 POWR1014A Breakout Board Evaluation Kit  User’s Guide February 2012 Revision: EB64_01.1

POWR1014A Breakout Board Evaluation Kit User’s Guide Introduction Thank you for choosing the Lattice Semiconductor POWR1014A Breakout Board Evaluation Kit! Lattice Semiconductor’s Power Manager II ispPAC®-POWR1014A device simplifies power supply design by inte- grating the analog and digital functions of power supply management (sequencing, monitoring, measuring, and reset generation) into a single device. This device provides designers with a rich set of features: precision compar- ators with a built-in voltage reference, 10-bit ADC for I2C monitoring, MOSFET drivers and a programmable logic device (PLD) for sequencing and supervisory logic functions or reset control. Configuration for all subsystems in the POWR1014A device is stored in non-volatile E2CMOS® memory. Programming is performed via a USB cable. Along with the board and accessories, this kit includes a pre-loaded demonstration design. The on-board POWR1014A device can easily be reprogrammed for customized designs. Note: Static electricity can severely shorten the lifespan of electronic components. See the Storage and Handling section of this document for handling and storage tips. Features The ispPAC-POWR1014A Breakout Board Evaluation Kit includes: (cid:129) ispPAC-POWR1014A Breakout Board – The board is a 3” x 3” form factor that features the following on-board components and circuits: – ispPAC-POWR1014A-02TN48I Power Manager II device – USB mini-B connector for power and programming – Nine LEDs – 4x15 prototype area – Two 2x20 expansion header landings for general I/O, JTAG, and external power – 1x8 expansion header landing for JTAG – 3.3V supply rail (cid:129) Pre-loaded Demo – The kit includes a pre-loaded counter design that highlights the use of the embedded POWR1014A oscillator and programmable I/Os configured for LED drive. (cid:129) USB Connector Cable – The board is powered from the USB mini-B socket when connected to a host PC. The USB channel also provides a programming interface to the POWR1014A JTAG port. (cid:129) Lattice Breakout Board Evaluation Kits Web Page – Visit www.latticesemi.com/breakoutboards for the latest documentation (including this guide), demo designs, and drivers for the kit. The content of this user’s guide includes demo operation, programming instructions, top-level functional descrip- tions of the POWR1014A Breakout Board, and a complete set of schematics. Input/Output Connectors are provided for key functions and test points on this evaluation board, as shown in Figure 1. The USB programming cable is connected to the USB port (J2) shown on the bottom of the figure. Access to the ispPOWR1014A device’s I/O pins are available as shown along the right and left edges of the assembly, where two 2x20 blocks of pads (J3 and J6) support the attachment of test probes or a ribbon-cable con- nector. An array of 60 prototype holes for interfacing is shown at the top of the figure. Several LEDs on the evaluation board are provided to indicate proper function and as aids to debugging. The green LED (D9) indicates that the on-board 3.3V supply (derived from the input USB voltage) is powered up. Eight red LEDs (D1 through D8) are provided to demonstrate control of digital outputs OUT7 through OUT14 so that a user may easily view the progress of Sequence, Monitor, Reset programs run on the evaluation board. 2

POWR1014A Breakout Board Evaluation Kit User’s Guide Figure 1. POWR1014A Breakout Board, Top Side LED Array 4x15 Prototype Area 20-Pin Header 20-Pin Header (J3) (J6) USB Interface JTAG Header Landing (J2) (J1) Storage and Handling Static electricity can shorten the lifespan of electronic components. Please observe these tips to prevent damage that could occur from electro-static discharge: (cid:129) Use anti-static precautions such as operating on an anti-static mat and wearing an anti-static wrist-band. (cid:129) Store the evaluation board in the packaging provided. (cid:129) Touch a metal USB housing to equalize voltage potential between you and the board. Software Requirements The POWR1014A Breakout Board uses an FTDI USB interface device that requires USB drivers contained in the following software to communicate properly. Initial manual testing (Quick Start) using the computer USB power maybe accomplished before loading the software drivers. For manual testing only, plug the board into the computer USB port and “cancel” when requested to install new hardware. If the incorrect drivers are installed by Windows they may require removal before the FTDI USB drivers can be loaded and the POWR1014A Breakout Board can be recognized by the computer. (cid:129) PAC-Designer design software (cid:129) ispVM™ System device programming software (cid:129) FTDI USB drivers 3

