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ICE40LP1K-SWG16-EVN

ICE40LP1K-SWG16-EVN

  • 厂商:

    LATTICE(莱迪思半导体)

  • 封装:

    -

  • 描述:

    ICE40 16-WLCSP EVALUATION KIT

  • 数据手册
  • 价格&库存
ICE40LP1K-SWG16-EVN 数据手册
iCE40 16-WLCSP Evaluation Kit User’s Guide February 2014 EB84_01.0 iCE40 16-WLCSP Evaluation Kit Introduction Thank you for choosing the Lattice iCE40TM 16-WLCSP Evaluation Kit. This guide describes how to begin using the iCE40 16-WLCSP Evaluation Kit, an easy-to-use platform for rapidly prototyping system control designs using an iCE40 FPGA. Along with the evaluation board and accessories, this kit includes the pre-loaded LED Driver Demo that demonstrates driving the IR, Bar Code and RGB LEDs with a PWM circuit. The contents of this user’s guide include demo operation, top-level functional descriptions of the various portions of the evaluation board, descriptions of the on-board connectors, switches, a complete set of schematics and the bill of materials for the iCE40 16-WLCSP Evaluation Board. Note: Static electricity can severely shorten the lifespan of electronic components. Be careful when handling the iCE40 16-WLCSP Evaluation Kit as to not damage it from ESD. Features The iCE40 16-WLCSP Evaluation Kit includes: • iCE40 16-WLCSP Evaluation Board – The ICE40 16-WLCSP Evaluation Board features the following on-board components and circuits: – iCE40 (iCE40LP1K-SWG16) device in a 16-ball WLCSP package. – Example of a board using this 0.35-pitch WLCSP package. – High-current LED output – Infrared transmit – Barcode emulation – 27MHz oscillator – iCE40 Current Measurements – Standard USB cable for device programming – RoHS-compliant packaging and process • Pre-loaded Demo – The kit includes a pre-loaded demo to control the onboard RGB LED in conjunction with a software run GUI. • USB Connector Cable – A mini B USB port provides power, a programming interface and communication for the software RGB LED GUI to the ICE40 SPI port. 2 iCE40 16-WLCSP Evaluation Kit Figure 1 shows the top side of the iCE40 16-WLCSP Evaluation Board indicating the specific features that are designed on the board. Figure 1. iCE40 16-WLCSP Evaluation Board (Top Side) RGB LED IR LED Bar Code LED iCE40LP1K-16SWG USB Interface Socket Power Switch iCE40 Device The board features an ICE40LP1K FPGA with a 1.2V core supply. The device is packaged in a 16-ball WLCSP. For a complete description of this device, see HB1011, iCE40 LP/LX/LM Family Handbook. Software Requirements You should install the following software before you begin developing designs for the board: • Lattice iCEcube2 2013.08 (or higher) • Diamond Programmer 2.2 (or higher) These software are available at the Lattice website Design Software & IP page. Make sure you log in to www.latticesemi.com, otherwise these software downloads will not be visible. It is also recommended to download the RGG LED software GUI which interfaces with