M2S-EVAL-KIT

SmartFusion2 SoC FPGA Evaluation Kit User Guide SmartFusion2 SoC FPGA Evaluation Kit User Guide Table of Contents 1 –Introduction ...............................................................................................5 Kit Contents................................................................................................................................ 5 SmartFusion2 SoC FPGA Evaluation Kit Web Resources ........................................................ 5 Board Description....................................................................................................................... 5 2 – Installation and Settings .........................................................................9 Software Installation ................................................................................................................... 9 Hardware Installation ................................................................................................................. 9 SmartFusion2 Power Sources ................................................................................................. 11 Testing the Hardware ............................................................................................................... 11 3 –Key Components Description and Operation ...................................... 13 Powering Up the Board ............................................................................................................ 13 Current Measurement .............................................................................................................. 13 Memory Interface ..................................................................................................................... 15 SERDES0 Interface ................................................................................................................. 16 USB Interface ........................................................................................................................... 18 Marvell PHY (88E1340S) ......................................................................................................... 18 Programming............................................................................................................................ 20 FTDI Interface .......................................................................................................................... 21 I2C Port Header ........................................................................................................................ 21 System Reset ........................................................................................................................... 22 Clock Oscillator ........................................................................................................................ 22 Debugging ................................................................................................................................ 23 GPIO Header Pin Out .............................................................................................................. 25 4 – Pin List .................................................................................................... 27 5– Board Components Placement .............................................................. 39 6 – Demo Design .......................................................................................... 43 M2S-EVAL-KIT Board Demo Design ....................................................................................... 43 7– Manufacturing Test ................................................................................. 45 M2S-EVAL-KIT Board Testing Procedures ............................................................................. 45 Setting up the Test Terminal for MTD ...................................................................................... 56 Running the MTD Test on M2S-EVAL-KIT .............................................................................. 60 Test Procedure......................................................................................................................... 60 Switches and LED Tests .......................................................................................................... 66 Debugging the Board ............................................................................................................... 66 Product Support .......................................................................................... 67 Customer Service..................................................................................................................... 67 SmartFusion2 SoC FPGA Evaluation Kit User Guide 3 Table of Contents Customer Technical Support Center........................................................................................ 67 Technical Support .................................................................................................................... 67 Website .................................................................................................................................... 67 Contacting the Customer Technical Support Center ............................................................... 67 ITAR Technical Support ........................................................................................................... 68 4 SmartFusion2 SoC FPGA Evaluation Kit User Guide 1 –Introduction The SmartFusion®2 system-on-chip (SoC) field programmable gate array (FPGA) Evaluation Kit (M2S-EVAL-KIT) is restriction of hazardous substances (RoHS) compliant and enables the designer to develop applications that involve one or more of the following: • Motor control • System management • Industrial automation • High-speed serial I/O applications like peripheral component interconnect express (PCIe), serial gigabit media independent interface (SGMII), and user customizable serial interfaces Kit Contents Table 1 lists the contents of the M2S-EVAL-KIT. Table 1 Kit Contents Quantity Description 1 SmartFusion2 SoC FPGA 25K LE M2S025T-1FGG484 1 12 V/2 A Wall-Mounted Power Supply 1 FlashPro4 JTAG programmer 1 USB 2.0 A-male to mini-B Y-cable for UART/power interface (up to 1 A) to PC 1 Quickstart Guide 1 Libero SoC Gold Software License 1 PCIe Control Plane Demo Design Note: The M2S-Eval-KIT is RoHS compliant. SmartFusion2 SoC FPGA Evaluation Kit Web Resources M2S-EVAL-KIT web resources are available at: www.microsemi.com/products/fpga-soc/design-resources/dev-kits/SmartFusion2/smartfusion2-evaluationkit#overview Board Description The M2S-EVAL-KIT Kit offers a full-featured Evaluation Board for SmartFusion2 SoC FPGAs. This kit inherently integrates the following on a single chip: • Reliable flash-based FPGA fabric • A 166 MHz ARM® Cortex™-M3 processor • Advanced security processing accelerators • Digital signal processing (DSP) blocks • Static random-access memory (SRAM) • Embedded nonvolatile memory (eNVM) • Industry-required high-performance communication interfaces The board has numerous interfaces including an RJ45 for 10/100/1000 Ethernet, one full-duplex serializer and deserializer (SERDES) lane through sub miniature version A (SMA) connectors, a 64-bit GPIO Header, and various connectors for serial peripheral interface (SPI) support. SmartFusion2 SoC FPGA Evaluation Kit User Guide 5 1 –Introduction The SmartFusion2 memory management system is supported by 512 Mb of on board mobile low-power double data rate (LPDDR) SDRAM memory and 