POWR1014A Breakout Board Evaluation Kit User’s Guide POWR1014A Device This board features the Power Manager II ispPAC-POWR1014A general-purpose power-supply monitor and sequence controller, incorporating both in-system programmable logic and in-system programmable analog func- tions implemented in non-volatile E2CMOS technology. A complete description of this device can be found in the ispPAC-POWR1014/A Data Sheet. Demonstration Design Lattice provides a pre-programmed demo to illustrate basic operation of the POWR1014A device. The program demonstrates sequencing of the output pins Out4 through Out14. Using an internal timer the program alternates the POWR1014A outputs, illuminating LEDs D1, D3, D5 and D7 then LEDs D2, D4, D6 and D8. Note: To restore the factory default demo or program it with other Lattice-supplied examples see the Download Demo or Create New Designs section of this document. Run the Demonstration Design USB Cable Power Connection Download USB Hardware Drivers: Communication with the POWR1014A Breakout Board with a PC via the USB cable will require the USB hardware drivers contained in the Software Requirements section. Loading these drivers enables the computer to recognize and program the POWR1014A Breakout Board. To load these USB drivers, use one of the following methods: Preferred Installation: 1. Run ispVM System and choose Install/Uninstall LSC USB/Parallel Port Driver from the ispTools tab. Optional Installation: 1. Connect the USB cable from a USB port on your PC to the board’s USB mini-B socket (J2). After connection is made, a green Power LED (D9) will light up indicating the board is powered on. 2. If you are prompted, “Windows may connect to Windows Update” select No, not this time from available options and click Next to proceed with the installation. Choose the Install from specific location (Advanced) option and click Next. 3. Browse to the FTDI USB Drivers listed in the Software Requirements section. Search for the best driver in these locations and click the Browse button to browse to the Windows driver folder created in the Download Windows USB Hardware Drivers section. Select the CDM 2.04.06 WHQL Certified folder and click OK. 4. Click Next. A screen will display as Windows copies the required driver files. Windows will display a message indicating that the installation was successful. 5. Click Finish to install the USB driver. Reprogramming Designs The support demo is preprogrammed into the POWR1014A. It may be desirable to reload the original demo pro- gram after any design modification. Lattice distributes the source (JED) and schematic (PAC) files for demonstra- tion designs compatible with the POWR1014A Breakout Board. Refreshing the programming for U4 POWR1014A will require the demo JEDEC file. This is available directly as a .jed file or can be compiled from the .pac files using PAC-Designer. The .jed files are then loaded into U4 via the USB cable using ispVM software. Programming Devices with ispVM To restore a POWR1014A Breakout Board to factory settings or load an alternative demo design, use the proce- dures in this section. 4