the iCE40 16-WLCSP Evaluation Kit. This GUI allows you to control the RGB LED for color, brightness, blinking and breathing. Download the PC or MAC version of the GUI at www.latticesemi.com. 3 iCE40 16-WLCSP Evaluation Kit Demonstration Design Shunts Lattice provides the RGB LED Driver Demo design programmed in the board. The RGB LED Driver Demo used in conjunction with the software GUI illustrates the use of a PWM driver controlling the LEDs on the board. Below is a description of the control jumpers for each LED. • The RGB LED will transition colors – J27 can be used to probe RGB LED (Default shunted). If you remove J27, the RGB LED will not light up. • The IR LED will toggle when a shunt is placed across J29 pins 1-2 • The Bar Code LED will toggle when a shunt is placed across J29 pins 2-3 (Default shunted) Figure 2 shows the default board shunt locations. Figure 2. Default Shunt Locations J29 = IR/Bar Code Select J27 = RGB Shunts J24 = Enables the SPI Flash J13 = Enables VCCIO J12 = Enables VCCIO J25 = Program SPI Flash or iCE40 J3 = Selects VCCIO voltage level J30 = Enables power from USB J26 = Selects VCCIO voltage level J18 = Selects VCCIO supply J14 = Enables VCC J28 = Enables the DONE LED 4 iCE40 16-WLCSP Evaluation Kit Clock Sources The board has two options for clock sources. The clock drives the iCE40LP1k device directly • 27 MHz Oscillator shunt J6 pins 1-2 (Default shunted) • SMA External clock shunt J6 pins 2-3 Figure 3 shows the J6 pins. Figure 3. J6 Pins Location J6 = Clock Selection 5 iCE40 16-WLCSP Evaluation Kit Board Power The board provides a number of power options: • Board Power – SW2 is the boards On/Off switch - D3 Blue LED indicates power – Power the board with USB power shunt J30 pins 1-2 (Default shunted) – Power the board with a Dragon Board shunt J30 pins 2-3 • iCE40 ICC – Supply Options - Onboard 1.2V supply shunt J18 pins 1-2 (Default shunted) - External 1.2V supply shunt J18 pins 2-3 – Current Measurement - ICC can be measured with an ammeter on J14 (Default shunted) • iCE40 ICCIO – Supply Options - VCCIO3_2_1_SPI 3.3V supply shunt J3 pins 1-2 (Default shunted) - VCCIO3_2_1_SPI 2.5V supply shunt J3 pins 3-4 - VCCIO3_2_1_SPI 1.8V supply shunt J3 pins 5-6 - VCCIO0 3.3V supply shunt J26 pins 1-2 (Default shunted) - VCCIO0 2.5V supply shunt J26 pins 3-4 - VCCIO0 1.8V supply shunt J26 pins 5-6 – Current Measurement - ICC_3_2_1_SPI can be measured with an ammeter on J13 (Default shunted) - ICC_0 can be measured with an ammeter on J12 (Default shunted) 6 iCE40 16-WLCSP Evaluation Kit Board Configuration and Programming The board allows for programming of the iCE40 or the SPI Flash: • USB to iCE40 SPI port J16 • SPI Flash Programming J25 shunt pins 1-3 and 2-4 (Default shunted) – U9 Micron Technology Inc part number M25P80-VMW6TG • iCE40 Configuration or Programming J25 shunt pins 1-2 and 3-4 – U15 iCE40LP1K-SWG16 • CRESETB can be asserted by pushing SW1 – Can be probed with J11 • Done LED D3 – Can be probed with J28 (Default shunted) Details of the iCE40 Board for use in programming are shown in Figure 4. Figure 4. Configuration and Programming Details J11 = CRESETB Probe CRESETB M25P80-VMW6TG iCE40LP1K-16SWG J25 = iCE40 or SPI Flash USB Port J28 = DONE Probe DONE LED 7 iCE40 16-WLCSP Evaluation Kit Test Points The board features a number of test points which provide access to the iCE40 I/Os: • J9 provides the following test points as shown in Figure 6: Figure 5. J9 AP and Sensor Interconnects VCC3V3 {2} {2} {2} {3,4} VCORE LED_BLUE LED_GREEN LED_RED VCCIO0 LED_BLUE LED_GREEN LED_RED clk sensor3_flsh_miso {2} BAR_LED J9 2 4 6 8 10 12 14 16 18 20 22 24 VCCIO2 1 3 5 7 9 11 13 15 17 19 21 23 CRSTb flsh_cs {3,4} sensor3_flsh_mosi sensor3_flsh_sclk IR_LED CDONE SENSOR INTERCONNECT {3,4} {3,4} {2} {4} AP & SENSOR INTERCONNECTS • J31 provides the following test points as shown in Figure 6 Figure 6. J31 AP Interconnect J31 AP INTERCONNECT DRGN5V sensor3_flsh_miso 2 sensor3_flsh_sclk 4 6 proc_intr 8 10 1 3 5 7 9 sensor3_flsh_mosi flsh_cs The J9 and J10 test points are shown in Figure 7 Figure 7. J9 and J10 Test Points J9 = Test Points J10 = Test Points 8 iCE40 16-WLCSP Evaluation Kit RGB LED Demonstration Design and Software GUI The iCE40 16-WLCSP Evaluation Kit can demonstrate a complete controller for an RGB LED. These are the steps necessary to run the demonstration. 1. Ensure that the RGB LED GUI is installed. 2. Make sure the jumpers on J25 are both in the horizontal position. This is the default pins 1-3 and 2-4 shorted together. Figure 8. SPI Flash Selection Horizontal Position for J25 3. Connect the iCE40 16-WLCSP evaluation board via the USB cable to a PC or MAC. 9 iCE40 16-WLCSP Evaluation Kit 4. After the iCE40 device has initialized and the red barcode LED is flashing, change the J25 jumper positions to vertical. Short pins 1-2 and 3-4. This is required to allow the USB port to communicate with the iCE40 device. Figure 9. SPI Flash Selection Vertical Position for J25 5. Start the RBG GUI on the PC or MAC. Figure 10. iCE40LP LED Demonstration Interface Now you can control the RGB LED on the iCE40 16-WLCSP Evaluation board. You can set the color, brightness, blinking rate as well as breathing. 10 iCE40 16-WLCSP Evaluation Kit GUI Serial Communication Interface LED Control via SPI The Software GUI demonstration program communicates with the iCE40 device using a SPI serial communication channel. The SPI interface (mode 0) control link is implemented using a simple write-only protocol (see Figure 11). Figure 11. SPI Physical Transaction CSn SCK MOSI ADDR [7:0] REG [15:8] REG [7:0] SPI Protocol Data on the MOSI serial line is transmitted MSB first. Addr[7:0] – Controls which of the 16 bits are updated with REG data. Note: Unspecified REG bits must be written, but are ignored. Addr Bits Written Bit Position 0x13 REG[3:0] ------------dddd 0x14 REG[7:4] --------cccc---- 0x15 REG[11:8] ----bbbb-------- 0x16 REG[15:12] aaaa------------ 0x19 REG[15:0] aaaabbbbccccdddd Field Bit Positions Function aaaa REG[15:12] RGB Color[3:0] bbbb REG[11:8] Brightness[3:0] cccc REG[7:4] Breathe Ramp [3:0] dddd REG[3:0] Blink Rate [3:0] REG[15:0] – Consists of four control fields. 