64 Mb SPI flash. The SERDES block can be accessed through the PCIe edge connector or high-speed sense multiple access (SMA) connectors. • The board supports the M2S025T device in an FGG484 package • The board is eight layers PCB and manufactured with FR4 dielectric material. Block Diagram Figure 1 shows the M2S-EVAL-KIT block diagram: J1 GPIO Header U15 SPI flash W25Q64FV SSIG SPI_0 Bank2 LPDDR MT46H32M16LF 8 Meg x 16 x 4 banks Debug Switches-4 MSIO Bank1 MSIO Bank4 MSIO Bank7 Lane 0 PCIE edge connector REFCLK0 MDDR Bank0 Lane 1 SERDES0 SMA Connectors Lane 2 SMA Connectors Bank2 REFCLK1 Mux SmartFusion2 SoC FPGA – M2S025T-1FGG484 Debug LEDs-8 Bank7 Lane 3 SGMII MDIO Bank7 PHY 88E1340S On Board Oscillator125MHz RJ45 JTAG PHY Bank1 Bank2 JTAG Bank4 ETM Bank1 SC_SPI FT4232 USB mini B connector 23-pin header USB3320 ETM Header RVI Header FP4 Header J9 J4 J5 USB micro AB connector P1 Figure 1 SmartFusion2 SoC FPGA Evaluation Kit Block Diagram 6 SmartFusion2 SoC FPGA Evaluation Kit User Guide 1 –Introduction Board Overview Figure 2 shows an overview of the M2S-EVAL-KIT features. Figure 2 SmartFusion2 SoC FPGA Evaluation Kit Board Overview ® Note: Microsemi recommends SMA Male to SMA Male Precision Cable 12 Inch length using PE-SR405FLJ Coax, RoHS to use with SmartFusion2 Evaluation Kit. For more information, refer to www.pasternack.com/sma-male-sma-male-pesr405flj-cable-assembly-pe39429-12-p.aspx I/O Voltage Rails Table 2 lists the bank I/Os with voltage rails. Table 2 I/O Voltage Rails SmartFusion2 Bank I/O Rail Voltage Bank0 VDDI0 1.8 V Bank1 VDDI1 3.3 V Bank2 VDDI2 3.3 V Bank3 VDDI3 3.3 V Bank4 VDDI4 3.3 V Bank5 VDDI5 2.5 V Bank6 VDDI6 2.5 V Bank7 VDDI7 3.3 V SmartFusion2 SoC FPGA Evaluation Kit User Guide 7 1 –Introduction Table 3 describes the M2S -EVAL-KIT components. Table 3 SmartFusion2 SoC FPGA Evaluation Kit Board Components Name Description M2S025T-1FGG484 Microsemi SmartFusion2 SoC FPGA Mobile Low-Power DDR SDRAM 512 Mb (MT46H32M16LF – 8 Meg x 16 x 4 banks) for storing the data bits. SPI flash 64 Mb SPI flash Winbond electronics W25Q64FVSSIG connected to SPI port 0 of the SmartFusion2 FPGA high performance memory system (HPMS). Ethernet RJ45 connector (Ethernet jack with magnetic) interfacing with Marvell 10/100/1000 BASE-T PHY chip 88E1340S in serial gigabit media independent interface (SGMII) mode, interfacing with the Ethernet port of the SmartFusion2 FPGA (on-chip MAC and external PHY). RVI header RVI header for application programming and debugging from Keil ULINK or IAR J-Link. FP4 header FlashPro4 programming header for SmartFusion2 programming and debugging with Microsemi tools. Future Technology Devices International (FTDI) programmer FTDI programmer interface (J18) to program the external SPI flash. Embedded trace (ETM) cell header ETM header for debugging. macro GPIO header General purpose input/output(GPIO) header for multi standard I/O(MSIO) signals to be routed. PCIe edge connector PCI Express edge connector with one lane Dual in-line package (DIP) switch Debug switch for user application. Light-emitting diodes (LEDs) Eight active low LEDs that are connected to some of the user I/Os for debug. Push–button reset Push-button system reset for SmartFusion2 system. Push–button switches Four push-button switches for test and navigation. USB interface USB micro AB connector, interfacing with the high-speed USB2.0 ULPI transceiver chip USB3320, interfacing with FPGA pins of the SmartFusion2 HPMS. OSC-125 125 MHz clock oscillator(differential output) OSC-50 50 MHz clock oscillator OSC-32 32.768 KHz low-power oscillator 8 Three active high LEDs that are used for power supply indication. SmartFusion2 SoC FPGA Evaluation Kit User Guide 2 – Installation and Settings Software Installation Download and install the latest release of Microsemi Libero® System-on-Chip (SoC) software v11.1 or later, from the Microsemi website and register for a free Gold license. For instructions on how to install Libero and SoftConsole, refer to the Libero Installation and Licensing Guide available on the Microsemi website. Refer to the Installing IP Cores and Drivers User Guide to download and install Microsemi DirectCores, SGCores, and driver firmware cores. These must be localized on the PC where Microsemi Libero is installed while designing with Microsemi FPGAs. Hardware Installation The FlashPro4 programmer can be used to program the M2S-EVAL-KIT board. Jumpers, Switches, LEDs, and DIP Switch Settings The recommended default jumpers, switches, LEDs, and DIP switch settings are defined in Table 4 through Table 6. . • Table 4.Jumper Settings • Table 5.LEDs • Table 6.Test Points Connect the jumpers using the default settings to enable the pre-programmed demonstration design to function correctly. Table 4 shows the jumpers along with default settings. Note: Location of all the jumpers and test points are searchable in Figure 18 on page 40 of 5– Board Components Placement section. Table 4 Jumper Settings Jumper Function Default Settings Jumper to select switch-side Mux inputs of A or B to the lineside. – Pin 1-2 (Input A to the line side) that is on board 125 MHz differential clock oscillator output will be routed to line side. Closed Pin 2-3 (Input B to the line side) that is external clock required to source through SMA connectors to the line side. Open Jumper to select the output enables control for the line side outputs. – Pin 1-2 (Line side output enabled) Closed J22 Pin 2-3 (Line side output disabled) Open J24 Jumper to provide the VBUS supply to USB when using in Host mode. Open JTAG selection jumper to select between RVI header or FP4 header for application debug. – Pin 1-2 FP4 for SoftConsole/FlashPro Closed J23 Pin 2-3 RVI for Keil ULINK™/IAR J-Link ® Open J8 Pin 2-4 for Toggling JTAG_SEL signal remotely using GPIO capability of FT4232 chip. Open J3 Jumpers to select either SW2 input or signal ENABLE_FT4232 from FT4232H chip. – SmartFusion2 SoC FPGA Evaluation Kit User Guide 9 2 – Installation and Settings Jumper Function Default Settings Pin 1-2 for Manual power switching using SW7 switch. Closed Pin 2-3 for Remote power switch using GPIO capability of FT4232 chip. Open Table 5 lists the power supply and Ethernet LEDs. Table 5 LEDs LED Comment DS1 - Green Indicates the 5 V rail. DS2 - Green Indicates the 3.3 V rail. DS3 - Green Indicates the 12 V power source. DS5 - Green Connected to parallel LED output port 0 (P0_LED[0]) of Marvell PHY. DS4 - Green Connected to parallel LED output port 0 (P0_LED[2]) of Marvell PHY. DS6 - Green Connected to parallel LED output port 0 (P0_LED[3]) of Marvell PHY. Table 6 lists the USB, ground, and other test points. Table 6 Test Points Test Point Description TP8 USB switch in/out for DP signal. TP9 USB switch in/out for DM signal. TP1,TP2,TP4,TP5,T P6,TP7,TP10,TP11 GND TP3 Test point for DDR_VTT TP12 Test point to measure the voltage at TP12 with reference to GND. TP14 1.2 V current sensing test point TP15 1.8 V current sensing test point TP16, TP17 Test points across current sense resistor 0.05 Ohms for 1.2 V TP18, TP19 Test points across current sense resistor 0.05 Ohms for 1.8 V 10 SmartFusion2 SoC FPGA Evaluation Kit User Guide 2 – Installation and Settings SmartFusion2 Power Sources All the power supply devices used in the SmartFusion2 SoC FPGA Evaluation Kit are Microsemi devices. For more information on power supply devices refer to www.microsemi.com/product-directory/ics/853-power-management Voltage rails (12 V, 5 V, 3.3 V, 2.5 V, 1.8 V, 1.5 V, and 1.0 V) provided on the board is shown in Figure 3. 