POWR1014A Breakout Board Evaluation Kit User’s Guide For more information see AN6062, Using ispVM System to Program ispPAC Devices. 1. Connect the board to a host PC using the USB port or JTAG header connection. 2. Follow the USB Cable Interface procedure below to program the evaluation board. USB Cable Interface Connection: The POWR1014A Breakout Board is equipped with a built-in USB-based pro- gramming circuit. This consists of a USB PHY and a USB connector. When the board is connected to a PC with a USB cable, it is recognized by the ispVM System software as a “USB Download Cable”. The POWR1014A can then be scanned and programmed using the ispVM System software. Download Demo or Create New Designs 1. Browse to the POWR1014A Breakout Board design files. 2. Extract the contents of PAC_POWR1014A_BREAKOUTBOARD.zip to an accessible location on your hard drive. The demo design directory (PAC_POWR1014A_BREAKOUTBOARD<demo>) is unpacked. Demo Directory PAC_POWR1014A_BLINKER PAC_POWR1014A_BREAKOUTBOARD PAC_POWER1014A_BLINKER.JED Create or Modify the <demo>.jed Design by compiling a PAC-Designer using <demo>.PAC file: Use the procedure below to recompile the demo project for the POWR1014A Breakout Board or modify for a custom design. 1. Run PAC-Designer. 2. From the File tab open either the <demo>.PAC project file from the Download Demo Designs section or other >.PAC file if implementing a custom design. 3. Modification of the I/Os or change of sequencing for custom designs can be done at this step. 4. From the schematic block diagram, double-click the Sequence Controller block. The LogiBuilder interface appears. Table 1. Demo Design Sequencing Program (for Reference Only) Step Instruction Outputs Int. Comment 0 Begin Startup Sequence 0 POWR1014A reset OUT4 = 1, OUT5 = 0, OUT6 = 1, 0 Initializes outputs 1 OUT7 = 0, OUT8 = 0, OUT9 = 0, OUT14 = 0, Wait for AGOOD OUT4 = 0, OUT5 = 1, OUT6 = 0, 0 Set outputs 4 through 14, OUT7 = 1, OUT8 = 0, OUT9 = 1, 0 = Hi Z, 1 = Ground, then 2 OUT10 = 0, OUT11 = 1, OUT12 = 0, waits for power good OUT13 = 1, OUT14 = 0, OUT4 = 1, OUT5 = 0, OUT6 = 1, 0 Alternate output settings for OUT7 = 0, OUT8 = 1, OUT9 = 0, OUT4 throughOUT14 3 OUT10 = 1, OUT11 = 0, OUT12 = 1, OUT13 = 0, OUT14 = 1, 4 Wait for 524.29ms using timer 1 0 Wait 0.5 sec OUT3 = 1, OUT4 = 0, OUT5 = 1, 0 Alternate outputs OUT4 OUT6 = 0, OUT7 = 1, OUT8 = 0, through OUT14 5 OUT9 = 1, OUT10 = 0, OUT11 = 1, OUT12 = 0, OUT13 = 1, OUT14 = 0, 6 Wait for 524.29ms using Timer 1 0 Wait 0.5 sec 5

POWR1014A Breakout Board Evaluation Kit User’s Guide Table 1. Demo Design Sequencing Program (for Reference Only) Step Instruction Outputs Int. Comment Go to Step 3 0 Enter loop to alter sequence of 7 OUT4 through OUT14. Flashes odd then even LEDs. 8 Begin shut-down sequence 0 9 Halt (end-of-program) 0 5. Choose Tools > Compile LogiBuilder Design. After a few moments the JEDEC programming file is output. Click OK. 6. From the toolbar launch JED to download and save the file. Note: PAC-Designer may not recognize files that have certain characters such as spaces or periods in the directory path. To program the device using a <demo>.jed file: 1. From the Start menu run ispVM System. ispVM appears. 2. Choose Options > Cable and I/O Port Setup... The Cable and I/O Port Setup dialog appears. 3. Make the following selections: Cable Type: USB2 Port Setting: FTUSB-0 Click OK. 4. Choose ispTools > Scan Chain. The New Scan Configuration Setup window appears. The POWR1014A appears in the device list. 5. Highlight the POWR1014A, right-click and choose Edit Device... The Device Information dialog appears. 6. From the Set Device Operations section, click the Browse button. The Open Data File dialog appears. 7. Download the .jed file either downloaded from the Lattice web site or file compiled using PAC-Designer by browsing to the <Demo Dir>\project folder, selecting <Demo>.jed, and clicking OK. 8. Select the device to be programmed by highlighting and then right-clicking and choose Set Device Opera- tions. From the Operation list choose Flash Erase, Program, Verify. 9. From the toolbar select Go to program device Programming requires about 20-40 seconds. A small timer window will appear to show elapsed programming time. At the end of programming, the configuration setup window should show a “PASS” in the Status column. 6