11 iCE40 16-WLCSP Evaluation Kit Register Definitions Default setting (hardware, software) is denoted by (*). RGB Color[3:0] Color Color Code 0000* Red #FF0000 0001 Orange #FF7F00 0010 Yellow #FFFF00 0011 Chartreuse #7FFF00 0100 Green #00FF00 0101 Spring Green #00FF7F 0110 Cyan #00FFFF 0111 Azure #007FFF 1000 Blue #0000FF 1001 Violet #7F00FF 1010 Magenta #FF00FF 1011 Rose #FF007F 1100 - 1101 - 1110 - 1111 White #FFFFFF Brightness[3:0] Level (%) 0000 6.25(dim) 0001 12.5 0010 18.75 0011 25 0100 31.25 0101 37.5 0110 43.75 0111* 50 1000 56.25 1001 62.5 1010 68.75 1011 75 1100 81.25 1101 87.5 1110 93.75 1111 100 (bright) 12 Breathe Ramp [3:0] Factor 0000* .0x (fast) 0001 .063x 0010 .125x 0011 .25x 0100 .5x 0101 1x 0110 2x 0111 4x (slow) 1000 - 1001 - 1010 - 1011 - 1100 - 1101 - 1110 - 1111 - Blink Rate [3:0] Off Time (s)1 0000 Always On 0001 1/16 (fast) 0010 1/8 0011 1/4 0100 1/2 0101* 1 0110 2 0111 4 1000 Always Off 1001 - 1010 - 1011 - 1100 - 1101 - 1110 - 1111 - 1. By default the LED "On-Time" is fixed at approximately one second.  If desired, the design may be modified so that "On-Time" is symmetrical to the "Off-Time". To do so, replace the file "LED_control.v" with "LED_control_sym.v" and rebuild the design using the iCEcube2 software. Ordering Information Description Ordering Part Number iCE40 16-WLCSP Evaluation Kit iCE40LP1K-SWG16-EVN China RoHS EnvironmentFriendly Use Period (EFUP) Technical Support Assistance e-mail: techsupport@latticesemi.com Internet: www.latticesemi.com Revision History Date Version February 2014 01.0 Change Summary Initial release. © 2014 Lattice Semiconductor Corp. All Lattice trademarks, registered trademarks, patents, and disclaimers are as listed at www.latticesemi.com/legal. All other brand or product names are trademarks or registered trademarks of their respective holders. The specifications and information herein are subject to change without notice. A B C D 5 SMA CONN CLOCK OSC POWER SUPPLIES (from USB & optional terminal block (for VCC Core)) 5 High Current Tri-LED 4 IR LED (TX) BAR CODE LED JUMPER SEL BOT BANK - at 3.3V iCE40LP1k-WLCSP16 TOP BANK - at 3.3V 4 SPI/GPIO 3 3 SPI SPI-CS 2 ALL LINES THROUGH SENSOR INTERCONNECT CONNECTOR Aardvark Connector Dragon Board Connector USB CONFIG FLASH (SPI) FT2232H Revision History Date: Jun, 2013 Project Lightning 1K Board Title Board Block Diagram Size B 1 1 Sheet Lattice Semiconductor Applications Email: techsupport@Latticesemi.com Rev 0p0 - 14 June 2013 - Initial draft 2 A A Schematic Rev Board Rev 1 of 4 A B C D Appendix A. Schematic Diagrams Figure 12. Block Diagram JUMPER SEL A B