12P0V CORE 1P2V 5P0V LDO 5P0V_REG EN DC/DC LX7165 NX9548 0.9V for LPDDR DDR_VTT VDDI 1, 2, 3, 4, 7 3P3V I/P TPS51200 LX7165 VDDI 5, 6 2P5V LX7175 1P0V_PHY LX7186 LPDDR, VREF0, VDDI 0, PHY_1P8V, 1P8V VDDAPLL, 2P5V_LDO LX7167 LX8240 SERDES_0_Lxy_VDDAPLL VPP, PLL Supply 3P3V_LDO SERDES_0_Lxy_REFRET LX13043 SmartFusion2 SERDES_0_PLL_VDDA SERDES_0_PLL_VSSA Figure 3 Voltage Rails in the SmartFusion2 SoC FPGA Evaluation Kit Testing the Hardware If the board is shipped directly from Microsemi, it contains a test program that determines whether or not the board works properly. If the board is found damaged, the manufacturing test can be rerun to verify the key interfaces of the board functionality. Refer to www.microsemi.com//download/rsc/?f=%20M2S-EVAL-KIT-PP_Mfg_PF (to be released) for manufacturing test procedures. SmartFusion2 SoC FPGA Evaluation Kit User Guide 11 3 –Key Components Description and Operation This chapter describes the key component interfaces. For device datasheets, refer to: www.microsemi.com/document-portal/doc_download/132042-smartfusion2-fpga-datasheet Powering Up the Board The board can be powered through either of two 12 V sources that are, external +12 V/2 A DC jack or PCIe connector as shown in Figure 4 Protection mechanism enables the external DC jack supply, if both the sources are available, simultaneously. When both the power sources are ON, board takes the power from external DC jack as Diode D3 becomes reverse biased and path will be open for 12P0_PCIE. When the external DC voltage is not present, the board can be powered up using the PCIe connector. 12P0V_IN 12P0V J6 +12 V DC Jack SW7 1 PCIe CON1 2 J3 3 ENABLE_FT4232 5 4 6 Figure 4 Powering Up the Board Current Measurement 1.2 V Current Sensing for Normal Operation For applications which require current measurement high precision operational amplifier circuitry (U31 with gain 100) is placed on the board to measure the output voltage at TP14 test point with reference to the ground. Core power can be measured by running the following steps: 1. Measure the output voltage (VOUT) at TP14. 2. I = (VOUT/5) 3. Core power consumed P= (1.2 V)*I For example, when the voltage measured across TP14 as 0.5 V, then the consumed core power is 0.12 W. SmartFusion2 SoC FPGA Evaluation Kit User Guide 13 3 –Key Components Description and Operation Figure 5 shows the onboard core power measurement circuitry. 5.0 V 5.0 V TP14 U31 Gain 100 1.2 V 0.05Ω_1% 1.2 V Regulator TP16 TP17 LX7165 Figure 5 Core Power Measurement Circuitry 1.2 V Current Sensing for Flash*Freeze The SmartFusion2 device consumes very low-power in Flash*Freeze mode. The voltage across the sense resistor (0.05 Ohms) needs to be measured directly using a precision digital multi-meter that can read sub milli-volts. Test points TP16 and TP17 can be used to directly measure voltage across the 1.2 V sense resistor. To convert the voltage measured across sense resistor to power, use the following equation: 1.8 V Current Sensing 𝑃𝑃𝑃𝑃𝑃𝑃𝑃𝑃𝑃𝑃 = ( voltage_measured_in_milli_volts ) ∗ 1.2 0.05 For applications which require current measurement high precision Operational Amplifier circuitry (U32 with gain 100) is placed on the board to measure the output voltage at TP15 test point with reference to the ground. 1.8 V power can be measured by running the following steps: 1. Measure the output voltage (VOUT) at TP15. 2. I = (VOUT/5) 3. Power consumed P= (1.8 V)*I For example, when the voltage measured across TP15 as 0.5 V, then the consumed core power is 0.18 W. Figure 6 shows the onboard 1.8 V power measurement circuitry. 5.0 V 5.0 V TP15 U32 1.8 V Gain 100 0.05Ω_1% 1.8 V Regulator LX7167 Figure 6 1.8 V Power Measurement Circuitry Note: The measured accuracy is ± 10%. 14 SmartFusion2 SoC FPGA Evaluation Kit User Guide 3 –Key Components Description and Operation Memory Interface Dedicated I/Os are provided for HPMS DDR and fabric DDR for the SmartFusion2 device. Apart from the dedicated I/Os, regular I/Os can also be used to connect to other memory devices. Refer to Figure 7. Micron CLK DQ[15:0] LPDDR MDDR- Bank0 A[13:0] SmartFusion2 SoC FPGA MT46H32M16LFBF-6 Control lines SPI_0 Bank2 SPI Flash W25Q64FVSSIG Winbond Electronics Figure 7 SmartFusion2 Memory Interface Mobile LPDDR SDRAM An individual chip, 512 Mb LPDDR SDRAM memory is provided as flexible volatile memory for user applications. The LPDDR interface is implemented in bank 0. The specifications of LPDDR SDRAM are listed below: • MT46H32M16LF – 8 Meg x 16 x 4 banks • Density: 512 Mb • Data rate: LPDDR 16-bit at 400 Mbps = 6.4 Gbps Note: For more information, refer to page 3 of Board Level Schematics document (provided separately). SPI Serial Flash The specifications of SPI Flash are listed below: • Density: 64 Mb • Voltage: 2.7 V - 3.6 V • Frequency: 104 MHz • Supports: SPI modes 0 and 3 • SmartFusion2 HPMS - SPI0 interfaced to SPI flash Note: For more information, refer to page 8 of Board Level Schematics document (provided separately). SmartFusion2 SoC FPGA Evaluation Kit User Guide 15 3 –Key Components Description and Operation SERDES0 Interface The SERDES0 is having four lanes connected as below: 1. 2. Lane 0 is directly routed to the PCIe connector. • TX Pad  trace  AC Couplingtrace via (to bottom layer) tracePCIe connector pad • RX Pad trace  PCIe connector pad Lane 1 is used for loopback testing. This path is routed between the Tx and Rx with a 6 inch trace and 2 vias. • 3. 4. TX Pad  via (to Bottom layer)  trace  AC Coupling trace  via (to top layer)  RX pad Lane 2 routed to SMA connectors. • TX Pad  trace  AC Couplingtrace  SMA connector pad • RX Padtracevia (to bottom layer)tracevia (to top layer) SMA connector Pad Lane 3 is routed to Marvell PHY (88E1340S). • TX padtraceAC Couplingtraceviatrace routed in (6th layer)via (to top layer)Marvel PHY pin • RX padviatrace routed in 6th layervia (to top layer)traceAC CouplingtraceMarvel PHY pin SERDES0 reference clock 0 is routed directly from the PCIe connector to SmartFusion2 FPGA. SERDES0 reference clock 1 is routed from the onboard 125 MHz clock oscillator and optionally routed from SMA connectors through LVDS Mux/Buffer chip. Expected SERDES reference clock specifications: • Voltage level: 3.3 (± 0.3)V • Differential LVDS  Symmetry: 50% (± 10%)  Rise/Fall Time: 1nsec Max @ 20% to 80% of supply (3.3V)  Output Voltage Levels: “0”=0.90 Minimum, 1.10 Typical  Differential Output Voltage: 247 mV Minimum, 454 mV Maximum “1”=1.43 Typical, 1.60 Maximum 16 SmartFusion2 SoC FPGA Evaluation Kit User Guide 3 –Key Components Description and Operation RXD1 Lane 1 TXD1 Loopback RXD0 Lane 0 SERDES0 TXD0 RXD3 Lane 3 TXD3 Marvell PHY PCIe Connector RXD2 Lane 2 TXD2 SMA REF CLK0 SmartFusion2 SoC FPGA REF CLK1P REF CLK1N A O/Ps B Marvell PHY On board Oscillator SMA MUX 3.3 V J23 MUX Sel 3.3 V O/P Sel J22 MUX Circuit Figure 8 SERDES0 Interface For more information on J22 and J23 jumpers, refer to Table 4. Note: • SERDES0 TXD pairs are capacitively coupled to the SmartFusion2 device. Series AC coupling capacitors are used to provide common mode voltage independence. • The AC coupling capacitors are not provided for SERDES 0 RXD signals. The mating board should have the AC coupling capacitors. • For more information, refer to page 4 of Board Level Schematics document (provided separately). SmartFusion2 SoC FPGA Evaluation Kit User Guide 17 3 –Key Components Description and Operation USB Interface The SMSC USB3320 is a high-speed USB 2.0 ULPI transceiver. It includes full support for the optional OTG protocol. CPEN: External 5 V supply enables. It controls the external