User manual for BeeHive304 and BeeProg3 programmers
Contents
1. Connecting BeeProg3 to the PC E Manipulation with the programmed device narsa 34 Multiprogramming by BeeProg3 nas 35 Selftest and calibration check 35 Technical specification 36 Setup 42 Software setup Hardware setup 48 PGAUW SoftWare ei I IQ 57 PGAUW the programmer software u cia ee i bee e e d c d decre ee gir qo 58 ctt es 61 Buffer Device 76 Programmer 105 Options 109 Help tts 2 121 PG4UWNC software 124 Common notes 142 Maintenance 143 SELO LANT LE 144 Ig o 146 Other iiie hn 146 Troubleshooting and warranty Troubleshooting If you have an unsupported target device Warranty u EUR 149 ELNEG Elnec s r o Conventions used in the manual References to the control program functions are in bold e g Load File Device etc References to control keys are written in brackets lt gt e g F1 Terminology used in the manual Device ZIF socket PMI Buffer Printer port USB port HEX data format any kind of programmable integrated circuits or programmable devices Zero Insertion Force socket used for insertion of target2. Other Multiprogramming Job Report Sounds Automatic YES Log file settings Rewrite Log file Append Log file Log files size limit V Use Log files text truncating when file size limit is reached Maximum Log file size 20000 200 kB 200000 1 PGAUWMC v2 99nw01 08 2013 Multiprogramming Control Panel File Device Programmer Options Help 9 d V lt Elnec multiprogramming syste f um w s Search Settings Load prj a GS Muliprogramming Log Job Report Sounds Automatic YESI Other Startup options Project options E Auto connect Sites Use Network mode Project file E Force gang muttiprogramming mode Device used in project Browse Configuring PG4UW MC read project from network save logs to network paths 139 Elnec s r o Now we can proceed to first Search on network in defined Programmers group Search for programmers Evaluate what was found Check the legend for help what to do Resolve problems to meet restrictions Enable Disable Move Remove programmers as you desire Apply changes or Cancel n nw EE Programmers in programming machine of Programmers group ProgrammersGroupt Site s 22 202 0000 3 BeeHive204AP AU S N 2339 00007 7 Z BeeHive204AP AU S N 2339 00009 IP 192 168 0 21 SW
3. Actual statistics values are displaying in main window of control program in Statistics panel Statistics panel contains four statistics values Success Operational failure Other failure Total and two Count down information values Count down and Remains Meaning of the values is Success number of operations which where successfully completed Operational failure number of operations which where not successfully completed due to error of device Other failure number of operations which where not successfully completed due to other reason than device error Total number of all operations Count down informs about Count down activity Enabled or Disabled Remains informs about remaining number of device operations to do Note When new device type is selected all statistics values are set to zero and Count down is set to Disabled Reset button in Statistics panel reset statistics values Reload Count down button in Statistics panel reloads initial value to Count down For PG4UW software the statistics information is saved to Log window when closing PG4UW For multiprogramming PG4UWMC software the statistics information is saved to Job Summary report Device Device options Associated file This command is used for setting associated file with current device This is a file which can be automatic loaded to buffer after device is selected from default devices select list or by start control program You can edit the asso
4. Our commitment is to implement support for these new or modified parts before or as soon as possible after their release so that you can be sure that you are using latest and or optimal programming algorithms that were created for this new device Free software updates are available from our Internet address www elnec com Free additional services e free technical support phone fax e mail e free lifetime software update via Web site We also offer the following new services in our customer support program e Keep Current is a service by which Elnec ships to you the latest version of the control program for programmer and the updated user documentation A Keep Current service is your hassle free guarantee that you always have access to the latest software and documentation at minimal cost For more information see www elnec com e AlgOR Algorithm On Request service allows you to receive from Elnec software support for programming devices not yet available in the current device list For more information see www elnec com E 9 Elnec s r o Quick Start LE Quick Start Installing programmer hardware e connect the USB port of programmer to a USB port of PC using supplied cable e connect the connector of the power supply adapter power cord to the programmer and turn on programmer by switch Installing the programmer software Run the installation program from the CD set
5. Selftest and calibration check If you feel that your programmer does not perform according to your expectation please run the programmer Selftest without AP3 diagnostic POD or Selftest plus with using AP3 diagnostic POD enclosed with the standard delivery package Selftest of programmer site e Run selftest of programmer in PG4UW menu Programmer Selftest Selftest plus of programmer site e Put together Board A with Board B of AP3 diagnostic POD e Insert AP3 diagnostic POD into programming module interface PMI of the programmer e Run selftest of programmer in PG4UW menu Programmer Selftest plus AP3 diagnostic POD for Selftest plus n u 35 Elnec s r o Calibration test e Disconnect Board from Board B of AP3 diagnostic POD e Insert Board A of diagnostic POD into programming module interface PMI of the programmer e Run calibration test of programmer in PG4UW menu Programmer Calibration test AP3 diagnostic POD for Calibration test Technical specification HARDWARE Base unit DACs e USB 2 0 high speed compatible port up to 480 Mb s transfer rate e 100Mbit LAN port e on board intelligence powerful processor ARM9 400MHz and FPGA based state machine basic clock 50 MHz plus PLL e built in mSATA SSD as internal buffer 32GB upgradeable to higher capacity e three D A converters for VCC1 VCC2 and VPP controllable rise and fall time e VCC1 VCC2 range 0 8V 7V 1A step 10
6. e Operator identification this parameter will be used to identify programmer s operator Operator ID must be at least 3 chars User has to enter Operator identification value because it is mandatory parameter when creating Job Report for protected project e Enter Job ID identification of current job Note Dialog Enter job identification is not password dialog Values of Operator identification and Job ID have informative purpose only they will be included in Job Report It does not relate to protected and or encrypted project passwords File Save project This option is used for saving project file which contains settings of device configuration and buffer data saved Data saved to project file can be restored anytime by menu command File I Load project Description of actually selected project in file list box Displays information about existing project file currently selected in dialog Save project This box is only for information and is not writable Description of project being saved Upper half displays information about actual program configuration including currently selected device program mode date and time etc and is not writable These actual program settings are used for creation of project description header Bottom half is user editable and contains project description arbitrary text which usually consists of project author and some notes Checkbox Encrypt project file with password is used to save project in
7. 51 Nano1xx series e Microcontrollers Nuvoton Winbond N79xxx W77xxx W78xxx W79xxx W83xxx series e Microcontrollers NXP Philips ARM Cortex Mx LPC11xx LPC11Cxx LPC11Dxx LPC11Uxx LPC12xx LPC12Dxx LPC13xx LPC17xx LPC11Axx LPC11Exx LPC11xxLV LPC18xx LPC43xx LPC8xx EM7xx series e Microcontrollers NXP Philips UOC series UOCIII UOC TOP UOC Fighter TDA1xxxx series e Microcontrollers NXP Philips ARM7 LPC2xxx MPT6xx PCD807xx SAF7780xxx series e Microcontrollers NXP Philips ARM9 LPC31xx series e Microcontrollers Pasat TinyModule DIL40 DIL50 series e Microcontrollers Scenix Ubicom SXxxx series e Microcontrollers Syntek STK6xxx series e Microcontrollers Renesas R8C Tiny series RX series uPD7OFxxx uPD78Fxxx series RL78 series R32C series e Microcontrollers SyncMOS SM39xxx SM59xxx SM73xxx SM79xxx SM89xxx series e Microcontrollers amp Programmable System Memory STMicroelectronics uPSD PSD series e Microcontrollers STM ex SGS Thomson ST6xx ST7xx ST10xx STR7xx STR9xx STM32F LW STMBA S L series SPC5 Power Architecture e Microcontrollers Silicon Laboratories Cygnal C8051 series e Microcontrollers Silicon Laboratories Energy Micro EFM32Gxx EFM32GGxx EFM32LGxx EFM32T Gxx EFM32W Gxx series e Microcontrollers Silicon Laboratories SiM3Cxxx SIM3Lxxx SiM3Uxxx series e Microcontrollers Texas Instruments MSP430 series MSC12xx series TMS320F series CC430 series e Microcontrolle
8. File Save This command saves data in the buffer which has been created modified or read from a device onto a specified disk The file format of saved file can be chosen from supported formats list box There can be also entered the Buffer start and Buffer end addresses which exactly specify part of buffer to save to file Supported file formats now are binary MOTOROLA MOS Technology Tektronix Intel extended HEX ASCII space JEDEC and POF If the checkbox Swap bytes is displayed the user can activate function of swapping bytes within 16bit words or 2 byte words during writing to file This feature is useful especially when saving files with Motorola representation of byte order in file big endian Standard save file operation is using little endian byte order The reserved key F2 will bring out this menu from any menu and any time File Load project This option is used for loading project file which contains device configuration buffer data saved and user interface configuration The standard dialog Load project contains additional window Project description placed at the bottom of dialog This window is for displaying information about currently selected project file in dialog Load project Project information consists of e manufacturer and name of the first device selected in the project e date and time of project creation e user written description of project it can be arbitrary text usually author of project
9. LPC11Uxx LPC 12xx LPC12Dxx LPC 13xx LPC17xx LPC11Axx LPC11Exx LPC11xxLV LPC18xx LPC43xx LPC8xx EM7xx series e Microcontrollers NXP Philips UOC series UOCIII UOC TOP UOC Fighter TDA1xxxx series e Microcontrollers NXP Philips ARM7 LPC2xxx MPT6xx PCD807xx SAF7780xxx series e Microcontrollers NXP Philips ARM9 LPC31xx series e Microcontrollers Pasat TinyModule DIL40 DIL50 series e Microcontrollers Scenix Ubicom SXxxx series e Microcontrollers Syntek STK6xxx series e Microcontrollers Renesas R8C Tiny series RX series uPD78Fxxx series RL78 series R32C series e Microcontrollers SyncMOS SM39xxx SM59xxx SM73xxx SM79xxx SM89xxx series e Microcontrollers amp Programmable System Memory STMicroelectronics UPSD PSD series e Microcontrollers STM ex SGS Thomson ST6xx ST7xx ST10xx STR7xx STR9xx STM32F L W STM8A S L series SPC5 Power Architecture e Microcontrollers Silicon Laboratories Cygnal C8051 series e Microcontrollers Silicon Laboratories Energy Micro EFM32Gxx EFM32GGxx EFM32LGxx EFM32TGxx EFM32W Gxx series e Microcontrollers Silicon Laboratories SiM3Cxxx SiM3Lxxx SIM3Uxxx series e Microcontrollers Texas Instruments MSP430 series MSC12xx series TMS320F series CC430 series e Microcontrollers Texas Instruments ex Luminary Micro LM3Sxxx LM3Sxxxx series xxxx series TM4C series e Microcontrollers ZILOG 286 289 Z8Fxxxx Z8FMCxxxxx Z16F
10. Programmer Handler In dialog Handler a Handler type and Handler communication parameters can be set Handler is an external device for special control of device operations in control program When None Handler is selected this means default state of control program i e device operations are controlled directly by user otherwise control program is in special mode when device operations are controlled automatically with co operation with Handler Dialog Handler contains following items Selected Handler select wished Handler type Search at port select a COM port which will be scanned for a requested Handler Pressing key Enter or button OK initiates scanning for Handler by set parameters If selected Handler type is None no Handler scanning will be processed Current Handler Settings are saved to configuration file by command Options Save options or when control program is closed Handler is not available for sale Programmer Module options This option is used for multiple socket programmers for defining MASTER socket and activity of each socket MASTER socket group box allows user to set socket which is preferentially used for device reading operation Enable Disable socket checkbox array allows user to set enabling and disabling of each socket individually Disabled sockets are ignored for any device operation Programmer Automatic YES This command is used for setting Automatic YES mode In this mode you just take o
11. directly to PC s USB ports without USB HUB and prefer the USB ports mounted on the motherboard directly most often located on the rear side of the PC When the programmer is connected to USB port before control program was installed Windows will detect new hardware and ask user to select driver installation method automatically or manually To detect programmer correctly control program installation CD must be inserted to computer s CD ROM drive and following steps have to be done Step 1 Directly connect USB cable to type B USB port on programmer Step 2 Directly connect USB cable to type A USB2 0 port on PC Step 3 Connect power supply to programmer Step 4 Programmer will power on At this time all work result LEDs will be blinking approximately 30 sec OS startup and then LEDs will switch off 48 2 s Set GEINEG S Step 5 Windows 7 or Windows 8 will display information Installing device driver software in notification area Setup will continue with Step 8 Windows XP Service Pack 2 starts with Found new hardware wizard Found New Hardware Wizard Welcome to the Found New Hardware Wizard Windows will search for current and updated software by looking on your computer on the hardware installation CD or on the Windows Update Web site with your permission Read our privacy policy Can Windows connect to Windows Update to search for software O Yes this time only Yes now and every ti
12. for hot new devices support and bug fixes often daily Elnec provides download of updated software version without any fees for all programmers Why is it important to use the latest version of the control program e Semiconductor manufacturers continuously introduce new devices with new package types manufactured by new technologies in order to support the need for flexibility quality and speed in product design and manufacturing To keep pace and to keep you up to date we usually implement more than 7000 new devices into the control program within a year e Furthermore a typical programmable device undergoes several changes during its lifetime in an effort to maintain or to improve its technical characteristics and process yields These changes often impact with the programming algorithms which need to be upgraded the programming algorithm is a set of instructions that tells the programmer how to program data into a particular target device Using the newest algorithms in the programming process is the key to obtaining high quality results In many cases while the older algorithm will still program the device they may not provide the level of data retention that would be possible with an optimal algorithm Failure to not use the most current algorithm can decrease your programming yields more improper programmed target devices and may often increase programming times or even affect the long term reliability of the programmed device
13. of the same or various types in single package e Sub device an individual part of multichip device Sub device is selectable from PG4UW device list Once selected you can work with respective chip in fully manner You can define test and save the project file for the partial chip e Master device a multichip device unit consists of sub devices Master device is selectable from PG4UW device list too Once selected you can use Multi project Wizard to build up the Multi project file from individual project files save load execute it Master device is not defined if the Multi project is built up from Single chip devices e Device operation each operation executable directly selecting via menu clicking on toolbar button or callable via remote command Blank Read Verify Program Erase kliaa ur c r s rs r cr HER 118 LE PG4UW software Some of these operations especially Program and Erase may contain embedded sub operations editable via Menu Device Device options e Multi project Wizard an assistant for Multi project file building The Wizard allows user to select projects that have to be included in Multi project and save them to one Multi project file Process of saving selected project files to one Multi project file is called Multi project file building The Wizard also allows to start device operation according to projects sub devices included in Multi project More information about Multi project Wizard
14. 2 0 high speed controllers 2x BeeHive304 BeeHive304 Win 7 2000 1000 BeeProg3 in 7 2000 1000 These PC requirements are valid for 3 09 10 2014 version of control program for programmers For other version see www elnec com z OS Windows If two programmers are to be connected to a single PC then we strongly recommend connecting each programmer to separate USB 2 0 High speed controller USB EHCI For more information see Hardware setup chapter Warning It is not allowed to connect BeeHive304 or BeeProg3 programmer directly to PC via LAN cable BeeHive304 or BeeProg3 may be connected via LAN cable using switch or router only Free disk space requirement depends also on used IC device size and number of attached programming sites For large devices the required free space on disk will be approximately 1000MB 2x Device size x number of programming sites attached to this PC Simple check if your PC hardware software configuration is good enough for the current software version and current situation with PG64UW PG4UWMC run Windows task manager Ctrl Alt Del see the performance tab it has to show max 80 of CPU usage at full production of programming system Introduction Software Elnec provides common software for all device programmers Regular and OnDemand versions of software are available Regular version is released usually every 3 4 weeks OnDemand versions are released based on customer request
15. BeeHive304 e Microcontrollers TI Chipcon CC 11xx CC24xx CC25xx CC85xx series e Microcontrollers Coreriver Atom 1 0 MIDAS1 0 1 1 2 0 2 1 2 2 3 0 series e Microcontrollers Cypress CY7Cxxxxx CY8Cxxxxx e Microcontrollers ELAN EM78Pxxx e Microcontrollers EPSON S1C17 series e Microcontrollers Explore Microelectronic EPF01x EPF02x series e Microcontrollers Generalplus GPM8Fxxx series e Microcontrollers GreenPeak GPxxx series e Microcontrollers Infineon Siemens XC800 C500 XC 166 C166 series e Microcontrollers MDT 1xxx and 2xxx series e Microcontrollers Megawin MG87xxx MPC82xxx series e Microcontrollers Microchip PlCmicro PIC10xxx 12 PIC16xxx PIC17Cxxx PIC18xxx PIC24xxx dsPIC PIC32xxx series e Microcontrollers Motorola Freescale HC05 HC08 HC11 HC12 HCS08 RS08 S12 S12X MC56F MCF51 MCF52 series Kinetis K L Qorivva 5xxx Power Architecture e Microcontrollers Myson MTV2xx 3xx 4xx 5xx CS89xx series e Microcontrollers National COP8xxx series e Microcontrollers NEC uPD70Fxxx uPD78Fxxx series e Microcontrollers Novatek NT68xxx series e Microcontrollers Nordic Semiconductor nRF24LExxx nRF24LUxxx nRF315xx nRF51xxx Flash and OTP series e Microcontrollers Nuvoton ARM Cortex Mx NUC1xx M05x Mini51 1 series e Microcontrollers Nuvoton Winbond N79xxx W77xxx W78xxx W79xxx W83xxx series e Microcontrollers NXP Philips ARM Cortex Mx LPC11xx LPC11Cxx LPC11Dxx
16. Checkbox Disable viewledit buffer is set to inactive state by default it means the View Edit buffer button and menu will be enabled when Protected mode is active This allows you and others to view content of buffer but not edit due to active Protected mode Activate this option if you wish to disable also viewing of buffer content in Protected mode In this case we recommend that you activate also option Encrypt project file with password For details see File Save project Select operation mode for protected mode Options Multi operation mode represents basic form of protected mode where all available device operations blank verify program erase are enabled except read This provides certainty that operator cannot modify buffer data by accidental or intentional read operation It s useful when you want to have all supported device operations enabled in one project multi project 116 LE PG4UW software Options One operation mode represents enhanced form of protected mode where only one operation from all available is enabled Provides better certainty because prevents operator from executing wrong type of device operation By building more projects saved in One operation mode using Multi project Wizard you can put together also non standard flow of device operations of control SW e g Program Verify Verify Verify Please see examples of use and differences between operation modes To switch prog
17. Format SVF language for Boundary Scan programming and test The IspVM System software generates VME files supporting both ispJTAG and non Lattice JTAG files which are compliant to the IEEE 1149 1 standard and support SVF or IEEE 1532 formats The VME file is a hex coded file that takes the chain information from the IspVM System window More information on the website http www latticesemi com Software tools Lattice ispLEVER IspVM System ISP Programming Software PAC Designer Software svf2vme utility converts a serial vector file to a VME file Device Device info The command provides additional information about the current device size of device organization programming algorithm and a list of programmers including auxiliary modules that supported this device You can find here package information and other general information about current device too iss as T 104 m PG4UW software Device info Numonyx JS28F256M29EWH TSOP56 fen a Common information Package details Part number description Device info z Manufacturer Type 2528 8 bit bytes Organization 1000080hx16 bit Algorithm Specialized Implemented in ver 3 09 Modified in ver not modified Package Info TSOP 48 12x20mm Supported by programmers and programming adapters modules BeeHive208S with adapter module 9 DIL48 TSOP56 ZIF 18 4mm NOR 4 ord no 70 3077 or 9 Bottom TSOP56 NOR 4 discontinu
18. ID that are burnt into the chip This only applies to EPROM or Flash that supports this feature If the device does not support a chip ID and manufacturer s ID a message will be displayed indicating this as an unknown or not supported device 78 LE PG4UW software If more devices with identical chip ID and manufacturer s ID were detected the list of these devices will be displayed A corresponding device can be chosen from this list by selecting its number or manufacturer name from list and press lt Enter gt or click OK button Press a key lt Esc gt or click Cancel button at any time to cancel device selection without affecting the currently selected device Warning The control program only support this time EPROM s and Flash with 28 and 32 pins Any of programmers determines pins number automatically For other programmers you must enter this number manually The programmer applies a high voltage to the appropriate pins on the socket This is necessary to enable the system to read the device ID Do not insert into the socket a device that is not an EPROM or Flash It may be damaged when the programmer applies the high voltage We don t recommend apply this command to 1 2764 and 27128 EPROM types because most of them ID not supports 2 Flash memories with non standard pinout e g Firmware Hub Flash 3 Flash memories which don t accept Vid voltage at A9 pin 4 low voltage EPROM and Flash memories Device Device option
19. Length of screw depends on base plate thickness Attention For proper mounting of programmer on base plate mounting screws must be minimal 3mm depth in programmer To avoid damage of PCB in programmer mounting screws must be maximum 8mm depth in programmer Drawing for mounting programmer on base plate Assembly holes on base plane when programmer is mounted on base plate base plate programmer outline 189 5 139 5 was OS VP aaa 56 BEL PG4UW software PG4UW software 57 Elnec s o PG4UW the programmer software Program PG4UW is common control program for all Elnec programmers We guarantee running of these programs under all of above mentioned operating systems without any issues Background operation under Windows is error free Using the programmer software The control program delivered by Elnec included on the CD in your package is granted to be free from any viruses at the moment of delivery To increase their safety our programs include a special algorithm for detecting possible virus infections Run the control program In Windows environment double click on icon PG4UW ze After start control program PG4UW automatically scan all existing ports and search for connected Elnec programmer Program PG4UW is common for all Elnec programmers therefore it tries to find all supported programmers Notes When PG4UW is launched program performs self check
20. Please disconnect the programmer s USB cable until installation of the Elnec PG4UW PG4UWMC software has been completed Click Next to continue or Cancel to exit Setup E 5 leis Installation mode Default or Custom Select installation mode with default settings Default or customizable Custom Please select an installation mode with default or custom settings such as Program Destination Location Start Menu Folder Additional tasks by selecting Default or Custom option and pressing Next button Default Use default installation settings IET EE Select Destination Location Where should Elnec PG4UW PG4UWMC be installed h Setup will install Einec PG4UW PG4UWMC into the following folder To continue click Next If you would like to select a different folder dick Browse C Program Files EInec_sw Programmer Browse Atleast 137 3 MB of free disk space is required Installation procedure customized 1 smp 137 Elnec s r o 5 Setup Elnec PG4UW PG4UWMC Select Additional Tasks Which additional tasks should be performed 4 Select the additional tasks you would like Setup to perform while installing Elnec PG4UW PG4UWNC then dick Next V Create a Start menu icon V Create a desktop icon V Install Multiprogramming control support for following programmers BeeHiv
21. Programmer Automatic YES Other Colors of the work result LEDs of programmer e Standard LED color scheme ERROR red BUSY yellow e Former LED color scheme ERROR yellow BUS Y red Note These settings are available only for some types of programmers If you can t see mentioned settings in menu or menu is not enabled for editing your programmer doesn t support LED color scheme customization Hwa co s 134 E PG4UWNC software Timer refresh rate defines how often the PG4UWMC program will request status information from running Programmer Sites Status information means current device operation type progress result and so on Current status information is displayed in main window of PG4UW MC The default timer refresh rate value is 200ms If you wish faster refresh of status information displayed in Operation panel of PG4UWMC select shorter refresh interval If you notice the system performance slow down when using faster refresh select higher refresh value to make refresh less often On the Pentium 4 computers there is almost no performance penalty depending on timer refresh rate but on slower computers it is sometimes useful to select longer less often timer interval PG4UWMC Search for Programmers Search on local computer This mode of programmers searching is active after installation of PG4UWMC by default If you prefer to operate with programmers connected to different c
22. Repeat operation dialog and goes directly into main program window Examples 1 Program 2 Program noquest 3 Program noanyquest Close this parameter has sense together with Program parameter only and makes program to close automatically after device programming is finished successfully Close always this parameter has sense together with Program parameter only and makes program to close automatically after device programming is finished no matter if device operation was successful or not Eprom Flash Autoselect xx forces automatic select EPROM or FLASH by ID when program is starting or even if program is already running xx means pins number of device in ZIF socket this time are valid 28 or 32 pins only and it is required just for older programmers without insertion test capability For others programmers the value is ignored Basic rules for using of executive command line parameters 1 command line parameters are not case sensitive 2 command line parameters can be used when first starting of program or when program is already running 3 if program is already running then any of command line operation is processed only when program was not busy no operation was currently executing in program Program must be in basic state i e main program window focused no modal dialogs displayed no menu commands opened or executed 4 order of processing command line parameters when using more parameters together is defined f
