Download SIMPlugIN-LX45 User Manual
Transcript
SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 1 of 24 SIMPlugIN-LX45 User Manual ... a SIMPlugIN board® family member Revision: see file name on page header Date: September 13th 2011 SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc REVISION HISTORY 0.1 0.2 First release Corrected factory default jumper configuration page 2 of 24 SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 3 of 24 0) INTRODUCTION AND REFERENCES ................................................................................... 5 0.1) References..............................................................................................................................................................................5 1) GENERAL DESCRIPTION...................................................................................................... 6 1.1) Overall block diagram..........................................................................................................................................................6 1.2 ) Power supply block diagram...............................................................................................................................................7 1.2.1) Power Input voltage and protections ...........................................................................................................................9 1.3 ) User connectors ..................................................................................................................................................................10 1.4 ) Exceptions in user connector uniformity .........................................................................................................................11 1.5 ) VREF for FPGA banks .....................................................................................................................................................11 1.6 ) Oscillators ...........................................................................................................................................................................11 1.7 ) EEPROM............................................................................................................................................................................11 1.8 ) User LEDs, pushbuttons and microswtiches ...................................................................................................................11 1.9 ) Power-on reset....................................................................................................................................................................11 1.10 ) SPI flash memory.............................................................................................................................................................11 1.11 ) FTDI USB -> serial chip .................................................................................................................................................12 1.12 ) DDR2 memory..................................................................................................................................................................12 1.13 ) JTAG interface.................................................................................................................................................................12 2) CONNECTORS ..................................................................................................................... 13 2.1 ) CON14 , power input.........................................................................................................................................................13 2.2 ) CON11, JTAG programming for standard programmers ............................................................................................13 2.3 ) CON12, SPI programming for standard programmers................................................................................................13 2.4 ) CON10, SPI and JTAG programming for SIMPlugIN programmer..........................................................................14 2.5 ) CON13, mini USB .............................................................................................................................................................14 2.6 ) CON1, CON2,…, CON9: User connectors ......................................................................................................................15 2.6.1) BANK 0 user connectors .............................................................................................................................................16 2.6.2) BANK 1 user connectors .............................................................................................................................................17 2.6.3) BANK 2 user connectors .............................................................................................................................................19 3) CONFIGURATION JUMPERS .............................................................................................. 21 3.1 ) Power supply configuration ..............................................................................................................................................21 SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 4 of 24 3.2 ) Other configuration jumpers ............................................................................................................................................22 4) LEDS, PUSHBUTTONS, MICROSWITCHES, TESTPOINTS AND OSCILLATORS............ 22 4.1 ) LEDs....................................................................................................................................................................................22 4.1.1) User LEDS ....................................................................................................................................................................22 4.1.2) Other LEDs ..................................................................................................................................................................22 4.2 ) Pushbuttons ........................................................................................................................................................................23 4.2.1) PUSHB0 ........................................................................................................................................................................23 4.2.1) PUSHB1 , 2 ,3 , 4 ..........................................................................................................................................................23 4.3 ) Microswitches.....................................................................................................................................................................23 4.4 ) Testpoints............................................................................................................................................................................24 4.5 ) Oscillators ...........................................................................................................................................................................24 4.5.1) 25 MHz..........................................................................................................................................................................24 4.5.2) User oscillator...............................................................................................................................................................24 APENDICES A) Board layout B) Schematics C) Bill of Materials SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 5 of 24 0) Introduction and references This manual describes how to operate SIMPlugIN-LX45 board. SIMPlugIN board is intended for engineers (engineering students too) that want to enjoy an easy to use and easy to expand FPGA developpment board. This board provides on board the essential elements - FPGA itself (in this case: Xilinx Spartan 6 model LX45 in BGA 484 package, 2 speed grade, Comercial temperature range) - DDR2 memory; 64Mx16 ( 128 Mbytes), up to 300 MHz clock, 600 MHz data rate. - SPI flash memory: 64Mbit ( 8 Mbyte ) for fpga content (a little less than 2 Mbyte) plus 6 Mbyte extra of aditional storage (for instance for Microblaze embedded processor firmware) - Power