POWR1014A Breakout Board Evaluation Kit User’s Guide POWR1014A Breakout Board This section describes the features of the ispPOWR1014A Breakout board detail. POWR1014A The ispPAC-POWR1014A-02TN48I in the 7x7mm 48-pin TQFP package has the ability to monitor 10 analog inputs and provides 14 digital outputs. Two of the outputs can be configured to provide 6V to 12V MOSFET gate drive. Table 2. POWR1014A Interface Reference Item Description Reference designator U4 Part number POWR1014A Manufacturer Lattice Semiconductor Web site www.latticesemi.com JTAG Interface Circuits For power and programming, a FTDI USB UART/FIFO IC converter provides a communication interface between a PC host and the JTAG programming chain of the POWR1014A Breakout Board. The USB 5V supply is also used as a source for the 3.3V supply rail. A USB mini-B socket is provided for the USB connector cable. Table 3. JTAG Interface Reference Item Description Reference designator U2 Part number FT2232H Manufacturer Future Technology Devices International (FTDI) Web site www.ftdichip.com Table 4. JTAG Programming Pin Information Description POWR1014A Pin Test Data Output Pin 21 TDO Test Data Output — Test Data Input Pin 18 TDI Test Mode Select Pin 16 TMS Test Clock Pin 22 TCK LEDs A green LED (D9) is used to indicate USB 5V power and red LEDs (D1 to D8) are used to show the status of the outputs. Table 5. User LEDs Reference Item Description Reference designators D1 through D9 Part number LTST-C190KGKT and LTST-C190KRKT Manufacturer Lite-On It Corporation Web site www.liteonit.com 7

POWR1014A Breakout Board Evaluation Kit User’s Guide Power Supply 3.3V supply rail is converted from the USB 5V interface by a linear regulator U1 when the board is connected to a host PC. Test Points The ability to program the POWR1014A without enabling the device I/Os can be accomplished by powering the VCCPROG only. After programming, VCCPROG should be left open and VCCA and VCCD should be powered for normal operation. TP1 provides access to VCCPROG. See Appendix A. Schematics for more details: (cid:129) TP1, VCCPROG USB Programming and Debug Interface The USB mini-B socket of the POWR1014A Breakout Board serves as the programming and debug interface. JTAG Programming For JTAG programming a preprogrammed USB PHY peripheral controller is provided on the board to serve as the programming interface to the POWR1014A. Programming requires ispVM System software. Mechanical Specifications Dimensions: 3 in. [L] x 3 in. [W] x 1/2 in. [H] Environmental Requirements The POWR1014A Breakout Board must be stored between -40° C and 100° C. The recommended operating tem- perature is between 0° C and 90° C. The board can be damaged without proper anti-static handling. Glossary LED: Light Emitting Diode. RoHS: Restriction of Hazardous Substances Directive. USB: Universal Serial Bus. FTDI: Future Technology Devices International Ltd. Troubleshooting Use the tips in this section to diagnose problems with the POWR1014A Breakout Board. LEDs Do Not Flash If power is applied (LED D9 illuminated) but LEDs D1 through D8 do not flash according to the preprogrammed counter demonstration then it is likely the board has been reprogrammed with a new design. Follow the directions in the Demonstration Design section to restore the factory default. USB Cable Not Detected If ispVM System cannot detect the USB2 cable type programming interface to the board, the incorrect USB driver may have been installed. This usually occurs if you attach the board to your PC prior to installing the USB driver or ispVM System software. 8

POWR1014A Breakout Board Evaluation Kit User’s Guide To correct a USB driver installation: 1. Start ispVM and choose Options > Cable and I/O Port Setup. The Cable and I/O Port Setup Dialog appears. 2. Click the Troubleshooting the USB Driver Installation Guide link. The Troubleshooting the USB Driver Installation Guide document appears in your system’s PDF file reader. 3. Follow the instructions in the guide to install the Lattice USB driver. Determine the Source of a Pre-Programmed Device You may receive your POWR1014A Breakout board after it has been reprogrammed by someone else. To restore the board to the factory default, see the Download Demo or Create New Designs section for details on downloading and reprogramming the device. You can also determine which demo design is currently programmed onto the board by comparing the JEDEC checksums against of the programming file with what is read from the programmed device. To compare JEDEC file checksum: 1. Connect the POWR1014A Breakout Board to a host PC using the USB port. 2. Start ispVM and choose ispTools > Scan. The device appears in the Device List. 3. Double-click the device row. The Device Information dialog appears. 4. Click the Browse button. The Save as Data File dialog appears. 5. Specify a new JEDEC Data File name and click the Save button. 6. From the Operation list choose Read and Save JEDEC and click OK. 7. Choose Project > Download. ispVM reads the contents from the device and writes the results to the JEDEC file specified. Open the JEDEC file into a text editor and page to the bottom of the file. Note the hexadecimal checksum at the line above the User Electronic Data note line. Compare this value against the checksum of the original JEDEC demo programming files. Ordering Information China RoHS Environment-Friendly Description Ordering Part Number Use Period (EFUP) POWR1014A Breakout Board Evaluation Kit POWR1014A-B-EVN Technical Support Assistance Hotline: 1-800-LATTICE (North America) +1-503-268-8001 (Outside North America) e-mail: techsupport@latticesemi.com Internet: www.latticesemi.com 9