23. Style HEX Save to buffer LS Byte first Split serial number checked Split gap 1 byte s S N fragment size 1 byte s Split settings described above mean split of serial number by bytes to buffer at every second byte The correct serial number is set tightly before device programming operation starts The buffer content of serial number when programming the first device will be Address Data 0000040 34CD 34AB 3434 3412 XXXX XXXX XXXX The second device will have Address Data 0000040 34 34AB 3434 3412 XXXX XXXX XXXX Next devices will have same format of serial number of course incremented by 1 for each device Wapu r lt O 85 Elnec s o Example 2 b Use of serialization split with NOP instructions for Microchip PIC24FJ256 devices Device PIC24FJ256 has 24 bit wide instruction word Instruction NOP has code 00xxxxh Let s assume we want to use Serialization in the same manner as SQTP serialization specified in Microchip MPLAB We can do this by following steps A Write NOP instructions 00xxxxh at address 800h to main buffer of PG4UW This can be done by hand editing buffer or by loading file with proper content The address 800h in PG4UW buffer is equivalent to PIC24Fxxx Program memory address 200h For more details you look at Device information in PG4UW for PIC24FJ256 device The buffer content with NOPs at address 800h before starting device program should look for example as follo
24. Txx prefixes as described below Value of xx represents the record type code Records are used to inform PG4UW software about serialization status current and last serial numbers serialization data and data format errors etc Required records are records T01 T02 and T04 Other records are optional T01 lt serial number Contains current serial number value passed to generator by command line parameter N serial number T02 lt serial number Contains next serial number value that PG4UW will use in next serialization cycle This value is generated by serialization generator and informs PG4UW which serial number will follow after current serial number T03 lt data format code Specifies the serialization data format Following formats are supported now T03 50 or 03 55 ASCII Space data format T03 99 Intel Hex data format TO4 indicates the serialization data will follow from next line to the end of file Serialization data are stored in one of standard ASCII data file formats for example Intel Hex ASCII Space and so on The format used for data must be specified by record Example Typical serialization data file T01 000005 T02 001006 T03 99 T04 0300000000096B89 03000300000005F5 02000C005A0197 01003F004F71 00000001FF 93 Elnec s r o The file consists of following information line T01 current serial number 000005h line T02 ending last serial number 001006h line T03 se
25. ZIF socket and the start of Selected device operation If longer positioning of the chip in the ZIF socket is necessary select elongated response time B 133 Elnec s r o Device removal hold off time time period between you removed device from the ZIF socket and the time when software starts to check the socket for new device inserted This time is in seconds and must be from 1 to 120 default value is 2 seconds Device insertion complete time time within all pins of the device have to be properly inserted after a first pin s detected so that the program will not detects incorrectly inserted device This interval is in seconds and must be from 1 to 120 default value is 5 seconds Suspend on error defines if the Automatic YES function will be temporary disabled on error to see result of operation or will going on without suspension Indication of state when software waits for a new device Not indicated quiet mode the programmer regardless of the number of ZIF does not indicate the state when a device is programmed and the programmer with software wait for inserting a new device After an operation with a device only one of the status LEDs Error or OK lights in dependence on the result of previous operation This LED goes off immediately after detecting removal of a device from the ZIF socket By LED Busy blinking the programmer regardless of the number of ZIF sockets indicates the state when a device is progra
26. and byte number values in input file are hexadecimal e Allowed address value size is from 1 to 4 bytes e Allowed size of data arrays in one line is in range from 1 to 64 bytes When there are two data arrays in one line the sum of their size in bytes can be maximally 80 bytes Be careful to set correct addresses Address must be defined inside device start and device end address range In case of address out of range warning window appears and serialization is set to disabled None e Address for Serialization is always assigned to actual device organization and buffer organization that control program is using for current device If the buffer organization is byte org x8 the Serialization Address will be byte address If the buffer organization is wider than byte e g 16 bit words x16 the Serialization Address will be word address Example of typical input file for Classic From file serialization nav1 A7890 78 89 56 02 AB CD comment nav2 A7890 02 02 04 06 08 0A nav3 A7890 08 09 0A 0B A0 C0 comment2 nav4 A7890 68 87 50 02 0B 8D nav5 A7890 A8 88 59 02 AB 7D next line contains also second definition nav6 A7890 18 29 36 42 5B 6D FFFF6 44 11 22 33 99 88 77 66 55 16 this is last line end of file In the example file six serial values with labels nav1 nav2 nav6 are defined Each value is written to buffer on address A7890 values have size 6 bytes The line with nav6 label has also
27. and operation results without burden of operator with non important details PG4UWMC is using a project file to control the multiprogramming system Project file contains user data chip programming setup information chip configuration data auto programming command sequence etc Therefore the operator error is minimized because the project file is normally created and proofed by engineering and then given to the operator The optional protected mode can be set for project file to avoid unwanted changes of the project file Each chip may be programmed with different data such as serial number configuration and calibration information Program PG4UW MC consists of following main windows e main window e settings dialog window e Search for Programmers dialog window For more details about multiprogramming and how to use PG4UWMC please refer to user manual for any of our USB interfaced concurrent multiprogramming system programmer The basic description of the main parts of PG4UWMC PGIUWMC v3 09 10 2014 Multiprogramming Control Panel J J s s File Device Programmer Options Help DA C i p y e b V a NO lt Stat omota control of Elnec multiprogramming system 4 Settings Loadprj Blank verify Erase progemmerei BeeHive304 S N 3004 00001 Statistics Checksum Site 1 Site 2 Site 3 Site 4 0 B1547D28h 85 aac E failure 0 es 3
28. are available for Job Report Checkbox Enable Job Report function when checked the Job Report function is active enabled Otherwise the Job Report function is disabled 113 Elnec s o Checkbox Automatically save Job Report file when checked the Job Report will be saved automatically to directory specified in edit field Job Report directory and with file name created as following job_report_ lt ordnum gt _ lt prjname gt jrp where lt ordnum gt is decimal order of the file If there are any report files with the same name then order for new report file is incremented about order of existing files lt prjname gt is project file name of recently used project and without the project file name extension Example 1 Let s use the project file c myproject eprj and directory for Job Report set to d job_reports There are no report files present in the Job Report directory The final Job Report file name will be d job reportsjob report 000 myproject jrp Example 2 Let s use the conditions from Example 1 but assume there is already one report file present Name of this file is d job reportsjob report 000 myproject jrp The final Job Report file name of new report will be d job reportsjob report 001 myproject jrp Note the order inside file name is incremented by 1 When Automatically save Job Report file setting is set no Job Report dialogs appears when generating Job Report Newly generated Job Report is
29. as new one e option Append verify errors from all verify actions are cumulated into the same file If file does not exist the new file will be created Box Error report file size limit contains settings that allow setting max number of verify errors saved to file It contains following options e Check box Stop verification after max number of errors reached If checked verify action will finish after Max number of errors will be written in file If not checked all verify errors are saved to the file e Edit box Max number of errors specifies number of verify errors that can be written to error file in one verify operation Log file This options associates with using of Log window All reports for Log window can be written into the Log file too The Log file name is Report rep as default The control program creates this file with name and directory specified in Log file name edit box Following Log file options are available e No default content of Log window is not copied to Log file i e all reports will be displayed to Log window only New deletes old Log file and creates new one during each start of control program e Append adds Log window reports into existing Log file If file does not exist the new file will be created Checkbox Add date information to Log file name allows user to set date information into Log file name specified by user in Log file name edit box When the checkbox is checked program automatical
30. bottom or top plate 5 programming module fixating screws 6 button START 7 temperature controlled cooling fans Front and top view to BeeHive304 19 Elnec s r o banana jack for ESD wrist strap connection ON OFF switch screw with washers for ground connection on the rear side 15V DC power cable connected to programmer from rear side USB cable connected to programmer from rear side LAN cable connected to programmer from rear side rear side cable tie mounts for fixating power USB and LAN cables Rear and top view to BeeHive304 15 power connector 15V 6A 16 type B USB connector for PC lt BeeHive304 communication cable 17 LAN connector for network lt gt BeeHive304 communication cable 18 15V DC power cable connected to programmer from bottom side 19 USB cable connected to programmer from bottom side 20 LAN cable connected to programmer from bottom side 21 bottom side cable tie mount for fixating power USB or LAN cable 22 screw with washers for ground connection on the bottom side 18 21 22 19 21 21 20 Bottom view of BeeHive304 20 De BeeHive304 Connecting BeeHive304 to the PC Using USB port Recommendation for connecting programmer to PC 1 make ground connection between programmer and PC or other ground 2 connect programmer with PC via USB cable 3 connect power supply to programmer Using LAN port Recommendation for connecting programmer to PC 1 make ground connection
31. device Programming Module Interface connectors used for insertion of programming module to programmer part of memory or disk used for temporary data storage type of PC port parallel which is primarily dedicated for printer connection type of PC port serial which is dedicated for connecting portable and peripheral devices format of data file which may be read with standard text viewers e g byte 5AH is stored as characters 5 and A which mean bytes 35H and 41H One line of this HEX file one record contains start address and data bytes All records are secured with checksum Elnec s r o Introduction De Introduction This user manual covers Elnec programmers BeeHive304 and BeeProg3 BeeHive304 is a desktop programmer but may be used as the core for automated programmers and automatic test equipments ATE too It is ultra speed universal 4x64 pindrive concurrent multiprogramming system designed for high volume production programming of high capacity memories The chips are programmed at near theoretical maximum programming speed BeeProg3 is a desktop programmer but may be used as the core for automated programmers and automatic test equipments ATE too It is ultra speed universal programmer with 64 powerful pindrivers designed for low volume production programming Advanced design including protection circuits original brand components and careful manufacturing allows us to provide a three year w
32. following lt PG4UW_inst_dir gt Examples Serialization customgenerator_example The typical path can look like this C Program Files EInec_sw Programmer Examples Serialization customgenerator_example There are following options for Custom generator serialization in PG4UW control software ik u s s 91 Elnec s o In dialog Serialization select in Mode panel option Custom generator mode The following options will be displayed Serialization data file Specifies the path and name for the data file that will contain the current serial number When device is to be programmed the PG4UW software calls user made serial number generator that updates the data file The recommended extension of data file is dat Because many of our customers use also BP Microsystems programmers they ask us for possibility to be used the same serialization software Therefore the Serialization data file is compatible with dat files of Complex serialization system available in BP Micro software Note The data file is completely and periodically overwritten during device programming with serialization Be sure to enter the correct name of wished dat file Example c serial_files serial dat Serialization generator Specifies the path and name for the executable file which will generate serialization data file First serial number This option is required to specify the initial serial number that will be passed to custom generator seriali
33. highly needed chips support and or bugs fixes Available nearly daily depending on request e Main features revision history session logging on line help device and algorithm information Device operations e standard e intelligent device selection by device type manufacturer or typed fragment of part name e automatic ID based selection of EPROM Flash EPROM e blank check read verify e program erase e configuration and security bit program e checksum e interpret the Jam Standard Test and Programming Language STAPL JEDEC standard JESD 71 e interpret the VME files compressed binary variation of SVF files e interpret the SVF files Serial Vector Format e interpret the Actel STAPL Player files e security insertion test reverse insertion check contact check e ID byte check e special e production mode automatic start immediately after device insertion e multi project mode e lot of serialization modes more type of incremental modes from file mode custom generator mode e statistic e count down mode Buffer operations e view edit find replace e fill copy move byte swap word dword split e checksum byte word e print File load save e automatic file type identification 27 Elnec s o Supported file formats e unformatted raw binary e HEX Intel Intel EXT Motorola S record MOS Exormax Tektronix ASCII SPACE HEX ASCII HEX e Altera POF JEDEC ver 3 0 A e g from ABEL CUPL PALAS
34. is also recommended using this checkbox along with active Protected mode When the request of project file unique ID is active the software indicates this by label ID next to project file name in bottom status line in control program main window Note Option Require project file unique ID before first programming is replacement of former Require project file checksum before first programming Unique ID advantage over generic checksum is that unique ID is calculated not just from main device buffer data but also from secondary buffers data used by device and available device settings When the request of project file checksum is active the software indicates this by label CSum next to project file name in bottom status line in control program main window This option is no longer available in Save project dialog but it can be activated after loading of older project file that has the checksum request set on File Reload file Choose this option to reload a recently used file When you use a file it is added to the Reload file list Files are listed in order depending on time of use of them Lastly used files are listed before files used far off To Reload a file 1 From the File menu choose Reload file 2 List of lastly used files is displayed Click the file you want to reload Note When reloading a file the file format is used by which the file was lastly loaded saved File Reload project Choose this option to reload a recen
35. is described below Multi project Wizard Multi project device operation requires Multi project file which contains partial sub projects associated to sub devices chips of Master device Multi project file can be created in Multi project Wizard The Wizard has following main functions e Select of sub projects and build final Multi project file e Load of existing Multi project file 1 e Start device operation of recent Multi project Note 1 Existing Multi project file can be loaded from main menu of PG4UW using menu File Load project or from Multi project Wizard by Load multi prj command Multi project Wizard contains following controls e Button Load multi prj is used for load of existing Multi project file e Button Build Multi project is used for build of new Multi project file which uses projects listed in table Sub projects e Table 1 Sub projects contains list of projects that are included in recent Multi project e Button Add project is used for adding of new project file s to list of project files in Table e Button Remove project is used for removing of selected project file from list of project files in Table 1 e Buttons Move up a Move down are used for moving of selected project in Table 1 one position up or down Projects are processed in specified sequence order the upper most 1 as first Button Help show this help e Buttons of device operation Blank Verify Program Erase or Run are used for running
36. mail or fax If you want to contact us please use following methods e Mail fax Copy the DEVICE PROBLEM REPORT form and fill it in following the instructions at the end of the form Write everything down that you consider being relevant about the programmer software and the target device Send the completed form by mail or fax to Elnec fax number in the control program menu Help About or to your local dealer If you send the form by fax please use black ink a good pen and large letters e E mail Use DEVICE PROBLEM REPORT form on the CD or from our Internet site and fill it in following the instructions at the end of the form Use standard ASCII editor Write everything down that you consider being relevant about the programmer software and the target device Send the completed form by e mail to your local dealer or to Elnec nospam version elnec at elnec dot com e Phone Copy DEVICE PROBLEM REPORT form and fill it in following the instructions at the end of the form Write everything down that you consider being relevant about the programmer software and the target device Send the completed form by mail or fax to Elnec fax number in the control program menu Help About or to your local dealer If you send the form by fax please use black ink a good pen and large letters easily to read Then call your local dealer or Elnec customer support center phone number in the control program menu Help About Please keep your manua
37. mode can be activated by menu command but cannot be activated by Project file Another difference is that Protected mode settings of PG4UWMC are saved to configuration ini file of PG4UWMC while program PG4UWNC is closed During next start of application PG4UW MC the recent Protected mode settings obtained from ini file are used There is one menu command Options Protected mode that allows using Protected mode in application PG4UWMC After selecting the menu Options Protected mode password dialog appears User has to enter password twice to confirm the password is correct After successful password confirmation program switches to Protected mode Protected mode settings are saved to configuration ini file of PG4UWMC During next start of program PG4UW MC the Protected mode settings from ini file are used 117 Elnec s r o Checkbox Keep Load project operation allowed is set to inactive state by default it means the Load project operation button and menu will be disabled when Protected mode is active If the option is enabled checked the Load project operation button and menu will be allowed in Protected mode To switch program from Protected mode back to Normal mode use the menu command Options Normal mode The Password required dialog appears User has to enter the same password as the password entered during switch to Protected mode When Protected mode is active the label Protected mode is visible near the
38. of selected device operation on all chips sub devices listed in table Sub projects e In Multi operation mode one of all available operations can be run at a time the same operation on each sub device In One operation mode only one operation can be run the same operation on each Sub device or each subproject can run it s own one operation depending on projects the Multi project consists of Following two basic actions have to be performed when using Multi project to program Multi chip devices similar also for Single chip devices e Making building of Multi project or Multi project file Using of Multi project for running of device operation Making building of Multi project or Multi project file Following steps are recommended when making Multi project file Create classic projects one project for each sub device of multichip device Projects are created in the same way as projects for generic devices Wa sO F r r cn r H 119 Elnec s r o select sub device according to required chip of multichip device 1 set device parameters settings and load required device data to buffer by Load file command in PG4UW optionally make test of device operation by running the device operation on device if everything is OK the project file can be created by Save project command e Select Master multichip device the Multi project has to be used for After selection of multichip device Mul
39. option Allow address history logging activates saving of recently confirmed values These are saved for each device separately count is limited to last 15 items Note Address history values are common for all buffer data manipulation dialogs 56 72 A EE PG4UW software Default address range is set according to buffer range of selected device Selecting option Maintain last inserted values causes that for the next time you open this dialog previously confirmed values will be reloaded as default Buffer Erase If this command is selected the content of the buffer will be filled with topical blank character Selecting option Allow address history logging activates saving of recently confirmed values These are saved for each device separately count is limited to last 15 items Note Address history values are common for all buffer data manipulation dialogs Default address range is set according to buffer range of selected device Selecting option Maintain last inserted values causes that for the next time you open this dialog previously confirmed values will be reloaded as default The reserved key lt CtrI F2 gt will bring out this menu from any menu any time Buffer Fill random data If this command is selected the content of the buffer will be filled with random data Selecting option Allow address history logging activates saving of recently confirmed values These are saved for each device separatel
40. options Auto save save options during quitting program without asking for saving options Prompt for save program asks user for saving options before quitting program User can select to save or not to save options Other Page Other allows user to manage other program settings Panel Application priority allows user to set the priority of the program Priority settings can affect performance of programmer device programming time especially if there are running more demanding applications in the system Please note that setting application priority level to Low can significantly slow down the program In the panel Tool buttons hint display options on toolbar buttons in main program window can be modified In the panel Start up directory can be selected mode of selecting directory when program starts Default start up directory means directory from which program is called Directory in which program was lastly ended means the last current directory when program was lastly ended This directory assumes the first directory from directory history list Options View Use the View menu commands to display or hide different elements of program environment such as toolbars Following toolbars are available now Options View Main toolbar Choose this command to show or hide the Main toolbar 115 Elnec s r o Options View Additional toolbar Choose this command to show or hide the Additional toolbar Options View Devic
41. provides a guarantee on failure free operating of the programmer and all its parts materials and workmanship for three year BeeHive304 and BeeProg3 from the date of purchase This warranty is limited to 500 insertion of programming module to programming module interface connectors If the product is diagnosed as defective Elnec s r o or the authorized repair center will repair or replace defective parts at no charge Parts used for replacement and or whole programmer are warranted only for the reminder of the original warranty period Warranty for programming modules is limited by mechanical lifetime of ZIF socket The lifetime of ZIF socket is different at particular adapter you can find information about mechanical lifetime of ZIF socket of particular adapter on our web site Products Programming Adapters click on desired kind of adapter This warranty covers mechanical lifetime of ZIF sockets only This warranty doesn t cover wear and tear e g higher undefined fluctuating contact resistance caused by dust dirt or by materials rubbed off from programmed devices leads For repair within the warranty period the customer must prove the date of purchase This warranty terms are valid for customers who purchase a programmer directly from Elnec company The warranty conditions of Elnec sellers may differ depending on the target country law system or Elnec seller s warranty policy The warranty does not apply to products which are a
42. r r rr n 58 PG4UW software programming verifying operation is running inside programmer Buffer synchronization is indicated PG4UW control program by message Synchronizing buffers with programmer PGAUW 4199 Synchronizing Buffer 1 with programmer wait please m 9 Address range 0h 7DFFFFFh Progress 33F2A84h 41 Progress of the data transfer is showed in separate window Transfer can be canceled by pressing key lt Esc gt or pressing the window s exit button Description of the user screen Windows program PG4UW a EZ PGAUW v3 09 10 2014 universal control program for Elnec programmers File Buffer Device Programmer Options Help EJ FF Load Save Load prj ny TES Save prj View Edit Select def Select h gt v Blank bab Read a ju Verify Program Erase Programmer activity log gt gt 05 11 2014 14 39 04 Scanning port Scanning port Scanning port Scanning port s Scanning port s Serialization None Note See also Device info CulsF1 Spit None To customize device use menu Access Method lt Alt S gt Filename Toolbars for BeeProg2AP for BeeProg3 Starting up programmer firmware CheckSum Calculate x8 S Dh 83FFFFFh All programmers are going to be scanned on selected communication port Scanning po
43. randomly during device operation for example device programming please close other programs especially programs which consumes large amount of system resources multimedia CAD graphic applications and so on Note We also recommend using computer USB ports placed on back side of computer and directly connected to motherboard because computer USB ports connected to computer motherboard indirectly via cable may be unreliable when using high speed USB 2 0 transfer modes This recommendation is valid not only for programmers but also for other devices 141 Elnec s r o Common notes 142 De Common notes Maintenance It is strongly advised to follow the instructions and precautions herein to achieve high reliability of the programmer for a long period of time The programmer maintenance depends on character and amount of its use Regardless the following recommendations are generally accepted Do not use and store the programmer in dusty places e Humidity accelerates sedimentation of debris and dust in ZIF socket e After end the job cover the ZIF socket e Do not expose the programmer to direct sunlight or position near a source of heat Intensive daily use programming centre production Daily maintenance Check the ZIF sockets of the programming module for their condition and wear Remove debris dust and grime from the ZIF sockets with clean dry and compressed air Clean the ZIF sockets both in cl
44. saved to file without any dialogs or messages if no error occurs while saving to file If the checkbox Automatically save Job Report file is unchecked the PG4UW will show Job Report dialog every time needed In the Job Report dialog user can select operation to do with Job Report If user selects no operation Close button the Job Report will be written to PG4UW Log Window only Automatic YES Allows user to override default settings as preset in PG4UW software of indication for the state when the programmer and the software wait for withdrawing programmed device and a new one will be inserted in active Automatic YES mode Default as preset in software the programmer indicates the state when a device is programmed and the programmer with software wait for inserting a new device as preset in the software for respective programmer Multi sockets programmers the programmers with more than one ZIF socket do not indicate this state see description for Not indicated quiet mode Single socket programmers the programmers with one ZIF socket indicate this state by LED Busy blinking see description for By LED Busy blinking setting Not indicated quiet mode the programmer regardless of the number of ZIF sockets does not indicate the state when a device is programmed and the programmer with software sa asaO s rFscm r c sO n ura a HL 114 LE PG4UW software wait for inserting a new device After an operation wit