C VCCIO2 5 Q1 MMBT3904 D1 TSAL6200 R27 47 {3} {3} {3} R30 2k2 1 3 5 {3} {3} 1 VCC5V LED TRI-COLOUR U16 BAR_LED 4 BAR_LED IR_LED J29 BAR_IR_SEL 3 2 1 Default: Shunt 1,2 (for IR LED) BAR_LED_MUX_IR_LED VCCIO2 R20 150 3 VF=1.85V, IF=20mA (Max 30mA) RS=(3.3V-1.85V)/20mA=72.5Ohm IOL@3.3V=8mA RS=(3.3V-1.85V)/6mA=181Ohm RED LED VF=1.9V, IF=10mA (Max 30mA) RS=(5.0V-1.9V)/10mA=310Ohm IOL@3.3V=24mA RS=(5.0V-1.9V)/24mA=129Ohm GREEN LED VF=3.1V, IF=10mA (Max 20mA) RS=(5.0V-3.1V)/10mA=190Ohm IOL@3.3V=24mA RS=(5.0V-3.1V)/24mA=79.2Ohm D2 APT2012SRCPRV {3} 3 BLUE LED VF=3.1V, IF=10mA (Max 20mA) RS=(5.0V-3.1V)/10mA=190Ohm IOL@3.3V=24mA RS=(5.0V-3.1V)/24mA=59.4Ohm BAR CODE LED IR/Barcode LED Selection VF=1.35V, IF=100mA (Max 200mA) RS=(3.3V-1.35V)/100mA=19.5Ohm IR_LED 2 127 3 DI SM_R_0603 4 127 DI SM_R_0603 150 DI SM_R_0603 R63 R64 R65 High Current LED HEADER 3X2 IR EMITTER 2 LED_RED 4 LED_GREEN 6 LED_BLUE Default: Shunt J27 4 2 2 C21 0.1uF 2 4 GND VDD J5 STDBY OUT STDBY# R25 10k 1 2 J7 SMA Sh3 Sh4 3 1 2 {3} Size B Date: clk 0 R28 R26 0 J6 EXT CLK SEL Default: 1&2 (27 Mhz Osc) Project Lightning 1K Board June, 2013 1 1 Sheet Lattice Semiconductor Applications Email: techsupport@Latticesemi.com EXTERNAL CLOCKING Sh2 A Sh1 1 3 Title Clocking and LEDs 4 5 U8 ASFLMB-27.000MHZ-LC-T VCCIO2 Clock Selection 1 2 3 D 5 A A Schematic Rev Board Rev 2 of 4 A B C D Figure 13. Clocking and LEDs A B C D 1 2 IDD_BOT J13 VCORE {3,4} VCCIO2 LED_BLUE LED_GREEN LED_RED clk VCCIO0 2 1 R34 10k C29 C28 0.1uF 10nF CRST J11 5 Note: Place close to DUT C27 1uF SW1 CRST CRSTb {2} clk {2} CRSTb VCCIO0 J9 1 3 5 7 9 11 13 15 17 19 21 23 1 2 {4} D2 D3 B2 B3 A1 CRSTb CDONE R2 CDONE CRSTb {4} {2} 4 D3 Green {3,4} {3,4} LP1KA VCCIO0 (T) GND GND VCC IOT_GBIN0_1_LED0 IOT_LED1 IOT_LED2 DUT CRESET_B IOB_35_GBIN5_CDONE IOB_46_SCK IOB_45_SDI IOB_44_SDO IOB_47_SS IOL_7A_GBIN6 IOL_6B_GBIN7 VCCIO_3_2_SPI U15 R35 2k2 VCC3V3 Done LED C1 C2 C3 D1 ice_SI ice_SO flsh_cs CDONE IR_LED flsh_cs {3,4} sensor3_flsh_mosi sensor3_flsh_sclk AP & SENSOR INTERCONNECTS CRSTb VCCIO2 sensor3_flsh_sclk BAR_LED_MUX_IR_LED 0 IDD_BOT J28 SENSOR INTERCONNECT 2 4 6 8 10 12 14 16 18 20 22 24 CRESETB Button BAR_LED Default: Open {2} sensor3_flsh_miso LED_BLUE LED_GREEN LED_RED VCC3V3 4 B4 D4 C4 A2 A4 B1 A3 3 R31 10k SDO HOLD VCC SCK GND SDI CS WP M25P80 U9 7 2 J10 SPI PGM SS2 SS3 MISO SCLK SS1 GND1 NC2 NC1 MOSI GND2 2 4 6 8 10 3 sensor3_flsh_mosi sensor3_flsh_miso R33 10k J25 MA / SL 1 2 ice_SO sensor3_flsh_miso 2 Note: Place close to DUT C31 C32 C30 10nF 0.1uF 1uF C25 C26 C24 1uF 10nF 0.1uF VCORE VCCIO0 1 2 1 2 Default: Shunt IDD_CORE IDD_TOP J14 J12 Default: Shunt For programming iCE - Shunt 3,4 and 1,2 2 DRGN5V Date: Size B SW3 CRST J15 2 1 R36 10k CRST proc_intr proc_intr VCCIO0 1 3 5 7 9 sensor3_flsh_miso sensor3_flsh_sclk flsh_cs sensor3_flsh_mosi 1 Sheet Lattice Semiconductor Applications Email: techsupport@Latticesemi.com {3,4} {3,4} {3,4} {3,4} A A Schematic Rev