POWR1014A Breakout Board Evaluation Kit User’s Guide Revision History Date Version Change Summary March 2011 01.0 Initial release. February 2012 01.1 Updated document with new corporate logo. © 2012 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. 10

POWR1014A Breakout Board Evaluation Kit User’s Guide Appendix A. Schematics Figure 2. POWR1014A Breakout Board D C B A veRveRveRAAA 444 ofofof overoverover 111 CCC 1 ard, ard, ard, teehSteehSteehS1 ooo BBB ut ut ut AXELSYSAXELSYSAXELSYS POWR1014A BreakoPOWR1014A BreakoPOWR1014A BreakorebmuN tnemucoDrebmuN tnemucoDrebmuN tnemucoDPOWR1014A-B-EVNPOWR1014A-B-EVNPOWR1014A-B-EVN Sunday, December 19, 2010Sunday, December 19, 2010Sunday, December 19, 2010 TitleTitleTitle eziSeziSeziSBBB :etaD:etaD:etaD % 2 5 2 o t p u AERA EPYTOTORP st e r e %h 1t YARRA DEL 2 l 1l RA : e c 3 R R n 3 E E a D D r A A e E E l H R H o W T D O D E P E t T T n C p C a E s E t N i N s N N i O O s C C e R 4 4 GATJ ot BSU NOC BSU 5 5 D C B A 11