VBUS power switch. CPEN U19 U20 5P0V MAX1823B REFCLK Jumper 26 MHz XO OTG Capable VBUS 1K J24 VBUS 2.2uF P1 VBUS SmartFusion2 SoC FPGA ID USB- PHY USB3320 Micro-AB USB Connector DM Control lines Bank2 DP DATA[7:0] ESD Diodes Figure 9 USB Interface Note: For more information, refer to page 10 of Board Level Schematics document (provided separately). Marvell PHY (88E1340S) The SmartFusion2 Evaluation Kit utilizes the on board Marvell Alaska PHY device (88E1340S) for Ethernet communications at 100 or 1000 Mbps. 88E1340S has four independent gigabit Ethernet transceivers, but the board uses only one transceiver. Each transceiver performs all the physical layer functions for 100BASE-TX and 1000BASE-T full-duplex or half-duplex Ethernet on CAT5 twisted pair cable. The PHY connection to a user-provided Ethernet cable is through an RJ-45 connector with built-in magnetics. The 88E1340S device supports the quad SGMII for direct connection to anSmartFusion2 chip. Refer to Figure 10. The 88E1340S is configured through the CONFIG [3:0] pins and CLK_SEL [1:0]. CLK_SEL [1:0] is used to select the reference clock input option. On board, the status of CLK_SEL0 is High and CLK_SEL1 is Low. REF_CLK is the 125 MHz reference differential clock input. It consists of LVDS differential inputs with a 100Ω differential internal termination resistor. • RCLK – Gigabit recovered clock • SCLK – 25 MHz synchronous input reference clock • Expected reference clock (REF_CLK) specifications  Voltage level: 3.3 (± 0.3)V  Differential LVDS  Symmetry: 50% (± 10%)  Rise/Fall Time: 1nsec Max @ 20% to 80% of supply (3.3V)  Output Voltage Levels: 0: 0.90 Minimum, 1.10 Typical 1: 1.43 Typical, 1.60 Maximum  18 Differential Output Voltage: 247 mV Minimum, 454 mV Maximum SmartFusion2 SoC FPGA Evaluation Kit User Guide 3 –Key Components Description and Operation SERDES0 LANE3 0 SGMII 1 P0 Bank7 2 Magnetics/Jack J13 MDC/ MDIO/ INT/ PHY_RST 3 Clocks G1 H1 RCLK1 RCLK2 Differential Clocks SmartFusion2 SoC FPGA Mux SMA Connectors Marvell PHY 88E1340S On Board Oscillator125MHz 1588 REFCLK+ 1588 REFCLK- REF_CLKP REF_CLKN SCLK 25 MHz XTAL_IN XTAL_OUT U14 USB FT4232H JTAG Figure 10 SmartFusion2 Marvell PHY Interface Note: For more information, refer to page 11 and 12 of Board Level Schematics document (provided separately). SmartFusion2 SoC FPGA Evaluation Kit User Guide 19 3 –Key Components Description and Operation Programming The SmartFusion2 device can be programmed through the JTAG interface. Figure 11 shows various ways of SmartFusion2 programming. 3P3 V J9 ETM Trace Debugger FLASH_GOLDEN_N MUX RVI HEADER I0 Jlink Tracer Cable J4 JTAG I1 FP4 Cable FP4 Header SmartFusion2 SoC FPGA J5 S 3.3 V J8 JTAG_SEL CD1 U14 FT4232H SC_SPI Figure 11 SmartFusion2 Programming Interface JTAG_SEL: JTAG_SEL is used to switch between FP4 header (High) and RVI header or ETM header (Low). For more information on J8 jumper, refer to Table 4. . RVI Header One 10X2 RVI header is provided on the board for debugging. This header allows plugging in the Keil ULINK debugger or IAR J-Link debugger. FlashPro4 Programming Header The SmartFusion2 device on the Evaluation Kit can be programmed using a FlashPro4 programmer. In addition, FlashPro4 is used for software debugging by SoftConsole. Note: 20 • For more information, refer to page 13 of Board Level Schematics document (provided separately). • For more details, refer to the SmartFusion2 Programming User Guide. SmartFusion2 SoC FPGA Evaluation Kit User Guide 3 –Key Components Description and Operation FTDI Interface Following are the FT4232H chip features: • USB 2.0 high-speed (480 Mbps) to UART/MPSSE IC • Single-chip USB to quad serial ports with a variety of configurations • Entire USB protocol handled on the chip. USB specific firmware programming is not required • USB 2.0 high-speed (480 Mbps) and full Speed (12 Mbps) compatible • Two MPSSE on channel A and channel B, to simplify synchronous serial protocol (USB to JTAG, I2C, SPI, or bit-bang) design • Fully assisted hardware or X-On/X-Off software handshaking • +1.8 V (chip core) and +3.3 V I/O interfacing (+5 V tolerant) FT4232H J2 A SmartFusion2 SoC FPGA SC_SPI J18 U10 88E1340S JTAG B DM USB_MINI_RECEP DP Power Control Remotely C ESD Diodes SmartFusion2 SoC FPGA Serial EEPROM EEPROM UART MSIO D OSCI 12 MHz OSCO Figure 12 FTDI Interface Note: For more information, refer to page 14 of Board Level Schematics document (provided separately). I2C Port Header Table 7 shows the two I2C ports routed to header – H1: Table 7 I2C Port Header Pin Number SmartFusion2 Pin Name Board Signal Name Header - H1 G16 MSIO48NB1/I2C_0_SCL/GPIO_31_B I2C0_SCL 10, 14 G17 MSIO48PB1/I2C_0_SDA/GPIO_30_B I2C0_SDA 11, 15 R22 MSIO11NB3/CCC_NE1_CLKI0/I2C_1_SCL/ GPIO_1_A I2C1_SCL 2, 6 P22 MSIO11PB3/CCC_NE0_CLKI0/I2C_1_SDA/ GPIO_0_A I2C1_SDA 3, 7 Note: For more information, refer to page 8 of Board Level Schematics document (provided separately). SmartFusion2 SoC FPGA Evaluation Kit User Guide 21 3 –Key Components Description and Operation System Reset The DEVRST_N signal (active low) is asserted, if the power supply level 3.3 V or 1.2 V fall below the threshold level or by pressing the SW6 (push-button switch). DEVRST_N is an input-only reset pad that allows assertion of a full reset to the chip at any time. 1.2 V Sense Reset TPS3808G09 3.3 V 10K 3.3 V U3 DEVRST_n DS1818 Reset SmartFusion2 SoC FPGA SW6 1uF Push button switch Figure 13 System Reset Interface Note: For more information, refer to page13 of Board Level Schematics document (provided separately). Clock Oscillator 50 MHz Clock Source Figure 14 shows the 50 MHz clock oscillator with +/-50 ppm is available on the board. This clock oscillator is connected to the FPGA fabric to provide a system reference clock. An on-chip SmartFusion2 PLL can be configured to generate a wide range of high precision clock frequencies. Table 8 50 MHz Clock SmartFusion2 Eval Kit SmartFusion2- Pkg No SmartFusion2 Pin Name K1 MSIOD121PB7/CCC_SW0_CLKI0 50MHZ_ SECLK_ WST_K1 2P5V TRISTATE VDD Osc- 50 MHz GND 50MHZ_ SECLK_ WST_K1 SmartFusion2 SoC FPGA OUT Figure 14 Clock Oscillator Interface Note: For more information, refer to page 6 of Board Level Schematics document (provided separately). 22 SmartFusion2 SoC FPGA Evaluation Kit User Guide 3 –Key Components Description and Operation Different Clock Sources Following are the different clock sources used in M2S-EVAL-KIT: • 125 MHz clock oscillator. For more information refer to SERDES0 Interface. • 32.768 KHz crystal oscillators for main and auxiliary oscillators of SmartFusion2 SoC FPGA. Debugging User LEDs The board provides user access to eight active low LEDs, which are connected to the SmartFusion2 device for debugging applications. Table 9. lists the onboard debugging LEDs. Table 9 LEDs SmartFusion2 Eval Kit SmartFusion2- Pkg No SmartFusion2 Pin Name LED0 - Yellow E1 MSIO105PB8 LED1 – Yellow F4 MSIO106NB8 LED2 – Green F3 MSIO106PB8 LED3 – Green G7 MSIO107NB8 LED4 – Red H7 MSIO107PB8 LED5 – Red J6 MSIO108NB8 LED6 – Blue H6 MSIO108PB8 LED7 - Blue H5 MSIO109NB8 +3.3 V 499 Ohms SmartFusion2 SoC FPGA Figure 15 LEDs Interface Note: For more information, refer to page 15 of Board Level Schematics document (provided separately). Push-Button Switches The SmartFusion2 Evaluation Kit comes with five push-button tactile switches that are connected to the SmartFusion2 device. Table 10 lists the onboard push-button switches. Table 10 Push-Button Switches SmartFusion2 Eval Kit SmartFusion2- Pkg No SmartFusion2 Pin Name SWITCH1 L20 MSIO17NB3 SWITCH2 K16 MSIO23NB3 SWITCH3 K18 