Board Rev 3 of 4 sensor3_flsh_mosi flsh_cs J31 AP INTERCONNECT Note position of pin#1 in reference board sensor3_flsh_miso 2 sensor3_flsh_sclk 4 6 proc_intr 8 10 Dragon Board Connector Default: Open Project Lightning 1k Board Nov, 2012 1 Dragon Board Proc Interupt Title Lightning 1k, Programming, Connectors For programming Flash - Shunt 1,3 and 2,4 (default) 3 4 Note position of pin#1 in reference board 1 3 5 7 9 SPI CONFIGURATION / FLASH LED_RED LED_GREEN LED_BLUE ice_SI sensor3_flsh_mosi flsh_cs 6 5 1 3 C23 0.1uF VCC3V3 8 Aardvark Connector R32 10k sensor3_flsh_miso sensor3_flsh_sclk sensor3_flsh_sclk sensor3_flsh_mosi Default: Shunt 2 1 J24 FLSH EN flsh_cs 4 {2} {2} {2} 5 A B C D Figure 14. Programming and Connectors A B C D L3 2 6 GND 5 VCC3V3 C45 0.1uF GND U11 93LC56BT-I/OT GND VCC 10k 600 ohm, 500 mA VCC3V3 C38 0.1uF VCC3V3 1k CS CLK DI DO R45 EP_CLK C35 27pF 12MHz Y1 C36 27pF FTVCOR C57 0.1uF VCC3V3 C37 0.1uF FT_DO FT_DI FT_CS Gnd_1 OSCI OSCO VPHY Gnd_7 REF DM DP VPLL AGnd Gnd VCORE_1 TEST RESET# Gnd_2 ADBUS0 1 FT_CDONE FT_CRST 6 4 2 VCC1V8 4 VCC3V3 VCC2V5 Default: VCCIO2 = 3V3 5 3 1 J3 VCCIO2 VCCIO2 SEL VCCIO Bottom Selection J20 FTRST Default: Open R50 1 2 3 4 5 12k R47 6 7 USB_DM R48 10 8 USB_DP R49 10 9 10 GND 11 GND C46 FTVCOR 12 4.7uF 13 GND 14 15 GND 16 FT_SK C42 C43 0.1uF 4.7uF EP_CS 4 5 EP_DI 3 1 R43 {3} CDONE sensor3_flsh_miso sensor3_flsh_sclk flsh_cs sensor3_flsh_mosi {3} EP_CS EP_CLK EP_DI 2k {3} {3} {3} {3} VCC3V3 CRSTb TP7 CS R51 330 1 C58 0.1uF R52 R39 R40 R41 R42 R44 C41 0.1uF C44 0.1uF FTVCOR VCC3V3 FT_CDONE FT_DI FT_SK FT_CS FT_DO FT_CRST 5 3 1 6 4 2 J26 VCCIO0 SEL VCC3V3 VCC1V8 VCC2V5 Default: VCCIO0 = 3V3 VCCIO0 3 USB PROGRAMMER VCC3V3 0 0 0 0 0 0 VCCIO Top Selection TP6 SP 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 C39 0.1uF FTVCOR C40 10uF VCC3V3 BCBUS0 Gnd_5 BDBUS7 BDBUS6 BDBUS5 BDBUS4 VCCIO_2 BDBUS3 U12 BDBUS2 BDBUS1 FT2232HL BDBUS0 VCORE SUSPEND# Gnd_4 ACBUS7 ACBUS6 GND 1 2 GND 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 VCORE_3 EECS EECLK EEDATA PWREN# BCBUS7 BCBUS6 BCBUS5 VCCIO_1 BCBUS4 BCBUS3 BCBUS2 BCBUS1 Gnd_6 VREGIN VREGOUT ADBUS1 ADBUS2 ADBUS3 VCCIO ADBUS4 ADBUS5 ADBUS6 ADBUS7 Gnd_3 ACBUS0 ACBUS1 ACBUS2 ACBUS3 ACBUS4 VCCIO_3 ACBUS5 1 J22 GND 1 C52 10uF 5 J23 GND VCC5V 1 6 4 S3 S1 2 1 VCC5V 3 1 DRGN5V USB5V Project Lightning Board June, 2013 Size B Date: 1.2EN 3 6 4 8 VCC5V 2 1 5 4 SW2 PWR 1 Sheet A A Schematic Rev Board Rev of 4 4 LDO REGULATORS C55 C56 VCC1V2 47uF_T0.1uF C47 0.1uF + J19 VCORE VAR Mark +ve on silk Lattice Semiconductor Applications Email: techsupport@Latticesemi.com 1.8EN 6 VCORE VCC1V2 J18 CORE SEL Default: 1&2 (VCORE = 1v2) 1.2VO 7 VCC5V VCC Selection J30 PWR SEL Default: 1&2 (USB 5V) U14 AP7312-1218W6-7 1.8VO 1 Board Voltage Selection C50 C51 VCC2V5 47uF_T 0.1uF D4 Blue R46 680 VCC3V3 Title Configuration, Power C59 10uF 2.5EN 2.5VO VCC1V8 C53 C54 47uF_T 0.1uF 3.3EN 3.3VO 5 J16 USB PWR C33 47uF_T USB5V C34 