45. serial number Programmers or Programmer Sites with different serial numbers will be ignored If the PG4UWMC does not find desired Programmer Site the Programmer Site will be set to Demo mode with status set to Not found On one computer 8 Programmer Sites can be run at the same time Job Report settings are used to set mode of using Job Report Job Report represents the summary description of operation recently made on device Job is associated with project file and it means the operation starting with Load project until loading of new project or closing program PG4UWMC Job Report contains following information e project name project date Protected mode status PG4UWNC software version programmer type and serial number 130 MN e start time of executing the Job it means time when Load project operation was performed e end time of executing the Job time of creating the Job Report device name e device type e checksum e device operation options e serialization information e statistics information Job Report is generated in following cases e user command Load project is selected e closing or disconnecting programmer sites is selected e closing the PG64UWMC e device Count down counter reaches 0 finished status e manually by user when menu File Job Report is used The Job Report is generated for recently loaded project file only when statistics value of Total is greater than 0 It
46. special format using encryption algorithm This prevents loading project file into software without knowledge of password After clicking the button with key password dialog appears which is used to specify encryption password for project being saved 66 LE PG4UW software Checkbox Set Protected mode of software after loading of this project file is used to save project in special mode called Protected mode After clicking the button with key password dialog appears which is used to specify Protected mode password for project being saved and another security options disable other project loading device operations restriction to prevent operator s mistakes Projects saved with active Protected mode are special projects called Protected mode projects For more detailed information about Protected mode projects see Options Protected mode When Protected mode is active the software indicates this by label Protected mode in right top corner of Programmer activity log Recommendation passwords for Encrypt project file with password and Set Protected mode of software after loading of this project file should not be the same Checkbox Require project file checksum before first programming when active software asks user for entering correct project file unique ID before allowing to start the first device programming after load project This feature is recommended for additional check that correct project file is recently loaded There
47. start of programming immediately after insertion of chip into socket All known data formats are supported Automatic file format detection and conversion during loading of file are performed The software also provides in the Device information section lots of information about the programmed device As a special the drawings of all available packages are provided The software also provides explanation of chip marking the meaning of prefixes and suffixes at the chips for each supported chip The rich featured serialization function enables one to assign individual serial numbers to each programmed device or simply increments a serial number or the function enables one to read serial numbers or any programmed device identification signatures from a file and program it to programmed device Jam files of JEDEC standard JESD 71 are interpreted by Jam Player Jam files are generated by design software which is provided by the manufacturer of respective programmable device Chips are programmed through JTAG IEEE 1149 1 Joint Test Action Group interface VME files are interpreted by VME Player VME file is a compressed binary variation of SVF file and contains high level IEEE 1149 1 bus operations SVF files are interpreted by SVF Player SVF file Serial Vector Format contains high level IEEE 1149 1 bus operations SVF files are generated by design software which is provided by manufacturer of respective programmable device Chips are programmed
48. t counting from existing maybe corrupted device data content however this value is stored during programming to special memory localization and is only reading VERIFY DEVICE INFO similar options as previous with difference in automatic comparison of programmed device checksum and STAPLE file checksum The result of comparison can be either success or error window message VERIFY the safest but the slowest tens of seconds depends on device capacity against 1 second in options 1 and 2 option for data compare programmed device content with content of STAPLE file Comparison selected family features FPGA Array targeted FlashROM pages security setting is executing bit by bit and verification process can be early terminated if data mismatch occurs with writing error message to log window Q Is it possible to program Actel device with two different STAPLE file in one program action in PG4UW A Yes it is possible PG4UW control program has built in multi project solution for mentioned situation As an example can be programming data content first STAPL file together with security encryption key second STAPL file The IspVM Virtual Machine The IspVM Virtual Machine is a Virtual Machine that has been optimized specifically for programming devices which are compatible with the IEEE 1149 1 Standard for Boundary Scan Test The IspVM EMBEDDED tool combines the power of Lattice s ISpVM Virtual MachineTM with the industry standard Serial Vector
49. this manual Note nformation provided in this manual is intended to be accurate at the moment of release but we continuously improve all our products Please consult manual on www elnec com Help Supported devices This command displays list of all devices supported by at least one type of all supported programmers It is useful especially when user wants to find any device supported by at least one type of programmers Prefix g before name of device means the device is supported by multi socket programmer Help Supported programmers This command displays information about programmers where supported this program Help Device list current programmer This command makes a list of all devices supported by current programmer and saves it to device list is generated for Help Device list all programmers are generated for Note The control program loses all information about current device after this command is executed Reselect wished device again by any of select methods in menu DEVICE 122 LE C PG4UW software Help Device list cross reference This command makes cross reference list of all devices supported by all programmers available on market and supported by this control program The resulting list is in HTML format and consists of following files one main HTML file TOP DEV htm with supported device manufacturers listed partial HTML files with list of supported devices for each device manufac
50. toolbars with button shortcuts of frequently used menu commands Toolbars are optional and can be turned off by menu command Options View 59 Elnec s r o Log window Log window contains the flow control progress information about almost every operation made in PG4UW Operation can be e starting of PG4UW e programmer search file project load save selection of device device operations device read blank check programming e remote control application connection and disconnection e and other Content of Log window can be saved to file concurrently while information is written to Log window This option can be set by menu Options General options and tab Log file in dialog General options Panel Addresses Panel Addresses contains information about actual address ranges of currently selected device loaded file and buffer start end address settings Some devices allow modifying default device and buffer address ranges by menu command Device Device options Operation options Panel Addresses also contains some advanced information about current status of Split Serialization and buffer checksum For more information about each of the options please look at e Split menu Device Device options Operation options e Serialization menu Device Device options Serialization e Checksum menu Buffer Checksum at section Checksum displayed in main window Panel Programmer Panel Programmer contains information about c
51. top of Log window of PG4UWMC main window Note Sometimes when Protected mode is switched from active state to inactive state Normal mode some commands for example command Load project may remain disabled This can be resolved by clicking on button Stop ALL Multi projects Multi project is special feature which provides possibility to run any sequence of operations with any device based on informations saved during creation of sub projects and multi project itself In practice using Multi projects you are able to e comfortably program multi chip devices e configure and run any sequence of device operations e g Program Verify Verify Verify with one device See also more detailed description on operation modes Basic terms related to Multi project e Multi project file is special file that contains all Multi project information Multi project file can include one or more projects Projects included in Multi project file are also called sub projects e Sub project means classic project file which has been included into Multi project file during Multi project file build Project file a special type of file that combines buffer data device operation options special options and some level of safety features It completely defines the way how to treat with the device Once saved it can be reloaded anytime and the operation can be repeated exactly e Multi chip device is device with two more independent chips
52. use the serial number only once regardless result of the programming is selected request for new serial number is performed before each device operation regardless result of previous programming operation Serialization can work with control program s main buffer or extended buffers available for some types of devices for example Microchip PIC16Fxxx devices with Data EEPROM Memory The selection which buffer use by serialization routine is available in dialog Was s rT hF sO OqI s a 81 Elnec s r o Serialization If Buffer settings box is not visible the current serialization mode does not support extended buffers Device Device options Serialization Incremental mode amp SQTP The Incremental mode amp SQTP enables to assign individual serial numbers to each programmed device A starting number entered by user will be incremented by specified step for each device program operation and loaded in selected format to specified buffer address prior to programming of each device There are following options that user can modify for incremental mode S N size S N size option defines the number of bytes of serial value which will be written to buffer For Bin binary serialization modes values 1 8 are valid for S N size and for ASCII serialization modes values 1 16 are valid for S N size Address Address option specifies the buffer address where serial value has to be written Note that address range must be insid
53. write the serial number to device program memory at address 40H Serial number split us very useful in this situation Serialization without serial number split will write the following number to buffer and device 84 LE C PG4UW software Address Data 0000080 CD AB 34 12 XX xx XX XX XX XX XX XX XX XX XX XX Note address 80H is because buffer has byte organization and PIC has word organization so it has equivalent program memory address 40H When buffer has word organization x16 the address will be 40H and number 1234ABCDH will be placed to buffer as following Address Data 0000040 ABCD 1234 xxxx XXXX XXXX XXXX XXXX XXXX We want to use RETLW instruction so buffer has to be Address Data 0000040 34CD 3434 3412 XXXX XXXX XXXX We can do this by following steps A write four RETLW instructions at address 40H to main buffer this can be done by hand editing buffer or by loading file with proper content The bottom 8 bits of each RETLW instruction are not important now because serialization will write correct serial number bytes at bottom 8 bits of each RETLW instruction The buffer content before starting device program will look for example as following Address Data 0000040 3400 3400 3400 3400 xxxx XXXx XXXX XXXX 8 bits of each RETLW instructions are zeros they can have any value B Set the serialization options as following S N size 4 Bytes Address 40H Start value 1234ABCDH Step 1 S N mode BIN
54. 2 99nw01 o 2 z BeeHive204AP AU S N 2339 00002 egend New to previous configuration A PG4UW running process detected Missing red to previous configuration Incorrect version of PG4UWMC Network Agent 4 3 W Move down E73 Messages Only eight sites on one computer allowed a some site s to meet this condition 2209 search a TE e Cancel kd tee Search group network From this point working with PG4UWMC should be as usual Troubleshooting If searching programmers does not finish as expected please check following e each computer in Programmers group must PG4UWMC Network Agent with same Programmers group your firewall settings may block network communication please check firewall rules or temporally disable firewall Command line parameters Program PG4UWMC supports following command line parameters Iprj lt file_name gt Loads project file Parameter lt file_name gt means full or relative project file path and name There is also available to make Load project operation from command line by entering project file name without prefix prj 140 DE O PG4UWMC software Example pg4uwmc exe c projects myproject epr Makes load project file c projects myproject epr lautoconnectsites The command forces PG4UWMC to connect programmer Sites start control program PG4UW for each Site during start of PG4UWMC for all S
55. 3 programming modules The programmer is driven by a comfortable and easy to use control program with pull down menu hot keys and on line help The software runs on all versions of MS Windows from Windows XP to Windows 8 32bit and 64 bit 31 Elnec s o Selecting of device is performed by its class by manufacturer or simply by typing a fragment of vendor name and or part number Standard device related commands read blank check program verify erase are boosted by some test functions insertion test signature byte check and some special functions autoincrement production mode start of programming immediately after insertion of chip into socket All known data formats are supported Automatic file format detection and conversion during loading of file is provided The rich featured serialization function enables one to assign individual serial numbers to each programmed device simply increments a serial number or the function enables one to read serial numbers or any programmed device identification signatures from a file The software also provides in the Device information section lots of information about the programmed device In addition the drawings of all available packages are provided The software also provides explanation of chip marking the meaning of prefixes and suffixes at the chips for each supported chip Jam files of JEDEC standard JESD 71 are interpreted by Jam Player Jam files are ge
56. 304 can be attached to this computer using USB or LAN network if more than two BeeHive304 programmers are required to implement into automated programmer then more computers are needed to use Whole system is scalable up to 64 programming sites in one automated programming system by multiplying of BeeHive304 programmers and the control PCs Maximal configuration comprise of 16x BeeHive304 programmers One control computer in the system serves as a master unit Here run also multiprogramming control software serialization engine and interface to the host system Interfacing of control PCs in whole network is done over standard LAN network Implementation of BeeHive304 into software of automated programmers and handlers is by using of simple remote control of the PG4UWMC control software There exist examples of implementation for standard programming languages and of course we are ready to help customer with this task BeeHive304 programmer is driven by comfortable and easy to use control programs which work with all versions of MS Windows from Windows XP to Windows 8 64 bit e PGAUWMC is control software for production mode E i 17 Elnec s o This part of the software is focused on the easy monitoring of high volume production operations Operator friendly control software combines many powerful functions with ease of use Graphic user interface provide overview of all importan
57. 77 31 007 fax 77 32 797 www elnec com e mail nospam version elnec at elnec dot com 150 Troubleshooting and warrant El Elnec s r o Jana Bottu 5 SK 080 01 Presov Slovakia www elnec com ZLI 0330 151
58. Buffer 4 ADDR 2 4 Device ADDR Buffer 1 4 ADDR 3 4 Device ADDR Buffer 2 4 ADDR 4 4 Device ADDR Buffer 3 4 ADDR Real addressing will be following all addresses are hexadecimal Split type Device addresses Buffer addresses None 00 01 02 03 04 05 00 01 02 03 04 05 Even 00 01 02 03 04 05 00 02 04 06 08 0A Odd 00 01 02 03 04 05 01 03 05 07 09 0B 144 00 01 02 03 04 05 00 04 08 OC 10 14 2 4 00 01 02 03 04 05 01 05 09 OD 11 15 3 4 00 01 02 03 04 05 02 06 0A OE 12 16 4 4 00 01 02 03 04 05 03 07 OB OF 13 17 Terms explanation Access to device address ADDR is written as Device AD DR Access to buffer address ADDR is written as Buffer ADDR ADDR value can be from zero to device size in bytes All addresses are byte oriented addresses group Insertion test insertion test default ENABLE If enabled the programmer checks all pins of the programmed chip if it has proper connection to the ZIF socket continuity test The programmer is able to identify the wrong contact bad inserted chip and also partially back inserted chip Device ID check error terminates the operation default ENABLE Programmer provides ID check before each selected action It compares read ID codes from device with ID codes defined by device manufacturer In case of ID error control program behaves as follows if item is set to ENABLE selected action is finished if item is set to DISABLE selected action continues Control program just writ
59. C S0452 ASCII SPACE format Very simple hex file format similar as ASCII HEX without checksum field without start STX and end ETX characters Each data byte is represented as 2 hexadecimal characters and is separated by white space from all other data bytes The address field is separated by white space from data bytes The address is set by using a sequence of 4 8 hex characters Here is an example of ASCII SPACE file It contains the data Hello World to be loaded at address 0x1000 0001000 48 65 6C 6C 6F 2C 20 57 6F 72 6C 64 0A Straight HEX format Very simple hex file format similar as ASCII HEX without address and checksum fields without start STX and end ETX characters Each data byte is represented as 2 hexadecimal characters and is separated by white space from all other data bytes Here is an example of Straight HEX file It contains the data Hello World 48 65 6C 6C 6F 2C 20 57 6F 72 6C 64 0A Samsung HEX format Samsung HEX file format is minor modification of Intel HEX format therefore in the software is recognized and indicated as Intel HEX file format Note for special x16 formats Intel HEXx16 is Intel Hex file format with 16 bits data word for TMS320F devices Motorola HEXx16 is Motorola file format with 16 bits data word for TMS320F devices Checking the check box Automatic file format recognition tells program to detect file format automatically When program can t detect file format from one of support
60. CII SPACE HEX ASCII HEX e Altera POF JEDEC ver 3 0 A e g from ABEL CUPL PALASM TANGO PLD OrCAD PLD PLD Designer ISDATA etc e JAM JEDEC STAPL Format JBC Jam STAPL Byte Code STAPL STAPL File JEDEC standard JESD 71 e VME ispVME file VME2 0 VME3 0 e SVF Serial Vector Format revision E e STP Actel STAPL file GENERAL e operating voltage 100 240V AC rated 90 264 VAC max 47 63Hz e power consumption max 25W active e dimensions of BeeProg3 programmer 139 5 x 189 5 x 48 4 mm 5 5 x 7 5 x 1 9 inch Dimensions were measured without programming module inserted and does not include projections Total height of BeeProg3 programmer with programming module inserted depends on ZIF socket height and can vary between 66 78mm e weight of programmer without programming modules 1 25kg 2 7 Ib e operating temperature 5 C 40 C 41 F 104 F operating humidity 20 80 non condensing 41 Elnec s r o Setup 42 Setup The programmer package contains a CD with the control program useful utilities and additional information The permission to freely copy the content of the CD is granted in order to demonstrate how Elnec programmers work For programmers connected through USB port control program requires correctly installed USB driver We recommended installing software before connecting programmer to PC to avoid unwanted complication during installation Software setup Insert de
61. Checkbox Use one common project for all Sites Checkbox Use one common project for all Sites is placed under the Sites numbers and Projects table When there is requirement to program the same device types with the same data the checkbox should be checked e If the checkbox is checked the project file for Site 1 will be used also for all other Programmer Sites In this mode all Sites are using the same shared buffer of project data and program the same device type f the checkbox is not checked each Site will use its own project file defined by name in table of Sites in column Project file In this mode each Site is using its own buffer of project data which allows to program different data to different types of devices at the same time in each Site Auto connect sites after PG4UWMC start Presuming the remembered sites are connected and ready Force YES for gang multiprogramming mode Standard mode of multiprogramming operation on our multiprogrammers is concurrent multiprogramming mode when each programming site works independently and operator can re load programmed device while other programming sites are running In gang multiprogramming mode predefined operation starts on all programming sites at a time by pressing any YES button Notes e works for all active present and enabled sites e start is blocked while any site is busy e in this mode Automatic YES is disabled 128 3 E ma be PG4UWNC software PHC et
62. LIST FILE 2 each serial data batch is represented by separate line in format label x datafilename labelx represents label Labels are identifiers for each no empty line of input file They are used for addressing each line of file The labels should be unique within the file Addressing lines of file means that the required start label entered by user defines line in input file from which serial values reading starts datafilename defines name of data file which contains serialization data When serialization requires new serial value the data file will be loaded by standard PG4UW Load file procedure to PG4UW buffer File format can be binary or Hex file Intel Hex etc The auto recognition system recognizes proper file format and forces load of file in the right file format Data filename is relative to parent playlist serialization file Example of playlist serialization file following file header is required FILETYPE PG4UW SERIALIZATION PLAYLIST FILE references to serialization data files nav 1 file1 dat nav2 file2 dat nav3 file3 dat label n filex dat jM end of file For more detailed and fully functional example of serialization type From file playlist you look the example files placed in the PG4UW installation directory in Examples subdirectory as following PGAUW inst dir XExamplesVSerializationromfile playlist example The typical path can look l
63. M TANGO PLD OrCAD PLD PLD Designer ISDATA etc e JAM JEDEC STAPL Format JBC Jam STAPL Byte Code STAPL STAPL File JEDEC standard JESD 71 VME ispVME file VME2 0 VME3 0 e SVF Serial Vector Format revision E e STP Actel STAPL file GENERAL e external power supply unit operating voltage 100 240V AC rated 90 264 VAC max 47 63Hz Output voltage 15V 6A output cable length 1200mm 47 2 inch e power consumption max 90W active e dimensions of BeeHive304 programmer 320 5 x 205 x 58 4 mm 12 6 x 8 1 x 2 3 inch Dimensions were measured without programming module inserted and does not include projections Total height of BeeHive304 programmer with programming module s inserted depends on ZIF socket height and can vary between 76 88mm e weight of programmer without programming modules 3 6kg 7 9 Ib e operating temperature 5 C 40 C 41 F 104 F operating humidity 20 80 non condensing 28 BeeProg3 BeeProg3 Elnec s r o Introduction BeeProg3 is next member of Elnec universal programmer series built to meet the strong appeal for an extremely fast and reliable programmer for high capacity memories BeeProg3 is designed with great emphasis on technical perfection and speed of hardware this programmer perfectly fits for high demanding desktop programming as well as for automated programming systems and ATE machines where ensures the highest quality and overall yield B
64. Micron MTFCxxxxxx Numonyx NANDxxxxxxxx Phison PSM4A11 xx Samsung KLMxxxxxxx SanDisk SDINxxx xx Toshiba THGBMxxxxxxxxxx e Multi chip devices NAND RAM NOR RAM NOR NOR RAM NAND NOR RAM e Serial Flash standard SPI high performance Dual I O SPI and Quad I O SPI 25Bxxx 25Dxxx 25Exxx 25Fxxx 25Lxxx 25Mxxx 25Pxxx 25Qxxx 25Sxxx 25Txxx 25Uxxx 25Vxxx ZBW xxx 25Xxxx 26Vxxx 45PExx MX66Lxxx S7OFLxxx DataFlash AT45Dxxx AT26Dxxx e parallel NOR Flash 28Fxxx 29Cxxx 29Fxxx 29GLxxx 29BVxxx 29LVxxx 29W xxx 49Fxxx series Samsung s K8Fxxxx K8Cxxxx K8Sxxxx K8Pxxxx series e EPROM NMOS CMOS 27xxx and 27Cxxx series e EEPROM NMOS CMOS 28xxx 28Cxxx 27EExxx series 3D Plus 3DEExxxxxxxx emDOC H3 SanDisk ex M Systems SDED5xxx SDED7xxx MD2533xxx MD2534xxx Hynix HY23xxx e FRAM Ramtron e MRAM Everspin MRxxxxx8x 3D Plus e NV RAM Dallas DSxxx SGS Inmos MKxxx SIMTEK STKxxx XICOR 2xxx ZMD U63x series e Serial E E PROM Serial E EJPROM 11LCxxx 24Cxxx 24Fxxx 25Cxxx 30TSExxx 34Cxxx 34TSxx 59Cxxx 85xxx 93Cxxx NVM3060 MDAxxx series full support for LV series AT88SCxxx e Serial FRAM Cypress Ramtron FM24xxxxxx FM25xxxxxx Fujitsu MB85ROCxxxx MB85RSxxxx Lapis OKI Rohm MR44xxxxx MR45xxxxx e Serial MRAM Everspin MH20xxx MH25xxx War s m c m rp 37 Elnec s o e Configuration EE PROM XCFxxx XC17xxxx XC18Vxxx EPCxxx EPCSxxx AT17xxx AT18F xxx 37LV
65. Other failure 0 Serialization EIUS BE _susy r 0 Status Disabled ERROR 39 1 493 Count down Disabled z 2 Remains e eco eo Reload Countdown Cksum B1547D28h Cksum B1547D28h Cksum B1547D28h Cksum B1547D28h Status window Programmers activity log Administrator Mode Site Status Serialization 10233 Device insertion complete time n seconds 5 10294 1 Ready 10295 nd on error Disable TR 102 2 Ready LO297 I5 19 21 57 61 33 Ready 10298 je donate VESI 4 Ready 10300 lt End of options list Device selection by project load 10301 10302 gt gt 20 10 2014 16 02 32 10303 Recent serialization settings 00304 Serialization Mode None 10305 end of serialization settings 10306 Directory to store associated serialization position files Same directory as the project fle is stored in L0307 Project loaded successfully 10308 gt gt MC 20 10 2014 16 03 10 gt 10309 Statistics settings were set by user x Disconnect proqrammers X Stop all 4 m D Device Elnec AP MSD08GCS4P 1TM BP3 Project file L YVYVOJYuSD BP3 30092014 eprj PG4UWMC main window ks 125 Elnec s r o Main window of PG4UWMC consists of following parts Menu and tool buttons Menu and tool buttons allow access to most of PG4UWMC functions Tool button Settings Button is used to op
66. User manual for BeeHive304 Ultra speed universal 4x 64 pindrive production multiprogrammer design focused on high capacity memories programming BeeProg3 Ultra speed universal 64 pindrive programmer design focused on high capacity memories programming Elnec s r o This document is copyrighted by Elnec s r o Presov Slovakia All rights reserved This document or any part of it may not be copied reproduced or translated in any form or in any way without the prior written permission of Elnec s r o The control program is copyright Elnec s r o Presov Slovakia The control program or any part of it may not be analyzed disassembled or modified in any form on any medium for any purpose Information provided in this manual is intended to be accurate at the moment of release but we continuously improve all our products Please consult manual on www elnec com Elnec s r o assumes no responsibility for misuse of this manual Elnec s r o reserves the right to make changes or improvements to the product described in this manual at any time without notice This manual contains names of companies software products etc which may be trademarks of their respective owners Elnec s r o respects those trademarks COPYRIGHT 1991 2014 Elnec s r o Presov Slovakia 6 November 2014 211 0330 a r 2 LR Elnec s r o How to use this manual This manual explains how to install the control p
67. _epm70644ELC44_10 pot TARGET 1 IDCODE 170640DD USERCODE FFFFFFFF CHECKSUM OOOEBCEC SAVE DATA DEVICE DATA SAVE DATA VARIABLES VU 412 13 A25 A43 92 A94 95 A50 STAPL VERSION JESD71 JAM_VERSION 20 ALG_VERSION 35 Cancel Notes statements are used to store information about the Jam file The information stored in NOTE fields may include any type of documentation or attributes related to the particular Jam program Source file contains a program in Jam language Jam program consists of a sequence of statements Jam statement consists of a label which is optional an instruction and arguments and terminates with a semicolon Arguments may be literal constants variables or expressions resulting in the desired data type i e Boolean or integer Each statement usually occupies one line of the Jam program but this is not required Line breaks are not significant to the Jam language syntax except for terminating comments An apostrophe character can be used to signify a comment which is ignored by the interpreter The language does not specify any limits for line length statement length or program size More information can be found on the website http www altera com Jam file with extension jbc is Jam STAPL Byte code format which is not visible Converting JED file to Jam STAPLE file for XILINX devices install Xilinx Integrated Software Environment ISE 6 3i software free download WebPACK 63 fcfull