MSIO24PB3 SWITCH4 J18 MSIO24NB3 SW6 R15 DEVRST_N SmartFusion2 SoC FPGA Evaluation Kit User Guide 23 3 –Key Components Description and Operation +3.3 V 10K SWITCH1 SWITCH2 SWITCH3 SmartFusion2 SoC FPGA SWITCH4 Figure 16 Switches Interface Note: For more information, refer to page 15 of Board Level Schematics document (provided separately). Slide Switches–DPDT SW7–Power ON/OFF switch from external DC Jack, +12 V DC DIP Switch- SPST SW5–is a DIP switch that has four connections to the SmartFusion2 device. Table 11. switches. lists the onboard DIP Table 11 DIP Switches SmartFusion2 Eval Kit SmartFusion2- Pkg No SmartFusion2 Pin Name DIP1 L19 MSIO18PB3 DIP2 L18 MSIO18NB3 DIP3 K21 MSIO19PB3 DIP4 K20 MSIO19NB3 24 SmartFusion2 SoC FPGA Evaluation Kit User Guide 3 –Key Components Description and Operation 3.3V 4.7K 4.7K 4.7K 4.7K 1 SW5 DIP1 DIP2 SmartFusion2 SoC FPGA DIP3 DIP4 Figure 17 SPST Interface Note: For more information, refer to page 15 of Board Level Schematics document (provided separately). GPIO Header Pin Out Bank 4, bank 7, and bank 1 signals are routed to the GPIO header for user applications. Table 12 lists the GPIO header pin out details. Table 12 GPIO Header PinOut GPIO Header- J1 Pin No SmartFusion2 – U1 Pkg No GPIO Header- J1 Pin Name Pin No SmartFusion2 – U1 Pkg No Pin Name 1 AB15 DDRIO164PB5 2 3P3V 3 AA15 DDRIO164NB5 4 VSS VSS 6 AA16 DDRIO167PB5 AA17 DDRIO167NB5 5 7 AB18 DDRIO177PB5 8 9 AB19 DDRIO177NB5 10 VSS 12 AB17 DDRIO174PB5 AA18 DDRIO174NB5 11 VSS 13 Y18 DDRIO181PB5 14 15 Y19 DDRIO181NB5 16 VSS 18 Y17 DDRIO182PB5 W17 DDRIO182NB5 17 VSS 19 W16 DDRIO184PB5 20 21 V16 DDRIO184NB5 22 VSS 24 U14 DDRIO176PB5 U15 DDRIO176NB5 23 VSS 25 C22 MSIO47PB1 26 27 B22 MSIO47NB1 28 VSS 30 V13 DDRIO171PB5 V14 DDRIO171NB5 29 31 Y15 DDRIO172PB5 32 33 W15 DDRIO172NB5 34 SmartFusion2 SoC FPGA Evaluation Kit User Guide VSS VSS 25 3 –Key Components Description and Operation GPIO Header- J1 Pin No SmartFusion2 – U1 Pkg No 35 GPIO Header- J1 Pin Name Pin No SmartFusion2 – U1 Pkg No Pin Name VSS 36 G5 MSIO98PB8 G6 MSIO98NB8 37 F5 MSIO99PB8 38 39 F6 MSIO99NB8 40 VSS 42 E4 MSIO102PB8 E5 MSIO102NB8 41 VSS 43 C4 MSIO96PB8 44 45 D5 MSIO96NB8 46 VSS 48 C3 MSIO97PB8 B3 MSIO97NB8 47 VSS 49 B2 MSIO101PB8 50 51 A2 MSIO101NB8 52 VSS 54 C1 MSIO103PB8 B1 MSIO103NB8 53 VSS 55 D1 MSIO104PB8 56 57 D2 MSIO104NB8 58 59 VSS 60 D3 MSIO100PB8 61 3P3V 62 D4 MSIO100NB8 63 3P3V 64 26 VSS VSS SmartFusion2 SoC FPGA Evaluation Kit User Guide 4 – Pin List Table 13 lists the pins for SmartFusion2 M2S025T-FGG484 devices. Note: *D21- Pin cannot be used as a fabric output and it is only an Input. Table 13 Pin List update with latest of M2S025T-FGG484 PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name A1 VSS A10 DDRIO57PB0/MDDR_DM_RDQS0 A11 DDRIO57NB0/MDDR_DQ4 A12 DDRIO54PB0/MDDR_DQ8 A13 DDRIO54NB0/MDDR_DQ9 A14 DDRIO50PB0/GB12/CCC_NE1_CLKI2/MDDR_DQ12 A15 DDRIO50NB0/MDDR_DQ13 A16 DDRIO45PB0/MDDR_CLK A17 DDRIO45NB0/MDDR_CLK_N A18 DDRIO44PB0/MDDR_BA0 A19 DDRIO44NB0/MDDR_BA1 A2 MSIO85NB7 A20 DDRIO40NB0/MDDR_ADDR6 A21 DDRIO37PB0/MDDR_ADDR10 A22 VSS A3 DDRIO79NB0 A4 DDRIO79PB0 A5 DDRIO78NB0 A6 DDRIO65NB0/GB4/CCC_NW1_CLKI2 A7 DDRIO62PB0/MDDR_DQ_ECC1 A8 DDRIO62NB0/MDDR_DQ_ECC0 A9 DDRIO60NB0/MDDR_DQ1 AA1 VSS AA10 MSIO122PB4 AA11 MSIO124PB4 AA12 MSIO127PB4 AA13 MSIO130PB4/VCCC_SE0_CLKI AA14 VSS AA15 MSIO134NB4 AA16 MSIO138PB4 SmartFusion2 SoC FPGA Evaluation Kit User Guide 27 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name AA17 MSIO138NB4 AA18 MSIO137NB4 AA19 VDDI4 AA2 SERDES_0_TXD0_N AA20 XTLOSC_AUX_EXTAL AA21 XTLOSC_MAIN_EXTAL AA22 JTAGSEL AA3 VSS AA4 SERDES_0_TXD1_N AA5 VSS AA6 SERDES_0_TXD2_N AA7 VSS AA8 SERDES_0_TXD3_N AA9 VSS AB1 VSS AB10 MSIO122NB4 AB11 MSIO124NB4 AB12 VDDI4 AB13 MSIO129PB4/CCC_SW1_CLKI3 AB14 MSIO129NB4 AB15 MSIO134PB4/VCCC_SE1_CLKI AB16 VSS AB17 MSIO137PB4 AB18 MSIO142PB4 AB19 MSIO142NB4 AB2 SERDES_0_TXD0_P AB20 XTLOSC_AUX_XTAL AB21 XTLOSC_MAIN_XTAL AB22 VSS AB3 VSS AB4 SERDES_0_TXD1_P AB5 VSS AB6 SERDES_0_TXD2_P AB7 VSS AB8 SERDES_0_TXD3_P AB9 VSS B1 MSIO87NB7 B10 VSS B11 DDRIO58PB0/MDDR_DQS0 B12 VDDI0 B13 DDRIO52PB0/GB8/CCC_NE0_CLKI3/MDDR_DQS1 28 SmartFusion2 SoC FPGA Evaluation Kit User Guide 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name B14 VSS B15 DDRIO47PB0/MDDR_CKE B16 VDDI0 B17 DDRIO43NB0/MDDR_ADDR0 B18 VSS B19 DDRIO40PB0/MDDR_ADDR5 B2 MSIO85PB7 B20 VDDI0 B21 DDRIO37NB0/MDDR_ADDR11 B22 MSIO33NB1/MMUART_0_CLK/GPIO_29_B/USB_NXT_C B3 MSIO81NB7 B4 VSS B5 DDRIO78PB0 B6 DDRIO65PB0/GB0/CCC_NW0_CLKI3 B7 DDRIO64NB0/MDDR_DQS_ECC_N B8 VDDI0 B9 DDRIO60PB0/MDDR_DQ0 C1 MSIO87PB7 C10 VDDI0 C11 DDRIO58NB0/MDDR_DQS0_N C12 VSS C13 DDRIO52NB0/MDDR_DQS1_N C14 VDDI0 C15 DDRIO47NB0/MDDR_CS_N C16 DDRIO43PB0/MDDR_BA2 C17 DDRIO41PB0/MDDR_ADDR3 C18 DDRIO41NB0/MDDR_ADDR4 C19 DDRIO39NB0/MDDR_ADDR7 C2 VDDI7 C20 DDRIO39PB0/MDDR_ODT C21 VSS C22 MSIO33PB1/MMUART_0_RXD/GPIO_28_B/USB_STP_C C3 MSIO81PB7 C4 MSIO80PB7 C5 DDRIO77PB0 C6 VDDI0 C7 DDRIO64PB0/MDDR_DQS_ECC C8 VSS C9 DDRIO61NB0 D1 MSIO88PB7 D10 DDRIO56PB0/MDDR_DQ5 D11 DDRIO56NB0/MDDR_DQ6 SmartFusion2 SoC FPGA Evaluation Kit User Guide 29 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name D12 DDRIO53PB0/CCC_NE0_CLKI2/MDDR_DQ10 D13 DDRIO53NB0/MDDR_DQ11 D14 DDRIO49PB0/CCC_NE1_CLKI3/MDDR_DQ14 D15 VSS D16 DDRIO42PB0/MDDR_ADDR1 D17 VDDI0 D18 DDRIO35PB0/MDDR_ADDR14 D19 VSS D2 MSIO88NB7 D20 DDRIO36NB0/MDDR_ADDR13 D21 MSI32NB1/MMUART_0_TXD/GPIO_27_B/USB_DIR_C D22 FLASH_GOLDEN_N D3 MSIO84PB7 D4 MSIO84NB7 D5 MSIO80NB7 D6 DDRIO77NB0 D7 MDDR_IMP_CALIB D8 DDRIO63NB0/MDDR_DM_RDQS_ECC D9 DDRIO61PB0/CCC_NW1_CLKI3 E1 MSIO89PB7 E10 DDRIO59NB0/MDDR_DQ3 E11 VDDI0 E12 DDRIO55PB0/MDDR_DQ7 E13 DDRIO49NB0/MDDR_DQ15 E14 VSS E15 DDRIO46PB0/MDDR_RESET_N E16 DDRIO42NB0/MDDR_ADDR2 E17 DDRIO38PB0/MDDR_ADDR8 E18 DDRIO35NB0/MDDR_ADDR15 E19 DDRIO36PB0/MDDR_ADDR12 E2 MSIO89NB7 E20 VDDI1 E21 MSIO31NB1/MMUART_0_DCD/GPIO_22_B E22 MSIO31PB1/MMUART_0_RI/GPIO_21_B E3 VSS E4 MSIO86PB7 E5 MSIO86NB7 E6 VSS E7 DDRIO66PB0/MDDR_TMATCH_ECC_OUT E8 DDRIO63PB0/MDDR_TMATCH_ECC_IN E9 VSS F1 VDDI7 30 SmartFusion2 SoC FPGA Evaluation Kit User Guide 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name F10 DDRIO59PB0/MDDR_DQ2 F11 VSS F12 DDRIO55NB0/MDDR_TMATCH_0_OUT F13 VDDI0 F14 DDRIO48PB0/MDDR_RAS_N F15 DDRIO46NB0/MDDR_CAS_N F16 VSS F17 DDRIO38NB0/MDDR_ADDR9 F18 MSIO30NB1/MMUART_0_DSR/GPIO_20_B F19 MSIO30PB1/MMUART_0_CTS/GPIO_19_B/USB_DATA7_C F2 MSIO94NB7 F20 MSIO29NB1/MMUART_0_DTR/GPIO_18_B/USB_DATA6_C F21 MSIO29PB1/MMUART_0_RTS/GPIO_17_B/USB_DATA5_C F22 VDDI1 F3 MSIO90PB7 F4 MSIO90NB7 F5 MSIO83PB7 F6 MSIO83NB7 F7 VDDI0 F8 DDRIO66NB0/CCC_NW0_CLKI2 F9 VDDI0 G1 MSIO96NB7 G10 VREF0 G11 VREF0 G12 DDRIO51PB0/MDDR_TMATCH_0_IN G13 DDRIO51NB0/MDDR_DM_RDQS1 G14 DDRIO48NB0/MDDR_WE_N G15 VREF0 G16 MSIO34NB1/I2C_0_SCL/GPIO_31_B/USB_DATA1_C G17 MSIO34PB1/I2C_0_SDA/GPIO_30_B/USB_DATA0_C G18 MSIO28NB1/MMUART_1_RXD/GPIO_26_B/USB_DATA3_C G19 MSIO28PB1/GB14/VCCC_SE1_CLKI/MMUART_1_CLK/GPIO_25_B/USB_DATA4_C G2 MSIO94PB7 G20 VSS G21 MSIO26NB1/MMUART_1_DCD/GPIO_16_B G22 MSIO26PB1/CCC_NE1_CLKI1/MMUART_1_RI/GPIO_15_B G3 MSIO95NB7 G4 VDDI7 G5 MSIO82PB7 G6 MSIO82NB7 G7 MSIO91NB7 G8 CCC_NW1_PLL_VSSA SmartFusion2 SoC FPGA Evaluation Kit User Guide 31 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name G9 CCC_NW1_PLL_VDDA H1 MSIO96PB7/GB6/CCC_NW1_CLKI1 H10 VDD H11 VSS H12 VDDI0 H13 VSS H14 VDDI0 H15 CCC_NE0_PLL_VDDA H16 MSS_MDDR_PLL_VDDA H17 MSS_MDDR_PLL_VSSA H18 VDDI1 H19 MSIO27NB1/MMUART_1_TXD/GPIO_24_B/USB_DATA2_C H2 VSS H20 MSIO27PB1/GB10/VCCC_SE0_CLKI/USB_XCLK_C H21 MSIO24NB1/MMUART_1_DTR/GPIO_12_B H22 MSIO24PB1/MMUART_1_RTS/GPIO_11_B H3 MSIO95PB7 H4 MSIO93PB7 H5 MSIO93NB7 