />
DDR3_DQ4<br />
DDR3_A0<br />
DDR3_DQS0<br />
DDR3_A1<br />
DDR3_DQS0#<br />
DDR3_A4<br />
DDR3_DQ2<br />
DDR3_A5<br />
DDR3_DQ3<br />
DDR3_A10<br />
DDR3_DQ7<br />
DDR3_A11<br />
Place DDR3_DQ/DQS Termination Resistors as close as possible to U1<br />
DDR3_DQ6<br />
DDR3_DQ11<br />
DDR3_VTT<br />
DDR3_DM1<br />
DDR3_A2<br />
DDR3_DQ10<br />
DDR3_A8<br />
DDR3_DQ12<br />
DDR3_A3<br />
DDR3_DQ13<br />
DDR3_ODT0<br />
B B<br />
DDR3_DQ14<br />
DDR3_A9<br />
DDR3_DQS1<br />
DDR3_DQS1#<br />
DDR3_DQ15<br />
DDR3_BA0<br />
DDR3_DQ8<br />
ECP3_VREF<br />
DDR3_DQ9<br />
DDR3_DQ5<br />
DDR3_DQ6<br />
SWITCH1<br />
DDR3_DQ13<br />
DDR3_DQ10<br />
SWITCH2<br />
DDR3_DQ4<br />
DDR3_DQ0<br />
SWITCH3<br />
DDR3_DQ14<br />
DDR3_DQ7<br />
SWITCH4<br />
PCLKT0<br />
DDR3_DQ3<br />
DDR3_DQ12<br />
PCLKT0 [9]<br />
SWITCH5<br />
PCLKC0<br />
DDR3_DQ11<br />
DDR3_DQ15<br />
PCLKC0 [9]<br />
SWITCH6<br />
DDR3_BA1<br />
DDR3_DQ9<br />
DDR3_DQ1<br />
SWITCH7<br />
DDR3_BA2<br />
DDR3_DQ8<br />
DDR3_DQ2<br />
SWITCH8<br />
Place close to FPGA<br />
DDR3_CS0#<br />
DDR3_K0<br />
DDR3_K0#<br />
100MHz 100MHz_N<br />
100MHz<br />
100MHz_N<br />
1_5V<br />
1_5V<br />
FPGA DEVICE TERMINATION for DQ/DQS SIGNALS<br />
Termination as close as possible to U1<br />
LFE3-35E-FN484CES<br />
VTT<br />
X2<br />
SWITCH1<br />
Memory<br />
U1 Pin<br />
3_3V<br />
1_5V<br />
X1<br />
SWITCH2<br />
SWITCH3<br />
A A<br />
SWITCH4<br />
D6<br />
PT10B/TDQ7 D7<br />
PT11A/TDQ16 A3<br />
PT11B/TDQ16 A4<br />
F7<br />
PT13A/TDQ16<br />
PT13B/TDQ16 G8<br />
PT14A/TDQ16 A5<br />
PT14B/TDQ16 A6<br />
PT20A/TDQ25 C8<br />
PT20B/TDQ25 C7<br />
F9<br />
PT22A/TDQ25<br />
PT22B/TDQ25 E9<br />
PT23A/TDQ25 C9<br />
PT23B/TDQ25 C10<br />
PT25A/TDQS25_P D9<br />
PT25B/TDQS25_N D10<br />
PT26A/TDQ25 B7<br />
PT26B/TDQ25 A7<br />
PT28A/TDQ25 D8<br />
PT28B/TDQ25 E7<br />
PT29A/TDQ34 B8<br />
PT29B/TDQ34 A8<br />
PT2A/TDQ7 C5<br />
PT2B/TDQ7 B4<br />
F10<br />
PT31A/TDQ34<br />
PT31B/TDQ34 E10<br />
PT32A/TDQ34 A9<br />
PT32B/TDQ34 B10<br />
PT34A/TDQS34_P E11<br />
PT34B/TDQS34_N D11<br />
PT35A/TDQ34 A10<br />
PT35B/TDQ34 A11<br />
F11<br />
PT37A/PCLKT0_0/TDQ34 F12<br />
PT37B/PCLKC0_0/TDQ34<br />
PT4A/VREF1_0/TDQ7 E6<br />
PT4B/VREF2_0/TDQ7 D5<br />
PT5A/TDQ7 C6<br />
PT5B/TDQ7 B6<br />
PT7A/TDQS7_P F8<br />
PT7B/TDQS7_N G9<br />
PT8A/TDQ7 B3<br />
PT8B/TDQ7 A2<br />
VCCIO0 H9<br />
VCCIO0 G10<br />
U1G<br />
PL11A/LDQ14<br />
TP11<br />
LFE3-35E-FN484CES<br />
X1<br />
DSC-100_00MHz<br />
E5<br />
PL11B/LDQ14 E4<br />
PL12A/LDQ14 B2<br />
PL12B/LDQ14 C2<br />
PL14A/LDQS14_P F5<br />
PL14B/LDQS14_N F4<br />
PL15A/LDQ14 D2<br />
PL15B/LDQ14 D1<br />
PL17A/LDQ14 G4<br />
PL17B/LDQ14 G5<br />
PL18A/LDQ23 E2<br />
F3<br />
PL18B/LDQ23<br />
PL20A/LDQ23 H4<br />
J4<br />
PL20B/LDQ23<br />
PL21A/LDQ23 B1<br />
PL21B/LDQ23 C1<br />
PL23A/LDQS23_P H5<br />
PL23B/LDQS23_N H6<br />
PL24A/LDQ23 G3<br />
PL24B/LDQ23 G2<br />
PL26A/VREF1_7/LDQ23 E1<br />
F1<br />
PL26B/VREF2_7/LDQ23<br />
PL27A/LDQ32 G1<br />
PL27B/LDQ32 H1<br />
J7<br />
PL29A/LUM0_GDLLT_IN_A/LDQ32 J6<br />
PL29B/LUM0_GDLLT_IN_B/LDQ32<br />
PL30A/LUM0_GDLLT_FB_A/LDQ32 H2<br />
PL30B/LUM0_GDLLT_FB_B/LDQ32 H3<br />
PL32A/LDQS32_P J3<br />
PL32B/LDQS32_N K3<br />
J2<br />
PL33A/LDQ32 J1<br />
PL33B/LDQ32<br />
PL35A/PCLKT7_0/LDQ32 K4<br />
PL35B/PCLKC7_0/LDQ32 K5<br />
PL35E_A/LUM0_GPLLT_FB_A K1<br />
PL35E_B/LUM0_GPLLT_FB_B L1<br />
PL35E_C/LUM0_GPLLT_IN_A L5<br />
PL35E_D/LUM0_GPLLT_IN_B K6<br />
PL9A/LDQ14 E3<br />
PL9B/LDQ14 D4<br />
J8<br />
VCCIO7<br />
VCCIO7 K7<br />
RN1 741X083-100R<br />
1 8<br />
2 7<br />
3 6<br />
4 5<br />
C206<br />
10NF-0402SMT<br />
C207<br />
10NF-0402SMT<br />
RN2<br />
RN3<br />
741X083-100R<br />
741X083-100R<br />
1 8<br />
8 1<br />
2 7<br />
7 2<br />
3 6<br />
6 3<br />
4 5<br />
5 4<br />
1 8<br />
8 1<br />
2 7<br />
7 2<br />
3 6<br />
6 3<br />
4 5<br />
5 4<br />