68. ab Errors allows to control how to write the found errors to user specified report file Note e Verify operation compares content of the whole chip with the data in the software therefore it might happen in case of incomplete programmed chip the verification after programming shows none error but solo verify operation does not pass e Verify operation can report errors also in case of protected devices that have active read protection of data Device Program This command executes device programming The control program reports a result of this action by messages in INFO window and LOG The menu command Device Device options Operation options of PG4UW allows to customize areas to be programmed and set other operation options Before programming procedure will be data stored in PC into internal storage disk of programmer transferred Progress of the buffer synchronization is in separate window shown Synchronization process can be canceled by pressing of key lt Esc gt or pressing window s exit button Device Erase This command executes device erase The control program reports a result of this action by messages in INFO window and LOG The menu command Device Device options Operation options of PG4UW allows to customize available operation options After Erase if device chip doesn t support erase verify command the blank check operation takes place to verify successfulness of Erase operation Device Tes
69. address range is set according to buffer range of selected device Selecting option Maintain last inserted values causes that for the next time you open this dialog previously confirmed values will be reloaded as default Buffer Copy block This command is used to copy specified block of data in current buffer on new address Target address needn t be out from source block addresses Buffer Move block This command is used to move specified block of data in current buffer on new address Target address needn t be out from source block addresses Source address block or part will be filled by topical blank character Selecting option Allow address history logging activates saving of recently confirmed values These are saved for each device separately count is limited to last 15 items SSS LL 71 Elnec s o Note Address history values are common for all buffer data manipulation dialogs Default address range is set according to buffer range of selected device Selecting option Maintain last inserted values causes that for the next time you open this dialog previously confirmed values will be reloaded as default Buffer Swap block This command swaps high and low order of byte pairs foursomes or nibbles inside bytes depending on swap mode selected by user Swap operation is performed on buffer block specified by Start and End addresses This block must start on even address and must have an even number o
70. al content toolbar button Play STAPL which replace all common operations icon program erase verify associated with non Jam programming device Operation program erase verify with Actel device consists of several following steps Loading the stp STAPLE file Load the appropriate STAPLE file generated for example by Actel design software LIBERO IDE clicking on main toolbar Load icon The STAPLE file contains the user data and programming algorithm required to program a design into a device Selecting an action After successful loading the STAPLE file select an intending operation action in Device operation options Alt O shortkey STAPL configuration STAPL configuration For device programming select PROGRAM from action list List of all the actions for the programming file with describe can be found in ACTEL FlashPro Users Guide on lt http www actel com gt Running an action Click Play STAPL button to run selected action Successful operation e g programming is terminated with printout Exit Code 0 Success to log window Converting PDB file to JAM STAPLE for ACTEL devices Actel PDB file is a proprietary file format that can be supported by Actel programmers only e g FlashPro programmer PG4UW control program can program Actel devices only with Jam STAPL file Therefore a file conversion between PDB and STAPL is necessary Converting PDB file to Jam STAPL file for ACTEL devices e in
71. alculation Addresses are used only when checkbox Enabled is checked Address is always defined as Byte address Group Exclude buffer block s from checksum calculation is useful for example for serialization Serialization usually modifies data at specified addresses in buffer So there is problem to check the checksum of buffer when data on some addresses were changed by serialization engine before each device programming If part of buffer data block used for serialization is excluded from checksum calculation the checksum of buffer data will not be changed by serialization data changes One or more excluded blocks can be specified Fields displaying values of calculated checksum types see description of types at the bottom Column marked as STRAIGHT is result of checksum calculation without additional adjustments Column marked as NEGATED is a negation of checksum so that SUM NEG FFFFH Column marked as SUPPLEMENT is complement of checksum so that SUM SUPPL 0 carry Insert checksum options box this box contains following options for Calculate amp insert operation elnsert checksum Kind of checksum that is written into the buffer when the Calculate amp insert operation was executed elnsert at address Address in buffer where a result of chosen checksum is written when the Calculate amp insert was executed Address can not be specified inside the range lt From address gt to lt To address gt Address is alw
72. alues directly included Serialization data are then read directly from serialization file to buffer on address specified in the file Classic From file mode is indicated in main window and info window of PG4UW control program on panel Serialization as From file serialization There are two user options Start label Start label defines the start label in input file Serial values from file start reading from defined start label File name File name option specifies the file name from which serial addresses and values will be read The input file for Classis From file serialization must have correct format Deo sn 87 Elnec s o File format Classic From file serialization input file has text format The file includes addresses and arrays of bytes defining buffer addresses and data to write to buffer Input file has text type format which structure is labelf addr byteO byte byten llabeln addr byte0 byte1 bytem addr byte0 byte1 bytek Ea basic part optional part Comment meaning is basic part Basic part defines buffer address and array of bytes to write to buffer Basic part must be always defined after label in line optional part Optional part defines the second array of bytes and buffer address to write to buffer One optional part can be defined after basic part of data label1 labeln labels Labels are identifiers for each line of input file They are used for addr
73. and some notes Note for projects with serialization turned on Serialization is read from project file by following procedure 1 Serialization settings from project are accepted 2 Additional serialization file search is performed If the file is found it will be read and serialization settings from the additional file will be accepted Additional serialization file is always associated to the specific project file When additional serialization file settings are accepted project serialization settings are ignored Name of additional serialization file is derived from project file name by adding extension sn to project file s name Additional serialization file is always placed to the directory serialization into the control program s directory 65 Elnec s r o Example Project file name my_work prj Control program s directory c Program Files Programmer The additional serialization file will be c Program Files Programmer serialization my_work prj sn Additional serialization file is created and refreshed after successful device program operation The only requirement for creating additional serialization file is load project with serialization turned on Command File Save project deletes additional serialization file if the file exists associated with currently saved project Enter job identification dialog The dialog will be showed when loading protected project files It contains two editable fields
74. arm and also allows keeping identical position of ZIF socket also after replacing of the module The programming modules are available for devices in PDIP PLCC JLCC SOIC SDIP SOP PSOP SSOP TSOP TSOPII TSSOP QFP PQFP TQFP VQFP QFN MLF SON BGA EBGA FBGA VFBGA UBGA FTBGA LAP CSP SCSP LQFP MQFP HVQFN QLP QIP and other packages 16 Q BeeHive304 Note orientation of ZIF socket and device reference pin are set with effort to achieve perfect functionality and ergonomic therefore may be different at different AP3 programming modules BeeHive304 programmer is designed as desktop programmer but it has special construction that is suitable for use in the automated programming systems Dimensions of the programmer are reduced to technical minimum for this features amp quality hardware in intent to minimize overhead of the handler s arm movement The construction is mechanically stable to be immune against vibration during operation The case of BeeHive304 is prepared to be fastened from top or from bottom of programmer body into automated programmer working place BeeHive304 can be implemented into automated programmer as a replacement of obsolete programmer for example or into some handler using more ways if one or two BeeHive304 programmers are enough to perform all jobs then it is enough to use one control PC for whole programming system for both machine control and also programmer software The BeeHive
75. arranty for BeeHive304 and BeeProg3 on parts and labor for the programmers limited to 500 insertion of programming module to programming module interface connectors This warranty terms are valid for customers who purchase a programmer directly from Elnec company The warranty conditions of Elnec sellers may be differ depending on the target country law system or Elnec sellers warranty policy Products configuration programmer external power supply internal power supply power cord USB cable AP3 diagnostic POD programming module fixating screw screw with washers for ground connection tie and tie mount for fixating cables CD with software and user manual Sticker register your programmer Sticker Elnec programmer inside leaflet Notes about ESD antistatic set vacuum handling tool kit transport case BeeHive304 o e o 1x A x w x M x BeeProg3 e le e e Before installing and using your programmer please carefully check that your package includes all next mentioned parts If you find any discrepancy with respective parts list and or if any of these items are damaged please contact your distributor immediately Elnec s r o PC requirements Minimal PC requirements 2 I 2x BeeHive304 2 a BeeHive304 in 7 4000 2000 space MB USB 2 0 high uu OS Windows BeeProg3 space MB USB 2 0 high 2x USB
76. ations when file modification is tested e switching to the control program from another application e selecting the device operation Verify or Program e when repeat of last device operation is selected in dialog Repeat 109 Elnec s r o Load file format allows setting mode of file format recognition for loading files When automatic file format is selected program analyses format of loading file and test file for each of supported formats that are available in program If file format matches one of supported formats the file is read to buffer in detected format Manual file format allows user to select explicitly wished file format from list of supported file formats File may be loaded no completely or incorrectly if file format does not match to user selected format Check box Show Load recent project dialog on program start sets the dialog to appear on application PG4UW start Dialog Load recent project contains list of recent projects project history User can quickly select and load any of the project from list or close the dialog without loading of project file File extensions File extensions page allows you to set file masks File format masks is used for setting file name masks to use as a filter for file listing in File Save and File Load file window for all file formats Mask must contain one of wildcards at least and must be applied correctly by syntax Note More masks can be specified for each
77. ault or customizable Custom Please select an installation mode with default or custom settings such as Program Destination Location Start Menu Folder Additional tasks by selecting Default or Custom option and pressing Next button Default Use default installation settings Custom Choose this only if you want to customize some installation settings For default setting you click on Next button Setup will be continuing with Step 6 For change default setting you click on Custom and then on Next button 44 Setup Step 5 Select Destination Location Where should Elnec PG4UW PG4UWMC be installed h Setup will install EInec PG4UW PG4UWMC into the following folder To continue click Next If you would like to select a different folder click Browse Atleast 168 1 MB of free disk space is required To change default folder click on Browse button select the destination folder Then click on Next button Step 6 Select Start Menu Folder Where should Setup place the program s shortcuts Setup will create the program s shortcuts the following Start Menu folder To continue click Next If you would like to select a different folder click Browse Browse To change default folder click on Browse button select the destination folder Then click on Next button 45 Elnec s r o Select Additio
78. ays defined as Byte address eSize Size of chosen checksum result which will be written into the buffer A size of inserted checksum may be Byte 8 bit Word 16 bit or DWORD 32 bit If size is smaller then selected checksum size only lower byte s of checksum value will be written into the buffer Note f Word size was selected a low byte of checksum value will be written on address specified in box Insert address and a high byte will be written on address incremented by one Similarly it is for DWORD Calculate button click on the button Calculate starts calculating checksums for selected block in buffer No writes into the buffer are executed Calculate amp insert button click on the button Calculate amp insert starts calculating checksums for selected block in the buffer and writes the chosen checksum into the buffer on address specified by Insert address This function is available for Byte Word CRC CCITT and CRC XMODEM checksums Close button closes dialog Checksum 1 These values aren t saved into project they are initialized to defaults with each new device selection 74 FL NEO PG4UW software Tab Main checksum options allow you to set mode of Automatic checksum calculator 2 e group Custom address range for main checksum e Enabled user defined addresses are used to calculate checksum of buffer data otherwise if Disabled global Buffer start and Buffer end address is used for calculation
79. between programmer and PC or other ground 2 connect programmer with Cat5e Ethernet cable to nearest network device switch hub or router 3 ensure that DHCP server in your network is configured 4 connect power supply to programmer Manipulation with the programmed device After selection of desired device for your work you can insert it into the open ZIF socket push the top of ZIF and close socket release the top of ZIF The correct orientation of the programmed device in ZIF socket is shown on the picture near the ZIF socket The programmed device is necessary to insert into the ZIF also to remove from the ZIF when LED BUSY light off Note Programmer s protection electronics protect the target device and the programmer itself against either short or long term power failures and partly also against a PC failure However it is not possible to grant the integrity of the target device due to incorrect user selected programming parameters Target device may be not destroyed by forced interruption of the control program reset or switch off PC by removing the physical connection to the programmer but the content of actually programmed cell may remains undefined Don t unplug the target device from the ZIF socket during work with devices LED BUSY shine Selftest and calibration check If you feel that your programmer does not perform according to your expectation please run the programmer Selftest without AP3 diagnostic POD or Selfte
80. buffer on the disk if exists saves current setting of recently selected devices to disk and returns back to the operation system Buffer Menu Buffer is used for buffer manipulation block operation filling a part of buffer with string erasing checksum and of course editing and viewing with other items find and replace string printing Buffer View Edit This command is used to view view mode or edit edit mode data in buffer for viewing in DUMP mode only Use arrow keys for select the object for edit Edited data are signified by color You can use F4 hot key also DE 68 TES PG4UW software View Edit Buffer This dialog is used to view view mode or edit edit mode data in buffer Use arrow keys for select data for edit The data in buffer outside of area where are located data for the selected chip are shown using gray background Following commands are available for editing buffer data Please note that not all commands are available for all situations It depends on selected device and buffer s used for device F1 F2 2 Ctri Shift F2 Shift F2 F3 Shift F3 F4 F5 F12 Arrow keys Home End PgUp PgDn display help of actual window fill block causes filling selected block of buffer by requested hex or ASCII string Sets start and end block for filling and requested hex or ASCII string erase buffer with specified blank
81. c establishing communication is selected then control program sets a maximal communication speed Port selects a port which will be scanned for a requested programmer If All port is selected the control program scans all ports which are available on standard addresses If LAN port is selected as required port for connection additional options are available It is possible to input the IP address of desired programmer or scanning network for available programmers Automatic scan process will obtain network s properties at first If multiple networks are present it is possible to select which network should be scanned for programmers Scanning of programmers will be started by hitting button Find E 105 Elnec s r o Select programmer use Programmers available over the LAN IP 192 168 0 174 BeeProg3 S N 1200 00015 IP 192 168 0 202 BeeProg3 S N 1200 00002 IP 192 168 0 198 BeeProg3 S N 1200 00010 IP 192 168 0 149 BeeProg3 S N 1200 00012 After the scanning process will be the table of available programmers shown Only inactive programmers are present in the table For connection with desired programmer select programmer in table and press button Connect For visually different programmers press button Show me The selected programmer will blink all LEDs for several seconds Pressing key lt Enter gt or button OK initiates scanning for programmer by set parameters There is
82. ciated file name in file name box put a full pathname The control program checks the present of this file on the disk Also is possible enabling or disabling automatic load of this file You can save both settings i e associated file and enabling of automatic load of this file to disk by command File Exit and save 96 LE PG4UW software Device Device options Special options The special terms used here are exactly the terms used by manufacturer of respective chip Please read the documentation to the chip you want to program for explanation of all used terms If the name of this menu item is starting by View Edit then the Read device command will read the content of the chip configuration and it can be viewed and edited by this menu command Device Blank check This command executes device blank check The control program reports a result of this action by messages in INFO window and LOG The menu command Device Device options Operation options of PG4UW allows to customize available operation options Device Read This command allows reading all device or its part into the buffer The read procedure can also read the content of the chip configuration if it exists and is readable The special device configuration areas can be viewed or edited in dialogs available by menu View Edit buffer and menu Device Device options Special options Alt S The control program reports a finish of Read action by wr
83. cksum value in main program window Term Little Endian means the buffer checksum is calculated from words read from buffer in Little Endian mode Word sum Big Endian x16 Buffer data are summed word by word irrespective of current buffer view mode organization Any carry bits exceeding 32 bits are neglected This checksum mode is indicated by string x16 BE displayed after checksum value in main program window Term Big Endian means the buffer checksum is calculated from words read from buffer in Big Endian mode CRC CCITT Buffer data are summed by bytes to Word using polynomial 16 12 5 1 0x1021 init value 0 and out 0 reflexions in out are off CRC XMODEM Buffer data are summed by bytes to Word using polynomial x 16 x 15 x 2 1 0x8005 init value 0 CRC 16 75 cond Elnec s r o Buffer data are summed by bytes to sum by bytes to WORD using standard CRC 16 algorithm with polynomial x 16 x 15 x 2 1 0x8005 init value 0 and out 0 CRC 32 Buffer data are summed by bytes to DWORD using standard CRC 32 algorithm with polynomial 0x04C11DB7 init value OXFFFFFFFF and out OXFFFFFFFF MD5 an MD5 hash expressed as a sequence of 32 hexadecimal digits 128 bits SHA 1 Secure Hash Standard expressed as a sequence of 40 hexadecimal digits 160 bits Checksum forms Straight checksum without additional adjustments Negated negation of checksum so that SUM NEG FFFFH Supplement is comp
84. computer memory Big endian is an order in which the big end most significant value in the sequence is stored first at the lowest storage address Little endian is an order in which the little end least significant value in the sequence is stored first For example in a big endian computer the two bytes required for the hexadecimal number 4F52 would be stored as 4F52H in storage address 1000H as 4FH is stored at storage address 1000H and 52H will be at address 1001H In a little endian system it would be stored as 524FH 52H at address 1000H and 4FH at address 1001H Number 4F52H is stored in memory Address big endian system _ little endian system 1000H 4FH 52H 1001H 52H 4FH Add blank spare area for NAND Flash devices if checked adds blank spare area data during file load to relevant position in buffer dependent on selected device Panel Buffer offset for loading Panel Buffer offset for loading contains one shot offset setting for loading data from file to buffer The setting is used to specify optional offset of loaded data to store to buffer When Load file dialog window is opened offset has always default setting None It means that no offset is used to store read data in buffer Available offset options are None this setting means no offset is applied for loading data from file to buffer Positive offset set of offset value which is added to current address to store data to buffer This offset is available f
85. controller This number can be used as an entry code password or ID number Serialization is done by using a series of RETLW Return Literal W instructions with the serial number bytes as the literal data To serialize you can use Incremental mode serialization or From file mode serialization Incremental serialization offers serial number Split function Serial number split allows usage of incremental numbers separated into even or odd bytes and between each byte of serial number RETLW instruction code is inserted From file serialization is using proprietary serial numbers file This file can consist of various serial numbers The numbers can have format suitable for SQTP that means number RETLW b1 RETLW b2 and so on Note that PG4UW serial file format is not compatible with SQTP serial file generated by Microchip MPLAB Example 2a Use of serialization split with RETLW instructions for Microchip PIC16F628 devices Device PIC16F628 has 14 bit wide instruction word Instruction RETLW has 14 Bit Opcode Description MSB 14 Bit word LSB RETLW Return with literalinW 11 O1xx where xx can be replaced by 00 and k are data bits i e serial number byte Opcode of RETLW instruction is hexadecimal 34KKH where KK is data Byte serial number byte Let s assume we want to write serial number 1234ABCDH as part of four RETLW instructions to device PIC The highest Byte of serial number is the most significant Byte We want to
86. d other general information about current device too Select device Only selected manufacturer This window allows selecting the desired device type by manufacturer First select a required manufacturer in Manufacturer box using mouse or cursor keys It will cause a list of selected manufacturer devices will be displayed Device can be select by double click on a line from list with desired manufacturer name and device number or by entering device number in a search box use a key lt Space gt as a separation character and press lt Enter gt or click OK button Press a key lt Esc gt or click Cancel button at any time to cancel device selection without affecting the currently selected device Selected device is automatically saved to buffer of default devices This buffer is accessible with Device Select from default devices command If you wish display additional information about the current device use button Device info or an lt Ctrl F1 gt key This command provides a size of device organization programming algorithm and a list of programmers including auxiliary modules that supported this device You can find here package information and other general information about current device too Device Select EPROM Flash by ID Use this command for auto select an EPROM or Flash as active device by reading the device ID The programmer can automatically identify certain devices by the reading the manufacturer and the device
87. dard part of all versions of Windows User can define any text editor for example wordpad exe which is able to work with large text files In user defined text editor user can print or save to file selected block of buffer The external editor path and name is saved automatically to disk Find dialog box Enter the search string to Find to text input box and choose lt Find gt to begin the search or choose lt Cancel gt to forget it Direction box specifies which way you want to search starting from the current cursor position In edit mode Forward from the current position or start of buffer to the end of the buffer is the default Backward searches toward the beginning In view mode searches all buffer Origin specifies where the search should start Find amp Replace dialog box Enter the search string in the Text to find string input box and enter the replacement string in the Replace with input box In Options box you can select prompt on replace if program finds instance you will be asked before program change it Origin specifies where the search should start Direction box specifies which way you want to search starting from the current cursor position In edit mode Forward from the current position or start of buffer to the end of the buffer is the default Backward searches toward the beginning In view mode searches all buffer Press lt Esc gt or click Cancel button to close dialog window bxw rs n rr mOasa
88. e located in this submenu too File Load Analyzes file format and loads the data from specified file to the buffer You can choose the format desired binary MOTOROLA MOS Technology Tektronix Intel extended HEX ASCII space JEDEC and POF The control program stores a last valid mask for file listing You can save the mask into the configuration file by command Options Save options The reserved key lt F3 gt will bring out this menu from any menu and any time 61 Elnec s r o File formats description ASCII HEX format Each data byte is represented as 2 hexadecimal characters and is separated by white space from all other data bytes The address for data bytes is set by using a sequence of Annnn characters where nnnn is the 4 hex characters of the address The comma is required Although each data byte has an address most are implied Data bytes are addressed sequentially unless an explicit address is included in the data stream Implicitly the file starts an address 0 if no address is set before the first data byte The file begins with a STX Control B character 0x02 and ends with an ETX Control C character 0x03 Note The checksum field consists of 4 hex characters between the S and comma characters The checksum immediately follows an end code Here is an example of ASCII HEX file It contains the data Hello World to be loaded at address 0x1000 AB A1000 48 65 6C 6C 6F 2C 20 57 6F 72 6C 64 0A
89. e options before device operation Choose this command to enable disable display of Device options before device operation is confirmed Options Protected mode Protected mode is special mode of program When program is in Protected mode there are disabled certain program operation and commands that can modify buffer or device settings Protected mode is used for prevent operator from modify buffer or device settings due to insignificance Protected mode is suitable for the programming of a large amount of the same type of devices Protected mode function is available independently in single programming control software PG4UW and in multiprogramming control software PG4UWMC Protected mode in PG4UW There are two ways how to switch program to Protected mode 1 by using menu command Options Protected mode This command displays password dialog User has to enter password twice to confirm the password is correct After password confirmation program switches to Protected mode The entered password is then used to switch off Protected mode 2 by reading project that was previously saved in Protected mode For details see File Save project Checkbox Keep Load project operation allowed is set to inactive state by default it means the Load project operation button and menu will be disabled when Protected mode is active If the option is enabled checked the Load project operation button and menu will be allowed in Protected mode