supply - Console port ( USB serial device) - A few user leds and switches In adition to these essential elements the board offers 9 connectors with 20 fpga pins each ( a total for 180 pins available to the user). The connectors are standard and easy to use: - 0.10” ( 2.54 mm) pitch - 2x17 right angle male header - fully polarized SIMPlugIN board® family offers many off the self boards that inmediately expand the capability of SIMPlugINLX45 board. At the date of writing this manual there are 8 models avialable of add-on boards: - SIMPlugIN-VIDEO video DAC to be able to implement VGA video output. - SIMPlugIN-ETHERNET 100 with 10/100 Ethernet phy chip. - SIMPlugIN-USB with USB 2.0 (12 Mbit, full speed) device transceiver chip - SIMPlugIN- SD with SD card slot - SIMPlugIN- SERIAL 1 x RS232 plus 2 x RS485 (the three interfaces can be used simultaneously) - SIMPlugIN-LED 20 x test point plus 20 x led (both red and green led for each test point) - SIMPlugIN-DIGIT with 2 x hex display ( 7 segment display) + 4 micro switches - SIMPlugIN-PROT prototyping board with perforated 0.10” grid and two sided plated holes 0.1) References Note: from time to time companies modify their web pages. So, some of the detailed web link may be obsolete when you read the present document. - Many documents are available in www.xilinx.com concerning Spartan 6 FPGA. In http://www.xilinx.com/support/documentation/spartan-6.htm there is comprehensive list of them. W971GG6JB DDR2 SDRAM data sheet Revision A06 in www.winbond.com W25Q64BV (64M-bit) Serial (SPI) Flash memory data sheet Revision E in www.winbond.com Male, 2x17 pin connector (on SIMPlugIN-LX45 board) model 75867-106LF. See 75867 family data sheet Rev:AM Dec 1 6 , 2 0 1 0 in www.fciconnect.com Female 2x17 pin connector (on all SIMPlugIN add-on boards) model SFH11-PBPC-D17-RA-BK. See data sheet in www.sullinscorp.com FT232RL usb-serial chip. See datasheet and download software drivers (for Windows, Linux, Mac,…) in www.ftdichip.com 24AA02E48T eeprom with I2C interface and unique serial number. See data sheet in www.microchip.com SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 6 of 24 1) General description EEPROM 1.1) Overall block diagram . 25 MHz oscillator VCC0-1 CON3 Symbols user oscillator functional block CON4 connector bus JTAG +1.8 VCC0-2 4 user LEDs control signals CON5 power supply +3.3-INT +1.2 FPGA BANK1 VCC0-1 +1.8 DDR2 memory BANK3 VCC0-0 CON1 BANK0 VCC0-0 CON13 FTDI USB -> serial CON2 console 4 user push buttons BANK2 VCC0-2 CON6 VCC0-2 CON7 4 user micro switches power-on RESET button CON8 JTAG CON11 SPI flash memory std. JTAG programmer CON10 SIMPlugIN programmer CON9 JTAG SPI VCC0-0 VCC0-1 VCC0-2 SPI CON12 std. SPI programmer CON14 5 volt DC input power supply +1.2 +1.8 +3.3-INT +3.3 +5.0 SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 7 of 24 1.2 ) Power supply block diagram CON14 5 volt DC input +5.0 overcurrent protection reversal protection DC/DC converter (nominal 3 amp) overvoltage protection A B C +1.2 JMP23 +3.3 DC/DC converter (nominal 3 amp) A B +3.3-INT JMP21 DC/DC converter (nominal 3 amp) VCC_CUST JMP22 A B C D E VCC_CUST voltage select +3.3 VCC0-0 A B C JMP24 VCC_CUST VCCO-0 voltage select A B C JMP25 +3.3 VCC0-1 A B C VCCO-1 voltage select JMP26 VCC_CUST A B C JMP27 +3.3 VCC0-2 A B C VCCO-2 voltage select JMP28 VCC_CUST A B C JMP29 voltage regulator +3.3 (nominal 1.5 amp) A B JMP20 +1.8 SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 8 of 24 Some jumpers should always be populated (in ALL its positions) in normal operation. Their function is to allow the user to open the circuit and so be able to put in series ammeter(s) to monitor the current(s) of each power supply. : JMP23 to monitor +1.2 power supply ( the one used by FPGA core) JMP20 to monitor +1.8 power supply (used by DDR2 and bank 3 of FPGA chip) JMP21 to monitor +3.3-INT (used to power VCCAUX of FPGA chip AND to feed the linear voltage regulator that generates +1.8 power supply Notes: a) In adition of DDR2 and bank 3 of FPGA, +1.8 supplies a little current to FTDI chip and some pullups (see page 4 of the schematics). b) [current used by VCCAUX] = [current measured in JMP21] – [current measured in JMP20] The rest of the jumpers shown in the above figure are configuration jumpers JMP22 configures the voltage of VCC_CUST - position A populated, all others not populated: 1.2 volt - position B populated, all others not populated: 1.5 volt - position C populated, all others not populated: 1.8 volt - position D populated, all others not populated: 2.5 volt - position E populated, all others not populated: 3.3 volt Note: all other combinations are not harmful but are not usual. For example: o all positions not populated: 0,75 volt (too low) o position C and D both populated, all other not populated: 2.64 volt ( not standard) JMP24 and JMP25 configure VCCO-0 FPGA bank 0 Asociated user connectors: CON1 and CON2 JMP24 JMP25 fully populated completely NOT populated completely NOT populated fully populated All other combinations voltage VCC_CUST +3.3 ILEGAL, dangerous DANGER !! some illegal icombinations could damage the board and/or add-on boards pluged into ANY of user connector, even corresponding to OTHER banks. JMP26 and JMP27 configure VCCO-1 FPGA bank 1 Asociated user connectors: CON3 , CON4 and CON5 JMP26 JMP27 fully populated completely NOT populated completely NOT populated fully populated All other combinations voltage VCC_CUST +3.3 ILEGAL, dangerous DANGER !! some illegal icombinations could damage the board and/or add-on boards pluged into ANY of user connector, even corresponding to OTHER banks. JMP28 and JMP29 configure VCCO-2 FPGA bank 1 Asociated user connectors: CON6 , CON7 , CON8 and CON9 JMP28 JMP29 fully populated completely NOT populated completely NOT populated fully populated All other combinations voltage VCC_CUST +3.3 ILEGAL, dangerous DANGER !! some illegal icombinations could damage the board and/or add-on boards pluged into ANY of user connector, even corresponding to OTHER banks. SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 9 of 24 1.2.1) Power Input voltage and protections The board must be powered with 5 volt DC with +/- 5% tolerance. A maximun current of 3 AMP ( so 15 wats) is specified. A cable is provided to power the board from a laboratory power supply. This cable is not standard but is composed of standard componentes: - 1 unit of cable assemblly with power jack. - 1 unit of red PLUG BANANA. - 1 unit of black PLUG BANANA. To power the board from AC mains (if you do not have laboratory power supply) use a wall power supply unit with 5 volt DC , 3 amp. Notice that such a wall power unit is optional and must be purchased separatedly. Many protections are provided - - Over current: o nominal 3 amp resettable fusible proteccts 5 volt DC input o +1.8 is current limited ( around 2.4 amp) by its voltage regulator. Also it thermally protects itself. o +1.2 , +3.3 (that includes +3.3-INT) and VCC_CUST are independtly current limited by its respective voltage regulator ( around 6 amp). Also each is independently thermally protected. Voltage reversal: the input will tolerate a reversed voltage down to minus 17 volt. Any voltage bellow that (either continous or temporary peak) will damage the board Overvoltage: the input will tolerate up to 17 volt of DC. Any voltage about that (either continous or temporary peak) will damage the board. Reverse voltage symptom: the board will not be internally powered a not a single LED will be lit. Overvoltage symtom: LD11 will be lit, all the others will not. Notice that LD11 is the only yellow led in the board, also is the only 5 mm through hole led. BE CAREFUL, even with those protections the board will not survive a “masive” abuse like connecting it directly to the AC mains (even the relatively “mild” 100 AC volt mains in U.S.A) MORE: you clearly risk FIRE if you do it. SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 10 of 24 1.3 ) User connectors Each of the nine ( CON1, CON2,…CON9) user connectors provides 20 FPGA I/O pins plus 3 different power supplies: - VCCO correspondiing to its asociated bank - 3.3 volt - 5.0 volt DANGER !! if the user uses 5.0 volt. in his or her custom add-on board then care must be taken that any of the 20 FPGA pins does NOT receive more than 3.3 volt since FPGA pins tolerate without problem 3.3 volt (even if the bank is powered by a much lower voltage like 1.8 volt or 1.5 volt) but will NOT tolerate higher than 4 