RN4<br />
RN5<br />
741X083-100R<br />
741X083-100R<br />
R156<br />
100R-0402SMT<br />
L6<br />
VTT7<br />
FB23<br />
DI<br />
1 2<br />
MPZ1608Y600B<br />
100NF-0603SMT<br />
R157<br />
10K-0402SMT<br />
KOC<br />
10NF-0402SMT<br />
C208<br />
1<br />
2<br />
100NF-0603SMT<br />
C216<br />
100NF-0603SMT<br />
C215<br />
100NF-0603SMT<br />
C214<br />
100NF-0603SMT<br />
C213<br />
100NF-0603SMT<br />
C212<br />
10NF-0603SMT<br />
100NF-0603SMT<br />
C211<br />
C210<br />
10NF-0603SMT<br />
C209<br />
C218<br />
C217<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
C224<br />
C223<br />
C222<br />
C221<br />
C220<br />
C219<br />
C226<br />
DI<br />
10NF-0603SMT<br />
SWITCH5<br />
VCC 6<br />
1<br />
100MHz<br />
100MHz_N<br />
1605 Valley Center Parkway<br />
Bethlehem, PA 18017<br />
SWITCH[1..8]<br />
SWITCH6<br />
Q_N 5<br />
Q 4<br />
DIS#<br />
C225<br />
DI<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
100NF-0603SMT<br />
10NF-0603SMT<br />
100NF-0603SMT<br />
2<br />
NC<br />
10NF-0603SMT<br />
GND<br />
PAD<br />
Title<br />
DDR3 Memory<br />
Size Project Rev<br />
C<br />
B<br />
ECP3 VERSA Eval <strong>Board</strong><br />
Date: Wednesday, February 09, 2011 Sheet 7 of 11<br />
1<br />
SWITCH7<br />
3<br />
7<br />
SWITCH8<br />
SWITCH[1:8] [8]<br />
2<br />
3<br />
4<br />
5
Figure 18. LEDs and Switches<br />
1<br />
2<br />
3<br />
4<br />
5<br />
L0<br />
14-SEGMENT DISPLAY<br />
DL UP<br />
D22<br />
D21<br />
LED_GREEN_0603<br />
LED_GREEN_0603<br />
RN6A 1 16<br />
DL_UP_PU<br />
X1_DL_UP LED0<br />
LED1 X1_L0<br />
L0_PU<br />
3_3V<br />
EXB2HV151JV<br />
D D23 5 RN6B 2 15 SEG14<br />
POLL_PU<br />
X1_POLL LED2 LED3 X1_PLL_LK<br />
PLL_LK_PU<br />
D<br />
150R<br />
1 RN6C 3 14 SEG13<br />
D24<br />
D25<br />
DL_UP_PU 5 470R 12 RN7E<br />
LED_YELLOW_0603<br />
LED_YELLOW_0603<br />
EXB2HV471JV<br />
2 RN6D 4 13 SEG12<br />
POLLING STATUS<br />
PLL LOCK STATUS<br />
USR3_PU 4 470R 13 RN7D<br />
3 RN6E 5 12 SEG11<br />
EXB2HV471JV<br />
LEDs<br />
4 RN6F 6 11 SEG10<br />
POLL_PU 7 470R 10 RN7G<br />
LED USER 2<br />
EXB2HV471JV<br />
3_3V<br />
12 RN6G 7 10 SEG9<br />
LED USER 3<br />
D27<br />
D26<br />
LED_RED_0603<br />
USR0_PU 1 470R 16 RN7A<br />
14<br />
13 RN6H 8 9 SEG8<br />
LED_RED_0603<br />
EXB2HV471JV<br />
USR3_PU<br />
X1_USR3 LED4 LED5 X1_USR2<br />
USR2_PU<br />
15 RN8A 1 16 SEG7<br />
L0_PU 6 470R 11 RN7F<br />
USR0_PU<br />
X1_USR0 LED6 LED7 X1_USR1<br />
USR1_PU<br />
EXB2HV471JV<br />
9 RN8B 2 15 SEG6<br />
D29<br />
D28<br />
USR2_PU 3 470R 14 RN7C<br />
16 RN8C 3 14 SEG5<br />
LED_BLUE_0603<br />
LED_BLUE_0603<br />
EXB2HV471JV<br />
LED USER 0<br />
LED USER 1<br />
8 RN8D 4 13 SEG4<br />
PLL_LK_PU 8 470R 9 RN7H<br />
EXB2HV471JV<br />
7 RN8E 5 12 SEG3<br />
USR1_PU 2 470R 15<br />
RN7B<br />
C C<br />
6 RN8F 6 11 SEG2<br />
EXB2HV471JV<br />
LED[0:7]<br />
SEG[0:14]<br />
SEG1<br />
SEG0<br />
11 RN8G 7 10<br />
10 RN8H 8 9<br />
150R<br />
14-SEGMENT EXB2HV151JV<br />
A B C D E F G H J K L M N P DP<br />
22<br />
LED[0:7] [6]<br />
SEG[0:14] [5]<br />
SWITCH[1:8] [7]<br />
DIP SWITCH/BANK=1.5V<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
1_5V<br />
B B<br />
SWITCH1 1 4_7K 16 RN9A<br />
EXB2HV472JV<br />
2 4_7K 15 RN9B<br />
EXB2HV472JV<br />
3 4_7K 14 RN9C<br />
EXB2HV472JV<br />
4 4_7K 13 RN9D<br />
EXB2HV472JV<br />
5 4_7K 12 RN9E<br />
EXB2HV472JV<br />
6 4_7K 11 RN9F<br />
EXB2HV472JV<br />
SWITCH2<br />
SW3<br />
SWITCH3<br />
SWITCH4<br />
SWITCH5<br />
SWITCH[1..8]<br />
SWITCH1<br />
SWITCH2<br />
SWITCH3<br />
SWITCH4<br />
SWITCH5<br />
SWITCH6<br />
SWITCH7<br />
SWITCH8<br />
SWITCH6<br />
7 4_7K 10 RN9G<br />
EXB2HV472JV<br />
TDA DIP-8<br />
SWITCH7<br />
SWITCH8 8 4_7K 9 RN9H<br />
EXB2HV472JV<br />
A A<br />
1605 Valley Center Parkway<br />
Bethlehem, PA 18017<br />
Title<br />
LEDs & Switches<br />
Size Project Rev<br />
B<br />
B<br />