POWR1014A Breakout Board Evaluation Kit User’s Guide Figure 3. USB Interface to JTAG D C B A veRveRveRAAA 1 11C7C7C8C8C9C90.1uF0.1uF0.1uF0.1uF0.1uF0.1uFcc0402cc0402cc0402cc0402cc0402cc040222 VCC3FT J1J1112TDISEL( 4 )23ATDI( 4 )3TCK44TDI55TDO66TMS7788header_1x8header_1x8DNIDNI TCK( 4 )TDI( 4 )TDO( 4 )TMS( 4 ) VCC3FT 111R14R14R16R16R15R155k15k15k15k15k15k1 222TMS TDI TDO TCK 1R20R205k15k1 2 AXELSYSAXELSYSAXELSYSTitleTitleTitlePOWR1014A Breakout Board, USBIF to JTAGPOWR1014A Breakout Board, USBIF to JTAGPOWR1014A Breakout Board, USBIF to JTAGrebmuN tnemucoDeziSrebmuN tnemucoDeziSrebmuN tnemucoDeziSPOWR1014A-B-EVNPOWR1014A-B-EVNPOWR1014A-B-EVNCCC of24Tuesday, December 21, 2010of24Tuesday, December 21, 2010of24Tuesday, December 21, 2010teehS:etaDteehS:etaDteehS:etaD1 1 2 C6C60.1uF0.1uFcc0402cc0402 1C5C50.1uF0.1uFcc0402cc04022 21R30R3021R40R4021R70R7021R90R90 2 VCC3FT 1 2 VCC3FTVCC1_8FTVCC3FT U2U2FT2232HLFT2232HL0126274492345136 YEEELOOOOLHRRRIIIICCCCPPOOOVCCCCVCCCVVVV16VVVADBUS05017VREGINADBUS118ADBUS24919VREGOUTADBUS321ADBUS422ADBUS5723DMADBUS6248ADBUS7DP26ACBUS01427RESET#ACBUS128ACBUS229ACBUS3630REFACBUS432ACBUS533ACBUS634ACBUS763EECS6238EECLKBDBUS06139EEDATABDBUS140BDBUS241BDBUS3243OSCIBDBUS444BDBUS545BDBUS646BDBUS73OSCO48BCBUS052BCBUS153BCBUS21354TESTBCBUS355BCBUS457BCBUS558FTDI High-Speed USBFTDI High-Speed USBBCBUS659BCBUS760 FT2232H FT2232HPWREN#36SUSPEND#DDDDDDDDDNNNNNNNNNGGGGGGGGGA 1501555711112345 2 R115k1R115k121R1212k1%R1212k1%21 FT_EECSFT_EECLKFT_EEDATA 2C19C1918pF18pF1 3 1C4C40.1uF0.1uF2 VCC3FT C17C170.1uF0.1uF X1X1131324G1G212MHZ12MHZ 3 1 2 VCC3D 1C3C34u74u72 VCC1_8FT 1C16C1610u10u2 2C18C1818pF18pF1 C2C20.1uF0.1uF C14C140.1uF0.1uF 1 2 1 2 4 VCC_3.3VVCC3A L1L112600ohm 500mA600ohm 500mA1C1C14u74u72 L2L212600ohm 500mA600ohm 500mA VCC3FTDefaultL3L321221OUT600ohm 500mA600ohm 500mAR20R204TAB1C12C1211C11C11C13C134u74u7GND22u22u0.1uF0.1uF2122NCP1117ST33NCP1117ST33 1C15C150.1uF0.1uF2 Dm21DpR170R17021R180R180 VCC3FT 1R21R21U3U310k10kFT_EECS18CSVCCFT_EECLK27CLKNU263DIORGR222k2R222k245DOVSS1C21C21210.1uF0.1uF93LC56-SO893LC56-SO82 4 VBUS_5VU1U1R11kR11k321IN 1C10C10D9D910u10uGreenGreen2 VBUS_5V 1L4L4 600ohm 500mA600ohm 500mA 2 J2J21VCC2D-3D+241IDR190R1905GND12C200.1uFC200.1uFSKT_MINIUSB_B_RASKT_MINIUSB_B_RA FT_EEDATA 1 2 5 5 D C B A 12

POWR1014A Breakout Board Evaluation Kit User’s Guide Figure 4. Connectors and LEDs D C B A veRveRveRAAA ON and LEDON and LEDON and LED of34of34of34 1 AXELSYSAXELSYSAXELSYS POWR1014A Breakout Board, CPOWR1014A Breakout Board, CPOWR1014A Breakout Board, CrebmuN tnemucoDrebmuN tnemucoDrebmuN tnemucoDPOWR1014A-B-EVNPOWR1014A-B-EVNPOWR1014A-B-EVNTuesday, December 21, 2010Tuesday, December 21, 2010Tuesday, December 21, 2010teehSteehSteehS1 TitleTitleTitle eziSeziSeziSCCC :etaD:etaD:etaD 2 J3J31212343456567878910910111211121413141315161516171817181920192021222122232423242526252628272827293029303132313233343334353635363738373840394039header_2x20header_2x20DNIDNI EXTERNAL POWER PINS J6J61212343456567878910910111211121413131415161516171817181920192021222122242324232526252627282728293029303132313233343334353635363738373839404039header_2x20header_2x20DNIDNI 2 OUT14OUT13OUT12OUT11OUT10OUT9OUT8OUT7OUT6OUT5OUT4 VCC_3.3V C29C290.1uF0.1uF VMON10VMON9VMON8VMON7VMON6VMON5VMON4VMON3VMON2VMON1 1 2 VCC3D 22 2k22k22k22k2R25R25R26R26HVOUT1( 4 )11 HVOUT2( 4 ) SCL_( 4 )SDA_( 4 )PLDCLK( 4 )MCLK( 4 )RESETB( 4 ) OUT[14:4]( 4 ) SMBA_OUT( 4 ) 11C27C27C28C280.1uF0.1uF0.1uF0.1uF22 VMON[10:1]( 4 ) ispIN1( 4 )ispIN2( 4 )ispIN3( 4 )ispIN4( 4 ) 1R46R462k2k11R58R58R57R5722k2k2k2k 221D1D1RedRed 2 7TUO R45R452k2k D2D2RedRed 3 1R62R622k2k 2 1 R56R5622k2k 1 2 8TUO 3 1R61R612k2k 2 R44R442k2k1 2D3D3RedRed 1 2 1 2 9TUO R60R602k2k R55R552k2k 4 VCC3D 11R59R592k2k 22SMBA_OUT OUT4 OUT5 OUT6 111R43R43R42R42R40R40R41R412k2k2k2k2k2k2k2k1111R54R54R53R53R52R522222k2k2k2k2k2k 2222111D6D6D4D4D5D5D7D7RedRedRedRedRedRedRedRed 222210111TTTUUUOOO LED DISPLAY ARRAY 4 1 2 1 231TUO R51R512k2k VCC3D 1R39R392k2k1 2 21D8D8RedRed 241TUO J4J41Proto Type Area Proto Type AreaProto Type Area 4X15 PROTOTYPE AREA OUT[14:4]( 4 ) 5 5 D C B A 13