volt (the FPGA chip would get permanently damaged !!). For a working example see schematics of SIMPlugIN- SERIAL board that uses 5 volt but does not send any 5 volt signal back to FPGA pins. With very minor exceptions (see next point bellow) the pins in the 9 user connector are distributed as shown in the following figuere +3.3 +5.0 JMP5 JMP6 GND VCCO-1 GND VCCO-1 IO_L31P_A19_M1CKE_1 IO_L31N_A18_M1A12_1 IO_L52P_M1DQ14_1 IO_L52N_M1DQ15_1 GND VCCO-1 IO_L37P_A7_M1A0_1 IO_L37N_A6_M1A1_1 IO_L50P_M1UDQS_1 IO_L50N_M1UDQSN_1 GND VCCO-1 IO_L41P_GCLK9_IRDY 1_M1RASN_1 IO_L41N_GCLK8_M1CASN_1 IO_L48P_HDC_M1DQ8_1 IO_L48N_M1DQ9_1 GND VCCO-1 IO_L44P_A3_M1DQ6_1 IO_L44N_A2_M1DQ7_1 IO_L46P_FCS_B_M1DQ2_1 IO_L46N_FOE_B_M1DQ3_1 GND VCCO-1 HEADER_17X2_MALE_R/A IO_L19P_1 IO_L19N_1 IO_L20P_1 IO_L20N_1 CON3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 See detailed complete pin-out in 2.6) point in this documents. Notice: - power (VCCO-? , +3.3 and +5.0) are always in the same pins in all the connectors (where “?” in VCCO-? Is 0, 1, or 2 for FPGA bank 0, 1, 2, respectively) - pin 23 and pin 25 are always a pair of global clocks (can be used as a differencial pair or as two separated single ended clocks). - two connectors, CON1 and CON2 have one aditional pair of global clocks - the 20 pins are grouped in 10 pairs that follow paired pins of FPGA (with only one single exception in CON2, see next point bellow). The two tracks, negative and positive, of each pair have PCB tracks that are carefully matched lenghts (notice different pairs have different lenghts, that is, the pairs are matched within themselves but NOT with respect to other pairs). - +3.3 and +5.0 power lines are fed to the connector through jumpers. Remove these jumpers unless you are really using this power supplies in your custom add-on board. SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 11 of 24 1.4 ) Exceptions in user connector uniformity Each of the nine ( CON1, CON2,…CON9) are very similar except the following differences: - CON2 , pins 6 and 8 do NOT correspond to a pair of FPGA pins. CON1 and CON2 have an aditional pair of global clocks. CON1 and CON2 are connected to FPGA bank 0 and powered by VCCO-0 (as bank 0 itself) CON3 , CON4 and CON5 are connected to FPGA bank 1 and powered by VCCO-1 (as the bank 1 itself) CON6 , CON7, CON8 and CON9 are connected to FPGA bank 2 and powered by VCCO-2 (as the bank 2 itself) 1.5 ) VREF for FPGA banks Each FPGA bank 0,1,2 have a voltage divider (implemented with two 100 ohm resistors) bypassed with capacitors that feeds all the VREF pins of each bank with its VCC0-? divided by two (where “?” is 0,1,2) . That allows the user to select for each pin all I/O standard except HSTL_III and HSTL_III_18 (the only two I/O standard that require VREF different to VCCO / 2 ). See Xilinx documents “Spartan-6 FPGA Data Sheet: DC and Switching Characteristics” and “Spartan-6 FPGA SelectIO Resources User Guide” 1.6 ) Oscillators The board ships with a 25 MHz oscillator in OSC1 position. Since it is on socket the user can easily change it but it must be taken into account that: - some of the FPGA examples provided suposse that this oscillator is 25 MHz if you change the frequency the behaviour of these examples (for instance, the one that exercises the USB device interface) could stop working (or will need a change in the example source code). The other oscillator (user oscillator in OSC2 position) is an empty socket available to the user. Note: the oscillator installed must be 3.3 volt , CMOS type. Notice (see schematic) that the oscillator is allways powered by 3.3 volt. The ouput of the oscillator is fed to the FPGA thorough buffers that act as level translators into whatever power is selected for bank 1. 1.7 ) EEPROM EEPROM is implemented with 24AA02E48T from Microchip. The interface with this eeprom is I2C. This eeprom provides a unique, read-only, number and identfies your board. Do not change this chip since that action would void the warranty. The write/read part of the eeprom is fully available to the user. 1.8 ) User LEDs, pushbuttons and microswtiches The boad provides 4 leds, 4 pushbuttons and an one microswitch with 4 position. 1.9 ) Power-on reset The board provides one pushbutton , PUSHB0, (independent of the four user pushbuttons mentioned above). When pressed this the signal RESET_POW_ON will be activated for about 100 msec after releasing PUSHB0. This will allow to implement a user “power on reset. 1.10 ) SPI flash memory The board provides SPI flash, 64 Mbit ( 8 Mbyte) memory that will contain FPGA configuration ( a little less than 2 Mbyte); that leaves 6 Mbytes for user data (for instance code and data for a Microblaze embeded processor). It is implement using W25Q64BVSFIG Winbond chip. The chip is always powered by 3.3 volt. A level translator chip copes with actual power of bank 2. SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 12 of 24 So, regardless of the power level used by bank 2 (for instance, 1.8 volt) the SPI flash chip will always work at 3.3 volt. Same will happen with external SPI programmer (either SIMPlugIN programmer or any standar SPI programmer): the working voltage will be 3.3 volt. The SPI memory can be programmed by an standard SPI programmer (using CON12) or SIMPlugIN programmer (using CON10). 1.11 ) FTDI USB -> serial chip The FT232RL FTDI chip interfaces USB ( PC side) to serial ( FPGA side) and provides a serial interface to FPGA (for instance for a serial console). Even if FPGA is not configured, if the board is powered when you connect (using standar USB A – mini USB cable) the board to the PC the FTDI should be recognized and a new COM port (for instance COM7) should appear in your PC. If it is not recognized then you should download software driver for your operating system (e.g. Windows 7 or Linux) for FT232R chip in www.ftdichip.com. The signals provided are: - FPGA-TxD FPGA-RxD FPGA-RTS# FPGA-CTS# FTDI pin name RTS# CTS# TxD RxD (output from FPGA, input to FTDI RxD pin) (input to FPGA, output from FTDI TxD pin) (active low, output from FPGA, input to FTDI CTS# pin) (active low, input to FPGA, output from FTDI RTS# pin) FTDI pin number 3 11 1 5 signal FPGA ball name FPGA ball number FPGA-CTS# FPGA-RTS# FPGA-RXD FPGA-TXD IO_L25P_3 IO_L25N_3 IO_L24P_3 IO_L24N_3 M6 L6 R4 P4 1.12 ) DDR2 memory Provided by one W971GG6JB Winbond chip with 64M x 16 ( 128 Mbyte) DDR2 SDRAM memory chip. Notice when devoloping your FPGA (using Xilinx ISE tools) and implement memory you should enter DDR2 memory and then select as “model” Micron MT47H64M16XX-25 that is Micron memory exact to W971GG6JB Winbond. The memory can be operated up to 300 MHz clock ( 600MHz data rate). 1.13 ) JTAG interface There are two connector to plug a JTAG programmer. CON11 for standard JTAG programmer and CON10 for SIMPlugIN JTAG/SPI programmer. In both cases the programmer will “see” 3.3 volt working voltage (regardless of the actual voltage configured for bank 2). SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 13 of 24 2) Connectors 2.1 ) CON14 , power input The board should be powered with 5 volt DC with female power plug with 2.1mm Inner Diamter and 5.5mm Outer diameter. Since the expected current for the board is 3 Amp then the connector should be rated at 5 Amp. CON14 pin out Outer contact 0 volt Inner contact +5 vol DC 2.2 ) CON11, JTAG programming for standard programmers 6x1 male header, 0.10” ( 2.54 mm) pitch is provided. CON11 pin out 1 TDO 2 TMS 3 TCK 4 TDI 5 GND 6 3.3 volt Pin 1 is clearly marked as well as the function of each pin CAUCTION: carefully verify that the connection that you make match the stated functionality of each pin. Except for GND all the pins have series resistor (330 ohm for +3.3 and 100 ohm for the rest). This series resistor do not normally interfere with JTAG programmer and are reasonable protection if the conections are missplaced. If the connections are OK and If you have problems with your JTAG programmer try reducing the programming clock frequency. Notice: due to the 330 ohm series resistor in pin 6, this pin can NOT power supply the JTAG programmer. 