ECP3 VERSA Eval <strong>Board</strong><br />
Date: Wednesday, February 09, 2011 Sheet 8 of 11<br />
1<br />
2<br />
3<br />
4<br />
5
Figure 19. Reference Clock Generator<br />
1<br />
2<br />
3<br />
4<br />
5<br />
3_3V<br />
156MHz_VREF<br />
X2<br />
156.25MHz<br />
D 6<br />
4<br />
156MHz<br />
D<br />
VCC OUTP<br />
3<br />
156MHz_EN<br />
CLK_VCC<br />
GND<br />
EN 156MHz_EN [3]<br />
1<br />
FB24<br />
DI<br />
1 2<br />
R159<br />
DI<br />
MPZ1608Y600B<br />
220R-0402SMT<br />
100NF-0603SMT<br />
C227 C228<br />
DI DI<br />
NC2<br />
PAD<br />
NC1<br />
5<br />
7<br />
2<br />
10NF-0603SMT<br />
PCSA_REFCLKP<br />
PCSA_REFCLKP [4]<br />
R163<br />
D30<br />
3_3V<br />
680R-0402SMT LED_GREEN_0603<br />
CLK_LOCK1<br />
VCCO<br />
PCSA_REFCLKN<br />
PCSA_REFCLKN [4]<br />
CLK_SDA<br />
CLK_SCL<br />
45<br />
[4] PRSNT<br />
USER3<br />
PCLKT0<br />
PCLKT0 [7]<br />
[3] CLK_RESETn<br />
3_3V<br />
CLK_RESETn<br />
PCLKC0<br />
PCLKC0 [7]<br />
C C<br />
PCIE_CLKP<br />
EXPCON_OSC<br />
[4] PCIE_CLKP<br />
U13<br />
R168<br />
EXPCON_OSC [10]<br />
PCIE_CLKN<br />
DI 10R-0402SMT<br />
[4] PCIE_CLKN<br />
156MHz<br />
156MHz_VREF<br />
ispCLOCK5406D<br />
[3] SCL<br />
CLK_SCL CLK_SCL<br />
DI<br />
[3] SDA<br />
CLK_SDA<br />
USER2<br />
46 USER1<br />
47 USER0<br />
48<br />
33<br />
VCCO_0 35<br />
BANK_0P<br />
BANK_0N<br />
42<br />
RESETb<br />
38<br />
39 TDO<br />
40<br />
TMS<br />
41 TCK<br />
TDI<br />
34<br />
36<br />
GNDO_0<br />
32<br />
VCCO_1 31<br />
BANK_1P<br />
BANK_1N 29<br />
GNDO_1<br />
30<br />
25<br />
VCCO_2 27<br />
BANK_2P<br />
BANK_2N 28<br />
GNDO_2<br />
26<br />
12<br />
VCCO_3 10<br />
BANK_3P<br />
BANK_3N 9<br />
GNDO_3<br />
11<br />
5<br />
VCCO_4 6<br />
BANK_4P<br />
BANK_4N 8<br />
GNDO_4<br />
7<br />
4<br />
VCCO_5 2<br />
BANK_5P<br />
BANK_5N 1<br />
GNDO_5<br />
3<br />
R166<br />
DI<br />
R158<br />
220R-0402SMT<br />
DI 10R-0402SMT<br />
R164<br />
DI 10R-0402SMT<br />
R160<br />
0R-0402SMT<br />
R161<br />
DI 10R-0402SMT<br />
R162<br />
4_7K-0402SMT<br />
R165<br />
24<br />
DI 10R-0402SMT<br />
RREF<br />
R167<br />
16<br />
470R-0402SMT<br />
15<br />
REFAP<br />
DI<br />
14 REFAN<br />
REFAVTT<br />
19<br />
18 REFBP<br />
17<br />
REFBN<br />
J13<br />
REFBVTT<br />
22<br />
1<br />
21 FBKP<br />
2<br />
20 FBKN<br />
3<br />
FBKVTT<br />
HEADER 3(DNP)<br />
R169<br />
R170<br />
0R-0603SMT<br />
37<br />
23<br />
VCCJ<br />
VCCA<br />
VCCD 44<br />
23<br />
0R-0603SMT<br />
B B<br />
GNDA<br />
GNDD<br />
DIE_PAD<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
13<br />
43<br />
49<br />
3_3V<br />
CLK_VCC<br />
1<br />
FB25<br />
MPZ1608Y600B<br />
CLK_VCC<br />
VCCO<br />
R171 R172<br />
R173<br />
DI<br />
4_7K-0402SMT 4_7K-0402SMT 4_7K-0402SMT<br />
10NF-0603SMT 10NF-0603SMT<br />
DI DI<br />
DI<br />
J14<br />
2<br />
100NF-0603SMT<br />
3_3V<br />
2 1<br />
TDO VCC<br />
C229<br />
3<br />
TDI<br />
6.8UF-0805SMT<br />
C231<br />
C233<br />
C234 C235 C236<br />
4<br />
ispEN_N<br />
6V<br />
DI<br />
C232 DI<br />
DI DI<br />
DI<br />
5<br />
NC<br />
TANT<br />
DI<br />
6<br />
TMS<br />
DI<br />
8<br />
TCK<br />
9<br />
DONE<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
560PF-0603SMT<br />
10 7<br />
INITN GND<br />
A R174<br />
A<br />
1K-0603SMT<br />
DNI<br />
Place bypass caps close to output bank<br />
1605 Valley Center Parkway<br />
Bethlehem, PA 18017<br />
HEADER 10<br />
supply pins.<br />
Title<br />
100NF-0603SMT<br />
C230<br />
REF CLOCK GEN<br />
Size Project Rev<br />
B<br />
B<br />
ECP3 VERSA Eval <strong>Board</strong><br />
Date: Tuesday, February 22, 2011 Sheet 9 of 11<br />
1<br />
2<br />
3<br />
4<br />
5
Figure 20. Expansion Connector<br />
1<br />
2<br />
3<br />
4<br />
5<br />
Pin 2 removed for coding<br />
of expansion board<br />
X3<br />
X4<br />
1 2<br />
HPE_RESOUT# 1 2<br />
2_5V<br />