POWR1014A Breakout Board Evaluation Kit User’s Guide Figure 5. POWR1014A D C B A veRveRveRAAA WRWRWR 444 OOO 1 AXELSYSAXELSYSAXELSYS POWR1014A Breakout Board, Lattice ispPPOWR1014A Breakout Board, Lattice ispPPOWR1014A Breakout Board, Lattice ispPrebmuN tnemucoDrebmuN tnemucoDrebmuN tnemucoDPOWR1014A-B-EVNPOWR1014A-B-EVNPOWR1014A-B-EVNof4Sunday, December 19, 2010of4Sunday, December 19, 2010of4Sunday, December 19, 2010teehSteehSteehS1 TitleTitleTitle eziSeziSeziSCCC :etaD:etaD:etaD C26C260.1uF0.1uFcc0402cc0402 ( 3 ) 2 11C24C24C25C250.1uF0.1uF0.1uF0.1uFcc0402cc0402cc0402cc040222 HVOUT1( 3 )HVOUT2( 3 ) SMBA_OUT( 3 ) OUT[14:4] PLDCLK( 3 )MCLK( 3 )RESETB( 3 ) 2 1 2 VCC3D 1C23C230.1uF0.1uFcc0402cc04022 1514 13OUT412OUT511OUT610OUT79OUT88OUT96OUT105OUT114OUT123OUT132OUT141 424340 30317 VCC3A 1C22C220.1uF0.1uFcc0402cc04022 VCC3A TP1TP1VCC3D1 349105U4U4222424 JAPG12CDD25CNOVMON1HVOUT1CCCICRC26VCCVVMON2HVOUT2PCVV27CVVMON3C28VVMON4SMBA_OUT332VMON5OUT433VMON6OUT534VMON7OUT635VMON8OUT736VMON9OUT837OUT9VMON10OUT1044IN1OUT1146IN2OUT1247IN3OUT1348IN4OUT1419TDISEL17ATDIPLDCLK18TDIMCLK16TMSRESETB22TCK21TDOGNDA39SCLGNDD238SDAGNDD1 ispPAC-POWR1014A-02TN48IispPAC-POWR1014A-02TN48I 3 3 VMON1VMON2VMON3VMON4VMON5VMON6VMON7VMON8VMON9VMON10 TDISELATDITDITMSTCKTDO SCL_SDA_ ( 2 )( 2 )( 2 )( 2 )( 2 )( 2 ) ( 3 )( 3 ) VMON[10:1]( 3 ) 11R48R48R49R49R50R505k15k15k15k15k15k1 22 1R47R475k15k1 2 1 2 4 4 ispIN1( 3 )ispIN2( 3 )ispIN3( 3 )ispIN4( 3 ) 5 5 D C B A 14