2.3 ) CON12, SPI programming for standard programmers 6x1 male header, 0.10” ( 2.54 mm) pitch is provided. CON12 pin out 1 MISO (output fron the board, input to the programmer) 2 SEL# (chp select, input to the board) 3 MOSI (input to the board) 4 CLK (output from the programmer) 5 GND 6 3.3 volt Pin 1 is clearly marked as well as the function of each pin SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 14 of 24 CAUCTION: carefully verify that the connection that you make match the stated functionality of each pin. Except for GND all the pins have series resistor (330 ohm for +3.3 and 100 ohm for the rest). This series resistor do not normally interfere with SPI programmer and are reasonable protection if the conections are missplaced.. If the connections are OK and If you have problems with your SPI programmer try reducing the programming clock frequency. Notice: due to the 330 ohm series resistor in pin 6, this pin can NOT power supply the SPI programmer. IMPORTANT: while using the external standard SPI programmer JMP19 must be populated this will force the FPGA SPI related pins to HiZ and so the SPI could be driven by external programmer. Remove that jumper after SPI programming to allow normal operation. 2.4 ) CON10, SPI and JTAG programming for SIMPlugIN programmer 7 x 2 male header, right angle, shrouded- Standard pin numbering (see drawing bellow). Specific connector for SIMPlugIN programmer (SPI + JTAG programmer) CON10 pin out 1 TDO 2 TMS 3 TDI 4 TCK 5 3.3 volt 6 INIT 7 DONE 8 PROG 9 5.0 volt 10 GND 11 MISO 12 CLK 13 SEL# 14 MOSI 2.5 ) CON13, mini USB Standard mini-B , USB, receptacle, right angle, through hole CON13 pin out 1 +5.0 2 DAT3 DAT+ 4 ID (NOT connected ) 5 GND The usb connects to a USB -> serial chip from FTDI ( FT232R ) SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 15 of 24 2.6 ) CON1, CON2,…, CON9: User connectors 17 x 2 male header, right angle, shrouded- Standard pin numbering (see drawing in bellow ). NOTICE that in all user connectors pins that connect to FPGA balls are routed in PCB as a pair and always goes to two paired FPGA pins. The pairs are: 5 and 7 6 and 8 11 and 13 12 and 14 17 and 19 18 and 20 23 and 25 24 and 26 29 and 31 30 and 32 ONLY exception: CON2, pins 6 and 8 do NOT make a pair. All connectors provides 2 paired global clock. Aditionally CON1 and CON2 provides 2 aditional paired global clocks. Recommended mating conector (to be used in add-on boards) Sullins Connector Solutions p/n SFH11-PBPC-D17-RA-BK. This connector is polarized and keyed so it is imposible to missplace it when pluging it into the user connectors. SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 16 of 24 2.6.1) BANK 0 user connectors FPGA ball pin power pin number 1 3.3 volt 2 5.0 volt 3 GND 4 VCCO-0 5 IO_L4P_0 B6 6 IO_L64P_SCP5_0 C17 7 IO_L4N_0 A6 8 IO_L64N_SCP4_0 A17 9 GND 10 VCCO-0 11 IO_L6P_0 B8 12 IO_L51P_0 C15 13 IO_L6N_0 A8 14 IO_L51N_0 A15 15 GND 16 VCCO-0 17 IO_L34P_GCLK19_0 B10 18 IO_L33P_0 D10 IO_L34N_GCLK18_ 19 0 A10 20 IO_L33N_0 C10 21 GND 22 VCCO-0 23 IO_L37P_GCLK13_0 B12 24 IO_L65P_SCP3_0 B18 25 IO_L37N_GCLK12_0 A12 26 IO_L65N_SCP2_0 A18 27 GND 28 VCCO-0 29 IO_L50P_0 B14 30 IO_L63P_SCP7_0 B16 31 IO_L50N_0 A14 32 IO_L63N_SCP6_0 A16 33 GND 34 VCCO-0 - CON1 FPGA pin name or FPGA ball pin power pin number 1 3.3 volt 2 5.0 volt 3 GND 4 VCCO-0 5 IO_L3P_0 D6 6 IO_L62P_0 D15 7 IO_L3N_0 C6 8 IO_L38P_0 C13 9 GND 10 VCCO-0 11 IO_L7P_0 D9 12 IO_L49P_0 D14 13 IO_L7N_0 C8 14 IO_L49N_0 C14 15 GND 16 VCCO-0 17 IO_L36P_GCLK15_0 D11 18 IO_L32P_0 D7 IO_L36N_GCLK14_ 19 0 C12 20 IO_L32N_0 D8 21 GND 22 VCCO-0 23 IO_L35P_GCLK17_0 C11 24 IO_L5P_0 C7 25 IO_L35N_GCLK16_0 A11 26 IO_L5N_0 A7 27 GND 28 VCCO-0 29 IO_L66P_SCP1_0 E16 30 IO_L2P_0 C5 31 IO_L66N_SCP0_0 D17 32 IO_L2N_0 A5 33 GND 34 VCCO-0 - CON2 FPGA pin name or Notes: - CON2 pins 6 and 8 do NOT correspond a pair of FPGA balls. These are the only exception in all 9 user connectors - Pins 23 and 25 are paired global clocks in all 9 user connectors. - CON1 and CON2 are exceptional since both have and aditional pair of global clocks in pins 17 and 19 SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 17 of 24 2.6.2) BANK 1 user connectors CON3 pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 FPGA pin name or power pin 3.3 volt 5.0 volt GND VCCO-1 IO_L19P_1 IO_L20P_1 IO_L19N_1 IO_L20N_1 GND VCCO-1 IO_L31P_A19_M1CKE_1 IO_L52P_M1DQ14_1 IO_L31N_A18_M1A12_1 IO_L52N_M1DQ15_1 GND VCCO-1 IO_L37P_A7_M1A0_1 IO_L50P_M1UDQS_1 IO_L37N_A6_M1A1_1 IO_L50N_M1UDQSN_1 GND VCCO-1 FPGA ball number B21 A20 B22 A21 D21 V21 D22 V22 F21 T21 F22 T22 - CON4 FPGA pin name or power pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 pin 3.3 volt 5.0 volt GND VCCO-1 IO_L32P_A17_M1A8_1 IO_L29P_A23_M1A13_1 IO_L32N_A16_M1A9_1 IO_L29N_A22_M1A14_1 GND VCCO-1 IO_L35P_A11_M1A7_1 IO_L30P_A21_M1RESET_1 IO_L35N_A10_M1A2_1 IO_L30N_A20_M1A11_1 GND VCCO-1 IO_L39P_M1A3_1 IO_L51P_M1DQ12_1 IO_L39N_M1ODT_1 IO_L51N_M1DQ13_1 GND VCCO-1 FPGA ball number C20 D19 C22 D20 E20 F18 E22 F19 G20 U20 G22 U22 - IO_L41P_GCLK9_IRDY1_M1RASN_ 23 1 24 IO_L48P_HDC_M1DQ8_1 H21 P21 23 IO_L43P_GCLK5_M1DQ4_1 J20 24 IO_L49P_M1DQ10_1 R20 25 26 27 28 29 IO_L41N_GCLK8_M1CASN_1 IO_L48N_M1DQ9_1 GND VCCO-1 IO_L44P_A3_M1DQ6_1 H22 P22 K21 25 26 27 28 29 30 31 32 33 34 IO_L46P_FCS_B_M1DQ2_1 IO_L44N_A2_M1DQ7_1 IO_L46N_FOE_B_M1DQ3_1 GND VCCO-1 M21 K22 M22 - 30 31 32 33 34 IO_L43N_GCLK4_M1DQ5_1 IO_L49N_M1DQ11_1 GND VCCO-1 IO_L45P_A1_M1LDQS_1 IO_L47P_FWE_B_M1DQ0_ 1 IO_L45N_A0_M1LDQSN_1 IO_L47N_LDC_M1DQ1_1 GND VCCO-1 J22 R22 L20 N20 L22 N22 - SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc FPGA ball pin pin number 1 3.3 volt 2 5.0 volt 3 GND 4 VCCO-1 5 IO_L10P_1 F16 6 IO_L33P_A15_M1A10_1 G19 7 IO_L10N_1 F17 8 IO_L33N_A14_M1A4_1 F20 9 GND 10 VCCO-1 11 IO_L9P_1 G16 12 IO_L38P_A5_M1CLK_1 H20 13 IO_L9N_1 G17 14 IO_L38N_A4_M1CLKN_1 J19 15 GND 16 VCCO-1 17 IO_L34P_A13_M1WE_1 H19 18 IO_L60P_1 W20 19 IO_L34N_A12_M1BA2_1 H18 20 IO_L60N_1 W22 21 GND 22 VCCO-1 23 IO_L40P_GCLK11_M1A5_1 K20 24 IO_L58P_1 M16 IO_L40N_GCLK10_M1A6_ 25 1 K19 26 IO_L58N_1 L15 27 GND 28 VCCO-1 29 IO_L59P_1 P19 30 IO_L21P_1 K16 31 IO_L59N_1 P20 32 IO_L21N_1 J16 33 GND 34 VCCO-1 - CON5 FPGA pin name or power page 18 of 24 SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 19 of 24 2.6.3) BANK 2 user connectors FPGA pin name or power pin 3.3 volt 5.0 volt GND VCCO-2 IO_L53P_2 IO_L47P_2 IO_L53N_2 IO_L47N_2 GND VCCO-2 IO_L54P_2 IO_L43P_2 IO_L54N_2 IO_L43N_2 GND VCCO-2 IO_L62P_D5_2 IO_L44P_2 IO_L62N_D6_2 IO_L44N_2 GND VCCO-2 IO_L30P_GCLK1_D13_2 IO_L20P_2 FPGA ball number W6 W9 Y6 Y8 Y5 Y9 AB5 AB9 W4 W10 Y4 Y10 Y13 W14 IO_L30N_GCLK0_USERCCLK_ 2 IO_L20N_2 GND VCCO-2 IO_L58P_2 IO_L21P_2 IO_L58N_2 IO_L21N_2 GND VCCO-2 AB13 Y14 Y3 Y15 AB3 AB15 - CON6 pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 FPGA ball pin power pin number 1 3.3 volt 2 5.0 volt 3 GND 4 VCCO-2 5 IO_L15P_2 Y17 6 IO_L6P_2 W18 7 IO_L15N_2 AB17 8 IO_L6N_2 Y18 9 GND 10 VCCO-2 11 IO_L14P_D11_2 AA18 12 IO_L5P_2 Y19 13 IO_L14N_D12_2 AB18 14 IO_L5N_2 AB19 15 GND 16 VCCO-2 17 IO_L19P_2 AA16 18 IO_L64P_D8_2 AA2 19 IO_L19N_2 AB16 20 IO_L64N_D9_2 AB2 21 GND 22 VCCO-2 23 IO_L31P_GCLK31_D14_2 AA12 24 IO_L57P_2 AA4 CON7 FPGA pin name or 25 26 27 28 29 30 31 32 33 34 IO_L31N_GCLK30_D15_ 2 IO_L57N_2 GND VCCO-2 IO_L45P_2 IO_L49P_D3_2 IO_L45N_2 IO_L49N_D4_2 GND VCCO-2 AB12 AB4 AA8 AA6 AB8 AB6 - SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc FPGA ball pin power pin number 1 3.3 volt 2 5.0 volt 3 GND 4 VCCO-2 5 IO_L11P_2 V17 6 IO_L9P_2 V19 7 IO_L11N_2 W17 8 IO_L9N_2 V18 9 GND 10 VCCO-2 11 IO_L17P_2 Y16 12 IO_L7P_2 T16 13 IO_L17N_2 W15 14 IO_L7N_2 T15 15 GND 16 VCCO-2 17 IO_L18P_2 V13 18 IO_L10P_2 R16 19 IO_L18N_2 W13 20 IO_L10N_2 R15 21 GND 22 VCCO-2 23 IO_L32P_GCLK29_2 Y11 24 IO_L63P_2 U6 25 IO_L32N_GCLK28_2 AB11 26 IO_L63N_2 V5 27 GND 28 VCCO-2 29 IO_L42P_2 V11 30 IO_L46P_2 W8 31 IO_L42N_2 W11 32 IO_L46N_2 V7 33 GND 34 VCCO-2 - CON8 FPGA pin name or page 20 of 24 CON9 FPGA pin name or pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 power pin 3.3 volt 5.0 volt GND VCCO-2 IO_L50P_2 IO_L40P_2 IO_L50N_2 IO_L40N_2 GND VCCO-2 IO_L59P_2 IO_L8P_2 IO_L59N_2 IO_L8N_2 GND VCCO-2 IO_L22P_2 IO_L23P_2 IO_L22N_2 IO_L23N_2 GND VCCO-2 IO_L29P_GCLK3_2 IO_L60P_2 IO_L29N_GCLK2_2 IO_L60N_2 GND VCCO-2 IO_L52P_2 IO_L51P_2 IO_L52N_2 IO_L51N_2 GND VCCO-2 FPGA ball number U9 R11 V9 T11 R9 U17 R8 U16 T12 T14 U12 R13 W12 T7 Y12 R7 T10 T8 U10 U8 - SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 21 of 24 3) Configuration jumpers 3.1 ) Power supply configuration Before proceding, please, REVIEW the following points: - 1.2 ) Power supply block diagram - 1.3 ) User connectors DEFAULT jumper configuration JMP20 JMP21 JMP22 SPECIAL: remove and substitute for ammeter to monitor +1.8 current SPECIAL: remove and substitute for ammeter to monitor +3.3-INT current To configure VCC_CUST to 1.8 volt JMP23 