H6 MSIO92PB7 H7 MSIO91PB7 H8 CCC_NW0_PLL_VDDA H9 VSS J1 MSIO98PB7/CCC_NW1_CLKI0 J10 VSS J11 VDD J12 VSS J13 VDD J14 VSS J15 CCC_NE0_PLL_VSSA J16 CCC_NE1_PLL_VSSA J17 CCC_NE1_PLL_VDDA J18 MSIO23NB2/SPI_1_SS3/GPIO_16_A J19 MSIO25NB1/MMUART_1_DSR/GPIO_14_B J2 MSIO98NB7 J20 MSIO25PB1/CCC_NE0_CLKI1/MMUART_1_CTS/GPIO_13_B J21 VDDI1 J22 MSIO20NB2/GB13/VCCC_SE1_CLKI/GPIO_26_A J3 MSIO97PB7/GB2/CCC_NW0_CLKI1 J4 MSIO97NB7 J5 VSS J6 MSIO92NB7 32 SmartFusion2 SoC FPGA Evaluation Kit User Guide 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name J7 VDDI7 J8 CCC_NW0_PLL_VSSA J9 VDD K1 MSIOD103PB6/CCC_SW0_CLKI0 K10 VDD K11 VSS K12 VDD K13 VSS K14 VDD K15 MSIO21NB2/SPI_0_SS2/GPIO_9_A/USB_DATA6_A K16 MSIO22NB2/SPI_1_SS1/GPIO_14_A K17 MSIO22PB2/SPI_0_SS3/GPIO_10_A/USB_DATA7_A K18 MSIO23PB2/SPI_1_SS2/GPIO_15_A K19 VSS K2 MSIOD103NB6 K20 MSIO19NB2/SPI_1_SS7/GPIO_24_A K21 MSIO19PB2/SPI_1_SS6/GPIO_23_A K22 MSIO20PB2/GB9/VCCC_SE0_CLKI/GPIO_25_A K3 VDDI6 K4 MSIOD100PB6/GB5/CCC_SW1_CLKI1 K5 MSIOD100NB6 K6 MSIO99PB7/CCC_NW0_CLKI0 K7 MSIO99NB7 K8 MSIOD101PB6/GB1/CCC_SW0_CLKI1 K9 VSS L1 VSS L10 VSS L11 VDD L12 VSS L13 VDD L14 VSS L15 VPP L16 MSIO21PB2/SPI_0_SS1/GPIO_8_A/USB_DATA5_A L17 VDDI2 L18 MSIO18NB2/SPI_1_SS5/GPIO_18_A L19 MSIO18PB2/SPI_1_SS4/GPIO_17_A L2 MSIOD104PB6 L20 MSIO17NB2/SPI_1_SS0/GPIO_13_A L21 MSIO17PB2/SPI_1_SDO/GPIO_12_A L22 VSS L3 MSIOD104NB6 L4 MSIOD105PB6 SmartFusion2 SoC FPGA Evaluation Kit User Guide 33 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name L5 MSIOD105NB6 L6 VDDI6 L7 MSIOD102NB6 L8 MSIOD101NB6 L9 VDD M1 MSIOD110NB6 M10 VDD M11 VSS M12 VDD M13 VSS M14 VDD M15 VPPNVM M16 MSIO14PB2/SPI_0_SS4/GPIO_19_A M17 MSIO14NB2/SPI_0_SS5/GPIO_20_A M18 MSIO15PB2/SPI_0_SS6/GPIO_21_A M19 MSIO15NB2/SPI_0_SS7/GPIO_22_A M2 MSIOD108NB6 M20 VDDI2 M21 MSIO16PB2/SPI_1_CLK M22 MSIO16NB2/SPI_1_SDI/GPIO_11_A M3 MSIOD108PB6 M4 VSS M5 MSIOD106PB6 M6 MSIOD106NB6 M7 MSIOD102PB6/CCC_SW1_CLKI0 M8 MSIOD113NB6 M9 VSS N1 MSIOD110PB6 N10 VSS N11 VDD N12 VSS N13 VDD N14 VSS N15 VSSNVM N16 MSIO8PB2/CAN_RX/GPIO_3_A/USB_DATA1_A N17 MSIO8NB2/CAN_TX_EN_N/GPIO_4_A/USB_DATA2_A N18 VSS N19 MSIO12PB2/SPI_0_CLK/USB_XCLK_A N2 VDDI6 N20 MSIO12NB2/SPI_0_SDI/GPIO_5_A/USB_DIR_A N21 MSIO13PB2/SPI_0_SDO/GPIO_6_A/USB_STP_A N22 MSIO13NB2/SPI_0_SS0/GPIO_7_A/USB_NXT_A 34 SmartFusion2 SoC FPGA Evaluation Kit User Guide 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name N3 MSIOD109PB6 N4 MSIOD109NB6 N5 MSIOD107PB6 N6 MSIOD107NB6 N7 VSS N8 MSIOD113PB6 N9 VDD P1 MSIOD112PB6 P10 VDD P11 VSS P12 VDD P13 VSS P14 VDD P15 VPP P16 MSIO7NB2/CAN_TX/GPIO_2_A/USB_DATA0_A P17 MSIO6PB2/USB_DATA6_B P18 MSIO6NB2 P19 SC_SPI_SDO P2 MSIOD112NB6 P20 SC_SPI_SS P21 VSS P22 MSIO11PB2/CCC_NE0_CLKI0/I2C_1_SDA/GPIO_0_A/USB_DATA3_A P3 MSIOD111NB6 P4 MSIOD111PB6 P5 VDDI6 P6 MSIOD114PB6 P7 MSIOD114NB6 P8 SERDES_0_VDD P9 VSS R1 MSIOD115NB6 R10 VSS R11 VDD R12 VSS R13 VDD R14 VSS R15 DEVRST_N R16 MSIO7PB2 R17 MSIO1PB2/USB_XCLK_B R18 MSIO1NB2/USB_DIR_B R19 VDDI2 R2 MSIOD115PB6 SmartFusion2 SoC FPGA Evaluation Kit User Guide 35 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name R20 SC_SPI_CLK R21 SC_SPI_SDI R22 MSIO11NB2/CCC_NE1_CLKI0/I2C_1_SCL/GPIO_1_A/USB_DATA4_A R3 MSIOD116PB6 R4 MSIOD116NB6 R5 VSS R6 CCC_SW0_PLL_VSSA R7 CCC_SW1_PLL_VDDA R8 SERDES_0_L01_VDDAIO R9 VSS T1 MSIOD118NB5/SERDES_0_REFCLK0_N T10 SERDES_0_L23_VDDAIO T11 NC T12 NC T13 MSIO131NB4 T14 VDDI4 T15 VSS T16 MSIO143NB4 T17 VSS T18 MSIO2PB2/USB_STP_B T19 MSIO2NB2/USB_NXT_B T2 VSS T20 MSIO5PB2/USB_DATA4_B T21 MSIO5NB2/USB_DATA5_B T22 VDDI2 T3 MSIOD117NB6 T4 MSIOD117PB6 T5 CCC_SW0_PLL_VDDA T6 SERDES_0_PLL_VSSA T7 CCC_SW1_PLL_VSSA T8 SERDES_0_PLL_VDDA T9 SERDES_0_VDD U1 MSIOD118PB5/SERDES_0_REFCLK0_P U10 MSIO123PB4 U11 MSIO123NB4 U12 VSS U13 MSIO131PB4/GB11/VCCC_SE0_CLKI U14 MSIO136PB4 U15 MSIO136NB4 U16 MSIO143PB4 U17 MSIO144NB4 U18 MSIO146NB4 36 SmartFusion2 SoC FPGA Evaluation Kit User Guide 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name U19 MSIO0PB2 U2 VDDI5 U20 VSS U21 MSIO4NB2/USB_DATA3_B U22 MSIO4PB2/USB_DATA2_B U3 MSIOD119PB5/SERDES_0_REFCLK1_P U4 MSIOD119NB5/SERDES_0_REFCLK1_N U5 SERDES_0_L01_REXT U6 SERDES_0_L01_REFRET U7 SERDES_0_L01_VDDAPLL U8 SERDES_0_L23_VDDAPLL U9 VPP V1 VSS V10 VDDI4 V11 MSIO125PB4/GB3/CCC_SW0_CLKI3 V12 MSIO128NB4 V13 MSIO132PB4 V14 MSIO132NB4 V15 VSS V16 MSIO139NB4 V17 MSIO144PB4 V18 MSIO146PB4 V19 MSIO0NB2/USB_DATA7_B V2 VSS V20 JTAG_TMS/M3_TMS/M3_SWDIO V21 MSIO3NB2/USB_DATA1_B V22 MSIO3PB2/USB_DATA0_B V3 VSS V4 VSS V5 VSS V6 VSS V7 VSS V8 SERDES_0_L23_REXT V9 SERDES_0_L23_REFRET W1 SERDES_0_RXD0_P W10 MSIO121PB4/PROBE_A W11 MSIO125NB4/GB7/CCC_SW1_CLKI2 W12 MSIO128PB4 W13 VDDI4 W14 MSIO133NB4 W15 MSIO135NB4 W16 MSIO139PB4 SmartFusion2 SoC FPGA Evaluation Kit User Guide 37 4 – Pin List PKG.PIN M2S025TS/M2S025T-FGG484 Pin Name W17 MSIO140NB4 W18 VSS W19 MSIO145NB4 W2 VSS W20 JTAG_TCK/M3_TCK W21 VDDI3 W22 JTAG_TDI/M3_TDI W3 SERDES_0_RXD1_P W4 VSS W5 SERDES_0_RXD2_P W6 VSS W7 SERDES_0_RXD3_P W8 VSS W9 MSIO120PB4 Y1 SERDES_0_RXD0_N Y10 MSIO121NB4/PROBE_B Y11 VSS Y12 MSIO127NB4 Y13 MSIO130NB4 Y14 MSIO133PB4/GB15/VCCC_SE1_CLKI Y15 MSIO135PB4 Y16 VDDI4 Y17 MSIO140PB4 Y18 MSIO141PB4 Y19 MSIO141NB4 Y2 VSS Y20 MSIO145PB4 Y21 JTAG_TDO/M3_TDO/M3_SWO Y22 JTAG_TRSTB/M3_TRSTB Y3 SERDES_0_RXD1_N Y4 VSS Y5 SERDES_0_RXD2_N Y6 VSS Y7 SERDES_0_RXD3_N Y8 VSS Y9 MSIO120NB4/CCC_SW0_CLKI2 38 SmartFusion2 SoC FPGA Evaluation Kit User Guide 5– Board Components Placement The SmartFusion2 Evaluation Kit components placement on top and bottom sides, are shown in the following figures. SmartFusion2 SoC FPGA Evaluation Kit User Guide 39 50 G G D7 D6 TP2 20 10 C3 C2 G 10 5 G D4 D3 D2 C7 C6 C5 C4 L2 10 2 U7 H5 H6 J6 H7 G7 F3 F4 E1 U1 1 A Y2 J14 17 1 A1 DPR1 2 J9 20 J10 1 19 U5 1H1 4 1 3 Y1 2 4 I2C0_SCL 1 13 3 16 L2 X1 4 1 J21 SW1 2 U25 USB 1 3 L20 U26 Y4 L6 C103 CON1 B11 B12 J16 GND GND U21 1 A 1P2V 1 TP7 RXD2N TP11 1P2V_CUR_SENSE TP10 4 2 3 1 TP15 TP14 U23 L0 B1 TP18 TP19 1P8V_CUR_SENSE 1P8V TC18 TC19 Y5 XTAL J27 J26 1 CLK_EN J23 HZ OSC SERDES_REFCLK1 U22 SMA C79 TP16 TP9 Active L7 U20 1 J25 CR4 U19 A1 U18 J22 TP8 P1 1 CR3 SERDES_REFCLK1N J17 TP6 U15 SPI U16 Y3 5 TP17 CR1 L5 RXD2P TP5 SERDES_REFCLK1P J20 U11 SW3 U12 U14 CR2 J24 A B M2GL_M2S-EVAL-KIT DVP-102-000402-001 2 4 Rev C SW4 1 J8 19 A1 I2C0_SDA I2C1_SDA TXD2N J15 TXD2P U10 J13 K20 1 SW2 SW5 1 4 JTAG_SEL H J18 U9 9 PROG Header B1 DEVRST SW6 1 L L19 RMT K21 L18 L3 1 LED2 1 2 3 A A TC9 TC10 TC6 J7 1 ON 20 20 2 J5 L3 TC7 TC8 TP1 J4 J11 100MBPS LINK J12 LPDDR 5 FTDI-GPIO J2 B7 B6 B5 A7 A6 A5 A4 TP4 3 ETH PHY-SGMII FTDI G L1 3 4 1 G TP3 SW7 J18 G U6 J3 2 D9 D5 U8 1 SWT J6 1 30 15 G Trace DBG TC5 TC4 RMT G 40 20 G RVI/IAR TC3 12V U2 I2C1_SCL 60 GND TC2 TC1 3 U4 12V I/P 2 SF2-GPIO J1 G K16 C7 1GMBPS LINK 3.3V C10 D8 5V 1 U13 5 – Board Components Placement U24 J28 B18 Figure 18. Silkscreen Top View 40 SmartFusion2 SoC FPGA Evaluation Kit User Guide C118 C117 C121 C122 C120 R155 R158 C125 C206 C212 C211 R162 R210 R220 C299 C306 C309 C244 C263 C284 C318 C322 C252 R230 L8 L9 C277 C278 C253 C293 C308 R228 C326 C91 R244 R249 C342 R267 U31 R254 R232 R237 C336 C337 R243 C335 C341 R238 R239 C338 C339 R247 C329 C161 C153 C156 C157 C145 C158 C146 C159 C147 C31 C129 R222 R231 C216 C317 R235 C330 C331 R236 C332 J21 R234 R233 J17 C294 C312 R226 R221 C325 C327 C321 R224 C209 C204 C292 C270 C221 C222 R212 R213 R214 C236 C251 C295 R207 C323 R216 R202 C250 C259 R179 R180 R193 R209 R170 R182 C155 C162 C169 C173 C177 C180 C183 C190 C191 C192 C184 R205 C185 C188 R206 C187 C189 R200 C215 R246 C360 C348 R266 R245 C358 U32 R271 C334 R203 C245 C333 C359 C182 C186 C195 C198 C361 R263 R264 R265 C363 R272 R172 