POWR1014A Breakout Board Evaluation Kit User’s Guide Appendix B. Bill of Materials Table 6. POWR1014A Breakout Board Evaluation Kit Bill of Materials Manufacturer PCB Item Quantity Reference Part Class Description Manufacturer Part Number Digikey P/N Footprint Assembly Cap Cer 4.7uF 1 3 C1, C3, C12 4u7 Discrete 6.3V 10% X5R Panasonic ECJ-1VB0J475K PCC2396CT-ND cc0603 0603 2 21 CC72,, CC84,, CC95,, CC163, 0.1uF Discrete C16aVp XC7eRr 0 0.410u2F Kemet CC0T4U02C104K4RA 399-3521-2-ND cc0402 C14, C15, C17, C20, C21, C22 C23, C24, C25, C26, C27, C28 C29 Cap Cer 10uF 3 2 C10, C16 10u Discrete 6.3V 20% X5R Panasonic ECJ-1VB0J106M cc0603 0603 4 1 C11 22u Discrete C10AVP X C5ERR 0 2820U5F Taiyo Yuden LGM-TK212BJ226M cc0805 5 2 C18, C19 18pF Discrete C25AVP CC0EGR 0 1480P2F Kemet CC0T4U02C180K3GA CC0T4U0-N2CD180K3GA cc0402 6 8 DD51,, DD62,, DD73,, DD84, Red Discrete LCSEMLDEDA SRU P06E0R3 R ED Lite-On Inc LTST-C190KRKT 160-1436-2-ND led_0603 LED SUPER 7 1 D9 Green Discrete GREEN CLEAR Lite-On Inc LTST-C190KGKT led_0603 0603 SMD 8 1 J1 header_1x8 hdr_8a_m1xp8__81702020_ DNI 9 1 J2 SKT_MINIUSB_B_RA IO Neltron 5C0R75BMR-05-SM- skt_miniusb_b_ra 10 2 J3, J6 header_2x20 hdr__s2axm20te_c1_0m0tsw DNI 11 1 J4 Proto Type Area hdr_th_4x15_100 DNI 12 4 L1, L2, L3, L4 600ohm 500mA Discrete F6z 0e50r0roi0themm BA@e 0a16d00 03MH Murata B1DLM18AG601SN 490-1014-1-ND FB0603 13 1 R1 1k Discrete R04e0s2 1/16W 1K 1% Yageo R07C10K4L02FR- 3N1D1-1.00KLRTR- cr0402 14 8 RR92,, RR137, R, R41, 8R7, 0 Discrete ROehsm 1 5/1%0 W06 00.30 Yageo R07C00R6L03JR- 311-0.0GRTR-ND cr0603 R19 15 9 RR1161,, RR2104,, RR4175, 5k1 Discrete R1%es 0 14/0126W 5.1K Yageo R07C50K410L2FR- 3N1D1-5.10KLRTR- cr0402 R48, R49, R50 16 1 R12 12k Discrete R1%es 0 14/0126W 12.0K Yageo R07C1024K0L2FR- 3N1D1-12.0KLRTR- cr0402 17 1 R21 10k Discrete R1%es 0 14/0126W 10.0K Yageo R07C1004K0L2FR- 3N1D1-10.0KLRTR- cr0402 18 3 R22, R25, R26 2k2 Discrete R1%es 0 14/0126W 2.2K Yageo R07C20K420L2FR- 3N1D1-2.20KLRTR- cr0402 19 20 RR3429,, RR4430,, RR4441, 2k Discrete R1S/ME1S6DW 2. 05K% O0H40M2 Yageo R07C20K4L02JR- 3N1D1-2.0KJRTR- cr0402 R45, R46, R51, R52, R53, R54, R55, R56, R57, R58, R59, R60 R61, R62 Square test point, 20 1 TP1 TP_S_40_63 IO 4e0temr,i l6 i3nmneilr oduiatemr - tp_s_40_63 diameter 21 1 U1 NCP1117ST33 On Semi sot223_4p 22 1 U2 FT2232HL FTDI FT2232HL tqfpx1624p_20_ph51_p162p2 23 1 U3 93LC56-SO8 IC IECE 9P3RLOCM56 Microchip 93LC56T-I/SN so8_50_244 24 1 U4 ispPAC-0-P2TONW4R8I1014A tqfp94p82__0hp15p_79p2x 25 1 X1 12MHZ TXC 7TM-12.000MAAJ- crystal_p45p_3p2x2 15

Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: L attice: POWR1014A-B-EVN