Fully populated Fully populated Only C position populatted Fully populated JMP24 JMP25 Completely unpopulated Fully populated VCCO-0 (power supply for FPGA bank 0 and its asociated connectors CON1 and CON2) configured to VCC_CUST JMP26 JMP27 Fully populated Completely unpopulated VCCO-1 (power supply for FPGA bank 1 and its asociated connectors CON3, CON4 and CON5) configured to 3.3 volt JMP28 JMP29 Fully populated Completely unpopulated VCCO-2 (power supply for FPGA bank 2 and its asociated connectors CON6, CON7, CON8 and CON9) configured to 3.3 volt JMP2 JMP1 unpopulated unpopulated 3.3 volt available in CON1 5.0 volt available in CON1 JMP3 JMP4 unpopulated unpopulated 3.3 volt available in CON2 5.0 volt available in CON2 JMP5 JMP6 unpopulated unpopulated 3.3 volt available in CON3 5.0 volt available in CON3 JMP7 JMP8 unpopulated unpopulated 3.3 volt available in CON4 5.0 volt available in CON4 JMP9 JMP10 unpopulated unpopulated 3.3 volt available in CON5 5.0 volt available in CON5 JMP11 JMP14 unpopulated unpopulated 3.3 volt available in CON6 5.0 volt available in CON6 JMP12 JMP15 unpopulated unpopulated 3.3 volt available in CON7 5.0 volt available in CON7 JMP13 JMP16 unpopulated unpopulated 3.3 volt available in CON8 5.0 volt available in CON8 JMP17 JMP18 unpopulated unpopulated 3.3 volt available in CON9 5.0 volt available in CON9 SPECIAL: remove and substitute for ammeter to monitor +1.2 current NOTE-1: JMP22, JMP24 and JMP25 are configured so as to provide 1.8 volt to BAK0. The reason is that that bank is the default one for SIMPlugIN-VIDEO board that works ONLY with 1.8 volt. If that is not your case then configure BANK0 supply as needed. NOTE-2: JMP1, JMP2,…., JMP18 are unpopulated but a female jumper is provided but installed so as NOT to short the tow pins of the jumper. SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 22 of 24 3.2 ) Other configuration jumpers JMP30 - when populated pulls to low FPGA HSWAP pin ( when this pin is low it enables I/O pullups before and during configuration) - default: NOT populated JMP19 - when populated forces the FPGA into programming mode and so it put all its pins en HiZ (with or without internal FPGA pullups depending on the state of HSWAP pin (see JMP30). - Default: NOT populated NOTES - While using an SPI standard programmer it is necessary to install JMP19; that way the FPGA will relase these pins to the external programmer. Remove after programming is done to allow normal operation. - That is not necessary when using SIMPlugIN programmers - Momentary installation of JMP19 will force reloading of the FPGA. 4) LEDs, pushbuttons, microswitches, testpoints and oscillators 4.1 ) LEDs 4.1.1) User LEDS There are 4 red LEDs available to the user. All are active low (lit when corresponding signal is low). IMPORTANT: since the leds are supplied with fixed 3.3 volt (independent fo the voltage selected to supply bank2) then the LEDS must be managed as Led ON: put the corresponding signal to low LED OFF put the corresponding signal HiZ LED LED1 LED2 LED3 LED4 signal LED0# LED1# LED2# LED3# Asociated FPGA ball name IO_L72P_1 IO_L71N_1 IO_L71P_1 IO_L70N_1 Asociated ball number P17 M18 M17 V20 4.1.2) Other LEDs LD5 , green, will be ON after FPGA has finished configuration (from JTAG programmer or from on board SPI memory) LD6 , green, will blink when there is activity in TX line of FTDI chip. LD7 , green, will blink when there is activity in RX line of FTDI chip. LD8 , green, will be ON when +1.8 volt is active LD9 , green, will be ON when +3.3 volt is active LD10 , green, will be ON when +5.0 volt is active SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 23 of 24 LD11, YELLOW, 5 mm. When ON it indicates OVERVOLTAGE in board power supply input. DISCONNECT INMMEDIATELY the power to the board and find out why the intended voltage is not 5 volt DC +/- 5% as it should.be. 4.2 ) Pushbuttons 4.2.1) PUSHB0 Its control circuits is U4A R18 R77 2K2 1 6 RESET-POW-ON 2 PUSHB0 +3.3-INT D1 5 1 +5.0 BAT54JFILM C14 + 74LVC2G14 2 33R +3.3-INT 100nF C15 47uF-6.3V When pressed signal RESET-POW-ON is activated ( high). When released R18 – C14 network maintains activation for around 100 msec. Note RESET-POW-ON correspondon to FPGA ball name IO_L4P_2, ball number T18. IMPORTANT: when the board is powered up a 100ms pulse of RESET-POW-ON is generated but due to the time needed for FPGA configuration is most likely than when FPGA has finished configuration the RESET-POW-ON pulse will have already finished. So this circuit is for user manual reset but NOT for power up reset. 4.2.1) PUSHB1 , 2 ,3 , 4 All of them are active low. When not pressed a pullup guaranties a high level, when pressed the signal is forced to GND (low level). IMPORTANT: there are NO provision for debouncing. So the user must supply a debouncing system in his or her FPGA design (or make it inmune to bounces). pushbutton PUSHB1 PUSHB2 PUSHB3 PUSHB4 signal PUSH_BOT0# PUSH_BOT1# PUSH_BOT2# PUSH_BOT3# FPGA ball name IO_L2P_3 IO_L7N_3 IO_L8P_3 IO_L8N_3 FPGA ball number W3 P7 P6 P5 4.3 ) Microswitches All of them are active low. When not pressed a pullup guaranties a high level, when pressed the signal is forced to GND (low level). microswitc h position 1 2 3 4 signal FPGA ball name FPGA ball number SWITCH0# SWITCH1# SWITCH2# SWITCH3# IO_L11P_3 IO_L11N_3 IO_L23P_3 IO_L23N_3 N6 N7 M7 M8 SIMPlugIN board® family Board: SIMPlugIN LX45 Document: User Manual File: simplugin-LX45_user_manual_rev_03.doc page 24 of 24 4.4 ) Testpoints Some testpoint with hook are provided for easy measurement fo the different power supply voltages. testpoint colour voltage TP1 TP2 TP3 TP4 TP5 TP6 TP7 TP8 Blue Orange Yellow Black Black White White White 5.0 3.3 VCC_CUST GND GND VCCO-0 VCCO-1 VCCO-2 comment After proteccion circuits. Will measure 0 volt (or near) if one of the protections is tripped Fixed 3.3 volt Custom voltage, depends on JMP22 configuration Reference for measurements Reference for measurements Voltage for bank 0 and asociated user connector Voltage for bank 0 and asociated user connector Voltage for bank 0 and asociated user connector 4.5 ) Oscillators 4.5.1) 25 MHz The board is shipped with 25 MHz oscillator installed in OSC1. The oscillator is socketed so the user can easily change it (use a 3.3 volt, CMOS, DIP8 oscillator). In that case take into account that some of the examples provided could work in an unexpected way. 4.5.2) User oscillator There is an empty socket in OSC2. A 3.3 volt, CMOS, DIP8 oscillator should be used. . 5 4 3 JMP30 GND VCCO-0 GND GND GND VCCO-0 GND VCCO-0 GND VCCO-0 VCCO-0 GND VCCO-0 IO_L36P_GCLK15_0 IO_L36N_GCLK14_0 IO_L32P_0 IO_L32N_0 GND VCCO-0 IO_L35P_GCLK17_0 IO_L35N_GCLK16_0 IO_L5P_0 IO_L5N_0 GND B IO_L66P_SCP1_0 IO_L66N_SCP0_0 IO_L2P_0 IO_L2N_0 VCCO-0 GND VCCO-0 VCCO-0 CON2 R2 100R -1% 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 HEADER_17X2_MALE_R/A VCCO-0 GND IO_L7P_0 IO_L7N_0 IO_L49P_0 IO_L49N_0 IO_L38P_0 IO_L37N_GCLK12_0 IO_L37P_GCLK13_0 IO_L36N_GCLK14_0 IO_L36P_GCLK15_0 VREF0 R3 100R -1% C1 C2 C3 C4 C5 100nF JMP4 GND IO_L3P_0 IO_L3N_0 IO_L62P_0 IO_L38P_0 VREF0 JMP3 100nF +5.0 D C 0402 +3.3 IO_L66N_SCP0_0 IO_L66P_SCP1_0 IO_L65N_SCP2_0 IO_L65P_SCP3_0 IO_L64N_SCP4_0 IO_L64P_SCP5_0 IO_L63N_SCP6_0 IO_L63P_SCP7_0 VREF0 IO_L62P_0 IO_L51N_0 IO_L51P_0 IO_L50N_0 IO_L50P_0 IO_L49N_0 IO_L49P_0 XC6SLX45-2FGG484C 100nF C 0402 IO_L50P_0 IO_L50N_0 IO_L63P_SCP7_0 IO_L63N_SCP6_0 IO_L32P_0 IO_L32N_0 IO_L33P_0 IO_L33N_0 IO_L34P_GCLK19_0 IO_L34N_GCLK18_0 IO_L35P_GCLK17_0 IO_L35N_GCLK16_0 100nF IO_L37P_GCLK13_0 IO_L37N_GCLK12_0 IO_L65P_SCP3_0 IO_L65N_SCP2_0 VREF0 D17 E16 A18 B18 A17 C17 A16 B16 C16 D15 A15 C15 A14 B14 C14 D14 H14 F14 F15 E14 G13 H13 D13 F13 F12 H12 D12 E12 A13 C13 A12 B12 C12 D11 IO_L66N_SCP0_0 IO_L66P_SCP1_0 IO_L65N_SCP2_0 IO_L65P_SCP3_0 IO_L64N_SCP4_0 IO_L64P_SCP5_0 IO_L63N_SCP6_0 IO_L63P_SCP7_0 IO_L62N_VREF_0 IO_L62P_0 IO_L51N_0 IO_L51P_0 IO_L50N_0 IO_L50P_0 IO_L49N_0 IO_L49P_0 NC NC NC NC NC NC NC NC NC NC NC NC IO_L38N_VREF_0 IO_L38P_0 IO_L37N_GCLK12_0 IO_L37P_GCLK13_0 IO_L36N_GCLK14_0 IO_L36P_GCLK15_0 0402 IO_L34P_GCLK19_0 IO_L34N_GCLK18_0 IO_L33P_0 IO_L33N_0 VCCO-0 IO_L2P_0 IO_L2N_0 IO_L3P_0 IO_L3N_0 IO_L4P_0 IO_L4N_0 IO_L5P_0 IO_L5N_0 IO_L6P_0 IO_L6N_0 IO_L7P_0 IO_L7N_0 IO_L1P_HSWAPEN_0 IO_L1N_VREF_0 IO_L2P_0 IO_L2N_0 IO_L3P_0 IO_L3N_0 IO_L4P_0 IO_L4N_0 IO_L5P_0 IO_L5N_0 IO_L6P_0 IO_L6N_0 IO_L7P_0 IO_L7N_0 IO_L8P_0 IO_L8N_VREF_0 NC NC NC NC NC NC NC NC NC NC IO_L32P_0 IO_L32N_0 IO_L33P_0 IO_L33N_0 IO_L34P_GCLK19_0 