90. e the device start and device end addresses Address must be correctly specified so the last highest or lowest byte of serial value must be inside device start and device end address range Start value Start value option specifies the initial value from which serialization will start Generally the max value for serialization is 1FFFFFFF in 32 bit long word When the actual serial value exceeds maximum value three most significant bits of serial number are set to zero After this action the number is always inside 0 1FFFFFFF interval this is basic style of overflow handling Step Step options specify the increment step of serial value incrementation S N mode S N mode option defines the form in which serial value has to be written to buffer Two options are available e ASCII e Bin ASCII means the serial number is written to buffer as ASCII string For example number 0528CD is in ASCII mode written to buffer as 30h 35h 32h 38h 43h 44h 0 5 2 8 D i e six bytes Bin means the serial number is written directly to buffer If the serial number has more than one byte length it can be written in one of two possible byte orders The byte order can be changed in Save to buffer item Style Style option defines serial number base There are two options Decimal e Hexadecimal Decimal numbers are entered and displayed using the characters 0 through 9 Hexadecimal numbers also use charact
91. e208S BeeHive8S BeeHive204 BeeHive204AP BeeHive204AP AU BeeHive4 r BeeHive4 BeeProg2 BeeProg2C BeeProg2AP BeeProg BeeProg _ Programmers group ProgrammersGroup1 E Install LPT port driver required for programmers connected via parallel LPT port iss e Goa M 4 Installation procedure with checked Installation of PG4UWMC Network Agent and selected name of Programmers group This way should PG4UW be installed on each computer on network which is considered to work in Programmers group Each computer in Programmers group must have PG4UWMC Network Agent running in background If PG4UWMC Network Agent is not running after installation please run it from Start menu All Programs f PG4UWMC Network Agent 2 99nw01 08 2013 Main Options Network card s PG4UWMC Network Agent activity log Programmers group ProgrammersGroup1 10001 Welcome to PG4UWMC Network Agent version 2 99nw01 08 2013 10002 10003 Loading configuration done 10004 10005 gt gt 02 08 2013 13 19 24 E 10006 Network card s detected L0007 Local Area Connection 10008 Description Realtek RTL8168C P 8111C P Family PCI E Gigabit Ethernet NDIS 6 20 10009 Physical Address MAC 1F D0 9A 47 C1 00 L0010 DHCP Enabled 0 L0011 IP 192 168 0 21 Mask 255 255 255 0 L0012 Gateway 192 168 0 138 L0013 VirtualBox Host Only Network L0014 Description VirtualBox Host O
92. ebpack or Foundation software generates STAPL file or SVF file for use by utility SVF2Jam Actel Actel Libero Integrated Design Environment IDE generates STAPLE file and or PDB file Actel FlashPro converts a PDB file to STAPLE file JAM player dialog Jam Player Action Variables Identifier Optional Recommended DO ERASE DO BLANKCHECK DO PROGRAM DO VERIFY DO READ UES C DO READ USERCODE DO SECURE E DO SECURE ALL OK Cancel Information Help Device according to Jam file EPM70644E Jam Player version 1 see Action and Variables controls 100 m PG4UW software Jam Player Action v Procedures Identifier Optional Recommended C DO BLANK CHECK v DO VERIFY C DO SECURE C DO LOw TEMP PROGRAMMING C DO DISABLE ISP CLAMP C DO READ USERCODE Device according to Jam file EPM7064AE Jam Player version 2 see Action and Procedures controls Action Select desired action for executing Jam file of version 2 consists of actions Action consists of calling of procedures which are executed Jam file of version 1 does not know statements action and procedure therefore choice Action is not accessible Program flow starts to run instructions according to boolean variables with prefix DO_something If you need some new boolean variables with prefix DO something then contact us Procedure
93. ed Top TSOP56 ZIF 18 4mm ord no 70 1263 c BeeHive304 with adapter module AP3 TSOP56 18 4mm NOR 4 ord no 73 3122 55 BeeHive204 with adapter module DIL48 TSOP56 ZIF 18 4mm NOR 4 ord no 70 3077 or Bottom TSOP56 NOR 4 discontinued Top TSOP56 ZIF 18 4mm ord no 70 1263 BeeHive204AP with adapter module API TSAPRA ZTP 18 Amm NORA mo 71 1907 General Info The Extended Memory Block is in buffer stored at addresses from 1000000h to 100007Fh It can be programmed factory or by the customer This area is one time programmable default the d ce is in Non Volatile Protection configured The Protection can be changed to Z Se The reserved key lt Ctrl F1 gt will bring out this menu from any menu and any time immediately Programmer Menu Programmer includes commands used for work with programmers Programmer Find programmer This item selects a new type of programmer and communication parameters This command contains following items Programmer sets a new type of programmer for find If a Search all is selected the control program finds all supported programmers Establish communication allows manual or automatic establishing communication for a new programmer Speed sets speed if a manual establishing communication is selected which PC sends data into the programmer Speed is expressed as a percent from a maximal speed If automati
94. ed formats the binary file format is assumed When the check box Automatic file format recognition is unchecked program allows user to manually select wished file format from list of available file formats on panel Selected file R s c m c 62 FL NEO PG4UW software format Default set is from Options General options in panel Load file format at tab File options Note Program is not able to recognize files in ASCII Hex format automatically it recognizes them as binary So download files in ASCII Hex format with disabled option for automatic file format recognition Panel Additional operation Checking the check box Erase buffer before loading tells the program to erase all buffer data using entered Erase value Buffer erase is performed immediately before reading file content to buffer and it is functional for binary and all HEX file formats Using this one shot setting disables current setting of Erase buffer before loading option in menu Options General options at tab Hex file options If the checkbox Swap bytes is displayed the user can activate function of swapping bytes within 16bit words or 2 byte words during reading of file This feature is useful especially when loading files with Motorola representation of byte order in file big endian Standard load file is using little endian byte order Note Big endian and little endian are terms that describe the order in which a sequence of bytes are stored in
95. ed so that the program will not detects incorrectly inserted device This interval is in seconds and must be from 1 to 120 default value is 5 seconds The Suspend on error defines if the Automatic YES function will be temporary disabled on error to see result of operation or will going on without suspension The options are set to defaults after new device is selected by Device Select device This setting is saved to disk by command Options Save options and could be saved into the project file for selected device File Save project Note When using device socket adapters with some passive or active parts for example capacitors for bypassing supply voltage the Automatic YES function may need to set these pins to Pins with capacitors list This is necessary to make Automatic YES function working properly Otherwise Automatic YES function will think the pins are still connected and it will not allow user to insert new device and start new programming Quam P F O 108 LE PG4UW software Programmer Selftest Command executes a Selftest of current programmer without AP3 diagnostic POD We strongly recommend execute also Programmer Selftest plus of programmer because Selftest procedure without AP3 diagnostic POD is not able to check whole programmer and to discover if exist some special errors Programmer Selftest plus Command executes a Selftest plus of current programmer using AP3 diagno
96. eeProg3 programmer core is based on a state of the art FPGA powerful ARM processor and internal SSD to be ready to program devices at theoretically possible speeds The achieved ultra fast programming speed more than 22 5 MB s continuously is actually higher than real devices supported so far can utilize This is reflected in extremely short programming times For example the 2 GB eMMC NAND Flash could be done in less than 100 sec if programmed memory allow that speed Tests show the BeeProg3 is currently faster than all competitors in this price category status 10 2014 for many chips it the fastest at all BeeProg3 supports all kinds of types and silicon technologies of today s and tomorrow s programmable devices It partially supports also devices from yesterday You can be sure that the next devices support will require the software update only at the most if necessary simple programming module therefore the cost of ownership is minimized You have a freedom to choose the optimal device for your design For the proper and reliable programming of ultra fast memories the BeeProg3 utilizes specialized modules optimally designed for specific device families exactly according to the needs of programmed devices But if it is possible then universal programming modules dedicated for IC package type are used The programming modules are identical for all programmers based on the BeeProg3 programming core BeeHive304 for example P
97. en PG4UWMC Settings dialog Settings dialog is described below Panels Site 1 Site 2 Panels are used to inform about e Programmer Site selected e Programmer Site activity e current device operation status and or result Each panel also contains button Run or button YES used to start device operation Box Statistics Box Statistics informs about number of programmed devices and number of good and failed devices Note Reset statistics button is disabled until any action is running on sites To stop action on sites press button Stop All Checksum Checksum is showing simple checksum of data loaded from current project file Panel Status window Panel Status window informs about current state of each Site State can be Blank Site is no active Ready Site is active and ready to work Programmer is connected No device operation is running and other information currently running device operation result programmer connection state and so on Log window on the right side of Status window Log window contains information about connecting disconnecting programmers device operation results and other information Button Connect programmers Button is used to connect all selected Programmer Sites This button is usually used as the first step after starting PG4UW MC Button Disconnect programmers Button is used to disconnect all connected Programmer Sites and close Programmer Sites control programs The button will apply only i
98. er and the Del key isn t accepted Device Select device This window allows selecting the desired type of the device from all devices supported by current programmer It is possible to choose device by name by type or by manufacturer ia _ p 76 lt EE PG4UW software Note 1 The names of the programmable devices in software don t contain all characters shown at the top of the chip or mentioned in the datasheet section part numbering The names contain all characters necessary to identification of the device but don t contain such codes that have none influence to the programming for example temperature code speed code packing type code etc If such code letter is at the end of the name is omitted if such code letter is in the middle of name then is replaced by character Examples e Devices Am27C 512 150 Am27C 512 200 and Am27C512 250 are shown in the software only once as Am27C512 e S29GL064N11TF1010 device is shown in the software as S29GLO64NxxTxx01 Note 2 f some device is listed twice and the second time with suffix x16 it means that programming algorithm provides faster word mode Selected device is automatically saved to buffer of default devices This buffer is accessible with Device Select from default devices command In the Search mask field you can enter mask for filtering of whole device list by device name manufacturer and or programming adapter names The space as delimiter of fil
99. ers A through F 82 LE PG4UW software The special case is Binary Dec which means BCD number style BCD means the decimal number is stored in hexadecimal number i e each nibble must have value from 0 to 9 Values A to F are not allowed as nibbles of BCD numbers Select the base in Style options before entering numbers of serial start value and step Save to buffer Save to buffer option specifies the serial value byte order to write to buffer This option is used for Bin S N mode for ASCII mode it has no effect Two options are available e LSByte first used by Intel processors will place the Least Significant Byte of serial number to the lowest address in buffer e MSByte first used by Motorola processors will place the Most Significant Byte first to the lowest address in buffer Split serial number The option allows dividing serial number into individual bytes and placing the bytes at each N address of buffer This feature is particularly useful for SQTP serialization mode for Microchip PIC devices when the device serial number can be the part of program memory as group of RETLW or NOP instructions For more information see Example 2 shown in Examples section below Following split options are available e Check box Split serial number turns on off split function e Split gap specifies number of bytes placed between split serial number fragments e SIN fragment size serial number is split into fragments w
100. ers Atmel AVR 8bit 16bit 905 AT90pwm AT90can AT90usb ATtiny ATmega ATxmega series e Microcontrollers Atmel AVR32 AT32UC3xxxx ATUCxxxD3 D4 L3U L4U series e Microcontrollers TI Chipcon CC 11xx CC24xx CC25xx CC85xx series e Microcontrollers Coreriver Atom 1 0 MIDAS1 0 1 1 2 0 2 1 2 2 3 0 series e Microcontrollers Cypress CY7Cxxxxx CY8Cxxxxx e Microcontrollers ELAN EM78Pxxx e Microcontrollers EPSON S1C 17 series e Microcontrollers Explore Microelectronic 1 EPFO2x series e Microcontrollers Generalplus GPM8Fxxx series e Microcontrollers GreenPeak GPxxx series e Microcontrollers Infineon Siemens XC800 C500 XC 166 C166 series e Microcontrollers MDT 1xxx and 2xxx series e Microcontrollers Megawin MG87xxx MPC82xxx series e Microcontrollers Microchip PlCmicro PIC10xxx PIC12xxx PIC16xxx PIC17Cxxx PIC18xxx PIC24xxx dsPIC PIC32xxx series e Microcontrollers Motorola Freescale HC05 HC08 HC11 HC12 HCS08 RS08 S12 S12X MC56F MCF51 MCF52 series Kinetis K L Qorivva 5xxx Power Architecture e Microcontrollers Myson MTV2xx 3xx 4xx 5xx CS89xx series e Microcontrollers National COP8xxx series e Microcontrollers NEC uPD70F xxx UPD78F xxx series e Microcontrollers Novatek NT68xxx series 38 EE BeeProg3 e Microcontrollers Nordic Semiconductor nRF24LExxx nRF24LUxxx nRF315xx nRF51xxx Flash and OTP series e Microcontrollers Nuvoton ARM Cortex Mx NUC1xx M05x
101. es warning message about ID error to LOG window If enabled the programmer checks the electronic ID of the programmed chip Note 1 Some old chips don t carry electronic ID Note 2 n some special cases several microcontrollers don t provide ID if copy protection feature in the chip is set even if device ID check setting in control program is set to Enable group Command execution blank check before programming erase before programming verify after reading verify verify options default DISABLE default DISABLE default ENABLE ONCE TWICE nominal VCC 5 nominal VCC 10 VCCmin VCCmax 80 LE PG4UW software group Programming parameters This group is available for some types of devices It contains settings of which device parts or areas have to be programmed group Erase parameters This group is available for some types of devices It contains special settings of erase modes of selected device Device Device options Serialization Serialization is special mode of program When a serialization mode is activated a specified value is automatically inserted on predefined address into buffer before programming each device When more devices are programmed one by one the serial number value is changed for each device automatically and inserted into buffer before programming device so each device has unique serial number There are three types of serialization e Incremental mode e From f
102. essing each line of file The labels should be unique Addressing lines of file means the required start label entered by user defines line in input file from which serial values reading starts addr Addr defines buffer address to write data following the address byte0 byten byteO bytem byteO bytek Bytes arrays byteO byten byte0 bytem and byteO bytek are defining data which are assigned to write to buffer Maximum count of bytes in one data field following the address is 64 bytes Data bytes are written to buffer from address addr to The process of writing particular bytes to buffer is byteO to addr byte to addr 1 byte2 to addr 2 byten to addr n Optional part is delimited from the first data part by character comma and its structure is the same as in the first data part i e address and following array of data bytes Characters with special use labels must be defined inside square brackets character which delimiters basic part and optional part of data SSS H 88 LE PG4UW software 7 the semicolon character means the beginning of a comment All characters from to the end of line are ignored Comment can be on individual line or in the end of definition line Note Label names can contain all characters except and T The label names are analyzed as non case sensitive i e character a is same as A b is same as B etc e All address
103. f bytes If the conditions do not fulfill the program modifies addresses itself start address is moved on lower even address and or end address is moved on higher odd address Following swap modes are available user can select from 1 Swap 2 bytes inside 16 bit words swap of byte pairs inside 16 bit words 2 Swap 4 bytes inside 32 bit words swap of byte foursomes inside 32 bit words 3 Swap nibbles inside bytes swap of high and low nibbles inside each byte 4 Mirror bits inside bytes mirror bits inside each byte Examples of swap operation in buffer Swap bytes operation from Start address 0 to End address N modifies data in buffer by following tables Original Swap 2 bytes Swap 4 bytes Swap Mirror bits Address Data inside 16 bit inside 32 bit nibbles inside words words inside bytes bytes 0000h bO b1 b3 bOn bom 0001h b1 bO b2 bin bim 0002h b2 b3 b1 b2n b2m 0003h b3 b2 bO b3n b3m 0004h b4 b5 b7 b4n b4m 0005h b5 b4 b6 b5n b5m 0006h b6 b7 b5 b6n b6m 0007h b7 b6 b4 b7n b7m bO b1 b2 means original buffer byte values from addresses 0 1 2 b0n b1n b2n means nibble swapped original bytes b0 b1 b2 by following rules Original Byte bits 7 bit6 bitS bit4 bit3 bit2 bit1 bit 0 Nibble swapped Byte Bits bit3 bit2 bit1 bitO 6 bit5 bit4 Original Byte bits 7 bit6 bitS bit4 bit2 bit1 Mirrored Byte Bits bitO bit1 bit2 bits bit4 bit5 Selecting
104. f no device operation is currently running on any connected programmer Button Run operation Button is used to start device operations on all connected programmers at the same time The value of operation can be one of following types Program Verify Blank check Erase 126 Button Stop ALL Button is used to stop currently running device operations on all connected Programmer Sites Button Help Button is used to display this help Button Start remote control of programmer s The button is available for automated programmers only and if in PG4UWMC Settings dialog Multiprogramming Project options is checked Use Site 1 project for all Sites It is used to start remote control of PG4UWMC interface The programmer in button caption is replaced by name of recently used connected programmer Option activates modules detection according to loaded projects on sites PG4UWMC Settings dialog PGAUWMC Settings read only mode xm Multiprogramming Log file Job Report Sounds Automatic YES Other Elnec multiprogramming system Site S N Site name Project file Device in project file BeeHive304 S N 3004 00001 1 3078 00001 BeeHive304 Site One common project file is used for all Site 12 3078 00002 BeeHive304 Site 3 3078 00003 BeeHive304 Site 4 3078 00004 BeeHive304 Site Startup options Project options Auto connect Sites Use one Project file _E MX29GL128EH eprj Force gang multipr
105. f today s and tomorrow s advanced very low voltage devices Extremely fast programming achieved by using FPGA based state machine fast processor and SSD allow execution of all time critical routines and data transfers inside of the programmer The programmer performs a device insertion test wrong or backward position and contact check poor contact pindriver to socket before it programs each device These capabilities supported by overcurrent protection and signature byte check help prevent chip damage due to operator error The selftest capability allows running the diagnostic part of software to thoroughly check the health of the programmer Built in protection circuits eliminate damage of programmer and or programmed device due to environment or operator failure All the inputs of the BeeProg3 programmer including the pindriver signals connection to and power supply input are protected against ESD up to 15kV Banana jack for ESD wrist straps connection to easy to implement the ESD protection control The programming modules are available for devices in PDIP PLCC JLCC SOIC SDIP SOP PSOP SSOP TSOP TSOPII TSSOP QFP PQFP TQFP VQFP QFN MLF SON BGA EBGA FBGA VFBGA UBGA FTBGA LAP CSP SCSP LQFP MQFP HVQFN QLP QIP and other packages Note orientation of ZIF socket and device reference pin are set with effort to achieve perfect functionality and ergonomic therefore may be different at different AP
106. ff the programmed device then put new device into ZIF socket and a last operation will be repeated automatically Program automatically detects an insertion of a new device and runs last executed operation without pressing any key or button An insertion of device into ZIF is displayed on the screen Repeated operation executing will be cancelled by pressing key lt ESC gt during waiting for insert remove a device to from ZIF After an operation with a device is executed one of the OK or ERROR status LEDs on the programmer will lights in dependence on the result of an operation and the BUSY LED will blinking ia F 107 Elnec s o If the program detects removal of a device then status LED will switched off but the BUSY LED will still blinking to indicate readiness of the program to repeat last operation with new device After the program indicates one or more pins of new device in the ZIF socket the BUSY LED will goes to light continually From this the program will wait a requested time for insert the rest pins of new device If a requested time Device insertion complete time overflows and a device is not correctly inserted the program will light the ERROR LED to indicate this state After new device was inserted correctly the program will switch off all status LEDs except BUSY and will start an operation with new device This mode may be enabled or disabled by item Automatic YES mode If a new programmer is selected Op
107. file format Semicolon is used as delimiter for extensions Example Motorola 519 Defines two file masks MOT and 519 for Motorola file format Project file default extension is used for setting project files extension used as default extension in File Load project and File Save project dialogs Buffer This page allows you to select Erase buffer before selecting of new device action This can be useful for some kind of special devices which require exact type of data at certain addresses and the data are not part of data file loaded to buffer for this device Buffer can be erased filled with default blank value for selected device or with custom defined value This can be controlled by selection group box Erase value and Custom erase value edit field Notes We do not recommend using this function for large devices more than 8 MB because it can consume more time to make buffer erase The setting is saved to PG4UW configuration file It is not saved to project file Language This page allows you to select another language for user interface such as menu buttons dialogs information and messages It also allows selecting wished help file in another language For another language support of user interface the language definition file is required Sound Panel Sound settings page allows user to select the sound mode of program Program generates sounds after some activities e g activities on device program
108. fix before date information you can specify the log file name as lt log_file_extension gt dot is the first in file name Example User specifies Log file name c logs log The final log file name with added date will look like this have a date November 7th 2006 c logs 2006 nov 07 log Advanced options about Log file size limit are available too e option Use Log file text truncating when file size limit is reached when checked the Log file size limit is on It means that when Log file size reaches specified value the part of text included in Log file will be truncated When the option is unchecked the size of Log file is unlimited respectively is limited by free disk space only e option Maximum Log file size specifies the maximum size of Log file in kB e option Amount of truncated text specifies the percentage of Log file text which will be truncated after Maximum Log file size is reached The higher value means more text will be truncated removed from Log file Note Lines starting with are shown in the log file but not in the log at screen to keep better overview of the on screen log Common information Index of Programmer Site is integer number from 1 to 8 which defines unambiguously each running Programmer Site Serial number of Programmer Site defines unambiguously the programmer or programmer site used Instance will search all programmers connected on USB Bus until it finds programmer site with desired
109. for its integrity If successful program displays a standard user menu and waits for your instructions If the control program cannot communicate with the programmer an error message appears on the screen including error code and description of possible reasons disconnected programmer bad connection power supply failure incompatible port Eliminate the error source and press any key If error condition still exists the program resumes its operation in the demo mode and access to the programmer is not possible If you cannot find the cause of the error follow the instructions in Troubleshooting section In addition the control program checks communication with programmer prior to any operation with the programmed device Buffer synchronization for programmer with internal data disk Buffer synchronization operation is automatically performed for advanced programmers with internal data disk in following situations e before the first device operation e after device read operation e after selecting new device e after loading project e after re finding of programmer in PG4UW control program Buffer synchronization copies required data for device from PC host computer running PG4UW buffer to internal programmer disk or from programmer disk to PC after device reading This feature significantly increases performance of device operations Program Verify because no data are transferred during device operations whole WR ssrTrIr
110. ge of existing Multi project file has following order For single programming in PG4UW e Load created Multi project by File Load project menu command in PG4UW main window or Load multi prj button in Multi project Wizard After successful loading of Multi project Multi project Wizard is opened automatically e In Wizard run wished device operation using one of available device operation buttons Blank Verify Program Erase mostly Program device operation is used Selected device operation is executed as sequence of sub project loading and consequent sub device programming for each sub device defined in Multi project And this is main purpose of Multi project to automate running sequence of device operations for each chip of multichip device The side effect of this concept is that device progress indicators vmqyTs 120 LE C PG4UW software are reset to 0 at beginning of each sub device operation so it looks like progress bar is jumping to 0 few times while multichip operation is running After programming of all sub devices is completed or error occurs standard Repeat dialog is displayed Programmed device can be removed from programmer socket and new device can be inserted Pressing Yes button in dialog Repeat or YES button on programmer will start multichip device programming sequence again f Automatic YES function is turned on no Repeat dialog is dis
111. gt key This command provides a size of device organization programming algorithm and a list of programmers including auxiliary modules which supported this device You can find here package information and other general information about current device too 77 Elnec s o Select device Only selected type This window allows selecting the desired type of the device At the first you must select a device type e g EPROM and device subtype e g 64Kx8 27512 using mouse or cursor keys It will cause a list of manufacturers and devices will be displayed Device can be select by double click on a line from list with desired manufacturer name and device number or by entering manufacturer name and or device number in a search box use a key lt Space gt as a separation character and press lt Enter gt or click OK button Press a key lt Esc gt or click Cancel button at any time to cancel device selection without affecting the currently selected device Selected device is automatically saved to buffer of default devices This buffer is accessible with Device Select from default devices command If you wish display additional information about the current device use button Device info or an lt Ctrl F1 gt key This command provides a size of device organization programming algorithm and a list of programmers including auxiliary modules that supported this device You can find here package information an