0.1uF U13 MIC5320-SJYD6 TR spread across board, easy access J21 GND VCC3V3 C49 C48 0.1uF 47uF_T S2 S4 L2 100MHz, 330 ohms L1 100MHz, 330 ohms 4 3 VIN GND G 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 3 USB_DP 2 USB_DM 1 ID 2 3 2 1 2 2 D+ 3 1 2 3 D- 4 5 VIN GND 2 1 5V 5 A B C D Figure 15. Configuration and Power Appendix B. Bill of Materials Item Quantity Reference 1 20 C21,C23,C25, C28,C31,C34, C37,C38,C39, C41,C42,C44, C45,C47,C49, C51,C54,C56, C57,C58 0.1uF Value SM_C_0603 PCB Footprint C1608X7R1E104K080AA Man. Part # TDK Corp CAP CER 0.1UF 25V 10% X7R 0603 DI 2 3 C24,C29,C30 10nF SM_C_0603 ECJ-1VB1C103K Panasonic CAP CER 10000PF 16V 10% X7R 0603 DI 3 3 C26,C27,C32 1uF SM_C_0603 0603X105K250CT Walsin CAPACITOR CER SMD 0603 1UF 25V X5R DI 4 5 C33,C48,C50, C53,C55 47uF_T SM_C_1411 293D476X9010B2TE3 Vishay/Sprague CAP TANT 47UF 10V 10% 1411 DI 5 2 C35,C36 27pF SM_C_0603 C0603C270J5GACTU Kemet CAP CER 27PF 50V 5% NP0 0603 DI 6 3 C40,C52,C59 10uF SM_C_0805 08056C106KAT2A AVX CAP CER 10UF 6.3V 10% X7R 0805 DI 7 2 C43,C46 4.7uF SM_C_0603 C1608X5R0J475K080AB TDK Corp CAP CER 4.7UF 6.3V 10% X5R 0603 DI 8 1 D1 TSAL6200 2p54_TH_LED TSAL6200 Vishay EMITTER IR 5MM HI EFF 940NM DI 9 1 D2 APT2012SRCPRV LED0805 APT2012SRCPRV Kingbright Corp LED 2X1.2MM 640NM RD WTR CLR SMD DI 10 1 D3 Green SM_D_0603 APT1608SGC Kingbright Corp LED 1.6X0.8MM 568NM GRN CLR SMD DI 11 1 D4 Blue SM_D_0603 LTST-C190TBKT Lite-On Inc LED BLUE CLEAR 0603 SMD DI 12 1 J3 VCCIO2 SEL HDR3x2 77313-801-06LF FCI CONN HEADER .100 DUAL STR 6POS DI 13 1 J5 STDBY HDR1X2-40 77311-801-02LF FCI CONN HEADER .100 SINGL STR 2POS DI 14 1 J6 EXT CLK SEL hdr1x3-40 77311-801-03LF FCI CONN HEADER .100 SINGL STR 3POS DI 15 1 J7 SMA conn_tp52r_smaver 73391-0060 tmlx Molex CONN SMA JACK STR 50 OHM PCB DI 16 1 J9 SENSOR  INTERCONNECT HDR_12x2_2MM Molex CONN HEADER 24POS 2MM VERT GOLD DI 17 1 J10 SPI PGM hdr5x2 77313-801-10LF FCI CONN HEADER .100 DUAL STR 10POS DI 18 2 J11,J15 CRST HDR1X2-40 77311-801-02LF FCI CONN HEADER .100 SINGL STR 2POS DI 19 1 J12 IDD_TOP HDR1X2-40 77311-801-02LF FCI CONN HEADER .100 SINGL STR 2POS DI 20 2 J13,J28 IDD_BOT HDR1X2-40 77311-801-02LF FCI CONN HEADER .100 SINGL STR 2POS DI 21 1 J14 IDD_CORE HDR1X2-40 77311-801-02LF FCI CONN HEADER .100 SINGL STR 2POS DI 22 1 J16 USB PWR CONN_S5P1RMINI 67503-1020 USBB_MOLEX Molex CONN RECEPT MINIUSB R/A 5POS SMD DI 23 1 J18 CORE SEL hdr1x3-40 77311-801-03LF FCI CONN HEADER .100 SINGL STR 3POS DI 24 1 J19 VCORE VAR 2pTB2p5mm 1770953 Phoenix  Contact CONN TERM BLK 2POS 2.5MM DI 25 1 J20 FTRST HDR1X2-40 77311-801-02LF FCI CONN HEADER .100 SINGL STR 2POS DI 26 3 J21,J22,J23 GND TUR_TH 1573-2 Keystone  Electronics TERMINAL TURRET DBL .082"L DI 27 1 J24 FLSH EN HDR1X2-40 77311-801-02LF FCI CONN HEADER .100 SINGL STR 2POS DI 28 1 J25 MA / SL hdr2x2 77313-801-04LF FCI CONN HEADER .100 DUAL STR 4POS DI 29 1 J26 VCCIO0 SEL HDR3x2 77313-801-06LF FCI CONN HEADER .100 DUAL STR 6POS DI 