IO_L34N_GCLK18_0 IO_L35P_GCLK17_0 IO_L35N_GCLK16_0 0402 IO_L6P_0 IO_L6N_0 IO_L51P_0 IO_L51N_0 VCCO-0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 HEADER_17X2_MALE_R/A IO_L4P_0 IO_L4N_0 IO_L64P_SCP5_0 IO_L64N_SCP4_0 D CON1 1 U1A A3 A4 C5 A5 D6 C6 B6 A6 C7 A7 B8 A8 D9 C8 C9 A9 E8 F8 G8 F9 G9 H10 E10 F10 G11 H11 D7 D8 D10 C10 B10 A10 C11 A11 1206 +5.0 VREF0 JMP2 JMP1 100R 10uF-6.3V +3.3 R1 2 B A c Nabla Designs s.l. Project: SIMPlugIN Board: SIMPlugIN-LX45 Board description Development board, LX45 based Size: Page description: A3 FPGA bank 0 Last modified date: 5 4 3 2 Thursday, August 25, 2011 Rev 2.3p Page 1 1 of 5 A 5 IO_L39P_M1A3_1 IO_L39N_M1ODT_1 IO_L51P_M1DQ12_1 IO_L51N_M1DQ13_1 VCCO-1 GND IO_L43P_GCLK5_M1DQ4_1 IO_L43N_GCLK4_M1DQ5_1 IO_L49P_M1DQ10_1 IO_L49N_M1DQ11_1 VCCO-1 GND B VCCO-1 IO_L45P_A1_M1LDQS_1 IO_L45N_A0_M1LDQSN_1 IO_L47P_FWE_B_M1DQ0_1 IO_L47N_LDC_M1DQ1_1 GND VCCO-1 +3.3 +5.0 GND VCCO-1 IO_L9P_1 IO_L9N_1 IO_L38P_A5_M1CLK_1 IO_L38N_A4_M1CLKN_1 GND VCCO-1 IO_L34P_A13_M1WE_1 IO_L34N_A12_M1BA2_1 IO_L60P_1 IO_L60N_1 GND A IO_L40P_GCLK11_M1A5_1 IO_L40N_GCLK10_M1A6_1 IO_L58P_1 IO_L58N_1 VCCO-1 GND IO_L59P_1 IO_L59N_1 IO_L21P_1 IO_L21N_1 VCCO-1 GND VCCO-1 5 100R LED 1206 RED R5 100R LD2 LED 1206 RED R6 100R LD3 LED 1206 RED R8 100R LD4 LED 1206 RED LED1# LED2# LED3# +3.3-INT IO_L52N_M1DQ15_1 IO_L52P_M1DQ14_1 IO_L51N_M1DQ13_1 IO_L51P_M1DQ12_1 IO_L50N_M1UDQSN_1 IO_L50P_M1UDQS_1 IO_L49N_M1DQ11_1 IO_L49P_M1DQ10_1 IO_L48N_M1DQ9_1 IO_L48P_HDC_M1DQ8_1 IO_L47N_LDC_M1DQ1_1 IO_L47P_FWE_B_M1DQ0_1 IO_L46N_FOE_B_M1DQ3_1 IO_L46P_FCS_B_M1DQ2_1 IO_L45N_A0_M1LDQSN_1 IO_L45P_A1_M1LDQS_1 IO_L44N_A2_M1DQ7_1 IO_L44P_A3_M1DQ6_1 C +3.3-INT +3.3-INT +3.3-INT VCCO-1 VREF1 VCCO-1 R9 3K3 R10 3K3 R11 100R -1% VCCO-1 U2 I2C-SCL_L73N_1 1 SCL VCC 4 I2C-SDA_L73P_1 3 SDA VSS 2 C10 5 100nF C6 NC C7 C8 C9 B 24AA02E48T-I/OT 2 Kbit eeprom with unique serial number CON5 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 +3.3-INT HEADER_17X2_MALE_R/A VCCO-1 IO_L10P_1 IO_L10N_1 IO_L33P_A15_M1A10_1 IO_L33N_A14_M1A4_1 GND R4 LD1 IO_L43N_GCLK4_M1DQ5_1 IO_L43P_GCLK5_M1DQ4_1 D IO_L60N_1 IO_L60P_1 IO_L59N_1 IO_L59P_1 IO_L58N_1 IO_L58P_1 VREF1 R7 100R -1% JMP9 JMP10 user leds LED0# J22 J20 LED0# LED1# LED2# LED3# 100nF VCCO-1 IO_L35P_A11_M1A7_1 IO_L35N_A10_M1A2_1 IO_L30P_A21_M1RESET_1 IO_L30N_A20_M1A11_1 GND HEADER_17X2_MALE_R/A VCCO-1 IO_L32P_A17_M1A8_1 IO_L32N_A16_M1A9_1 IO_L29P_A23_M1A13_1 IO_L29N_A22_M1A14_1 GND 1206 GND C CON4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 TPM1 TPM2 1 4 OE GND VCC 8 OSC 5 25MHz- 3.3 VOLT U3A R12 OE GND VCC 8 OSC 5 CLK-25MHZ_L42P_GCLK7_1 74LVC2G14 33R R14 VCCO-1 100nF C13 VCCO-1 U3B 74LVC2G14 4 3 R15 optional user MHz- 3.3 VOLT SOC2 33R 6 100nF C12 OSC2 4 R13 1 SOC1 +3.3-INT 1 33R OSCILLATORS VCCO-1 100nF C11 OSC1 5 +5.0 JMP7 JMP8 2 +3.3 DOUT-BUSY AWAKE I2C-SCL_L73N_1 I2C-SDA_L73P_1 100nF VCCO-1 T20 T19 R19 P18 N16 P17 M18 M17 V20 U19 K18 L17 W22 W20 P20 P19 L15 M16 N19 M19 V22 V21 U22 U20 T22 T21 R22 R20 P22 P21 N22 N20 M22 M21 L22 L20 K22 K21 0402 VCCO-1 IO_L44P_A3_M1DQ6_1 IO_L44N_A2_M1DQ7_1 IO_L46P_FCS_B_M1DQ2_1 IO_L46N_FOE_B_M1DQ3_1 GND 100nF VCCO-1 IO_L41P_GCLK9_IRDY1_M1RASN_1 IO_L41N_GCLK8_M1CASN_1 IO_L48P_HDC_M1DQ8_1 IO_L48N_M1DQ9_1 GND 0402 VCCO-1 IO_L37P_A7_M1A0_1 IO_L37N_A6_M1A1_1 IO_L50P_M1UDQS_1 IO_L50N_M1UDQSN_1 GND U1B C19 IO_L1P_A25_1 IO_L74N_DOUT_BUSY_1 VREF1 B20 IO_L1N_A24_VREF_1 IO_L74P_AWAKE_1 IO_L9P_1 G16 IO_L9P_1 IO_L73N_1 IO_L9N_1 G17 IO_L9N_1 IO_L73P_1 IO_L10P_1 F16 IO_L10P_1 IO_L72N_1 IO_L10N_1 F17 IO_L10N_1 IO_L72P_1 IO_L19P_1 B21 IO_L19P_1 IO_L71N_1 IO_L19N_1 B22 IO_L19N_1 IO_L71P_1 IO_L20P_1 A20 IO_L20P_1 IO_L70N_1 IO_L20N_1 A21 IO_L20N_1 IO_L70P_1 IO_L21P_1 K16 IO_L21P_1 IO_L61N_1 IO_L21N_1 J16 IO_L21N_1 IO_L61P_1 H16 IO_L28P_1 IO_L60N_1 VREF1 H17 IO_L28N_VREF_1 IO_L60P_1 IO_L29P_A23_M1A13_1 D19 IO_L29P_A23_M1A13_1 IO_L59N_1 IO_L29N_A22_M1A14_1 D20 IO_L29N_A22_M1A14_1 IO_L59P_1 IO_L30P_A21_M1RESET_1 F18 IO_L30P_A21_M1RESET_1 IO_L58N_1 IO_L30N_A20_M1A11_1 F19 IO_L30N_A20_M1A11_1 IO_L58P_1 IO_L31P_A19_M1CKE_1 D21 IO_L31P_A19_M1CKE_1 IO_L53N_VREF_1 IO_L31N_A18_M1A12_1 D22 IO_L31N_A18_M1A12_1 IO_L53P_1 IO_L32P_A17_M1A8_1 C20 IO_L32P_A17_M1A8_1 IO_L52N_M1DQ15_1 IO_L32N_A16_M1A9_1 C22 IO_L32N_A16_M1A9_1 IO_L52P_M1DQ14_1 IO_L33P_A15_M1A10_1 G19 IO_L33P_A15_M1A10_1 IO_L51N_M1DQ13_1 IO_L33N_A14_M1A4_1 F20 IO_L33N_A14_M1A4_1 IO_L51P_M1DQ12_1 IO_L34P_A13_M1WE_1 H19 IO_L34P_A13_M1WE_1 IO_L50N_M1UDQSN_1 IO_L34N_A12_M1BA2_1 H18 IO_L34N_A12_M1BA2_1 IO_L50P_M1UDQS_1 IO_L35P_A11_M1A7_1 E20 IO_L35P_A11_M1A7_1 IO_L49N_M1DQ11_1 IO_L35N_A10_M1A2_1 E22 IO_L35N_A10_M1A2_1 IO_L49P_M1DQ10_1 J17 IO_L36P_A9_M1BA0_1 IO_L48N_M1DQ9_1 K17 IO_L36N_A8_M1BA1_1 IO_L48P_HDC_M1DQ8_1 IO_L37P_A7_M1A0_1 F21 IO_L37P_A7_M1A0_1 IO_L47N_LDC_M1DQ1_1 IO_L37N_A6_M1A1_1 F22 IO_L37N_A6_M1A1_1 IO_L47P_FWE_B_M1DQ0_1 IO_L38P_A5_M1CLK_1 H20 IO_L38P_A5_M1CLK_1 IO_L46N_FOE_B_M1DQ3_1 IO_L38N_A4_M1CLKN_1 J19 IO_L38N_A4_M1CLKN_1 IO_L46P_FCS_B_M1DQ2_1 IO_L39P_M1A3_1 G20 IO_L39P_M1A3_1 IO_L45N_A0_M1LDQSN_1 IO_L39N_M1ODT_1 G22 IO_L39N_M1ODT_1 IO_L45P_A1_M1LDQS_1 IO_L40P_GCLK11_M1A5_1 K20 IO_L40P_GCLK11_M1A5_1 IO_L44N_A2_M1DQ7_1 IO_L40N_GCLK10_M1A6_1 K19 IO_L40N_GCLK10_M1A6_1 IO_L44P_A3_M1DQ6_1 IO_L41P_GCLK9_IRDY1_M1RASN_1 H21 IO_L41P_GCLK9_IRDY1_M1RASN_1 IO_L41N_GCLK8_M1CASN_1 H22 IO_L41N_GCLK8_M1CASN_1IO_L43N_GCLK4_M1DQ5_1 M20 IO_L42P_GCLK7_M1UDM_1 IO_L43P_GCLK5_M1DQ4_1 L19 IO_L42N_GCLK6_TRDY1_M1LDM_1 CLK-25MHZ_L42P_GCLK7_1 XC6SLX45-2FGG484C CLK-user_L42N_GCLK6_1 0402 VCCO-1 IO_L31P_A19_M1CKE_1 IO_L31N_A18_M1A12_1 IO_L52P_M1DQ14_1 IO_L52N_M1DQ15_1 GND CON3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 HEADER_17X2_MALE_R/A VCCO-1 GND D 1 10uF-6.3V JMP6 GND IO_L19P_1 IO_L19N_1 IO_L20P_1 IO_L20N_1 2 5 +5.0 3 CLK-user_L42N_GCLK6_1 33R c Nabla Designs s.l. 2 +3.3 4 JMP5 Project: SIMPlugIN Board: SIMPlugIN-LX45 Board description Development board, LX45 based Size: Page description: A3 FPGA bank 1 // oscillators , leds Last modified date: 4 3 2 Thursday, August 25, 2011 Rev 2.3p Page 2 1 of 5 A 3 JMP11 +5.0 GND IO_L53P_2 IO_L53N_2 IO_L47P_2 IO_L47N_2 P16 P15 R17 GND FP_SUSPEND FPPROG_N N15 AA1 TPM3 FP-SPI-SEL_N FP-INIT IO_L64N_D9_2 IO_L64P_D8_2 IO_L63N_2 IO_L63P_2 IO_L62N_D6_2 IO_L62P_D5_2 IO_L60N_2 IO_L60P_2 IO_L59N_2 IO_L59P_2 IO_L58N_2 IO_L58P_2 IO_L57N_2 IO_L57P_2 IO_L54N_2 IO_L54P_2 IO_L53N_2 IO_L53P_2 IO_L52N_2 IO_L52P_2 IO_L51N_2 IO_L51P_2 IO_L50N_2 IO_L50P_2 IO_L49N_D4_2 IO_L49P_D3_2 VREF2 GND IO_L62P_D5_2 IO_L62N_D6_2 IO_L44P_2 IO_L44N_2 VCCO-2 GND VCCO-2 IO_L30P_GCLK1_D13_2 IO_L30N_GCLK0_USERCCLK_2 IO_L20P_2 IO_L20N_2 GND VCCO-2 IO_L58P_2 IO_L58N_2 IO_L21P_2 IO_L21N_2 GND VCCO-2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 GND VCCO-2 IO_L15P_2 IO_L15N_2 IO_L6P_2 IO_L6N_2 GND IO_L14P_D11_2 IO_L14N_D12_2 IO_L5P_2 IO_L5N_2 VCCO-2 GND VCCO-2 IO_L19P_2 IO_L19N_2 IO_L64P_D8_2 IO_L64N_D9_2 GND VCCO-2 IO_L31P_GCLK31_D14_2 IO_L31N_GCLK30_D15_2 IO_L57P_2 IO_L57N_2 GND VCCO-2 IO_L45P_2 IO_L45N_2 IO_L49P_D3_2 IO_L49N_D4_2 GND VCCO-2 GND IO_L11P_2 IO_L11N_2 IO_L9P_2 IO_L9N_2 IO_L18P_2 IO_L18N_2 IO_L10P_2 IO_L10N_2 IO_L32P_GCLK29_2 IO_L32N_GCLK28_2 IO_L63P_2 IO_L63N_2 GND IO_L59P_2 IO_L59N_2 IO_L8P_2 IO_L8N_2 GND IO_L29P_GCLK3_2 IO_L29N_GCLK2_2 IO_L60P_2 IO_L60N_2 1 6 RESET-POW-ON + FP-M0 FP-M1 R26 R27 3K3 470R R22 GND LED 1206 green LD5 R28 5 SPI flash: FPGA firmware +3.3-INT 4 FPPROG 330R R46 HEADER MALE 6x1 FP-MISO SPI-SEL# SPI-MOSI SPI-CCLK +3.3-INT ON: OFF: 5 13 12 1B1 1B2 2 FP-CCLK C22 120pF 1 10R 10R 10R 10R 1OE# 2OE# R41 140R-1% VCCO-2 while using std. SPI programmer (or SPI programming through st. JTAG probe) - normal operation - SIMPlugIN programmer 4 1K R42 100nF C24 VCCA powered FP-SPI-SEL_N FP-MOSI 15 14 VCCB powered JMP19 2 74LVC2G14 U4B FPPROG_N 3 +3.3-INT pull up/down RESET 1DIR 2DIR 2 3 1A1 1A2 4 5 2A1 2A2 6 7 11 10 2B1 2B2 16 VCCB VCCA 1 9 GND2 GND1 8 U5 SN74AVC4T245PWR , 33R LED R37 +3.3-INT C23 120pF 100nF C25 +3.3-INT +3.3-INT 7 15 8 16 FP-MISO R48 R47 R35 100R -1% 1K CS# DI/IO0 DO/IO1 CLK R38 140R-1% 1K 1K U6 9 1 WP#/IO2 HOLD#/IO3 VCC 2 GND 10 100nF NC1 NC2 NC3 NC4 NC5 NC6 NC7 NC8 3 4 5 6 11 12 13 14 C21 SPI_FLASH_64Mb W25Q64BVSFIG 2 C19 C16 C17 C18 +3.3-INT c Nabla Designs s.l. Project: SIMPlugIN Board: SIMPlugIN-LX45 Board description Development board, LX45 based Size: Page description: A3 FPGA bank 2 // SPI flash memory // programming interface Last modified date: 3 B VREF2 + MicroBlaze firmware SPI-SEL# SPI-MOSI R39 33R SPI-CCLK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 VREF R30 100R -1% 470R R29 POWER-ON JTDO JTMS JTCK JTDI VCCO-2 