112. h a device only one of the status LEDs Error or OK lights in dependence on the result of previous operation This LED goes off immediately after detecting removal of a device from the ZIF socket By LED Busy blinking the programmer regardless of the number of ZIF indicates the state when a device is programmed and the programmer with software wait for inserting a new device mode by blinking with the LED Busy After an operation with a device is done one of the status LEDs OK or Error lights in dependence on the result of previous operation and the LED Busy is blinking If the program detects removal of a device from ZIF socket then the status LED goes off but the LED Busy is still blinking to indicate readiness of the program to repeat last operation with new device After the program indicates one or more pins of new device in the ZIF socket the LED Busy goes light continually From this point the program waits a requested time for insertion of the rest pins of new device If a requested time Device insertion complete time overflows and a device is not correctly inserted the program will light the LED Error to indicate this state When new device is inserted correctly the status LED goes off and a new operation with device is started Save options Page allows you to select the program options saving when exiting program Three options are available here Don t save don t save options during quitting program and don t ask for saving
113. he programmed device After selection of desired device for your work you can insert it into the open ZIF socket push the top of ZIF and close socket release the top of ZIF The correct orientation of the programmed device in ZIF socket is shown on the picture near the ZIF socket The programmed device is necessary to insert into the ZIF also to remove from the ZIF when LED BUSY light off 34 BeeProg3 Note Programmer s protection electronics protect the target device and the programmer itself against either short or long term power failures and partly also against a PC failure However it is not possible to grant the integrity of the target device due to incorrect user selected programming parameters Target device may be not destroyed by forced interruption of the control program reset or switch off PC by removing the physical connection to the programmer but the content of actually programmed cell may remains undefined Don t unplug the target device from the ZIF socket during work with devices LED BUSY shine Multiprogramming by BeeProg3 During installation of PG4UW at Select Additional Tasks window you check if it is allowed to install BeeProg3 multiprogramming control support For start of BeeProg3 multiprogramming is necessary run special control program pg4uwmc exe At this program user assign BeeProg3 to control programs may load projects for all BeeProg3 and run PG4UW for every connected and assigned BeeProg3
114. i exe 6 3 02i pc exe 315MB or so run Xilinx ISE 6 Accessories IiMPACT in dialog Operation Mod Selection What do you want to do first choose Prepare Configuration Files in dialog Prepare Configuration Files want create a choose Boundary Scan File in dialog Prepare Boundary Scan File want create a choose STAPL File in dialog Create a New STAPL File write name of Jam file with extension stapl in dialog Add Device select JED file with extension jed in the created jtag chain select device e g XC2C32A left mouse button and select Sequence operation e g Erase Blank Program Verify right mouse button in menu select item Output Stapl file Stop writing to Stapl file ip b F i 102 LE PG4UW software run PG4UW select device e g Xilinx XC2x32A QFG32 Jam load Jam file Files of type select STAPL File e choose Device operation option Alt O press button Jam configuration Warning Select device from menu Select Devices and Jam file is probably different Continue choose Yes Xilinx sw does not include line NOTE DEVICE XC2x32A in Jam file In dialog Jam player select action and procedures finish dialogs press button Play Jam from toolbar and read Log window Information about ACTEL device programming using STAPLE file Actel s flash FPGA programming in PG4UW program is performed using Actel Jam player Jam player This programming solution results in speci
115. ick on 3 insert target device to AP3 programming module ZIF FF 4 check if the device is blank click on 5 program device click on lt 6 additional verify of device click on 12 3 Detailed description Detailed description BeeHive304 LE BeeHive304 Introduction BeeHive304 is next member of Elnec concurrent universal multiprogrammer series built to meet the strong demand for an extremely fast and reliable multiprogrammer for high capacity memories Designed with great emphasis on technical perfection and speed of hardware this programmer perfectly fits for high demand desktop programming as well as for automated programming systems and ATE machines where ensures the highest quality and overall yield BeeHive304 consists of four independent isolated universal programming sites based on the BeeProg3 programming core hardware Therefore the programming sites can run asynchronously concurrent multiprogramming programming mode Each programming site starts programming at the moment the chip is detected to be inserted in the socket properly independently on the status of other programming sites As a result three programming sites work while you are replacing the programmed chip at the fourth site BeeHive304 multiprogrammer supports as many chips as the BeeProg3 programmer and without obvious decrease of programming speed because each programming site works independently Also each pr
116. ieved by using FPGA based state machine fast processor and SSD allow execution of all time critical routines and data transfers inside of the programmer The programmer performs a device insertion test wrong or backward position and contact check poor contact pindriver to socket before it programs each device These capabilities supported by overcurrent protection and signature byte check help prevent chip damage due to operator error The selftest capability allows running the diagnostic part of software to thoroughly check the health of the programmer Built in protection circuits eliminate damage of programmer and or programmed device due to environment or operator failure All the inputs of the BeeProg3 programming core pins of programming module interface pindriver signals and also supporting signals connection to PC and power supply input are protected against ESD up to 15kV For the proper and reliable programming of ultra fast memories the BeeHive304 utilizes specialized modules optimally designed for specific device families exactly according to the needs of programmed devices But if it is possible then universal programming modules dedicated for IC package type are used The programming modules are identical for all programmers based on the BeeProg3 programming core Programming modules construction is designed for perfect stability at the top of the programmer to be tough enough for insert replace chips by mechanical
117. ike this C Program Files EInec_sw Programmer Examples Serialization fromfile_playlist_example You can test the serialization by following steps 1 start PG4UW 2 you need to have our programmer connected and correctly found in PG4UW 3 select wished device the best are devices with erasable memory not OTP memory 4 select dialog from menu Device Device Options Serialization 5 Set the From file mode and in the panel From file mode options select our example serialization file fromfile playlist ser is ar rr r rn c Rl 90 LE C PG4UW software 6 click the OK button to accept the new serialization settings 7 run Program device operation You can see at the serialization indicating labels in the main window of PG4UW and also in info progress window during device programming and repeating of programming Additional operation with used files This group box contains three types of operation User can select one of the operations to do with used serialization data files in Playlist From file mode Following operations are available option Do nothing program does not make any operation with used serialization data files e option Move used file to specified directory program moves used serialization data files to user specified directory of used serialization files option Delete used file program deletes used serialization data files Directory This option is available in playlist From file serialization mode and selec
118. ile mode e Custom generator mode Dialog Serialization contains also settings for associated serialization position files that are used with project files with serialization turned on For more detailed information about using serialization in project files look at Serialization and projects Basic rules of serialization e serialization is associated with recently selected device only If a new device is selected the serialization settings will be reset serialization will be set to disabled serialization settings for recent device are saved along with other settings of the device to project file or to configuration file when application is closed serialization engine calls request for new next serial number before each device programming is started see Note 1 used serial number is indicated by after serial number value Used serial number means the next device programming will use next serial number see Note 1 Note 1 Calling of new serial number request before programming can be suppressed in case of previous unsuccessful device programming result by option Serial number usage if programming action fails e when Reuse generated serial number for next programmed device option is selected request for new next serial number is suppressed in case of unsuccessful previous device operation result It means used serial number is used again and remains same until successful device programming is completed e when Throw away
119. ing algorithm are stored internally inside of the programmer e All devices mentioned below including both NAND Flash are programmed at their maximal speed the programming time can not be shorter e We re sorry but there exist not very much devices where the 20 MB s BeeHive304 programming speed can be utilized Device Size bits Operation Time JS28F00AM29EWH parallel NOR Flash 4000080hx16 1 Giga programming and verify 10 sec MT29F1G08ABAEAWP parallel NAND Flash 8400000hx8 1 Giga programming and verify 19 5 sec SDIN7DP2 8G eMMC NAND FLASH 1D2000000hx8 64Giga programming 1 342 sec S25FL164K serial Flash 800300hx8 64 Mega programming and verify 30 7 sec AT89LP51RD2 microcontroller 10000hx8 programming and verify 5 2 sec PIC32MX360F512L microcontroller 80000hx8 programming and verify 8 9 sec Conditions Core2 Duo 3 16 GHz 1G RAM USB 2 0 HS Windows 7 Version of SW 3 09 10 2014 1 Verification of programming is done by internal controller of eMMC device The device receives a block of data plus CRC if it all matches the internal controller confirm the proper programming 26 LE BeeHive304 SOFTWARE e Algorithms only manufacturer approved or certified algorithms are used Custom algorithms are available at additional fee e Algorithm updates software updates are available regularly approx every 4 weeks free of charge OnDemand version of software is available for
120. inl a n 70 LE C PG4UW software By pressing Replace button the dialog box is closed and a Question window is displayed This window contains following choices Yes replaces found item and finds next No finds next item without replacing current one Replace All replaces all found items Abort search aborts this command View Edit buffer for PLD Ctri F2 erase buffer with specified blank value Ctrl Shift F2 fill buffer with random data 9 go to address F10 change mode view edit F11 switch the mode of buffer data view between 1 bit and 8 bit view It can be also doing by mouse clicking on the button to the right of View Edit mode buffer indicator This button indicates actual data view mode 1 bit or 8 bit too Arrow keys move cursor up down right and left Home End jump on start end current line PgUp PgDn jump on previous next page Ctrl PgUp PgDn jump on start end current page Ctrl Home End jump on start end edit area Backspace move cursor one position left back Note Characters 0 and 1 immediately changes content of edit area Buffer Fill block Selecting this command causes filling selected block of buffer by requested hex or ASCII string Selecting option Allow address history logging activates saving of recently confirmed values These are saved for each device separately count is limited to last 15 items Note Address history values are common for all buffer data manipulation dialogs Default
121. ion area 50 SCIES Setu Ej NEG E Step 9 Found new hardware wizard will launch for each programmer programmer site one time for BeeHive304 4 times Setup will continue with Step 5 Note In Windows 7 or 8 if another BeeProg3 programmer will be connected to PC maybe to the same USB port Installing device driver software will launch again If the same BeeProg3 programmer will be connected to other USB port there is no needed for any additional driver installation Windows XP if a different USB port on the PC is used for next connection of the programmer Found new hardware wizard will launch again and install new USB drivers 51 Elnec s r o Installation of the BeeHive304 BeeProg3 programmer into the target system This chapter contains mechanical drawing of BeeHive304 and BeeProg3 and other information needed for installation BeeHive304 and BeeProg3 to target system BeeHive304 In the picture below are overall dimensions of BeeHive304 with programming modules Total height of programmer with installed programming modules depends on programming module ZIF socket height Total height can be determined by 66 5mm ZIF socket height Right top view to BeeHive304 with dimensions Minimal distance between BeeHive304 and other object is 2cm It is necessary for good cooling of BeeHive304 and air ventilation around it At X and Y axis a center of ZIF is same with center of programming module 52 BeeHi
122. irmly as following Load project Prj Load file Load file EPROM Flash select by ID Program device Program switch Close of control program Close only together with parameter Program oU RON Available command line parameters for starting program PG4UW in demo mode Demo mode is useful in situations when no programmer device is available Demo mode can be used by clicking button Demo in dialog Find programmer or by command line parameter demo Recommended usage of the parameter is pg4uw exe demo programmer name where programmer name has to be replaced by name of wished programmer as it is used in PG4UW control program Wan s T 145 Elnec s r o Hardware If you find none solution please document the situation i e provide us an accurate description of your PC configuration including some other circumstances bearing on the problem in question and advise the manufacturer of your problem Don t forget please enter of PC type manufacturer speed operation system resident programs your parallel port I O manufacturer and type Use please Device problem report form for this purpose Warning Class A ITE notice Devices described at this manual are class A products In domestic environment this products may cause radio interference in which case the user may be required to take adequate measures Because BeeProg3 has interna
123. ispLSI2xxx ispLSI2xxxA ispLSI2xxxE ispLSI2xxxV ispLSI2xxxVE ispLSI2xxxVL LC4xxxB C V ZC ZE M4 xx xx M4A3 xx xx M4A5 xx xx M4LV xx xx ispCLOCK Power Manager ll ProcessorPM e PLD Xilinx XC9500 XC9500XL XC9500XV CoolRunner XPLA3 CoolRunner ll e SPLD CPLD series AMD AMI Atmel Cypress Gould ICT Lattice National Semicond Philips STMicroelectronics TI TMS Vantis VLSI e FPGA FPGA Microsemi Actel ProASIC3 IGLOO Fusion ProASICplus SmartFusion e FPGA Lattice MachXO MachXO2 LatticeXP LatticeXP2 ispXPGA e FPGA Xilinx Spartan 3AN e Clocks TI TMS Cypress e Special chips Atmel Tire Pressure Monitoring ATA6285N ATA6286N PWM controllers Zilker Labs Analog Devices Multi Phase ICs IR Chil Semiconductor Gamma buffers AUO Maxim TI e Microcontrollers MCS51 series 87Cxxx 87LVxx 89Cxxx 89Sxxx 89Fxxx 89LVxxx 89LSxxx 89LPxxx 89Exxx 89Lxxx all manufacturers Philips LPC series e Microcontrollers Atmel ARM AT91SAM7Sxx AT91SAM7Lxx AT91SAM7Xxx AT91SAM7XCxx AT91SAM7SExx series e Microcontrollers Atmel ARM9 AT91SAM9xxx series e Microcontrollers ARM Cortex M3 ATSAM3Axxx ATSAM3Uxxx ATSAM3Nxxx ATSAM3Sxxx ATSAMD20 ATSAM3Xxxx series e Microcontrollers ARM Cortex M4 ATSAM4Sxxx series e Microcontrollers Atmel AVR 8bit 16bit AT90Sxxxx AT90pwm AT90can AT90usb ATtiny ATmega ATxmega series e Microcontrollers Atmel AVR32 AT32UC3xxxx ATUCxxxD3 D4 L3U L4U series en 24 LE
124. ite s that were used when PG4UWMC was recently closed There is also equivalent option Auto connect Sites available in Settings dialog of PG4UW MC Programmers supported by PG4UWMC The list of currently supported programmers can be displayed in PG4UWMC by menu Help Supported programmers Generally supported programmers in PG4UWMC are 48 pindrive and 64 pindrive universal programmers with USB or LAN interface Also all of our USB connected multiprogramming systems are supported PG4UWMC can handle from 1 to 8 programmer sites One programmer site means one ZIF socket module Troubleshooting Serial numbers For successful using of multiply programmers correct serial numbers must be specified for each used programmer in panel Serial numbers If there is empty field for serial number application PG4UW for the programmer Site won t start When PG4UWMC application is searching for connected programmers in Search for programmers dialog serial numbers of programmers are detected automatically User does not need and can not specify serial numbers by himself Communication error s while searching for programmers If some kind of communication error s occurs please close all PG4UW applications and PGA4UWMC and then start PG4UWMC and click button Connect programmers to start PG4UW applications for each Site and connect programmers All programmers are connected correctly but unstable working If communication with programmers is lost
125. ith size specified by this option Example Example 1 Write serial numbers to AT29C040 devices at address 7FFFAH size of serial number is 4 bytes start value is 16000000H incremental step is 1 the serial number form is binary and least significant byte is placed at the lower address of serial number in device To make above described serialization following settings have to be set in Serialization dialog Mode Incremental mode S N size 4 bytes S N mode Bin Style Hex Save to buffer LS Byte first Address 7FFFCH Start value 16000000H Step 1 Following values will be written to device The 1st device Address Data QO7FFFO xx XX XX XX XX XX XX XX XX xx xx 00 00 00 16 The 2nd device Address Data Wa 83 Elnec s o 7 xx XX XX XX XX XX XX XX XX XX xx 01 00 00 16 The 3rd device Address Data 7 Xx XX XX XX XX XX XX XX XX xx xx 02 00 00 16 etc xx mean user data programmed to device Serial numbers are written to device from address 7FFFCH to address 7FFFFH because serial number size is 4 bytes Example 2 Following example shows usage of SQTP serialization mode when serial number is split into RETLW instructions for Microchip PIC16F628 devices Note Serial quick turn programming SQTP is Microchip specified standard for serial programming of Microchip PIC microcontrollers Microchip PIC devices allows you to program a unique serial number into each micro
126. iting a message to INFO window and LOG After finished read procedure will be the buffer synchronization process started The read data will be transferred from programmer s internal SSD disk to PC Progress of the data transfer is showed in separate window Transfer can be canceled by pressing key lt Esc gt or pressing the window s exit button The menu command Device Device options Operation options allows to set another working area as the standard Setting an option Verify data after reading in this menu command means a higher reliability for device reading In this case are the read data stored in programmer for verification used Buffer synchronization will be performed after the verification procedure Device Verify This command compares content of the whole device including its available special areas with data in buffer stored in internal storage disk of programmer Therefore are the data from data buffer transferred from PC into the programmer Progress of the buffer synchronization is in separate window shown Synchronization process can be canceled by pressing of key lt Esc gt or pressing window s exit button The control program reports a result of verify operation to Info window and Log window The menu command Device Device options Operation options of PG4UW allows to customize available operation options 97 Elnec s r o Settings in dialog General options menu Options General options of PG4UW in t
127. l the programmer and the completed DEVICE PROBLEM REPORT form just faxed available so that you can respond quickly to our questions If your programmer is diagnosed as defective consult your local dealer or Elnec about the pertinent repair center in your country Please carefully include the following items in the package e defective product e completed DEVICE PROBLEM REPORT form e photocopy of a dated proof of purchase Without all these items we cannot admit your programmer to repair Note You may find the DEVICE PROBLEM REPORT form at our Internet site www elnec com section Support Problem report i lt PF 148 Troubleshooting and warrant ELNEG EEE If you have an unsupported target device If you need to operate on a target device not supported by the control program for programmer please do not despair and follow the next steps e Look in the device list of the latest version of the control program on our Internet site section Download file corresponding to your programmer Your new target device might already be included in this version If yes download the file pg4uwarc exe and install the new version of the control program e Contact Elnec directly filling up the AlgOR form following the instructions at the end of this form We may need detailed data sheets of your target device and if possible samples Warranty terms The manufacturer Elnec s r o Presov Slovakia
128. l number is used but generator will be called at step 3 anyway even if the same number is used as for previously programmed device If error of serialization dat file is detected program PG4UW reports serialization error and stops continuing of programming batch immediately Device Device options Statistics Statistics gives the information about actual count of device operations which were proceeded on selected type device If one device is corresponding to one device operation e g programming the number of device operations will be equal to number of programmed devices The next function of statistics is Count down Count down allows checking the number of device operations and then number of devices on which device operations have to be done After each successful device operation the value of count down counter is decremented Count down has user defined start number of devices to do When count down value reach zero it means specified number of devices is complete and user message about complete count down will be displayed Statistics dialog contains following options Check boxes Program Verify Blank Erase and Read define operations after which statistics values increment Any selected and performed device operation will increment the Total counter and one of Success or Failure counters depending on device operation result success or failure A combination of partial operations is counted as one operation only Fo
129. l power supply follow these special precautions e Circuit breakers overcurrent protection must be part of building electrical installation e Pull out power cord plug from outlet to disconnect programmer from mains The outlet must be placed near to programmer and must be easy accessible Other Please don t move Info application window while BUSY LED is on supervisor circuit can be active and switch the programmer into safe mode as in case of communication PC programmer error 146 3 Troubleshooting and warrant Troubleshooting and warranty Troubleshooting and warranty 147 Elnec s r o Troubleshooting It s our desire to provide you with exceptional product Nevertheless problems can occur In such cases please follow the instructions below elt might be your mistake in proper operation of the programmer or its control program PG4UW e Please read carefully all the enclosed documentation again Probably you will find the needed answer right away e Try to install programmer and PG4UW on another computer If your system works normally on the other computer you might have a problem with the first one PC Compare differences between both computers e Ask your in house guru every office has one e Ask the person who already installed programmer elf the problem persists please call the local dealer from whom you purchased the programmer or call Elnec direct Most problems can be solved by phone e
130. lement of checksum so that SUM SUPPL 0 carry Device dependent checksum applies for some devices e g STMicroelectronics s STM8 family The checksum modes for main checksum can be set in pop up menu by clicking on label checksum in main program window or by menu shortcuts Shift Ctrl 1 for Byte sum x8 Shift Ctrl 2 for Word sum Little Endian x16 Shift Ctrl 3 for Word sum Big Endian x16 etc Word is 16 bit word DWORD is 32 bit word Device Menu Device includes functions for a work with selected programmable devices device Select read data from device device blank check device program device verify and device erase Device Select from default devices This window allows selecting the desired type of the device from list of default devices This one is a cyclic buffer in which are stored recently selected devices including their device options This list is saved to disk by command File Exit and save If you wish display additional information about the current device use an lt Ctrl F1 gt key This command provides a size of device organization programming algorithm and a list of programmers including auxiliary modules that supported this device You can find here package information and other general information about current device too Use a Del key for delete of current device from list of default devices There isn t possible to empty this list if you repeat this access The last device stays in buff
131. livered CD to your CD drive and install program starts automatically if not run setup exe Install program will guide you through the installation process and will do all the necessary steps before you can first run the control program Step 1 Installation CD creation date 10 2014 SW version 3 09 View documentation PDF viewer required Install PDF viewer Foxit Reader 7 Click on Install software for programmers button Step 2 EFE er rae ee ae mE Welcome to Elnec programmers software setup a Please select the language that you would like to use during the installation of Elnec programmers software English Select language and than click on OK button 43 Elnec s r o Welcome to Elnec programmers software setup wizard Setup will install PG4UW PG4UWMC universal control program for Elnec programmers version 3 09 10 2014 It is recommended that you close all other applications before continuing In case of unusual behaviour during the installation please check your antivirus firewall configuration especially custom rules for files copying Note for programmers with USB connection Please disconnect the programmer s USB cable until installation of the Elnec PG4UW PG4UWMC software has been completed Click Next to continue or Cancel to exit Setup Step 4 Installation mode Default or Custom Select installation mode with default settings Def
132. ls PG4UW PG4UWMC on your computer Extracting files E workprog ELNEC Programmer pg4ul_ru msg Completing of Elnec programmers software setup wizard Setup has finished installing Elnec PG4UW PG4UWMC on your computer The application may be launched by selecting the installed icons Click Finish to exit Setup Click Finish button to finish setup 47 Setup Elnec s r o New versions of programmer software In order to take advantage of all the capabilities of programmer we recommend using the latest version of PG4UW You may download the latest version of programmer software from our Internet site www elnec com Copy the software distribution file to a temporary directory disconnect programmer from PC and then launch it Setup will start with Step 2 from previous chapter Hardware setup Warning Because of high programmer s communication traffic we recommend connecting each programmer to separated USB 2 0 High speed controller USB EHCI Most of modern PC motherboards have two or more EHCI controller integrated in chipset If not you can use PCI PCI E USB add on card Renesas USB chipset is recommended If the EHCI integrated in motherboard chipset is used consult the motherboards manual or motherboard manufacturer tech support for USB ports mapping so you will be able connect each programmer to separated EHCI In general it is recommended connecting the programmers
133. ly adds current date string into user specified Log file name by the following rules If user specified log file name has format lt user_log_file_name gt lt log_file_extension gt The name with added date will be lt user_log_file_name gt lt yyyy mmm dd gt lt log_file_extension gt The new part representing of date consists of yyyy year mmm month and dd day Example User specifies Log file name c logs myfile log The final log file name with added date will look like this have a date November 7th 2006 c VogsWnyfile 2006 nov 07 log If do you wish to have log file name without any prefix before date information you can specify the log file name as log file extension dot is the first in file name Example User specifies Log file name c logs log The final log file name with added date will look like this have a date November 7th 2006 1095 2006 07 109 HE F Oe 112 LE O PG4UW software Advanced options about Log file size limit are available too e option Use Log file text truncating when file size limit is reached when checked the Log file size limit is on It means that when Log file size reaches specified value the part of text included in Log file will be truncated When the option is unchecked the size of Log file is unlimited respectively is limited by free disk space only option Maximum Log file size specifies the maximum size of Log file in kB e option A