R175 EXPCON_2V5 3 4 EXPCON_IO29 EXPCON_IO0 3 4 EXPCON_IO1<br />
0R-0603SMT EXPCON_IO30 5 6 EXPCON_IO31<br />
EXPCON_IO2 5 6 EXPCON_IO3<br />
EXPCON_IO32 7 8 EXPCON_IO33<br />
EXPCON_IO4 7 8 EXPCON_IO5<br />
EXPCON_IO34 9 10 EXPCON_IO35<br />
EXPCON_IO6 9 10 EXPCON_IO7<br />
D EXPCON_IO36<br />
EXPCON_IO37<br />
EXPCON_IO8<br />
EXPCON_IO9<br />
D<br />
TP12 TP13<br />
11 12<br />
11 12<br />
EXPCON_IO38 13 14 EXPCON_IO39<br />
EXPCON_IO10 13 14 EXPCON_IO11<br />
GND<br />
5VIN<br />
EXPCON_IO40 15 16 EXPCON_IO41<br />
EXPCON_IO12 15 16 EXPCON_IO13<br />
EXPCON_IO42 17 18 EXPCON_IO43<br />
EXPCON_IO14 17 18 EXPCON_IO15<br />
EXPCON_IO44 19 20 EXPCON_IO45<br />
19 20 EXPCON_3V3<br />
21 22<br />
EXPCON_IO16 21 22<br />
3_3V<br />
EXPCON_2V5 23 24<br />
EXPCON_IO17 23 24<br />
3_3V<br />
25 26<br />
EXPCON_IO18 25 26<br />
27 28<br />
EXPCON_IO19 27 28 EXPCON_IO20<br />
EXPCON_OSC 29 30<br />
EXPCON_IO21 29 30<br />
R177<br />
R176<br />
EXPCON_CLKIN 31 32<br />
EXPCON_IO22 31 32 EXPCON_IO23<br />
0R-0603SMT- DNI<br />
0R-0603SMT<br />
EXPCON_CLKOUT 33 34<br />
EXPCON_IO24 33 34<br />
35 36<br />
EXPCON_IO25 35 36 EXPCON_IO26<br />
37 38<br />
EXPCON_IO27 37 38 CARDSEL#<br />
EXPCON_3V3 39 40<br />
EXPCON_IO28 39 40<br />
HDR40<br />
HDR40<br />
EXPCON_OSC [9]<br />
EXPCON_OSC<br />
C C<br />
U1C<br />
B11 EXPCON_IO0<br />
PT38A/TDQ43 B12 EXPCON_IO1<br />
PT38B/TDQ43<br />
1_TXC<br />
PT40A/PCLKT1_0/TDQ43 1_TXC [5]<br />
EXPCON_CLKOUT<br />
EXPCON_IO45<br />
EXPCON_IO2<br />
EXPCON_IO44<br />
EXPCON_IO3<br />
EXPCON_IO43<br />
EXPCON_IO4<br />
EXPCON_IO42<br />
EXPCON_IO5<br />
EXPCON_IO41<br />
EXPCON_IO6<br />
EXPCON_IO40<br />
EXPCON_IO7<br />
CARDSEL#<br />
EXPCON_IO8<br />
HPE_RESOUT#<br />
EXPCON_IO9<br />
EXPCON_IO39<br />
EXPCON_IO10<br />
EXPCON_IO38<br />
EXPCON_IO11<br />
EXPCON_IO37<br />
EXPCON_IO12<br />
EXPCON_IO36<br />
EXPCON_IO13<br />
EXPCON_IO30<br />
EXPCON_IO14<br />
EXPCON_IO31<br />
EXPCON_IO15<br />
EXPCON_CLKIN<br />
EXPCON_IO16<br />
EXPCON_IO17<br />
B EXPCON_IO32<br />
EXPCON_IO18<br />
B<br />
EXPCON_IO33<br />
EXPCON_IO19<br />
EXPCON_IO34<br />
EXPCON_IO20<br />
EXPCON_IO35<br />
EXPCON_IO21<br />
2_TXC<br />
EXPCON_IO22<br />
2_TXC [6]<br />
EXPCON_IO23<br />
EXPCON_IO24<br />
EXPCON_IO25<br />
EXPCON_IO26<br />
3_3V<br />
EXPCON_IO27<br />
EXPCON_IO28<br />
3_3V<br />
EXPCON_IO29<br />
3_3V<br />
C12<br />
PT40B/PCLKC1_0/TDQ43 D12<br />
A12<br />
PT41A/TDQ43<br />
A13<br />
PT41B/TDQ43 E12<br />
PT43A/TDQS43_P<br />
PT43B/TDQS43_N E13<br />
PT44A/TDQ43 C13<br />
PT44B/TDQ43 C14<br />
PT46A/TDQ43 D13<br />
PT46B/TDQ43 D14<br />
A14<br />
PT47A/TDQ52 B14<br />
PT47B/TDQ52 F13<br />
PT49A/TDQ52<br />
F14<br />
PT49B/TDQ52 A15<br />
PT50A/TDQ52 B15<br />
PT50B/TDQ52 E16<br />
PT52A/TDQS52_P<br />
PT52B/TDQS52_N E15<br />
PT53A/TDQ52 C15<br />
PT53B/TDQ52 D15<br />
PT55A/TDQ52 G15<br />
PT55B/TDQ52 G14<br />
A16<br />
PT56A/TDQ61<br />
B16<br />
PT56B/TDQ61 F15<br />
PT58A/TDQ61 F16<br />
PT58B/TDQ61 A17<br />
PT59A/TDQ61 B18<br />
PT59B/TDQ61<br />
PT61A/TDQS61_P C17<br />
PT61B/TDQS61_N C16<br />
A18<br />
PT62A/TDQ61 A19<br />
PT62B/TDQ61<br />
PT64A/VREF1_1/TDQ61 D16<br />
PT64B/VREF2_1/TDQ61 D17<br />
VCCIO1 H14<br />
VCCIO1 G13<br />
U1D<br />
E22<br />
PR18A/RDQ23<br />
F22<br />
PR18B/RDQ23 J17<br />
PR20A/RDQ23 J18<br />
PR20B/RDQ23<br />
PR21A/RDQ23<br />
LFE3-35E-FN484CES<br />
G21<br />
PR21B/RDQ23 G22<br />
J19<br />
PR23A/RDQS23_P<br />
PR23B/RDQS23_N J20<br />
PR24A/RDQ23 H21<br />
PR24B/RDQ23 H22<br />
K17<br />
PR26A/VREF1_2/RDQ23<br />
K18<br />
PR26B/VREF2_2/RDQ23 J22<br />
PR27A/RDQ32 K22<br />
PR27B/RDQ32 K20<br />
PR29A/RUM0_GDLLT_IN_A/RDQ32 K19<br />
PR29B/RUM0_GDLLT_IN_B/RDQ32<br />
K21<br />
PR30A/RUM0_GDLLT_FB_A/RDQ32 L21<br />
PR30B/RUM0_GDLLT_FB_B/RDQ32 L18<br />
PR32A/RDQS32_P<br />
PR32B/RDQS32_N L19<br />
L22<br />
PR33A/RDQ32<br />
PR33B/RDQ32 M22<br />
PR35A/PCLKT2_0/RDQ32 M21<br />