C144 C151 C150 C154 C194 C328 C314 C316 C315 C362 C163 C167 C168 C171 C172 C175 C176 C179 C178 C181 C193 C218 C285 R225 R219 C283 C324 R166 C136 R167 C138 R169 C140 R173 C142 R188 C149 R190 C152 R194 C160 R195 C164 C272 C269 C347 R223 C205 C208 C213 C214 C219 C223 R211 C243 C232 C238 R218 R217 C271 C264 C296 C298 C297 C289 R227 C313 R229 D10 C127 C319 C320 J15 C349 R61 J16 C197 C207 R268 R269 R270 J20 C196 R204 R191 C199 R199 C200 C165 C201 C174 C166 C202 C119 U28 R201 C131 R184 R174 R185 R175 R186 R176 R187 R177 C281 C262 C242 C231 C287 C288 C254 C229 C304 C279 C255 C286 C260 C228 C280 C261 C241 C230 C303 J10 C311 C305 R240 C123 R159 R251 U27 R241 R248 C128 R161 D11 R160 C170 R208 C210 C124 C220 C217 C227 C226 R215 C240 C225 C235 C224 C248 C234 C233 C239 C237 C247 C126 C258 C249 C246 C257 C267 R163 C130 C256 C266 C276 C268 C133 C134 C273 R164 C275 C265 R165 C132 C350 C274 C282 R168 C135 C290 C301 C351 C137 C302 C300 R171 C291 R178 C139 C352 C307 R181 C141 R183 C143 C353 C310 R189 C148 R192 R198 R196 R197 R157 R156 5 – Board Components Placement CON1 Figure 19. Silkscreen Bottom View  SmartFusion2 SoC FPGA Evaluation Kit User Guide 41 6 – Demo Design M2S-EVAL-KIT Board Demo Design The M2S-EVAL-KIT comes with a preloaded PCIe control plane demo design. This demo design demonstrates the key features of the SmartFusion2 device such as - PCIe, GPIOs, and fabric interface controller of the SmartFusion2 device. These features can be used for rapid prototyping and validation of user specific designs. Note: For more details on running the demo designs, refer to the SmartFusion2 FPGA Evaluation Kit PCIe Demo Guide (to be released). SmartFusion2 SoC FPGA Evaluation Kit User Guide 43 7– Manufacturing Test M2S-EVAL-KIT Board Testing Procedures M2S-EVAL-KIT contains a manufacturing test program that can be run to verify the functionality of the board. This program contains a list of options that can be run as diagnostics for the SERDES interface, LPDDR, SPI flash, I2C, SGMII, and debugging the LEDs and switches. From the list of provided menu options, either one or all of the tests can be selected to verify the functionality. Setting Up the Board for Test Jumper Settings • Jumper J3 short pin 1-2 • Short Jumper J8 to 1-2 position. • Short jumper J22,J23 to 1-2 Position • Short jumper H1 pin 6-10 and pin 7-11 Position • Short Jumper J24 to 1-2 position. Requirements to Run EVAL KIT MTD Test Power • Connect 12 V power supply brick to J6 to power the board. • Slide the main power switch SW7 to ON position. Programming • Connect the FP4 header to J5. • Open the FlashPro Programming Software. • Create a new programming project and select the Single Device when choosing programming mode. • Click Configure Device. This will open the Load Programming File window. • Browse the PC file system to find the SB1_top.stp programming file. Click Open to select the SB1_top.stp file. • Click Program to program the M2S-EVAL-KIT device. HyperTerminal communication • Connect USB cable (mini USB to Type A USB cable) to J18 and other end connect it to USB port of test PC. This is required for HyperTerminal communication. Note: Make sure test PC should have FTDI drivers installed. These are available at http://www.ftdichip.com/Drivers/D2XX.htm. SGMII test • Connect network Ethernet cable to J13 (RJ 45 connector). • Other end of Ethernet cable should be connecting to network or Ethernet switch. SERDES LOOPBACK Test • Connect SMA Cable one end to J20 and other end to J15 of Eval kit. • Connect SMA Cable one end to J16 and other end to J10 of Eval kit. SmartFusion2 SoC FPGA Evaluation Kit User Guide 45 7– Manufacturing Test Before testing the SmartFusion2 Evaluation Kit: • Download SB1_top.stp, SF2_SGMII_MDDR_top.stp, and PMA_SERDES_CONFIGURATOR.exe files from www.microsemi.com/soc/download/rsc/?f= SmartFusion2_EVAL_KIT_MTD. • Download and install the drivers from: http://www.ftdichip.com/Drivers/D2XX.htm Loopback Test on SERDES Lanes Table 14 shows the list of tests performed on the four SERDES lanes in external physical coding sublayer (EPCS) mode. Table 14 SERDES Lanes Loopback Tests Lane Tests Performed Lane 0 Internal loopback Lane 1 Internal and external loopback (Onboard 6 inches trace loopback) Lane 2 Internal loopback, External Loopback using Loopback cables Lane 3 Internal loopback 46 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test Internal Loopback Test on SERDES Lanes 1. Connect USB cable (mini USB to Type A USB cable) to J18 and other end of the cable to the USB port of test PC. This is required for SERDES and UART communication. 2. Switch ON the SW7 power supply switch. 3. Make sure that the board is programmed with SB1_top.stp file. 4. Double-click the PMA_SERDES_CONFIGURATOR.exe file to open the PMA SERDES analyzer to test the Evaluation Kit board. Figure 20 shows the SERDES TEST APP window. Figure 20 SERDES TEST APP Window SmartFusion2 SoC FPGA Evaluation Kit User Guide 47 7– Manufacturing Test 5. Click the port settings tab on the SERDES TEST APP window. Figure 21 shows the port settings tab. 6. Select the highest COM port from the drop-down list and click Open to establish the connection with the test PC. Figure 21 Port Settings Tab Figure 22 Selecting the COM Port 7. 48 Click the serdes analyzer tab to verify the connection. SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test Figure 23 SERDES Analyzer Tab Make sure that Communication Status indicator is in green. If the UART communication is not set up properly, Communication Status indicator will be in red. Note: If the Core Reset status indicator is shown in green, click Deassert Core Reset to disable the core reset. Figure 24 Deasserting Core Reset 8. Select serdes lane0 from the Register Space drop-down list. SmartFusion2 SoC FPGA Evaluation Kit User Guide 49 7– Manufacturing Test Figure 25 Selecting Register Space 50 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test 9. In serdes analyzer tab, write 10 in Register Offset and write 1 in Write Data and click Write. Figure 26 Entering values in Register Offset and Write Data 10. In serdes analyzer tab, write 14 in Register Offset and write 13 in Write Data and click Write. Figure 27 Entering values in Register Offset and Write Data Note: By writing values on these register, we are setting up selected SEREDS lane to 5 GBPS mode. This exercise need to be done for every lane (that is, Lane 0, Lane 1, Lane 2, and Lane 3) to enable data rate of 5 GPBS on different lane. SmartFusion2 SoC FPGA Evaluation Kit User Guide 51 7– Manufacturing Test 10. Click Enable Near(TX to RX) loopback to enable the internal near end loopback on SERDES Lane0. Figure 28 Enabling Internal Loopback Figure 29 shows Near loopback (lpbk) status indicator in green after clicking Enable Near(TX to RX) loopback. Figure 29 Enabled Internal Loopback 11. Click Enable PRBS Gen+checkerto enable PRBS check. Figure 30 Enabling PRBS Generator 52 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test Figure 31 shows PRBS gen status indicator in green after clicking Enable PRBS Gen+checker. Figure 31 Enabling PRBS Pattern Generation Once the PRBS Gen+Checker is enabled, observe the PRBS error count for Lane 0. It should be 0. 0 on PRBS error count shows that the internal loopback test is successful for SERDES lane 0. Value other than 0 indicated that the internal loopback test is not successful and it has the number of errors it shown. 