134. ly with pg4uw exe Prj lt file_name gt forces project load when program is starting or even if program is already running file name gt means full or relative project file path and name Loadfile file name forces file load when program is starting or even if program is already running file name means full or relative path to file that has to be loaded file format is detected automatically Saveproject file name the command is used to save currently selected device type buffer contents and configuration to project file Command Saveproject is equivalent to user selected command Save project in PG4UW control program Please note the file name Windows conventions must be fulfilled It means also that when file name contains spaces the command line parameter must have the file name bounded inside quotation marks Examples Iprj cAmyfile eprj Load project file with name c myfile eprj loadfile c filename with spaces bin Load file c filename with spaces bin to buffer s 144 Program switch forces start of Program device operation automatically when program is starting or even if program is already running also one of following optional switches can be used switch noquest forces start of device programming without question switch noanyquest forces start of device programming without question and after operation on device is completed program doesn t show
135. m generator program Custom generator program or serialization generator is program that will generate the unique sequence of serial numbers and write the serial data to serialization dat file This program is a xrv AVA 92 LE PG4UW software made by user The path and name of the serialization program must be specified in the Serialization options dialog in Custom generator mode options The program will be called from PG4UW every time the new serial data have to be generated This is usually made before each device programming operation PG4UW control program passes command line parameters to serialization program and serialization program generates serialization dat file which is read by PG4UW control program Following command line parameters are used N serial number Specifies current serial number E serial number Specifies ending or last serial number The parameter is only passed when value of Last serial number specified in dialog Serialization in PG4UW software is no zero The serialization program should return error record T06 in the serialization dat file if the current serial number is greater than ending serial number For details look at section Serialization dat file format Serialization dat file format Serialization dat file generated by serialization generator must meet following text format Serialization dat file consists of records and serial data section Record is line which begin with one of
136. mV VPP range OV 25V 1A step 25mV Temperature controlled fan e selftest capability e protection against surge and ESD on power supply input USB and LAN port and pins of programming module interface PMI IEC 1000 4 2 15kV air 8kV contact ig lx R 36 LE Q BeeProg3 e banana jack for ESD wrist straps connection e banana jack for connection to ground Pindriver available on the programming module interface connectors for programming modules e pindrivers 64 universal e VCC1 VCC2 and VPP can be connected to each pin e perfect ground for each pin 2 independent FPGA based TTL driver provides H L CLK pull up pull down on all pindriver pins logic level 0 75V 5V IOL and IOH current 20mA e logic signals frequency up to 125MHz 3 3V 80MHz 5V e analog pindriver output level selectable from 0 8 V up to 25V e current limitation overcurrent shutdown power failure shutdown e continuity test each pin is tested before every programming operation DEVICE SUPPORT Programmer using programming modules e NAND FLASH Samsung K9xxx KFxxx SK Hynix ex Hynix HY27xxx H27xxx Toshiba TC58xxx TH58xxx Micron MT29Fxxx ex Numonyx ex STM NANDxxx Spansion S30Mxxx S34xxx 3D Plus 3DFNxxx ATO Solution AFNDxxx Fidelix FMNDxxx Eon Silicon Sol EN27xxx ESMT F59xxx LBA NAND Toshiba THGVNxxx e serial NAND FLASH Micron MT29F xxx GigaDevice GD5F xxx e eMMC Hynix H26Mxxxxxxxx Kingston KE44B xxxx xxx
137. me connect a device No not this time Click Next to continue Next gt Cancel Select No not this time and then click on Next button Step 6 Found New Hardware Wizard This wizard helps you install software for BeeProg3 Universal 64 pindrive Programmer If your hardware with an installation CD or floppy disk insert it now What do you want the wizard to do Install the software automatically Recommended Install from a list or specific location Advanced Click Next to continue lt Back Next gt Cancel Select Install the software automatically and then click on Next button 49 Elnec s r o Found New Hardware Wizard Please wait while the wizard installs the software m BeeProg3 Universal 64 pindrive Programmer DevPaCls dll To CAWINDOWS system32 Wizard will search for the programmer and start installation of driver automatically Step 8 After successful installation of the programmer you will see the following window Found New Hardware Wizard Completing the Found New Hardware Wizard The wizard has finished installing the software for 4 BeeProg3 Universal 64 pindrive Programmer Click Finish to close the wizard Click Finish button to finish setup Windows 7 or Windows 8 will display information BeeProg3 Universal 64 pindrive programmer Device driver software installed successfully in notificat
138. means at least one device operation program verify must be performed Job Report dialog settings are in dialog PG4UWMC Settings menu Options Settings in tab Job Report Following options are available for Job Report PG4UWMC Settings read only mode EJ Multiprogramming Log file Job Report Sounds Automatic YES Other Job Report Automatically save Job Report file Job Report directory C Users peter 4ppData Roaming Elnec Paduw Browse P See Job Report 1 Some settings may be unavailable to edit while any Programmer Site i 2 masaraq l of Cancel When the Automatically save Job Report file is checked the Job Report will be saved automatically to directory specified in edit field Job Report directory and with file name created as following job_report_ lt ordnum gt _ lt prjname gt jrp where lt ordnum gt is decimal order of the file If there are any report files with the same name then order for new report file is incremented about order of existing files 131 Elnec s r o lt prjname gt is project file name of recently used project and without the project file name extension Example 1 Let s use the project file c myproject eprj and directory for Job Report set to d job_reports There are no report files present in the Job Report directory The final Job Report file name will be d job repor
139. ming verifying reading etc Program generates sound also when warning or error message is displayed lisun I R nf fa 110 LE PG4UW software User can now select sound from Windows system sound required installed sound card PC speaker or none sound Panel Allow sound for following actions contains following options e Check box Successful operation When checked sound will be generated after device operation successfully completed When unchecked no sound will be generated after successful device operation e Check box In case of error When checked sound will be generated after device operation is finished with error When unchecked no sound will be generated after device operation finished with error In the panel Programmer internal speaker sound settings is possible to set sound options for some programmers with built in internal speaker Sound beeps are then generated from internal programmer speaker after each device operation for indicating device operation result good or bad result Colors and LEDs This option allows to setup different behavior of programmer s LEDs It is possible to select color schemes of Status LEDs brightness of all LEDs and visual options of the control program Colors of the work result LEDs of programmer e Standard color scheme ERROR red BUSY yellow e Former color scheme ERROR yellow BUSY red Note These settings are available only for newer types of programmers If you ca
140. mmed and the programmer with software wait for inserting a new device mode by blinking with the LED Busy After an operation with a device is done one of the status LEDs OK or Error lights in dependence on the result of previous operation and the LED Busy is blinking If the program detects removal of a device from ZIF socket then the status LED goes off but the LED Busy is still blinking to indicate readiness of the program to repeat last operation with new device After the program indicates one or more pins of new device in the ZIF socket the LED Busy goes light continually From this point the program waits a requested time for insertion of the rest pins of new device If a requested time Device insertion complete time overflows and a device is not correctly inserted the program will light the LED Error to indicate this state When new device is inserted correctly the status LED goes off and a new operation with device is started Enable sound when ready for a new device when checked sound will be generated if SW detects complete empty ZIF socket and is ready to accept new device into ZIF socket When any of previous options is selected and confirmed by OK button PG4UWMC send Selected settings to all connected programming site Also if you set Automatic YES parameters on master programming site these settings will be send to all connected slave programming site sites and to PG4UWMC For more details about Automatic YES feature see
141. mount of truncated text specifies the percentage of Log file text which will be truncated after Maximum Log file size is reached The higher value means more text will be truncated removed from Log file The Log file settings can be saved to disk by command Options Save options Job Report Job Report represents the summary description of operation recently made on device Job is associated with project file and it means the operation starting with Load project until loading of new project or closing program PG4UW Job Report contains following information e project name e project date e Protected mode status PG4UW software version programmer type and serial number start time of executing the Job it means time when Load project operation was performed e end time of executing the Job time of creating the Job Report e device name e device type e checksum device operation options serialization information statistics information Job Report is generated in following cases e user command Load project is selected e closing or disconnecting programmer sites is selected e closing the PG4UW e device Count down counter reaches 0 finished status e manually by user when menu File Job Report is used The Job Report is generated for recently loaded project file only when statistics value of Total is greater than 0 It means at least one device operation program verify must be performed Following options
142. n is started again automatically after removing of programmed and inserting of new device to programmer Socket For more details about Automatic YES function please take a look at Programmer Automatic YES Notes e serialization is not supported in multiprogramming mode only single programming supports serialization e count down function is not supported now Options Save options This command saves all settings that are currently supported for saving even if auto save is turned off Following options are saved options under the Options menu ten last selected devices file history main program window position and size Help Menu Help contains commands that let you view supported devices and programmers and information about program version too Pressing the F1 key accesses the Help When you are selecting menu item and press F1 you access context sensitive help If PG4UW is executing an operation with the programmer F1 generates no response 121 Elnec s r o The following Help items are highlighted e words describing the keys referred to by the current Help e all other significant words current cross references click on this cross reference to obtain further information Detailed information on individual menu commands can be found in the integrated on line Help Since the Help system is continuously updated together with the control program it may contain information not included in
143. n t see mentioned settings in menu or menu is not enabled for editing your programmer doesn t support LED color scheme customization Colors of the work result indication in the software e Standard color scheme ERROR red BUSY yellow e According to LEDs on the programmer ERROR yellow BUSY red Note These settings are available only for older types of programmers LED brightness allows customization of LED light intensity Note These settings are available only for new types of programmers Label style allows highlighting of important labels Programmer type Device type Statistics Checksum etc in main window of application Errors This option allows to set a device verify errors saving to file When verify errors occur first 45 differences are written to Log window If user wants to save the verify errors data differences to file he can set options in section Save device verify errors to file to one of two methods cumulate errors from all verify actions to the same file or save errors to file just from last verify action Verify errors will be saved to file with name specified by Error file name edit box Following error report file options are available 111 Elnec s r o e option No default verify errors saving to file is disabled Errors are displayed just Screen e option New save verify errors to file just from last verify action Before first write of new verify action is file deleted and created
144. nal Tasks Which additional tasks should be performed Select the additional tasks you would like Setup to perform while installing Elnec PG4UW PG4UWMC then dick Next V Create a Start menu icon V Create a desktop icon V Install Multiprogramming control support for following programmers 2085 BeeHive8S BeeHive304 BeeHive204 BeeHive204AP BeeHive204AP AU BeeHive4 BeeHive4 BeeProg3 BeeProg2 BeeProg2C BeeProg2AP BeeProg BeeProg Install LPT port driver required for programmers connected via parallel LPT port Check if Install Multiprogramming control support is selected Change default setting if you want Then click on Next button Step 8 Ready to Install Setup is now ready to begin installing Elnec PG4UW PG4UWMC software version 3 09 10 2014 on your computer Click Install to continue with the installation or dick Back if you want to review or change any settings Destination location Workprog ELNEC Programmer Start Menu folder Elnec D Additional tasks Create a Start menu icon Create a desktop icon Install Multiprogramming control support for following programmers 2085 BeeHive8S BeeHive304 BeeHive204 BeeHive204AP BeeHive204AP AU BeeHive44 Check your settings and then click on Install button 46 Step 10 Please wait while Setup instal
145. nerated by design software which is provided by the manufacturer of respective programmable device Chips are programmed through JTAG IEEE 1149 1 Joint Test Action Group interface VME files are interpreted by VME Player VME file is a compressed binary variation of SVF file and contains high level IEEE 1149 1 bus operations SVF files are interpreted by SVF Player SVF file Serial Vector Format contains high level IEEE 1149 1 bus operations SVF files are generated by design software which is provided by manufacturer of respective programmable device Chips are programmed through JTAG interface VME files are generated by design software which is provided by manufacturer of respective programmable device By attaching more BeeProg3 programmers to the same PC through USB port one can create a powerful multiprogramming system which supports as many chips as the BeeProg3 programmer and without obvious decrease of programming speed It is important to know that there is concurrent multiprogramming each programmer works independently and each programmer can program a different chip if necessary Advanced design of the BeeProg3 universal programmer including protective circuits original brand components careful manufacturing and burning in allow us to provide a three year warranty on parts and workmanship of the programmer limited to 500 insertion of programming module to programming module interface connectors Elnec provides free ship
146. nly Ethernet Adapter L0015 Physical Address MAC 00 27 00 50 6A 00 L0016 DHCP Enabled 1 10017 IP Mask 255 255 0 0 10018 gt gt 02 08 2013 13 19 24 10019 Programmers group ProgrammersGroup 1 Installation procedure with checked Installation of PG4UWMC Network Agent and selected name of Programmers group Once the installation is done on each computer we can proceed to initial configuration of PG4UWNC Configuration Run PG4UWMC on computer which will control whole programming process In Menu Options check Network mode is nF 138 22 PG4UWNC software PG4UWMC v2 99nw01 08 2013 Multiprogramming Control Pn File Device Programmer Options Help e Switch to Operator Mode Settings E Search Load f Unlock protected project Settings BeeProg2 Site 1 Statistics Reset all settings lue Save options 0 v Network mode Remains 0 of YES oap Installation procedure with checked Installation of PG4UWMC Network Agent and selected name of Programmers group We are on network thus we need to set network path to project file and log file PGAUWMC v2 99nw01 08 2013 Multiprogramming Control Panel File Device Programmer Options Help 9 Search _Settings Load prj Help Elnec multiprogrammin
147. nly basic answer about health of the SRAM if you need test SRAM more deeply use please specialized sRAM tester Device IC test This command activates a test section for ICs mainly Standard Logic IC The ICs are sorted by type of technology to groups libraries First select an appropriate library wished device and then a mode for test vectors run LOOP SINGLE STEP Control sequence and test results are displayed to Programmer activity log In case of need it is possible to define the test vectors directly by user Detailed description of syntax and methods of creation testing vectors is described in example e lib file which is in programs installation folder Note Testing of IC is done using test vectors at some pretty low speed The tests by test vectors can not detect all defects of the chip Other words if IC test report FAIL then device is defective But if is PASS reported it mean the chip passed our tests but still might not pass the tests that check other mainly dynamic parameters of the tested IC Because the rising falling edges of programmers are tuned for programming of chips it may happen the test of some chips fails although the chips aren t defective counters for example Device Jam VME SVF STAPL mDOC Player Jam STAPL was created by Altera amp engineers and is supported by a consortium of programmable logic device PLD manufacturers programming equipment makers and test equipment manufactu
148. nnual maintenance Perform the Selftest plus for every programmer or programming site Annual maintenance Gently clean the surface of the programmer with isopropyl alcohol or technical alcohol on a soft cloth Perform the calibration test Warning The ZIF socket of the programming modules is considered as consumables The guaranteed mechanical life cycle of the programming module ZIF socket given by manufacturer of the ZIF socket is generally from 5 000 to 10 000 mechanical cycles actuations even the life cycle of some specialized BGA ZIF sockets can be about 500 000 mechanical cycles Programmed devices environment and ZIF socket maintenance have direct influence to actual electrical lifetime of ZIF socket it means that ZIF socket does not cause programming failures yet Keep fingers away from contacts of ZIF socket because contacts of the ZIF socket fouled by smear and grime from fingers may cause the programming failures Change the ZIF socket or the socket converter if you noticed increased number of programming failures The warranty does not apply to the ZIF sockets that are wear or grimy and which cause large amount of failures during working with programmer Software PG4UW is common control program for all of the Elnec programmers Therefore during its operation you can encounter some items which does not refer to currently selected programmer Command line parameters Command line parameters which can be used direct
149. nserts a new chip Operator training is therefore minimized BeeHive304 interfaces with any IBM PC compatible personal computers running MS Windows OS through USB 2 0 High Speed port or LAN port via switch or router 15 Elnec s r o Banana jack for ESD wrist straps connection to easy to implement the ESD protection control and screw with washers for earth wire With its very competitive price together with excellent hardware design for reliable programming it is probably the best value for money programmer in this class The 64 pin rich features precise and powerful pindriver of BeeProg3 programming core deliver high speed accurate and clean waveform signals to the device by eliminating noise ground bounce and overshoot which maximizes programming yield and guarantees long data retention This also allows the reliable support of virtually any nonvolatile technology used for programmable devices E EPROM Flash MRAM PCM by a single device programmer FPGA based totally reconfigurable TTL pindrivers provide H L pull_up pull_down and read capability for each pin of the device The dual H L drivers enables to provide two different H levels for both core signals and I O signals of programmed device without additional logic Programmer pindrivers operate down to 0 8V therefore the programmer is ready to program the full range of today s and tomorrow s advanced very low voltage devices Extremely fast programming ach
150. o from ZIF This feature may not be available for some types of programmers Use settings according to the last loaded project file Automatic YES options is set by the settings in project file One of the setting s item of Automatic YES is Pins of programmer s ZIF excluded from sensing which is depend on used programming adapter Because it is possible that different programmers use different programming adapters for same device this setting will be ignored in this case and in the log window you can find following sentence None connected pins setting was not accepted due to different programming adapter Please use automatic YES wizard again If this case occur go on master programming site if you run PG4UWMC with option Use Site 1 project for all Sites on programming site which wrote previous mentioned sentence to log and click on the button Setting Automatic YES parameters in Programmer Automatic YES options Settings of Indication of state when software waits for a new device and Enable sound when ready for a new device is not stored in project file Enabled Automatic YES function is enabled on all connected programming site with parameters set by PG4UWMC Disabled Automatic YES function is disabled on all connected programming site Use this setting if you need to use button YES for starting a next operation with the programmed device Response time interval between insertion of the chip into the
151. of checksum of buffer data e Fields From address and To address are used to enter address range for main checksum calculation Addresses are used only when checkbox Enabled is checked e Selection group Checksum type allows selecting wished kind of checksum to be used for main checksum More information about Checksum types can be found at the below e Field Checksum contains actual value of recently calculated checksum e Group Exclude buffer block s from checksum calculation same as for Tab Checksum calculator e Button Apply is used to confirm checksum settings from Main checksum options Please note that once the button is pressed previous checksum settings are lost e Button Close is used to close the Checksum dialog If you made some changes in settings they won t take effect until you press Apply 2 These values are stored into configuration file and project file Setting from project file has higher precedence Checksum types Byte sum x8 Buffer data are summed byte by byte irrespective of current buffer view mode x8 x16 x1 organization Any carry bits exceeding 32 bits are neglected This checksum mode is indicated by string x8 displayed after checksum value in main program window Word sum Little Endian x16 Buffer data are summed word by word irrespective of current buffer view mode organization Any carry bits exceeding 32 bits are neglected This checksum mode is indicated by string x16 LE displayed after che
152. ogramming mode Device used in project MX29GL128EH TSOP56 HBP3 AMON project for all Sites Some settings may be unavailable to edit while any Programmer Site 5 is connected EA Help PGA4UWMC Settings dialog is used to set or display following options e table containing information settings for Programmer Sites Site numbers Site serial numbers Site associated Project files checkbox Use one common project for all Sites checkbox Auto connect sites settings checkbox Force gang multiprogramming mode panel Log file settings panel Job Report settings panel Automatic YES Settings panel Other panel Multiprogramming On the top of PG4UWMC Control panel is table which contains three columns e column Sites contains checkboxes with Site numbers 1 2 3 4 used to enable disable using individual Programmer Site with specified Site number e column Serial number contains information about serial numbers for Programmer Sites 127 Elnec s o e column Project file contains edit lines Project 1 Project 2 Project 4 for setting individual projects to be loaded after running each PG4UW Project file names can be entered manually or by dialog Select project file which can be opened for each Site by clicking on button placed on the right side of each project edit line If the project name edit line is blank the automatic project load will not be performed
153. ogramming site can program a different chip if necessary Because the BeeProg3 programming core is based on a state of the art FPGA powerful ARM processor and internal SSD BeeHive304 is ready to program devices at theoretically possible speeds The achieved ultra fast programming speed more than 22 5 MB s continuously is actually higher than real devices supported so far can utilize This is reflected in extremely short programming times For example the 2 GB eMMC NAND Flash could be done in less than 100 sec if programmed memory allow that speed Tests show that BeeHive304 is currently faster than all competitors in this price category and for many chips it is the fastest at all BeeHive304 supports all kinds of types and silicon technologies of today s and tomorrow s programmable devices It partially supports also devices from yesterday You can be sure that the next devices support will require the software update only at the most if necessary simple programming module therefore the cost of ownership is minimized Modular construction of hardware the programming sites works independently allows for continuous operation when part of the programming sites becomes inoperable It also makes service quick and easy The sensing circuits detect proper placement of device in the socket of programming module which allows beginning programming immediately upon insertion of a chip Operator merely removes the finished chip and i
154. ok as following Byte buffer organization Address Data 0000080 CD xx xx xx AB xx xx xx 34 xx xx xx 12 Word16 buffer organization Address Data 0000040 xxCD xxxx xxAB xx34 xxxx xx12 Xxxx Note When you are not sure about effects of serialization options there is possible to test the real serial number which will be written to buffer The test can be made by following steps 1 select wished serialization options in dialog Serialization and confirm these by OK button 2 in dialog Device operation options set Insertion test and Device ID check if available to Disabled 3 check there is no device inserted to ZIF socket 4 run Device Program operation for some types of devices it is necessary to select programming options before programming will start 5 after completing programming operation mostly with some errors because device is not present look at the main buffer View Edit buffer at address where serial number should be placed Note Adaress for Serialization is always assigned to actual device organization and buffer organization that control program is using for current device If the buffer organization is byte org x8 the Serialization Address will be byte address If the buffer organization is wider than byte e g 16 bit words x16 the Serialization Address will be word address Device Device options Serialization Classic From file mode When you use a Classic From file mode the serialization file has serial v
155. omputers via network try Network mode Red colored programmers Figure 2 indicate that there are some sites which are expected to be present but cannot be found These sites are listed in Not found column Otherwise the column is hidden Search for Programmers Please select multiprogramming system from list bellow and click on button Search to start search for Programmers Multiprogramming system nx BeeHive304 v p Search Search results 1 Programmer found max 8 sites allowed Programmer Sites BeeHive304 S N 3004 00001 4 Accept Cancel 7 Help Search in defined Programmers group on network PG4UWMC when switched to Network mode allows to search start control and monitor instances of PG4UW on network computers Communication between PG4UWMC and PG4UW is realized through PG4UWMC Network Agent which is running on each computer All PG4UWs PG4UWMC Network Agents on network and controlling PG4UWMC must be of same thus compatible version This feature is available only for automated programmers and is intended to be used mainly with handler machines 135 Elnec s r o IP 192 168 0 10 Computer 2 Network TCP IP Programmer Sites mm lt gt 1 TCP protocol 13 4 Typical configuration of remotely controlled multiprogramming system running two computers Installation During ins