FP-DONE 100nF C15 FP_SUSPEND (see manual before use) CON12 R40 R43 R45 R44 330R VCCO-2 +3.3-INT 74LVC2G14 2 C14 1K 3K3 3K3 3K3 VCCO-2 100nF 2K2 47uF-6.3V std. SPI probe connector 1 2 3 4 5 6 VCCO-2 0402 R77 R17 R16 R21 R24 10uF-6.3V R18 PUSHB0 HEADER MALE 6x1 A U4A FP-SPI-SEL_N FPPROG_N FP-INIT FP-CMP-CS IO_L52P_2 IO_L52N_2 IO_L51P_2 IO_L51N_2 +3.3-INT 1206 FP-MISO SPI-CCLK SPI-SEL# SPI-MOSI 5 10R 10R 10R 10R +3.3-INT D1 2 HEADER_7X2_MALE_R/A +5.0 +5.0 R36 VCCO-2 GND (see manual before use) 330R VCCO-2 GND std. JTAG probe conector 1 2 3 4 5 6 VCCO-2 GND +3.3-INT FP-INIT FP-DONE FPPROG_N 100R 100R 100R 100R CON9 JMP18 IO_L50P_2 IO_L50N_2 IO_L40P_2 IO_L40N_2 D C GND JTDO JTMS JTDI JTCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 JMP17 +5.0 BAT54JFILM R31 R32 R33 R34 VCCO-2 VCCO-2 IO_L22P_2 IO_L22N_2 IO_L23P_2 IO_L23N_2 33R CON11 VCCO-2 GND IO_L42P_2 IO_L42N_2 IO_L46P_2 IO_L46N_2 +3.3 (see manual before use) R23 R20 R19 R25 VCCO-2 GND IO_L47N_2 IO_L47P_2 IO_L46N_2 IO_L46P_2 IO_L45N_2 IO_L45P_2 IO_L44N_2 IO_L44P_2 IO_L43N_2 IO_L43P_2 IO_L42N_2 IO_L42P_2 VREF2 1 B VCCO-2 GND SIMPlugIN spi + jtag probe connector 1 2 3 4 5 6 7 8 9 10 11 12 13 14 VCCO-2 GND IO_L17P_2 IO_L17N_2 IO_L7P_2 IO_L7N_2 XC6SLX45-2FGG484C CON10 CON8 JMP16 +5.0 HEADER_17X2_MALE_R/A T5 T6 AB2 AA2 V5 U6 Y4 W4 R7 T7 R8 R9 AB3 Y3 AB4 AA4 AB5 Y5 Y6 W6 U10 T10 U8 T8 V9 U9 AB6 AA6 AB7 Y7 Y8 W9 V7 W8 AB8 AA8 Y10 W10 AB9 Y9 W11 V11 AB10 AA10 VCCO-2 IO_L54P_2 IO_L54N_2 IO_L43P_2 IO_L43N_2 +5.0 JMP13 +3.3 CON7 JMP15 HEADER_17X2_MALE_R/A 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 VCCO-2 JMP12 +3.3 CON6 JMP14 100nF +3.3 JTDO JTMS JTDI JTCK A19 C18 E18 G15 HEADER_17X2_MALE_R/A C CMPCS_B_2 TDO DONE_2 TMS IO_L1P_CCLK_2 TDI IO_L1N_M0_CMPMISO_2 TCK IO_L2P_CMPCLK_2 IO_L2N_CMPMOSI_2 IO_L3P_D0_DIN_MISO_MISO1_2 NC IO_L3N_MOSI_CSI_B_MISO0_2 NC IO_L4P_2 NC IO_L4N_VREF_2 IO_L5P_2 SUSPEND IO_L5N_2 PROGRAM_B_2 IO_L6P_2 IO_L6N_2 IO_L7P_2 IO_L65N_CSO_B_2 IO_L7N_2 IO_L65P_INIT_B_2 IO_L8P_2 IO_L64N_D9_2 IO_L8N_2 IO_L64P_D8_2 IO_L9P_2 IO_L63N_2 IO_L9N_2 IO_L63P_2 IO_L10P_2 IO_L62N_D6_2 IO_L10N_2 IO_L62P_D5_2 IO_L11P_2 IO_L60N_2 IO_L11N_2 IO_L60P_2 IO_L12P_D1_MISO2_2 IO_L59N_2 IO_L12N_D2_MISO3_2 IO_L59P_2 IO_L13P_M1_2 IO_L58N_2 IO_L13N_D10_2 IO_L58P_2 IO_L14P_D11_2 IO_L57N_2 IO_L14N_D12_2 IO_L57P_2 IO_L15P_2 IO_L54N_2 IO_L15N_2 IO_L54P_2 IO_L16P_2 IO_L53N_2 IO_L16N_VREF_2 IO_L53P_2 IO_L17P_2 IO_L52N_2 IO_L17N_2 IO_L52P_2 IO_L18P_2 IO_L51N_2 IO_L18N_2 IO_L51P_2 IO_L19P_2 IO_L50N_2 IO_L19N_2 IO_L50P_2 IO_L20P_2 IO_L49N_D4_2 IO_L20N_2 IO_L49P_D3_2 IO_L21P_2 IO_L48N_RDWR_B_VREF_2 IO_L21N_2 IO_L48P_D7_2 IO_L22P_2 IO_L47N_2 IO_L22N_2 IO_L47P_2 IO_L23P_2 IO_L46N_2 IO_L23N_2 IO_L46P_2 IO_L29P_GCLK3_2 IO_L45N_2 IO_L29N_GCLK2_2 IO_L45P_2 IO_L30P_GCLK1_D13_2 IO_L44N_2 IO_L30N_GCLK0_USERCCLK_2 IO_L44P_2 IO_L31P_GCLK31_D14_2 IO_L43N_2 IO_L31N_GCLK30_D15_2 IO_L43P_2 IO_L32P_GCLK29_2 IO_L42N_2 IO_L32N_GCLK28_2 IO_L42P_2 IO_L40P_2 IO_L41N_VREF_2 IO_L40N_2 IO_L41P_2 HEADER_17X2_MALE_R/A D Y20 Y22 Y21 AA22 AA21 AB21 FP-MISO AA20 FP-MOSI AB20 RESET-POW-ON T18 VREF2 T17 IO_L5P_2 Y19 IO_L5N_2 AB19 IO_L6P_2 W18 IO_L6N_2 Y18 IO_L7P_2 T16 IO_L7N_2 T15 IO_L8P_2 U17 IO_L8N_2 U16 IO_L9P_2 V19 IO_L9N_2 V18 IO_L10P_2 R16 IO_L10N_2 R15 IO_L11P_2 V17 IO_L11N_2 W17 U14 U13 FP-M1 U15 V15 IO_L14P_D11_2 AA18 IO_L14N_D12_2 AB18 IO_L15P_2 Y17 IO_L15N_2 AB17 AA14 VREF2 AB14 IO_L17P_2 Y16 IO_L17N_2 W15 IO_L18P_2 V13 IO_L18N_2 W13 IO_L19P_2 AA16 IO_L19N_2 AB16 IO_L20P_2 W14 IO_L20N_2 Y14 IO_L21P_2 Y15 IO_L21N_2 AB15 IO_L22P_2 T12 IO_L22N_2 U12 IO_L23P_2 T14 IO_L23N_2 R13 IO_L29P_GCLK3_2 W12 IO_L29N_GCLK2_2 Y12 IO_L30P_GCLK1_D13_2 Y13 IO_L30N_GCLK0_USERCCLK_2AB13 IO_L31P_GCLK31_D14_2 AA12 IO_L31N_GCLK30_D15_2 AB12 IO_L32P_GCLK29_2 Y11 IO_L32N_GCLK28_2 AB11 IO_L40P_2 R11 IO_L40N_2 T11 1 100nF U1C FP-CMP-CS FP-DONE FP-CCLK FP-M0 2 0402 4 0402 5 Thursday, August 25, 2011 Rev 2.3p Page 3 1 of 5 A 5 R51 R52 +1.8 R83 FPGA-RTS# 330R ODT A3 E3 J3 N1 P9 VSS1 VSS2 VSS3 VSS4 VSS5 RXD NC2 24 6 RI# GPIO1 23 CBUS0 7 GND GPIO0 22 CBUS1 8 NC1 GND 21 TX A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 J7 +5.0 C43 100nF 9 DSR# VCC5I 20 10 DCD# RESET# 19 11 CTS# GND 18 12 SLEEP# VCC3O 17 VCC3O 13 GPIO2 USBDM 16 USB- 14 GPIO3 USBDP 15 USB+ FT232RL 768-1007-1-ND R84 10K C51 C53 47pF R85 RX C44 100nF C54 47pF 100R R86 CON13 7 6 CHASIS2 CHASIS1 5 4 GND ID 2 3 DATDAT+ 1 VCC 10uF-6.3V 1206 10uF-6.3V A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 VSS_DLL VDD_DLL J1 VREF J2 DDR2 64Mx16: W971GG6JB-25 user push buttons +1.8 C40 C45 C46 C39 C41 C47 +1.8 C48 C49 B C50 VTTREF C52 user dipswitch 1K 1K 1K 1K +1.8 PUSHB1 PUSH_BOT1# PUSHB2 PUSH_BOT2# PUSHB3 PUSH_BOT3# PUSHB4 R91 R92 R93 R94 R87 R88 R89 R90 PUSH_BOT0# SWITCH0# SWITCH1# SWITCH2# SWITCH3# c Nabla Designs s.l. SW1 1 2 3 4 1 8 7 6 5 Project: SIMPlugIN Board: SIMPlugIN-LX45 Board description Development board, LX45 based Size: Page description: A3 FPGA bank 3 // DDR2 // user pushbutton & switches DIPSWITCH 4 POS Last modified date: 5 1206 100nF 100nF 0402 0402 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8 VDDQ9 VDDQ10 +1.8 CON_MINI_USB_RECEP +1.8 1K 1K 1K 1K DDR2 memory VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8 VSSQ9 VSSQ10 +1.8 220R FPGA-USB_PRESENT A user USB serial console A1 E1 J9 M9 R1 0603 25 4K7 AGND R80 VCCIO 5 LD7 VDD1 VDD2 VDD3 VDD4 VDD5 10uF-6.3V K9 A2 E2 R3 R7 100nF DRAM_ODT NC1 NC2 NC3 NC4 DRAM_LDM DRAM_UDM 1206 CLK CLK# CKE F3 B3 100nF J8 K8 K2 LDM UDM 0402 DRAM_CK_P DRAM_CK_N DRAM_CKE DRAM_UDQS DRAM_UDQS_N 1uF-6.3V CS# B7 A8 100nF L8 UDQS UDQS# 0402 RAS# CAS# C 0603 WE# K7 L7 DRAM_LDQS DRAM_LDQS_N 1uF-6.3V K3 DRAM_RAS_N DRAM_CAS_N F7 E8 100nF DRAM_WE_N LDQS LDQS# 0402 BA0 BA1 BA2 G8 G2 H7 H3 H1 H9 F1 F9 C8 C2 D7 D3 D1 D9 B1 B9 100nF L2 L3 L1 DRAM_DQ0 DRAM_DQ1 DRAM_DQ2 DRAM_DQ3 DRAM_DQ4 DRAM_DQ5 DRAM_DQ6 DRAM_DQ7 DRAM_DQ8 DRAM_DQ9 DRAM_DQ10 DRAM_DQ11 DRAM_DQ12 DRAM_DQ13 DRAM_DQ14 DRAM_DQ15 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 0402 DRAM_BA0 DRAM_BA1 DRAM_BA2 4K7 4 LD6 100nF A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13/NC R82 26 0603 10uF-6.3V M8 M3 M7 N2 N8 N3 N7 P2 P8 P3 M2 P7 R2 R8 100R C38 U8 DRAM_A0 DRAM_A1 DRAM_A2 DRAM_A3 DRAM_A4 DRAM_A5 DRAM_A6 DRAM_A7 DRAM_A8 DRAM_A9 DRAM_A10 DRAM_A11 DRAM_A12 DRAM_A13 100R C29 100nF DRAM_A12 DRAM_CKE DRAM_A9 DRAM_A8 DRAM_A4 DRAM_A10 DRAM_BA2 DRAM_WE_N DRAM_A2 DRAM_A7 DRAM_BA1 DRAM_BA0 DRAM_A1 DRAM_A0 DRAM_CK_N DRAM_CK_P DRAM_ODT DRAM_A3 DRAM_A6 DRAM_A5 DRAM_CAS_N DRAM_RAS_N C28 100nF DRAM_A13 DRAM_A11 C37 0402 100R 0402 +1.8 TEST C36 C27 100nF B RTS# 270R 11 8 4 C26 0402 +1.8 OSCI 3 270R LED 1206 green C42 100nF 330R DTR# 27 R79 10uF-6.3V R81 FPGA-TXD 2 R78 1206 FPGA-CTS# 28 VTTREF GND_PAD GND PGND 0402 VTTREF R65 FPGA - bank 3 LED 1206 green +1.8 OSCO 6 D +5.0 TXD S3 S5 VTTREF RT9026GFP R75 U9 7 9 3 5 VTT R76 1 VLDOIN VDDQSNS 0R 0R XC6SLX45-2FGG484C FPGA-RXD 2 1 VTT VTT VTTSNS 1uF-6.3V +3.3-INT C31 1206 0603 100nF 100nF C35 0402 C34 100nF C33 0402 C32 1uF-6.3V C30 VTTREF +1.8 VIN 0402 R64 VTTREF DRAM_DQ14 DRAM_DQ15 DRAM_DQ12 DRAM_DQ13 DRAM_UDQS DRAM_UDQS_N DRAM_DQ10 DRAM_DQ11 DRAM_DQ8 DRAM_DQ9 DRAM_DQ0 DRAM_DQ1 DRAM_DQ2 DRAM_DQ3 DRAM_LDQS DRAM_LDQS_N DRAM_DQ6 DRAM_DQ7 DRAM_DQ4 DRAM_DQ5 DRAM_UDM DRAM_LDM 10 +3.3-INT 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% 49R9-1% SWITCH0# SWITCH1# SWITCH2# SWITCH3# FPGA-RXD FPGA-TXD FPGA-CTS# FPGA-RTS# FPGA-USB_PRESENT VTTREF R66 R53 R54 R67 R68 R55 R56 R69 R70 R57 R58 R59 R60 R71 R72 R61 R62 R73 R74 R63 D C 1 U7 B3 A2 E6 E5 C4 D3 F7 G7 B1 B2 H8 J7 E4 D5 K8 K7 F5 G6 C1 C3 D1 D2 E1 E3 F3 G4 F1 F2 H5 H6 G1 G3 H1 H2 H3 H4 J6 K6 J4 K3 K4 K5 IO_L1P_3 IO_L83N_VREF_3 BANCO 3 IO_L1N_VREF_3 IO_L83P_3 IO_L2P_3 IO_L82N_3 IO_L2N_3 IO_L82P_3 IO_L7P_3 IO_L81N_3 IO_L7N_3 IO_L81P_3 IO_L8P_3 IO_L80N_3 IO_L8N_3 IO_L80P_3 IO_L9P_3 IO_L60N_3 IO_L9N_3 IO_L60P_3 IO_L10P_3 IO_L59N_3 IO_L10N_3 IO_L59P_3 IO_L11P_3 IO_L58N_3 IO_L11N_3 IO_L58P_3 IO_L23P_3 IO_L57N_VREF_3 IO_L23N_3 IO_L57P_3 IO_L24P_3 IO_L55N_M3A14_3 IO_L24N_3 IO_L55P_M3A13_3 IO_L25P_3 IO_L54N_M3A11_3 IO_L25N_3 IO_L54P_M3RESET_3 IO_L26P_3 IO_L53N_M3A12_3 IO_L26N_3 IO_L53P_M3CKE_3 IO_L31P_3 IO_L52N_M3A9_3 IO_L31N_VREF_3 IO_L52P_M3A8_3 IO_L32P_M3DQ14_3 IO_L51N_M3A4_3 IO_L32N_M3DQ15_3 IO_L51P_M3A10_3 IO_L33P_M3DQ12_3 IO_L50N_M3BA2_3 IO_L33N_M3DQ13_3 IO_L50P_M3WE_3 IO_L34P_M3UDQS_3 IO_L49N_M3A2_3 IO_L34N_M3UDQSN_3 IO_L49P_M3A7_3 IO_L35P_M3DQ10_3 IO_L48N_M3BA1_3 IO_L35N_M3DQ11_3 IO_L48P_M3BA0_3 IO_L36P_M3DQ8_3 IO_L47N_M3A1_3 IO_L36N_M3DQ9_3 IO_L47P_M3A0_3 IO_L37P_M3DQ0_3 IO_L46N_M3CLKN_3 IO_L37N_M3DQ1_3 IO_L46P_M3CLK_3 