30 1 J27 HEADER 3X2 HDR3x2 77313-801-06LF FCI CONN HEADER .100 DUAL STR 6POS DI 31 1 J29 BAR_IR_SEL hdr1x3-40 77311-801-03LF FCI CONN HEADER .100 SINGL STR 3POS DI 32 1 J30 PWR SEL hdr1x3-40 77311-801-03LF FCI CONN HEADER .100 SINGL STR 3POS DI 33 1 J31 AP  INTERCONNECT HDR_5x2_2MM 087758-1016 Molex CONN HEADER 10POS 2MM VERT GOLD DI 34 2 L1,L2 100MHz, 330 ohms L0603 MPZ1608S331A TDK Corp FERRITE CHIP 330 OHM 1.7A 0603 DI 35 1 L3 600 ohm, 500 mA L0603 MMZ1608R601A TDK Corp FERRITE CHIP 600 OHM 500MA 0603 DI 36 1 Q1 MMBT3904 sot23_132_fc MMBT3904,215 NXP TRANS NPN 40V 200MA SOT23 DI 37 9 R2,R26,R28,R 39,R40,R41,R 42,R44,R52 0 R0603 WR06X000 PTL Walsin Resistor 0ohm JUMP 0603 SMD DI 38 1 R20 150 R0603 WR06X151JTL Walsin Resistor 150 0603 +/-5% SMD DI 39 7 R25,R31,R32, R33,R34,R36, R45 10k R0603 WR06X103JTL Walsin Resistor 10K 0603 +/-5% SMD DI 40 1 R27 47 R0805 WR08X470JTL Walsin Resistor 47 0805 +/-5% SMD DI 41 2 R30,R35 2k2 R0603 WR06X222JTL Walsin Resistor 2.2K 0603 +/-5% SMD DI 42 1 R43 2k R0603 WR06X202JTL Walsin Resistor 2K 0603 +/-5% SMD DI 43 1 R46 680 R0603 WR06X681JTL Walsin Resistor 680 0603 +/-5% SMD DI 44 1 R47 12k R0603 WR06X123JTL Walsin Resistor 12K 0603 +/-5% SMD DI 45 2 R48,R49 10 R0603 WR06X100JTL Walsin Resistor 10 0603 +/-5% SMD DI 46 1 R50 1k R0603 WR06X102JTL Walsin Resistor 1K 0603 +/-5% SMD DI 47 1 R51 330 R0603 WR06X331JTL Walsin Resistor 330 0603 +/-5% SMD DI 48 1 R63 150 SM_R_0603 ERJ-3GEYJ151V Panasonic RES 150 OHM 1/10W 5% 0603 SMD DI 49 2 R64,R65 127 SM_R_0603 CRCW0603127RFKEAHP Vishay Dale RES 127 OHM .25W 1% 0603 SMD DI 50 2 SW1,SW3 CRST 2psmd_eswitch TL1015AF160QG E-Switch SWITCH TACTILE SPST-NO 0.05A 12V DI 87758-2416 Manufacturer Description Populate Item Quantity 51 1 SW2 Reference PWR Value dpdt_slide_sw_eg2 207 PCB Footprint EG2207 Man. Part # E-Switch Manufacturer 52 1 TP6 SP TP_TH_40_24 PCB PAD PCB 53 1 TP7 CS TP_TH_40_24 PCB PAD PCB 54 1 U8 ASFLMB27.000MHZ-LC-T osc_5x3p2 ASFLMB-27.000MHZ-LC-T ABRACON 55 1 U9 M25P80 SOIC8-W M25P80-VMW6TG 56 1 U11 93LC56BT-I/OT SOT23-6 93LC56BT-I/OT 57 1 U12 FT2232HL 58 1 U13 59 1 601 Description SWITCH SLIDE DPDT .2A L=4MM Populate DI DI D OSC MEMS 27.000 MHZ SMD DI Micron  Technology Inc IC FLASH 8MBIT 75MHZ 8SO DI Microchip  Technology IC EEPROM 2KBIT 2MHZ SOT23-6 DI tqfp64_0p5_12p2x1 FT2232HL 2p2_h1p6 FTDI IC USB HS DUAL UART/FIFO 64-LQFP DI MIC5320-SJYD6 TR SOT23-6 MIC5320-SJYD6 TR Mmicrel IC REG LDO 3.3V/2.5V TSOT23-6 DI U14 AP7312-1218W67 SOT23-6 AP7312-1218W6-7 Diodes Inc IC REG LDO 1.2V/1.8V 0.15A SOT2 DI 1 U15 LP1KA WLCSP16 LP1KA Lattice  Semiconductor iCE1KA WLCSP16 DI 61 1 U16 LED  TRI-COLOUR THBTGFR421 THBTGFR421 Seoul Semiconductor Tri Color LED 1.6 X 1.5 X 0.5 mm DI 62 1 Y1 12MHz 5x3p2mm2p ABM3-12.000MHZ-B2-T Abracon Corp CRYSTAL 12.000MHZ 18PF SMD DI 63 5 Rubber feet for board 64 Lightning 1K Eval Board RevA PCB 1. Customer Supplied 305-PD-13-xxx
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