PR35B/PCLKC2_0/RDQ32 M20<br />
P21<br />
PR35E_A/RUM0_GPLLT_FB_A/RDQ32<br />
PR35E_B/RUM0_GPLLT_FB_B/RDQ32 N22<br />
PR35E_C/RUM0_GPLLT_IN_A/RDQ32 M18<br />
PR35E_D/RUM0_GPLLT_IN_B/RDQ32 N17<br />
J15<br />
VCCIO2 K16<br />
VCCIO2<br />
L17 TP14<br />
VTT2<br />
C237 C238 C239 C240<br />
24<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
LFE3-35E-FN484CES<br />
10NF-0402SMT<br />
A A<br />
1605 Valley Center Parkway<br />
Bethlehem, PA 18017<br />
100NF-0603SMT<br />
100NF-0603SMT<br />
10NF-0402SMT<br />
Title<br />
Expansion Connector<br />
Size Project Rev<br />
B<br />
B<br />
ECP3 VERSA Eval <strong>Board</strong><br />
Date: Friday, March 18, 2011<br />
Sheet 10 of 11<br />
1<br />
2<br />
3<br />
4<br />
5
Figure 21. Mechanical Drawing<br />
1<br />
2<br />
3<br />
4<br />
5<br />
D D<br />
C C<br />
25<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
B B<br />
4.75" x 6.6in<br />
Dimensions are approximations only.<br />
Refer to the PCIe Card Electromechanical Spec Rev 1.1/2.0<br />
TH3 TH4<br />
ThruHole<br />
ThruHole<br />
TH1<br />
ThruHole<br />
1605 Valley Center Parkway<br />
TH2<br />
Bethlehem, PA 18017<br />
A ThruHole<br />
A<br />
Title<br />
Mechanical<br />
Mechanical<br />
Mechanical<br />
Size Project Rev<br />
A<br />
B<br />
ECP3 VERSA Eval <strong>Board</strong><br />
Date: Friday, March 18, 2011<br />
Sheet Sheet 11 of 11<br />
2<br />
1<br />
3<br />
4<br />
5
Appendix B. Bill of Materials<br />
Table 12. <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> Bill of Materials<br />
26<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
Item Quantity Reference Part Manufacturer Part Number Description<br />
1 1 CN1 PCI Express x1 Edge Finger<br />
Connectors<br />
PCB fingers<br />
2 34 C1, C2, C3, C4, C5, C15,<br />
C16, C20, C21, C29, C33,<br />
C83, C85, C89, C92, C96,<br />
C97, C98, C99, C100,<br />
C108, C134, C135, C136,<br />
C137, C138, C146, C202,<br />
C203, C206, C207, C208,<br />
C237, C239<br />
3 25 C6, C7, C8, C9, C11, C22,<br />
C23, C28, C34, C66, C67,<br />
C68, C69, C70, C72, C73,<br />
C77, C81, C82, C88, C91,<br />
C241, C242, C243, C244<br />
4 9 C14, C19, C24, C27, C35,<br />
C171, C173, C178, C181<br />
5 7 C13, C18, C25, C26, C36,<br />
C176, C180<br />
10NF-0402SMT Panasonic ECJ0EB1E103K CAP .01UF 25V<br />
CERAMIC X7R 0402<br />
100NF-0402SMT Panasonic ECJ-0EB1A104K CAP .1UF 10V CERAMIC<br />
X5R 0402<br />
1UF-16V-0805SMT Panasonic ECJ-2FB1C105K CAP 1UF 16V CERAMIC<br />
0805 X5R<br />
22UF-16V-TANTBSMT Kemet T491B226M016AT CAPACITOR TANT 22UF<br />
16V 20% SMD<br />
6 4 C17, C30, C37, C51 10uF, 25V-1206SMT TDK Corporation C3216Y5V1E106Z CAP CER 10UF 25V Y5V<br />
1206<br />
7 4 C31, C32, C90, C93 1NF-0402SMT TDK Corporation C1005C0G1E102J CAP CER 1000PF 25V<br />
C0G 5% 0402<br />
8 4 C38, C39, C52, C53 220NF-0402SMT TDK Corporation C1005X7R1C223K CAP CER 22000PF 16V<br />
X7R 10% 0402<br />
9 10 C40, C41, C42, C49, C50,<br />
C54, C55, C58, C63, C64<br />
22uF, 6.3V-0805SMT TDK Corporation C2012X5R0J226M CAP CER 22UF 6.3V X5R<br />
20% 0805<br />
10 4 C43, C44, C56, C57 1000pF-0402SMT Panasonic ECJ-0EB1E102K CAP 1000PF 25V<br />
CERAMIC X7R 0402<br />
11 4 C45, C48, C59, C62 330pF-0402SMT TDK Corporation C1005C0G1H331J CAP CER 330PF 50V<br />
C0G 5% 0402<br />
12 2 C46, C47 10pF-0402SMT TDK Corporation C1005C0G1H100D CAP CER 10PF 50V C0G<br />
0402<br />
12A 0 C60, C61 10pF-0402SMT DNI<br />
13 2 C65, C71 4_7UF-10V-SMT TDK Corporation C1608X5R1A475K CAP CER 4.7UF 10V X5R<br />
0603<br />
14 1 C74 3_3UF-10V-SMT TDK Corporation C1608X5R1A335K CAP CER 3.3UF 10V X5R<br />
0603<br />
15 2 C75, C76 DNI<br />
16 75 C78, C84, C95, C102,<br />
C104, C105, C107, C109,<br />
C110, C113, C115, C118,<br />
C119, C120, C121, C122,<br />
C124, C126, C128, C129,<br />
C130, C131, C133, C140,<br />
C142, C144, C145, C147,<br />
C148, C151, C153, C154,<br />