IO_L38P_M3DQ2_3 IO_L45N_M3ODT_3 IO_L38N_M3DQ3_3 IO_L45P_M3A3_3 IO_L39P_M3LDQS_3 IO_L44N_GCLK20_M3A6_3 IO_L39N_M3LDQSN_3 IO_L44P_GCLK21_M3A5_3 IO_L40P_M3DQ6_3IO_L43N_GCLK22_IRDY2_M3CASN_3 IO_L40N_M3DQ7_3 IO_L43P_GCLK23_M3RASN_3 IO_L41P_GCLK27_M3DQ4_3 IO_L41N_GCLK26_M3DQ5_3 IO_L42P_GCLK25_TRDY2_M3UDM_3 IO_L42N_GCLK24_M3LDM_3 100nF PUSH_BOT1# PUSH_BOT2# PUSH_BOT3# Y2 Y1 W3 W1 P8 P7 P6 P5 T4 T3 U4 V3 N6 N7 M7 M8 R4 P4 M6 L6 P3 N4 M5 M4 V2 V1 U3 U1 T2 T1 R3 R1 P2 P1 N3 N1 M2 M1 L3 L1 K2 K1 J3 J1 M3 L4 0402 VTTREF PUSH_BOT0# R50 DNP 2 U1D R49 150R +1.8 3 0402 DNP 4 4 3 2 Thursday, August 25, 2011 Rev 2.3p Page 4 1 of 5 A 5 4 3 2 1 U1E 0603 1uF-6.3V 0603 10uF-6.3V 1206 1206 1 Vin Vout 10uF-6.3V 1206 LED 1206 green 330R 1 VCC_CUST 2 GND 3 AXH003A0XZ VCC_CUST TP yellow TP3 U14 4 +5.0 Vin Vout 1 TRIM 2 GND 3 1206 1206 10uF-6.3V 10uF-6.3V 1206 10uF-6.3V 1206 10uF-6.3V 1206 10uF-6.3V 1206 ON# AXH003A0XZ R106 R107 200-1% +1.2 volt (FPGA core supply) generation +1.2 JMP23 42K2-1% POWER_ENAB# 38K8-1% 20K0-1% 11K8-1% 3K83-1% C A B C C119 C120 5 10uF-6.3V TP orange TP2 R102 R101 R105 R104 A B C D E 3K16-1% 1206 +3.3 JMP22 R103 VCC_CUST generation TP1 10uF-6.3V TRIM 1206 ON# 10uF-6.3V 5 1206 1206 10uF-6.3V 10uF-6.3V 1206 10uF-6.3V 1206 10uF-6.3V 1206 1206 C105 C106 10uF-6.3V 1uF-6.3V TP blue 1uF-6.3V 0603 1uF-6.3V 0603 10uF-6.3V +3.3-INT JMP21 U13 1uF-6.3V 0603 1uF-6.3V 0603 10uF-6.3V B PRE+5.0 R109 RESETTABLE 5A -MF-R500 3 3 + 1K-1% DMP3025LK3-13 2 - V33-PROT R110 10K LM393ADT 1 +5.0 LD10 1 2 R111 power_plug 2 PRE+5.0 F1 1 3 2 3 1M Q1 Q2 DMP3025LK3-13 LED 1206 green U15A PRE+5.0 R112 C128 100nF R113 1K V33-PROT C129 100nF-25V LD11 R108 330R VREF-2-5VOLT LED 5mm yellow POWER SUPPLY INPUT and protections C130 100nF R114 68R 3 V33-PROT LM4040DIM3-2.5+T U16 8 PRE+5.0 CD2 10uF-25V 1206 2 1206 U17 MCP1804T-3302I/MB VI VO 1 10uF-6.3V c Nabla Designs s.l. LM393ADT 7 5 + 6 - U15B 4 TP white TP8 Project: SIMPlugIN Board: SIMPlugIN-LX45 Board description Development board, LX45 based Size: Page description: A3 power supply Last modified date: 5 A B C125 C126 C127 1206 1uF-6.3V 0603 47uF-6.3V 1uF-6.3V C122 C123 C124 + voltage selection for bank 2 JMP29 R98 3K16-1% LD9 VCCO-0 C121 VCCO-2 A B C GND 3 R99 1 VCC_CUST 2 AXH003A0XZ 4 C111 C112 C113 1206 1uF-6.3V 0603 1uF-6.3V 0603 C108 C109 C110 CD1 JMP28 TRIM 10uF-6.3V ON# 1206 1206 10uF-6.3V 5 C116 C117 C118 C114 C115 TP white TP7 A B C +3.3 C88 +3.3 volt generation 2 1uF-6.3V +5.0 C95 0603 1uF-6.3V 0603 10uF-6.3V C99 A +3.3 1 C100 C101 C102 C103 C104 3 JMP27 Vout 10uF-6.3V Vin 2 A B C 47R D C83 +5.0 TAB VCC_CUST JMP20 LED 1206 green R97 C82 BAT54JFILM COMMON voltage selection for bank 1 JMP26 R96 30K1 - 1% POWER_ENAB# 10K 4 VCCO-1 A B C 10uF-6.3V 1206 10uF-6.3V 10uF-6.3V 1206 C81 10uF-6.3V 1206 1206 C80 POWER_ENAB# power-on delay C98 1206 VCCO-0 1uF-6.3V G14 G10 E9 E17 E13 C97 0603 VCCO_0 VCCO_0 VCCO_0 VCCO_0 VCCO_0 1uF-6.3V VCCO-1 47uF-6.3V LD8 R100 C87 0603 1uF-6.3V C86 0603 10uF-6.3V 1206 1uF-6.3V 0603 1uF-6.3V 0603 10uF-6.3V C91 C79 10uF-6.3V 1206 10uF-6.3V C92 10uF-6.3V 1206 1uF-6.3V 0603 1uF-6.3V 0603 C77 10uF-6.3V 1uF-6.3V 1uF-6.3V 0603 1uF-6.3V 0603 C76 C78 VCCO-1 + 1206 1uF-6.3V 0603 0603 1uF-6.3V 10uF-6.3V 1206 1uF-6.3V 0603 0603 1uF-6.3V 1uF-6.3V +5.0 806R-1% +3.3 33pF 5 +1.8 A B C65 U12 4 TP black TP5 TP black TP4 C107 C64 +1.8 volt (DDR2 supply) generation TP white TP6 JMP25 FB GND GND-TAB 3 6 C63 R95 14K0 - 1% TPS78601DCQ 1 A B C 4 ENABLE +5.0 C85 C96 0603 VCCO_1 VCCO_1 VCCO_1 VCCO_1 VCCO_1 VCCO_1 VCCO_1 VCCO_1 VCCO_1 VCCO_1 W21 U18 R21 N18 L21 L16 J18 G21 E19 C21 1206 VCCO-2 C94 + 47uF-6.3V 10uF-6.3V C93 W5 V8 V16 V12 T9 T13 AA7 AA3 AA19 AA15 AA11 JMP24 1 C71 VCCO-2 CON14 VCC_CUST C70 C75 C90 OUT POWER_ENAB# VCCO_2 VCCO_2 VCCO_2 VCCO_2 VCCO_2 VCCO_2 VCCO_2 VCCO_2 VCCO_2 VCCO_2 VCCO_2 voltage selection for bank 0 1uF-6.3V 10uF-6.3V 0603 0603 1206 1206 +1.8 VCCO-0 A B C C69 +1.8 C89 + XC6SLX45-2FGG484C +3.3 C62 D2 10uF-6.3V VCCO_0 VCCO_0 VCCO_0 VCCO_0 VCCO_0 C74 0603 B11 B15 B19 B4 B7 C68 IN 8 VCCO-0 2 +3.3-INT C58 4 B VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT VCCINT C73 10uF-6.3V +1.2 J10 J12 J14 J8 K11 K13 K9 L10 L12 L14 M11 M13 M9 N10 N12 N14 P11 P13 P9 R14 C57 +3.3-INT C72 C84 W2 U5 R2 N5 L7 L2 J5 G2 F6 F4 C2 C61 bypass capacitors 1206 C VCCO_3 VCCO_3 VCCO_3 VCCO_3 VCCO_3 VCCO_3 VCCO_3 VCCO_3 VCCO_3 VCCO_3 VCCO_3 C56 C67 10uF-6.3V C66 47uF-6.3V VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX VCCAUX C60 +1.2 U1F D16 F11 G12 H15 H9 K15 L8 M15 N8 R10 R12 R6 U11 V6 1206 47uF-6.3V XC6SLX45-2FGG484C +3.3-INT C59 + 1uF-6.3V GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND P10 N9 N21 N2 N17 N13 N11 M14 M12 M10 L9 L5 L18 L13 L11 K14 +1.2 C55 1206 W7 W19 W16 V4 V14 V10 U7 U21 U2 R5 R18 P14 P12 0603 GND GND GND GND GND GND GND GND GND GND GND GND GND 1uF-6.3V D GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND 0603 A1 A22 AA13 AA17 AA5 AA9 AB1 AB22 B13 B17 B5 B9 D18 D4 E11 E15 E2 E21 E7 G18 G5 H7 J11 J13 J15 J2 J21 J9 K10 K12 U11 4 3 2 Thursday, August 25, 2011 Rev 2.3p Page 5 1 of 5 A Revised: Thursday, August 25, 2011 Item qty Reference 1 1 CD1 2 1 CD2 3 9 CON1,CON2,CON3,CON4,CON5, CON6,CON7,CON8,CON9 4 1 CON10 5 2 CON11,CON12 6 1 CON13 7 1 CON14 8 45 C1,C6,C19,C26,C27,C31, C39,C44,C59,C61,C62,C64, C65,C66,C69,C78,C79,C80, C81,C82,C83,C88,C89,C91, C92,C94,C98,C100,C101, C102,C103,C104,C105,C106, C108,C111,C114,C115,C116, C117,C118,C119,C120,C122, C125 9 25 C2,C3,C4,C5,C7,C8,C9,C16, C17,C18,C28,C29,C32,C33, C34,C35,C37,C38,C45,C46, C47,C48,C49,C50,C52 10 13 C10,C11,C12,C13,C15,C21, C24,C25,C42,C43,C51,C128, C130 11 6 C14,C55,C84,C93,C107, C121 12 2 C22,C23 13 34 C30,C36,C40,C41,C56,C57, C58,C60,C67,C68,C70,C71, C72,C73,C74,C75,C76,C77, C85,C86,C87,C90,C95,C96, C97,C99,C109,C110,C112, C113,C123,C124,C126,C127 14 2 C54,C53 15 1 C63 16 1 C129 17 2 D2,D1 18 1 F1 19 20 JMP1,JMP2,JMP3,JMP4,JMP5, JMP6,JMP7,JMP8,JMP9, JMP10,JMP11,JMP12,JMP13, Part 10uF-25V 10uF-6.3V HEADER_17X2_MALE_R/A PCB footprint 1206 1206 HEADER_7X2_MALE_R/A HEADER MALE 6x1 CON_MINI_USB_RECEP power_plug 10uF-6.3V power_plug 1206 100nF 0402 100nF 0603 47uF-6.3V 1206 120pF 1uF-6.3V 0603 0603 47pF 33pF 100nF-25V BAT54JFILM RESETTABLE 5A -MF-R500 JUMPER_2X1 0603 0603 0603 SOD323 MF-R500 JUMPER 2 X 1 CON6_125 20 21 22 2 1 7 23 24 25 26 27 4 6 1 1 1 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 JMP14,JMP15,JMP16,JMP17, JMP18,JMP19,JMP30 JMP21,JMP20 JMP22 JMP23,JMP24,JMP25,JMP26, JMP27,JMP28,JMP29 LD1,LD2,LD3,LD4 LD5,LD6,LD7,LD8,LD9,LD10 LD11 OSC1 OSC2 5 PUSHB1,PUSHB2,PUSHB3, PUSHB4,PUSHB0 2 Q1,Q2 10 R1,R4,R5,R6,R8,R31,R32, R33,R34,R85 6 R2,R3,R7,R11,R30,R35 6 R9,R10,R16,R21,R24,R26 7 R12,R13,R14,R15,R29,R39, R77 6 R17,R37,R42,R47,R48,R112 1 R18 8 R19,R20,R23,R25,R40,R43, R44,R45 7 R22,R36,R46,R81,R83,R99, R108 2 R28,R27 2 R38,R41 2 R64,R49 1 R50 2 R51,R52 20 R53,R54,R55,R56,R57,R58, R59,R60,R61,R62,R63,R66, R67,R68,R69,R70,R71,R72, R73,R74 3 R65,R75,R76 2 R79,R78 2 R80,R82 3 R84,R100,R110 1 R86 8 R87,R88,R89,R90,R91,R92, R93,R94 JUMPER_2X2 JUMPER_5X2 JUMPER_3X2 JUMPER 2 X 2 JUMPER 5 X 2 JUMPER 3 X 2 LED 1206 RED LED 1206 green LED 5mm yellow 25MHz- 3.3 VOLT optional user MHz- 3.3 VOLT SWITCH TACTILE 6x6 mm vertical 1206 1206 RADIAL 5mm OSC8 OSC8 DMP3025LK3-13 100R TO252-3L 0603 100R -1% 3K3 33R 0603 0603 0603 1K 2K2 10R 0603 0603 0603 330R 0603 470R 140R-1% DNP 150R 0R 49R9-1% 0603 0603 0402 0402 0603 0402 100R 270R 4K7 10K 220R 1K 0402 0603 0402 0603 0603 0402 switch 6x6mm vertical 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 1 1 1 2 1 1 1 1 1 1 1 1 1 1 2 1 3 1 1 1 2 3 1 1 2 1 R95 R96 R97 R103,R98 R101 R102 R104 R105 R106 R107 R109 R111 R113 R114 SOC1,SOC2 SW1 TPM1,TPM2,TPM3 TP1 TP2 TP3 TP5,TP4 TP6,TP7,TP8 U1 U2 U4,U3 U5 76 77 78 79 80 81 82 83 84 1 1 1 1 1 3 1 1 1 U6 U7 U8 U9 U11 U12,U13,U14 U15 U16 U17 14K0 - 1% 30K1 - 1% 47R 3K16-1% 20K0-1% 38K8-1% 3K83-1% 11K8-1% 42K2-1% 200-1% 1M 1K-1% 806R-1% 68R OSCILLATOR SOCKET DIPSWITCH 4 POS DNP header 1x1 TP blue TP orange TP yellow TP black TP white XC6SLX45-2FGG484C 24AA02E48T-I/OT 74LVC2G14 SN74AVC4T245PWR SPI_FLASH_64Mb W25Q64BVSFIG RT9026GFP DDR2 64Mx16: W971GG6JB-25 FT232RL TPS78601DCQ AXH003A0XZ LM393ADT LM4040DIM3-2.5 MCP1804T-3302I/MB 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 0603 DIP 8 OSCILLATOR SOCKET SWITCHDIP4 header 1x1 keystone tp mp 5011 keystone tp mp 5011 keystone tp mp 5011 keystone tp mp 5011 keystone tp mp 5011 FG484 SOT23_5 SOT23-6 TSSOP16 SOIC16 - 300MIL RT9026GFP MSOP10 con pad DDR2 x16 SSOP28 SOT223_6 AXH003A0XZ SOIC8 SOT23 SOT-89-3