12. Click Disable PRBS Gen +checker to stop the packet transmission and click Disable Near (TX to RX) loopback to disable the loopback. After clicking, Near LPBK status and PRBS gen status indicators change to red. Figure 32 shows Disabled Internal Loopback. Figure 32 Disabling Internal Loopback After testing internal loopback on SERDES Lane0, repeat the same test for other three SERDES lanes that is Lane 1, Lane 2, and Lane 3 by selecting the Lane from Register Space drop-down list. Note: Make sure every time after selecting different lane on Register Space tab we need to update register values to enable 5GBPS data rates on different SERDES lanes as shown below. SmartFusion2 SoC FPGA Evaluation Kit User Guide 53 7– Manufacturing Test External Loopback on SERDES Lane External loopback can be performed on SERDES Lane 1 and Lane 2 only. Note: Switch off the board and give the following connections and switch on the board: • SMA connector J20 and J15 are shorted using SMA Cable. • SMA connector J16 and J10 are shorted using SMA Cable. 1. Select serdes lane1 from the Register Space drop-down list. Figure 33 Selecting SERDES Lane 1 On Register Offset tab write 10and on Write Data tab write 1 and click on Write tab. Figure 34 Writing Registers 1 Now On Register Offset tab write 14 and on Write Data tab write 13 and click on Write tab. 54 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test Figure 35 Writing Registers 2 2. Click Enable PRBS Gen+checker to check the error count. Figure 36 Enabling PRBS Generator Figure 37 shows PRBS gen status indicator in green after clicking Enable PRBS Gen+checker. Figure 37 Enabling PRBS Pattern Generation Once the PRBS Gen+checker is enabled, observe the PRBS error count for Lane1. It should be 0.If PRBS error count shows 0, the external loopback test is successful for SERDES Lane 1. Value other than 0 indicated that the external loopback test is not successful and it has the number of errors it shown. After testing interface loopback on SERDES Lane 1, repeat the same test for Lane 2 by selecting lane on register space tab. Repeat all steps as done for lane1 test. 3. Close SERDES TEST APP window once the test is completed. SmartFusion2 SoC FPGA Evaluation Kit User Guide 55 7– Manufacturing Test Setting up the Test Terminal for MTD Note: Make sure the GUI for SERDES test is closed before opening HyperTerminal application for MTD. 1. Open the Windows start menu. Click on All Programs, Accessories, Communications, and then select the HyperTerminal program. This will open HyperTerminal window. Figure 38 Opening HyperTerminal window 56 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test The Connection Description window will open. Type in M2S-EVAL-KIT-MTD as the name of the new HyperTerminal session and click OK. Figure 39 Connection Naming 2. The Connect To window will open. Select the COM port for serial connection. Figure 40 Selecting COM Port Note:  Selection of COM port may vary from PC to PC. When using USB cable for HyperTerminal communication, 4 COM port prompts on connection menu, select the last com port out of the 4 COM port appears, to establish connection with test PC.  Make sure the GUI for SERDES test is closed before opening Hyperterminal application for MTD. SmartFusion2 SoC FPGA Evaluation Kit User Guide 57 7– Manufacturing Test 3. The COM port Properties window will appear. Select the following settings: Bits per second = 57600 Data bits = 8, Parity = None, Stop bits = 1, Flow Control = None Figure 41 Port Setting 4. 5. 6. Click OK to keep the settings. Select File Properties on the HyperTerminal window. Click ASCII Setup in the Settings tab. Figure 42 Setting Properties 58 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test 7. Check the box labeled Append line feeds to incoming line ends. Figure 43 Enabling Local Echo SmartFusion2 SoC FPGA Evaluation Kit User Guide 59 7– Manufacturing Test Running the MTD Test on M2S-EVAL-KIT • Program the EVAL KIT with SF2_SGMII_MDDR_top.stp file using FlashPro 4 software. • Make sure all the jumper set-up and jumper setting are placed as explained in the Requirements to Run EVAL KIT MTD Test section. • Make sure network cable is connected to J13 (RJ 45 connector) and all the jumper are in place explained in the SGMII test section. Test Procedure Press the Reset Switch SW6 on the M2S-EVAL-KIT to reset the board and start the test program. Following menu will appear. Figure 44 MTD Test Menu Note: If this message does not appear, then try pressing button SW6 again. If the above message still does not appear, then check all the jumper setting and the hyper terminal has been setup correctly. Power cycles the board again. Press 0 into the terminal to begin the SPI memory test. The following screen will appear. Figure 45 SPI Memory Test 60 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test Press 1 into the terminal to begin the LPDDR memory test. The following screen will appear. Figure 46 LPDDR Memory Test Press 2 into the terminal to begin the I2C test. The following screen will appear. Figure 47 I2C Test Note: In case test failure message appears, please make sure jumper H1 pin 6-10 and pin 7-11 positions are shorted properly. SmartFusion2 SoC FPGA Evaluation Kit User Guide 61 7– Manufacturing Test Press 3 into the terminal to begin the Switch LEDs test. The following screen will appear. Figure 48 Switch LEDs Test - Step1 Press the switch as instructed and observed the behavior of LEDs. If you observed the same behavior as mentioned on terminal message, enter Y in the terminal window and following window will appear. Figure 49 Switch LEDs Test - Step2 62 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test Press 4 into the terminal to begin the SGMII test. After few seconds, the following message will display. Figure 50 SGMII Test-Step1 Press a on terminal window. Following message will appear. Pressing a resets the terminal and the main menu reappears on terminal window as shown below. Figure 51 SGMII Test-Step2 SmartFusion2 SoC FPGA Evaluation Kit User Guide 63 7– Manufacturing Test Press 4 again on terminal window. Following message will appear. Figure 52 SGMII Test-Step3 Wait for few seconds (approx-5 Seconds) and the press s into the terminal window to get MAC and IP address. Figure 53 shows the message that appears on terminal window. Figure 53 SGMII Test-Step4 Note: IP address may vary from PC to PC. It may not be the same as appears on the snapshot. 64 SmartFusion2 SoC FPGA Evaluation Kit User Guide 7– Manufacturing Test Press Reset (SW6) to switch to main menu. After pressing SW6, main test window will appear. Figure 54 SGMII Test-Step5 Note: While running SGMII test, if the link-up is not proper below message will appear. Figure 55 SGMII Test-Error Message In case of this error make sure • Ethernet cable is connected properly to J13. • Jumper J22,J23 are shorted to 1-2 Position • Rerun the SGMII test as explained above. SmartFusion2 SoC FPGA Evaluation Kit User Guide 65 7– Manufacturing Test Switches and LED Tests Use the following switches to test the corresponding LED: • Press SW6, H5 LED must glow. • Press SW7, H6 LED must glow. • Press SW4, J6 LED must glow. • Press SW3, H7 LED must glow. Debugging the Board If the board is not programmed successfully, check if all the required power supplies, clocks, and reset signals are within the accepted range or not. Power Supply Validation 1. Check for all default jumper settings as per Table 4 on page 9. 2. After power ON, power supplies with respect to the ground must be measured and the range must be as listed in Table 15. : Table 15 Power Supply Range Power Rail Probing Point Accepted Voltage Range. (in Volt) 1P2V C95 Pin 2 1.15