C155, C156, C157, C160,<br />
C162, C164, C166, C167,<br />
C168, C169, C172, C174,<br />
C175, C183, C185, C186,<br />
C188, C189, C191, C193,<br />
C195, C197, C199, C201,<br />
C205, C210, C212, C213,<br />
C214, C215, C216, C218,<br />
C220, C222, C224, C225,<br />
C227, C230, C231, C232,<br />
C233, C238, C240<br />
100NF-0603SMT Panasonic ECJ-1VF1C104Z CAP .1UF 16V CERAMIC<br />
Y5V 0603<br />
17 2 C79, C80 12PF-0603SMT TDK Corporation C1608C0G1H120J CAP CER 12PF 50V C0G<br />
5% 0603<br />
18 2 C86, C87 100NFX5R-0402SMT Kemet C0402C104K8PACTU CAP .10UF 10V<br />
CERAMIC X5R 0402<br />
19 18 C94, C101, C103, C106,<br />
C114, C116, C117, C123,<br />
C125, C132, C139, C141,<br />
C143, C152, C158, C159,<br />
C161, C163<br />
10uF/6V3/X7R-0805SMT AVX 08056C106KAT2A CAP CER 10UF 6.3V X7R<br />
10% 0805<br />
20 4 C111, C112, C149, C150 27pF-0603SMT Kemet C0603C270J5GACTU CAP CERAMIC 27PF 50V<br />
NP0 0603
Table 12. <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> Bill of Materials (Continued)<br />
27<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
Item Quantity Reference Part Manufacturer Part Number Description<br />
21 2 C127, C165 4_7UF-16V-0805SMT TDK Corporation C2012Y5V1C475Z/0.85 CAP CER 4.7UF 16V Y5V<br />
0805<br />
22 1 C170 47UF-16V-TANTBSMT Kemet B45196H2476K209 CAP TANTALUM 47UF<br />
10V 10% SMD<br />
23 1 C177 100UF-D3POSCAP Sanyo 6TPE100MI 100UF, 6.3V , D2E.<br />
POSCAP<br />
24 1 C179 10UF-16V-TANTBSMT AVX TAJB106K016R CAP TANTALUM 10UF<br />
16V 10% SMD<br />
25 20 C182, C184, C187, C190,<br />
C192, C194, C196, C198,<br />
C200, C204, C209, C211,<br />
C217, C219, C221, C223,<br />
C226, C228, C234, C236<br />
10NF-0603SMT Kemet C0603C103K5RACTU CAP .01UF 50V<br />
CERAMIC X7R 0603<br />
26 1 C229 6.8UF-TANT-0805SMT Kemet T494R685K006AS CAP TANT 6.8UF 6.3V<br />
10% SMD<br />
27 1 C235 560PF-0603SMT Kemet C0603C561K5RACTU CAP 560PF 50V<br />
CERAMIC X7R 0603<br />
28 4 D1, D2, D5, D6 1N4448W Fairchild 1N4448W DIODE 75V 200MA<br />
SOD523F<br />
29 4 D3, D4, D7, D8 DFLS220L Diodes Inc DFLS220L DIODE SCHOTTKY 2A<br />
20V PWRDI 123<br />
30 12 D9, D10, D11, D12, D13,<br />
D15, D16, D20, D21, D22,<br />
D30, D31<br />
LED_GREEN_0603 Kingbright APT1608SGC LED 1.6X0.8MM 568NM<br />
GRN CLR SMD<br />
31 1 D14 SCHOTTKY/VISHAY-V12P10 Vishay V12P10-M3/86A DIODE SCHOTTKY 12A<br />
100V SMPC TO-277A<br />
32 5 D17, D18, D19, D26, D27 LED_RED_0603 Kingbright APT1608EC LED 1.6X0.8MM 625NM<br />
RED CLR SMD<br />
33 1 D23 14-SEGMENT Kingbright ACPSA04-41SRWA LED Display<br />
34 2 D24, D25 LED_YELLOW_0603 Kingbright APT1608YC LED 1.6X0.8MM 588NM<br />
YLW CLR SMD<br />
35 2 D28, D29 LED_BLUE_0603 Kingbright APT1608QBC/D LED 1.6X0.8 470NM BL<br />
WTR CLR SMD<br />
36 6 FB1, FB2, FB3, FB4, FB21,<br />
FB22<br />
37 5 FB5, FB6, FB23, FB24,<br />
FB25<br />
38 14 FB7, FB8, FB9, FB10,<br />
FB11, FB12, FB13, FB14,<br />
FB15, FB16, FB17, FB18,<br />
FB19, FB20<br />
BLM41PG600SN1 Murata BLM41PG600SN1 FERRITE CHIP 60 OHM<br />
6000MA 1806<br />
MPZ1608Y600B TDK MPZ1608Y600B FERRITE CHIP 60 OHM<br />
2.3A 0603<br />
Z-600 ohm / 74279265 Wurth 74279265 FERRITE BEAD 600 OHM<br />
.2A 0603<br />
39 1 F1 F1251CT-ND Littlefuse 0154010.DR FUSEBLOCK WITH 10A<br />
FUSE SMD<br />
40 1 J1 PJ-032A CUI PJ-032A CON PWR JCK 2.0 X<br />
6.5MM VERT<br />
41 1 J2 USB_MINI_AB MOLEX 56579-0576 CONN RECEPT USB<br />
5POS RT ANG SMD<br />
42 2 J3, J14 HEADER 10 Samtec TSW-110-07-T-S 10x1-0.25 Header<br />
43 1 J4 HEADER 3X2 Samtec TSW-103-07-T-D 3x2-0.25 Header<br />
44 4 J5, J6, J7, J8 SMA Molex 73391-0060 CONN JACK SMA STR 50<br />
OHM PCB<br />
45 1 J9 0826-1X2T-23-F Bellfuse 0826-1X2T-23-F CONN MAGJACK 2PORT<br />
GIGABIT GO/Y<br />
46 2 J10, J12 HEADER 2 Samtec TSW-102-07-T-S 2x1-0.25 Header<br />
47 1 J13 HEADER 3(DNP) DNI TSW-103-07-T-S 3x1-0.25 Header<br />
48 4 L1, L2, L3, L4 4.7uH-SPD62R-472M API Delavan SPD62R-472M 6.60mm x 6.20mm x<br />
3.00mm, 4.7uH Power<br />
inductor<br />
49 1 L5 1UH-1206SMT Murata LQM31PN1R0M00L INDUCTOR 1.0UH 1.2A<br />
1206<br />
50 1 PP1 PROBEPOINT DNI<br />
51 4 Q1, Q2, Q3, Q4 2N2222/SOT23 Diodes Inc MMBT2222A-7 TRANS NPN 40V 350MW<br />
SMD SOT-23<br />
52 2 Q5, Q6 BCP69-16 NXP<br />
Semiconductors<br />
BCP69-16 TRANSISTOR PNP 20V<br />
1A SOT223
Table 12. <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> Bill of Materials (Continued)<br />
28<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
Item Quantity Reference Part Manufacturer Part Number Description<br />
53 5 RN1, RN2, RN3, RN4, RN5 741X083-100R CTS 741X083101JP RES ARRAY 100 OHM<br />
8TERM 4RES SMD<br />
54 2 RN6, RN8 EXB2HV151JV Panasonic EXB2HV151JV RES ARRAY 150 OHM 5%<br />
8 RES SMD<br />
55 1 RN7 EXB2HV471JV Panasonic EXB2HV471JV RES ARRAY 470 OHM 5%<br />
8 RES SMD<br />
56 1 RN9 EXB2HV472JV Panasonic EXB2HV472JV RES ARRAY 4.7K OHM<br />
5% 8 RES SMD<br />
57 1 RP1 CTS-RT1402B7 CTS Corporation RT2402B7 RES NET DDR SDRAM<br />
Resistor/Electrocomponents<br />
50 OHM 3X9 BGA<br />
58 14 R1, R2, R32, R33, R36,<br />
R38, R141, R145, R146,<br />
R169, R170, R175, R176,<br />
R177<br />
59 7 R3, R4, R143, R144, R148,<br />
R149, R178<br />
60 16 R5, R9, R21, R41, R42,<br />
R43, R54, R63, R64, R66,<br />
R67, R68, R69, R70, R71,<br />
R157<br />
0R-0603SMT Panasonic ERJ-3GEY0R00V RES 0.0 OHM 1/10W 0603<br />
SMD<br />
OPEN-0603SMT DNI<br />
10K-0402SMT Panasonic ERJ-2RKF1002X RES 10.0K OHM 1/10W<br />
1% 0402 SMD<br />
61 4 R6, R10, R12, R14 51K-0402SMT Panasonic ERJ-2RKF5102X RES 51.0K OHM 1/10W<br />
1% 0402 SMD<br />
62 1 R7 21_5K-0402SMT Panasonic ERJ-2RKF2152X RES 21.5K OHM 1/10W<br />
1% 0402 SMD<br />
63 1 R8 35_7K-0402SMT Panasonic ERJ-2RKF3572X RES 35.7K OHM 1/10W<br />
1% 0402 SMD<br />
64 1 R11 34K-0402SMT Panasonic ERJ-2RKF3402X RES 34.0K OHM 1/10W<br />
1% 0402 SMD<br />
65 1 R13 11_5K-0402SMT Panasonic ERJ-2RKF1152X RES 11.5K OHM 1/10W<br />
1% 0402 SMD<br />
66 1 R15 5_11K-0402SMT Panasonic ERJ-2RKF5111X RES 5.11K OHM 1/10W<br />
1% 0402 SMD<br />
67 1 R16 15K-0402SMT Panasonic ERJ-2RKF1502X RES 15.0K OHM 1/10W<br />
1% 0402 SMD<br />
68 1 R17 16_9K-0402SMT Panasonic ERJ-2RKF1692X RES 16.9K OHM 1/10W<br />
1% 0402 SMD<br />
69 1 R18 63_4K-0402SMT Panasonic ERJ-2RKF6342X RES 63.4K OHM 1/10W<br />
1% 0402 SMD<br />
70 4 R22, R23, R24, R25 1_8K-1206SMT Panasonic ERJ-8ENF1801V RES 1.80K OHM 1/4W 1%<br />
1206 SMD<br />
71 4 R26, R30, R31, R61, R179 220R-0603SMT Panasonic ERJ-3EKF2200V RES 220 OHM 1/10W 1%<br />
0603 SMD<br />
72 5 R27, R28, R29, R37, R65 10K-0603SMT Panasonic ERJ-3EKF1002V RES 10.0K OHM 1/10W<br />
1% 0603 SMD<br />
73 14 R34, R40, R51, R53, R100,<br />
R101, R103, R134, R135,<br />
R137, R162, R171, R172,<br />
R173<br />
4_7K-0402SMT Panasonic ERJ-2RKF4701X RES 4.70K OHM 1/10W<br />
1% 0402 SMD<br />
74 2 R35, R39 27R-0603SMT Panasonic ERJ-3EKF27R0V RES 27.0 OHM 1/10W 1%<br />
0603 SMD<br />
75 1 R44 12K-0603SMT Panasonic ERJ-3EKF1202V RES 12.0K OHM 1/10W<br />
1% 0603 SMD<br />
76 8 R45, R46, R47, R57, R58,<br />
R59, R72, R142<br />
4_7K-0603SMT Panasonic ERJ-3EKF4701V RES 4.70K OHM 1/10W<br />
1% 0603 SMD<br />
77 1 R48 2_2K-0603SMT Panasonic ERJ-3EKF2201V RES 2.20K OHM 1/10W<br />
1% 0603 SMD<br />
78 2 R49, R174 1K-0603SMT Panasonic ERJ-3EKF1001V RES 1.00K OHM 1/10W<br />
1% 0603 SMD<br />
79 1 R50 1M-0603SMT Panasonic ERJ-3EKF1004V RES 1.00M OHM 1/10W<br />
1% 0603 SMD<br />
80 3 R55, R56, R60 680R-0603SMT Panasonic ERJ-3EKF6800V RES 680 OHM 1/10W 1%<br />
0603 SMD<br />
81 1 R62 OPEN-0402SMT DNI<br />
82 5 R73, R74, R107, R108,<br />
R156<br />
100R-0402SMT Panasonic ERJ-2RKF1000X RES 100 OHM 1/10W 1%<br />
0402 SMD
Table 12. <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> Bill of Materials (Continued)<br />
83 47 R52, R75, R76, R77, R78,<br />
R79, R80, R81, R82, R84,<br />
R85, R86, R87, R88, R89,<br />
R90, R91, R93, R94, R95,<br />
R96, R97, R98, R99, R104,<br />
R109, R110, R111, R112,<br />
R113, R114, R115, R116,<br />
R117, R118, R120, R121,<br />
R122, R123, R124, R125,<br />
R126, R127, R129, R130,<br />
R131, R160<br />
29<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
Item Quantity Reference Part Manufacturer Part Number Description<br />
0R-0402SMT Panasonic ERJ-2GE0R00X RES 0.0 OHM 1/10W 0402<br />
SMD<br />
84 4 R83, R92, R119, R128 20R-0402SMT Vishay CRCW040220R0FKED RES 20.0 OHM 1/16W 1%<br />
0402 SMD<br />
85 2 R102, R136 1K-0402SMT Panasonic ERJ-2RKF1001X RES 1.00K OHM 1/10W<br />
1% 0402 SMD<br />
86 2 R105, R139 4_99K-0402SMT Panasonic ERJ-2RKF4991X RES 4.99K OHM 1/10W<br />
1% 0402 SMD<br />
87 2 R106, R140 4_75K-0603SMT Panasonic ERJ-3EKF4751V RES 4.75K OHM 1/10W<br />
1% 0603 SMD<br />
88 3 R132, R133, R138 33R-0402SMT Panasonic ERJ-2RKF33R0X RES 33.0 OHM 1/10W 1%<br />
0402 SMD<br />
89 1 R147 240R-0603SMT Panasonic ERJ-3EKF2400V RES 240 OHM 1/10W 1%<br />
0603 SMD<br />
90 6 R150, R151, R152, R153,<br />
R154, R155<br />
91 5 R158, R161, R164, R165,<br />
R168<br />
50R-0402SMT Vishay FC0402E50R0FST1 RES 50 OHM 50MW +/-<br />
1% 0402 SMD<br />
10R-0402SMT Panasonic ERJ-2RKF2200X RES 200 OHM 1/10W 1%<br />
0402 SMD<br />
92 2 R159, R166 220R-0402SMT Panasonic ERJ-2RKF10R0X RES 10.0 OHM 1/10W 1%<br />
0402 SMD<br />
93 1 R163 680R-0402SMT Panasonic ERJ-2RKF6800X RES 680 OHM 1/10W 1%<br />
0402 SMD<br />
94 1 R167 470R-0402SMT Panasonic ERJ-2RKF4700X RES 470 OHM 1/10W 1%<br />
0402 SMD<br />
95 2 SW1, SW2 PHP03T Panasonic EVQ-Q2K03W SPST SMD<br />
96 1 SW3 TDA DIP-8 C&K TDA08H0SB1 8-DIP<br />
97 14 TP1, TP2, TP3, TP4, TP5,<br />
TP6, TP7, TP8, TP9, TP10,<br />
TP11, TP12, TP13, TP14<br />
TestPoint DNI<br />
98 1 U1 LFE3-35E-FN484CES Lattice Semiconductor<br />
99 1 U2 LT3029EDE Linear Tech<br />
100 2 U3, U4 LT3508EUF Linear Tech<br />
101 1 U5 FT2232HL FTDI FTD2232H USB-UART/JTAG<br />
102 1 U6 93LC56-SO8 MicroChip 93LC56/SN IC EEPROM 2KBIT 2MHZ<br />
8SOIC<br />
103 1 U7 MAX6817 Maxim MAX6817-EUT+T debounce<br />
104 1 U8 M25P64-FLASH STMicro M25P64-VMF6TP Serial Flash<br />
105 2 U9, U10 88E1119R_72QFN Marvell-88E1119R GPHY<br />
106 1 U11 ddr3-96bga Micron MT41J64M16JT-15E:G 64Mb/x16, 1.5V, 96-ball<br />
FBGA, 667 MHz, DDR3-<br />
1333<br />
107 1 U12 LP2998-SO8 National �<br />
Semiconductor<br />
LP2998MAX/NOPB Termination regulator<br />
108 1 U13 ispClock5406D Lattice Semiconductor<br />
109 1 X1 DSC-100_00MHz Discera DSC1123AE2-100.0000<br />
Alternate:<br />
Abracon-ASVMPLV-<br />
100.000MHZ-R-T<br />
110 1 X2 156.25MHz Discera DSC1121Al1-156.2500<br />
Alternate:<br />
Abracon-ASVMPC-<br />
156.250MHZ-T<br />
100MHz Low-Jitter LVDS<br />
Clock Oscillator, 7mm x<br />
5mm, 50ppm<br />
156.25MHz Single ended<br />
CMOS Clock Oscillator,<br />
7mm x 5mm<br />
111 2 EX3, EX4 HDR40 Samtec TSW-120-07-T-D HEADER 40POS .100" DL<br />
TIN<br />
112 1 Y1 ATS120SM-1 HC-49/US-SM CTS ATS120SM-T CRYSTAL 12.0000MHZ<br />
20PF SMD
Table 12. <strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong> Bill of Materials (Continued)<br />
30<br />
<strong>LatticeECP3</strong> <strong>Versa</strong> <strong>Evaluation</strong> <strong>Board</strong><br />
User’s <strong>Guide</strong><br />
Item Quantity Reference Part Manufacturer Part Number Description<br />
113 2 Y2, Y3 25MHZ CRYSTAL Citizen HC49US-25.000MABJ-<br />
UB<br />
CRYSTAL 25.000 MHZ<br />
18PF HC49/US<br />
114 1 R19 30_1K-0402SMT Panasonic ERJ-2RKF3012X RES 30.1K OHM 1/10W<br />
1% 0402 SMD<br />
115 1 R20 20K-0402SMT Panasonic ERJ-2RKF2002X RES 20.0K OHM 1/10W<br />
1% 0402 SMD<br />
115 2 C245, C246 100PF-0402SMT Panasonic ECJ-0EB1E102K CAP 100PF 25V<br />
CERAMIC X7R 0402<br />
116 2 C10, C12 3_3UF-10V-0805SMT Panasonic ECJ-2FB1A335K CAP 3.3UF 10V<br />
CERAMIC X5R 0805