156. or all formats and is used in x8 format if current buffer organization is x8 or in x16 format if current buffer organization is x16 Negative offset mode has two options Wa Qo 1 nml 63 Elnec s r o Negative offset and Automatic negative offset set by two ways manual or automatic For manual set use option Negative offset and put wished offset value to its edit box For automatic offset detection use option Automatic negative offset This value is subtracted from current address for save data to buffer Negative offset value manually defined or automatically detected is subtracted from current buffer address for store data to buffer Negative offset is applied only for all HEX file formats and is using always x8 format Negative offset settings are ignored for binary files and other non HEX files Notes e Since the value of negative offset is subtracted from real address the result of subtraction can be negative number Therefore take care of correct setting of this value e We recommend automatic setting of negative offset in special cases only This option contains a heuristic analyze which can treat some data in file incorrectly There are especially critical files which contain a fragmented addresses range and which exceeds a size of selected device some block can be ignored e Automatic negative offset option is not available for some kinds of s
157. osed and opened state Weekly maintenance Perform the Selftest plus for every programmer or programming site Quarterly maintenance Gently clean the surface of the programmer with isopropyl alcohol or technical alcohol on a Soft cloth Perform the calibration test Daily use developing laboratory office Daily maintenance After end of the job cover the ZIF socket of the programming module It is also recommended protecting the ZIF socket of programming modules from dust and grime Weekly maintenance Check the ZIF socket of the programming modules for their condition and wear Remove debris dust and grime from the ZIF sockets with clean dry and compressed air Clean the ZIF sockets both in closed and opened state Quarterly maintenance Perform the Selftest plus for every programmer or programming site Biannual maintenance Gently clean the surface of the programmer with isopropyl alcohol or technical alcohol on a Soft cloth Perform the calibration test Occasional use Daily maintenance After end of the job cover the ZIF socket of the programming module It is also recommended protecting the ZIF socket of programming modules from dust and grime Quarterly maintenance Check the ZIF socket of the programming modules for their condition and wear Remove debris dust and grime from the ZIF sockets with clean dry and compressed air Clean the ZIF sockets both in closed and opened state 143 Elnec s o Bia
158. ount down options are available by menu command Device Device options 1 Statistics or by mouse right click on panel Statistics and select item Statistics from popup menu Panel File The panel is placed on the bottom of PG4UW main window Panel shows currently loaded file or project name size and date List of hot keys F1 Help Calls Help F2 Save Save file F3 Load Load a file into the buffer F4 Edit Viewing editing of buffer F5 Select default Target device selection from 10 last selected devices list lt Alt F5 gt Select manual Target device selection by typing device vendor name lt F6 gt Blank Blank check lt F7 gt Read Reads device s content into the buffer lt F8 gt Verify Compares contents of the target device with the buffer lt 9 gt Program Programs target device lt Alt Q gt Exit without save Terminates the PG4UW lt Alt X gt Exit and save Terminates the PG4UW and saving settings too lt Ctri F1 gt Displays additional information about current device lt Ctril F2 gt Erase Fill s the buffer with a given value lt Ctrl Shift F2 gt Fill s the buffer with random values File Menu File is used for source files manipulation settings and viewing directory changes drives changes start and finish address of buffer for loading and saving files by binary MOTOROLA MOS Technology Intel extended HEX Tektronix ASCII space JEDEC and POF format The menu commands for loading and saving projects ar
159. pecial devices that require HEX files with exactly specified blocks used for the devices for example Microchip PlCmicro devices For these special devices there are available only manual offset settings None Positive offset Negative offset Example for negative offset using A file contains data by Motorola S format A data block started at address FFFFOH It is a S2 format with length of address array of 3 bytes For all data reading you can set Negative offset option and value of negative offset to FFFFOH It means that the offset will be subtracted from current real addresses and so data will be written from buffer address 0 List of file format codes and error codes Some errors can occur during file download in some of supported formats The error is written to LOG window in face Warning error xxy in line rrr xx is file format code y is error code and rrr is line number in decimal File format codes 00y binary 10y ASCII Space 20 Tektronix 30y Extended Tektronix 40y Motorola 50y MOS Technology 60y Intel HEX Load file error codes 1 bad first character header 2 bad character in current line xx3 bad CRC xx4 bad read address 64 LE C PG4UW software 5 bad length of current line xx6 too big negative offset xx7 address is out of buffer range xx8 bad type of selected file format 9 the file wasn t loaded all
160. ping of programmer repaired under warranty back to customers worldwide The warranty is valid from the date of purchase Registration of the product will speed up every repair request Registration should be performed within 60 days from the date of purchase 32 BeeProg3 BeeProg3 elements programming module interface PMI work result LEDs power sleep LED of site button START programming module fixating screw GND banana jack can be used for grounding of the programmer ESD wrist strap banana jack is place for attaching of ESD wrist strap power switch temperature controlled cooling fan Right top view to BeeProg3 33 Elnec s r o 9 power supply connector 10 type B USB connector for PC BeeProg3 communication cable 11 LAN connector for network lt gt BeeProg3 communication cable Rear view to BeeProg3 Connecting BeeProg3 to the PC Using USB port Recommendation for connecting programmer to PC 1 make ground connection between programmer and PC or other ground 2 connect programmer with PC via USB cable 3 connect power supply to programmer Using LAN port Recommendation for connecting programmer to PC 1 make ground connection between programmer and PC or other ground 2 connect programmer with Cat5e Ethernet cable to nearest network device switch hub or router 3 ensure that DHCP server in your network is configured 4 connect power supply to programmer Manipulation with t
161. played after device operation is completed but Automatic YES window will appear The window shows status of programmer socket and notice about removing of programmed device and inserting of new device to programmer socket After inserting of new device multichip device operation sequence will start automatically For more details about Automatic YES function please take a look at Programmer Automatic YES For multiprogramming by PG4UWMC or standalone programmer e Load Multi project by Load project menu e Run wished device operation by one of available device operation buttons Blank Verify Program Erase mostly Program device operation is used Selected device operation is executed as sequence of sub project loading and consequent sub device programming for each sub device defined in Multi project The side effect of this concept is that device progress indicators are reset to 0 at beginning of each sub device operation so it looks like progress bar is jumping to 0 few times while multichip operation is running e After programming of all sub devices is completed or error occurs information with result of device operation is displayed in PG4UWMC Programmed device can be removed from programmer socket and new device can be inserted Pressing operation button for the Site or YES button on programmer Site will start multichip device programming sequence again f Automatic YES function is turned on sequence of device operatio
162. r TSOP56 18 4mm NOR 4 Job Start Time 2014 10 20 16 48 29 Job End Time 2014 10 20 16 53 32 Job Elapsed Time 0 Hours 5 Minutes 3 Seconds Device Name 29 2 TSQPS61 lt 7 D Save lt Print 132 PG4UWMC software Automatic YES Settings PG4UWMC Settings read only mode EJ Muliiprogramming Log file Job Report Sounds Automatic YES Other Automatic YESI settings Indication of state when software waits for a new device By LED Busy blinking Use settings according to the last loaded project file 3 N Not indicated quiet mode Enabled Disabled V Enable sound when ready for a new device Response time Standard Device removal hold off time in seconds 2 Device insertion complete time in seconds 5 Suspend on error Disabled Some settings be unavailable to edit while any Programmer Site connected 4 OK In this mode you just take off the programmed device then put new device into ZIF socket and a last operation will be repeated automatically Program automatically detects an insertion of a new device and runs last executed operation without pressing any key or button An insertion of device into ZIF is displayed on the screen Repeated operation executing will be canceled by pressing key lt Esc gt during waiting for insert remove a device t
163. r example a Read operation including Verify after Read is one operation A Program operation including Erase and or Verify operations is counted as one operation Check box Count down sets Count down activity enable or disable Edit box following the Count down check box defines initial number of count down counter from which count down starts Statistics dialog can be also opened by pressing right mouse button on Statistics panel and clicking displayed item Statistics Statistics dialog contains seven statistics values Success Operational failure Adapter test failure Insertion test failure ID check failure Other failure prog SW HW and Total Meaning of the values is Success number of operations which where successfully completed Operational failure number of operations which where not successfully completed due to error of device ia FF 95 Elnec s o Adapter test failure number of operations which where not successfully completed due to incorrect programming adapter Insertion test failure number of operations which where not successfully completed due to incorrect position of device in programming adapter ID check failure number of operations which where not successfully completed due to incorrect ID code read from device Other failure prog SW HW number of operations which where not successfully completed due to hardware error of programmer or control software error Total number of all operations
164. ram from Protected mode to Normal mode use the menu command Options I Normal mode The Password required dialog appears User has to enter the same password as the password entered during switch to Protected mode Other way to cancel Protected mode of program is closing of program Next time the program starts in Normal standard mode the only exception is case of project loaded by command line parameter with name of project which was saved in Protected mode When Protected mode is active the software indicates this by label Protected mode in right top corner of Programmer activity log If you search information about another option Require project file unique ID before first programming indicated by label ID next to project file name in bottom status line of control program please take a look at chapter File Save project Protected mode in PG4UWMC Administrator Mode and Operator Mode in PG4UWMC former Protected mode Program PG4UWMC is set by default to Administrator Mode It means no operation blocking for user is applied But in production there is suitable to block some menu commands to ensure user does not modify important program settings or configuration Operator Mode is used for this purpose More information about Operator and Administrator Mode is available in chapter Options Switch to Operator Mode in PG4UWMOC Program PG4UWMC has Protected mode very similar to program PG4UW The difference is that Protected
165. re Panel Log file settings are used to set mode of using Log file report PG4UWMC Settings read only mode Multiprogramming Log file Job Report Sounds Automatic YESI Other Log file settings Rewrite Log file Append Log file Log file ts peter 4ppD ata Roaming EInec Pa4uw reportme log Browse E Add date information to Log file name Log files size limit V Use Log files text truncating when file size limit is reached Maximum Log file size 20000 200 200000 kB Amount of truncated text 90 v Some settings be unavailable to edit while any Programmer Site is connected 4 OK Log file is text file containing information about PG4UWMC control program operation flow which means information about loading project files device operation types and device operation results Multiprogramming system generates few of Log files One main Log file of program PG4UWMC and Log files for each of running Programmer Sites Each Site has its own one Log file The name of Site s Log file has the same prefix as the name of Log file specified in edit box Log file The file name prefix is followed by the number of Site in the form of _ lt Snum gt Example The Log file name specified by user is report log Then names of Log files will be PG4UWMC main Log file name report log Site s 1 Log file name report 1 log Site s 2 Log file name repo
166. rers The Jam Standard Test and Programming Language STAPL standard JESD 71 is a standard file format for ISP In System Programming purposes Jam STAPL is a freely licensable open standard It supports programming or configuration of programmable devices and testing of electronic systems using the IEEE 1149 1 Joint Test Action Group JTAG interface Device can be programmed or verified but Jam STAPL does not generally allow other functions such as reading a device 99 Elnec s r o The Jam STAPL programming solution consists of two components Jam Composer and Jam Player The Jam Composer is a program generally written by a programmable logic vendor that generates a Jam file jam containing the user data and programming algorithm required to program a design into a device The Jam Player is a program that reads the Jam file and applies vectors for programming and testing of devices in a JTAG chain More information on the website http www altera com See please application notes AN 425 Using the Jam Player to Program Altera Devices AN 100 In System Programmability Guidelines AN 122 Using Jam STAPL for ISP amp ICR via an Embedded Processor and related application notes for details Software tools Altera MAX plus II Quartus Il SVF2Jam utility converts a serial vector file to a Jam file LAT2Jam utility converts an ispLSI3256A JEDEC file to a Jam file Xilinx Xilinx ISE W
167. rialization data format after line T04 is Intel Hex line T04 serialization data which will be loaded to buffer of PG4UW before programming device data are represented in Intel Hex format Optional records are T05 message Warning or error message This record causes the serialization is stopped and warning or error message is displayed in PG4UW software T06 Current serial number greater than limit This record causes the serialization is stopped and warning or error message is displayed in PG4UW software The reason of turning serialization off is the current serial number is greater then allowed maximum ending serial number This record can be used when E command line parameter is specified it means no zero Last serial value in dialog Serialization is specified 11 lt gt Less important warning or message The serialization will not be interrupted Flowchart of device programming with custom generator serialization When Custom generator serialization is used it means that before each device programming is started serialization engine calls serialization generator executable to generate serial dat file PG4UW serialization engine manages proper command line parameters for calling of serialization generator The data from dat file are immediately read to internal programmer buffer and used as data for programming device Also next serial number information record 2 is remembered in PG4UW Typical flowcha
168. rogram and how to use your programmer It is assumed that the user has some experience with PCs and installation of software Once you have installed the control program we recommend you consult the context sensitive HELP within the control program rather than the printed User manual Revisions are implemented in the context sensitive help before the printed User manual Dear customer thank you for purchasing one of the Elnec programmer Please download actual version of manual from Elnec WEB site www elnec com section Support Download if current one will be out of date Elnec s o qlee Table of contents How to use thisimanuall dot te o o EE RR RE 3 6 PROGUCHS COMPIQUFALION SO a Pa Sa q a den 7 PC requirements 8 Software a9 Free additional services wad Quick Start 10 Detailed description 13 BeeHive304 nara aand aaa danane ataa aa EE E Ee ada a Aaa adaa 14 WTO UCT OM u aan AE ANA a A AA 15 BeeHive304 elements 19 Connecting BeeHive304 to the PC 21 Manipulation with the programmed device Selftest and calibration check Technical specification m BeeProg9 usuta detent edi Introduction a BeeProg3 elements
169. rogramming modules construction is designed for perfect stability at the top of the programmer to be tough enough for insert replace chips by mechanical arm and also allows keeping identical position of ZIF socket also after replacing of the module BeeProg3 interfaces with any IBM PC compatible personal computers running MS Windows OS through USB 2 0 High Speed port or 100 Mb LAN port via switch or router With its very competitive price together with excellent hardware design for reliable programming it is probably the best value for money programmer in this class The 64 pin rich features precise and powerful pindriver of BeeProg3 deliver high speed accurate and clean waveform signals to the device by eliminating noise ground bounce and overshoot which maximizes programming yield and guarantees long data retention This also allows the reliable support of virtually any nonvolatile technology used for programmable devices E EPROM Flash MRAM PCM by a single device programmer FPGA based totally reconfigurable TTL pindrivers provide H L pull_up pull_down and read capability for each pin of the device The dual H L drivers enables to provide two different H levels for both core signals and I O signals of programmed device without additional logic l x a rn r s rm r RI 30 Q BeeProg3 Programmer pindrivers operate down to 0 8V therefore the programmer is ready to program the full range o
170. rs Texas Instruments ex Luminary Micro LM3Sxxx LM3Sxxxx series LM4F xxxx series TM4C series e Microcontrollers ZILOG 286 289 and Z8Fxxxx Z8FMOxxxxx Z16Fxxxx ZGP323xxxxxx ZLF645xxxxxxx ZLP12840xxxxx ZLP323xxxxxxx series e Microcontrollers other EM Microelectronic Spansion Fujitsu Goal Semiconductor Hitachi Holtek Novatek Macronix Princeton Winbond Samsung Toshiba Mitsubishi Realtek M Square ASP Coreriver Gencore EXODUS Microelectronic Topro TinyARM VersaChips SunplusIT M Square QIXIN Signetic Tekmos Weltrend Amic Cyrod Technologies Ember Ramtron Nordic Semiconductor Samsung ABOV Semiconductor Notes For all supported devices see actual Device list www elnec com Package support e package support includes DIP SDIP PLCC JLCC SOIC SOP PSOP SSOP TSOP TSOPII TSSOP QFP PQFP TQFP VQFP QFN MLF SON BGA EBGA FBGA VFBGA UBGA FTBGA LAP CSP SCSP LQFP MQFP HVQFN QLP QIP etc Programming speed Notes e t is important to say we always use random numbers data pattern for programming speed testing Some our competitors use sparse data pattern where only small amount of non blank data are programmed or there are used data with only few 0 bits FE EF k M 39 Elnec s r o etc This cheating approach can decrease programming time considerably If you plan to compare ask always which pattern they use e The programming
171. rt of device programming is following 1 Start of programming batch 2 Device insertion test 3 Serialization sequence consists from four steps call of serialization generator with proper command line parameters to generate serialization dat file waiting for serialization dat file to be available reading of serialization dat file data to programmer buffer the data will be used for programming device delete serialization dat file after reading of data from it Device programming Device verification Operation result check This is fully managed by PG4UW control program Serialization generator does not have to do any operation according to operation result Control program will call serialization generator with required command line parameters OK PG4UW makes request for next serial number Next serial number was read from dat file in step 3 Call of serialization generator will have next serial number specified in command line ERROR PG4UW does not make request for new serial number Recent serial number will be used for next device Next call of serialization generator will have recent serial number specified in command line 7T Repeat programming with next device E au H Jl 94 LE C PG4UW software Yes goto step 2 No continue at step 8 8 End of programming batch Notes In case of error programming result recent seria
172. rt s for BeeHive4 Site 1 not found EC 0003 DE FFFFFFFF Scanning port s for BeeHive4 Site 1 not found EC 0003 DE FFFFFFFF Scanning port s for BeeHive204 Site 1 not found EC 0003 DE FFFFFFFF Scanning port s for BeeHive204AP Site 1 found Scanning port s for BeeHive204AP AU Site 1 not found Scanning port s for BeeHive304 Site 1 not found for BeeHive8S Site 1 for BeeHive208S Site 1 Scanning port s for BeeProg not found EC 0003 DE FFFFFFFF Scanning port s for BeeProg not found 0003 DE FFFFFFFF Scanning port s for BeeProg2 not found EC 0003 DE FFFFFFFF Internal programmer firmware is being checked T 0 Checking internal buffer memory wait please done 2 Establishing connection done Reset statistics Programmer serial number 1200 00014 El Count down Disabled Reload Count down Addresses hex Programmer N Og See Stat End Type BeeProg3 Device x8 8500008 8 S3rFFrFr SN 1200 00014 Pot USB Buffer x8 8400088 8 83FFFFF YESI Manual File 8 S E not not not found found FFFFFEEF EC 0003 DE FFFFFFFF not found EC 0003 DE FFFFFFFF not found EC 0003 DE FFFFFFFF found at port USB Statistics Success NNNM Operational failure 0 Sar Si UO Adapter sung UOE TSO TSOP48 18 4mm NAND Under main menu are placed
173. rt_ 2 log Site s 3 Log file name report 3 log and so on Following options can be set for Log file creation e option Append Log file sets usage of Log file on Log file will be created after the first restart of PG4UWMC For all other next starts of PG4UWMC the existing Log file will be preserved and new data will be appended to the existing Log file e option Rewrite Log file sets usage of Log file on Log file will be created after the first restart of PG4UWMC For all other next starts of PG4UWMC the existing Log file will be rewritten and new Log file will be created Data from previous Log file will be deleted Checkbox Add date information to Log file name allows user to set date information into Log file name specified by user in Log file name edit box When the checkbox is checked program automatically adds current date string into user specified Log file name by the following rules If user specified log file name has format user log file name log file extension The name with added date will be user log file name yyyy mmm dd log file extension k F UE 129 Elnec s r o The new part representing of date consists of yyyy year mmm month and dd day Example User specifies Log file name c logs myfile log The final log file name with added date will look like this have a date November 7th 2006 c logs myfile 2006 nov 07 log If do you wish to have log file name without any pre
174. s All settings of this menu are used for programming process serialization and associated file control Device Device options Operation options All settings of this command are used for programming process control This is a flexible environment which content items associated with current device and programmer type Items which are valid for the current device but aren t supported by current programmer are disabled These settings are saving to disk along with associated device by File Exit and save command The commonly used term are also explained in the user manual to programmer The special terms used here are exactly the terms used by manufacturer of respective chip Please read the documentation to the chip you want to program for explanation of all used terms List of commonly used items group Addresses device start address default 0 device end address default device size 1 buffer start address default 0 Split default none This option allows setting special mode of buffer when programming or reading device Using split options is particularly useful when using 8 bit data memory devices in 16 bit or 32 bit applications Following table describes buffer to device and device to buffer data transfer Split type Device Buffer Address assignment None Device ADDR Buffer ADDR Wc cm a c 79 Even Device ADDR Elnec s r o Buffer 2 ADDR Odd Device ADDR Buffer 1 2 ADDR 1 4 Device ADDR
175. s Program flow executes statements from each procedure Procedures may be optional and recommended Recommended procedures are marked implicitly You can enable or disable procedures according to your needs Jam Player executes only marked procedures Other procedures are ignored Number of procedures is different it depends on Jam file Variables Jam file of version 1 does not know statements action and procedure Program flow starts to run instructions according to boolean variables with prefix DO something Jam Player executes all marked DO something cases in algorithm Number of variables procedures is constant it does not depend on Jam file If you need some new boolean variables with prefix DO something then contact us OK Accept selected action with appropriate procedures which are marked Information It displays information about Jam file You can preview Notes and source file in dialog Device according to Jam file File is made for a specific device Device name is found in Jam file in part NOTE identifier DEVICE Device name must be identical with name of the device selected in dialog Select i n n A 101 Elnec s r o device When devices are different software will indicate this situation by warning message during start of the Jam Player JAM file information dialog Information L Notes Source File Identifier Text CREATOR QUARTUS Il JAM COMPOSER 4 0 DATE 2004 03 22 DEVICE EPM70644E FILE c4
176. same activity as at start the control program The command clears a list of default devices without the current device if the new selected programmer supports this one Time of connection establishment with selected programmer may vary During the connection the programmer s firmware is verified and it can happen that the programmer will be restarted In this case will be the progress of the programmer s reboot in separate window shown Info xS Waiting for programmer Progress Programmer Elapsed time 0000000008 BUSY Buffer pointer 0000000000 Fie pointer 0000000000 e During the reboot sequence will all LEDs of the programmer blinking If the reboot sequence ends only the Power LED poorly lit Part of the connection process is the testing of internal data storage SSD disk of the programmer Time of the test process may vary depending on the disk capacity amount of file system errors Progress of internal buffer testing is shown in separate window PG4UW Checking internal buffer memory wait please 106 LE PG4UW software This setting is saved to disk by command Options Save options Programmer Refind programmer This menu command is used to refind reestablish communication with currently selected programmer To select other type of programmer programmer communication parameters and to establish communication with newly selected programmer use menu Programmer Find programmer
177. second value definition which is written to buffer on address FFFF6 and has size 10 bytes i e the last byte of this value will be written to address FFFFF Note Adaress for Serialization is always assigned to actual device organization and buffer organization that control program is using for current device If the buffer organization is byte org x8 the Serialization Address will be byte address If the buffer organization is wider than byte e g 16 bit words x16 the Serialization Address will be word adaress Device Device options Serialization Playlist From file mode When you use a Playlist From file mode the serialization file has not serial values directly included The file contains name list of external files that contain serialization data Serialization data are then read from these external data files each file means one serialization step one device programmed Playlist From file mode is indicated in main window and info window of PG4UW control program on panel Serialization as From file pl serialization 89 Elnec s o File format From file serialization playlist file includes list of filenames which contain serialization data The file format is similar to classic serialization file format Following file format differences are for playlist files 1 the playlist file must have special header at the first no empty line of file The header is text line in format FILETYPE PG4UW SERIALIZATION PLAY
178. speed practically doesn t depend on PC type because data for programming and main part of programming algorithm are stored internally inside of the programmer e All devices mentioned below including both NAND Flash are programmed at their maximal speed the programming time can not be shorter e We re sorry but there exist not very much devices where the 20 MB s BeeProg3 programming speed can be utilized Device Size bits Operation Time JS28FOOAM29EWH parallel NOR Flash 4000080hx16 1 Giga programming and verify 10 sec MT29F1G08ABAEAWP parallel NAND Flash 8400000hx8 1 Giga programming and verify 19 5 sec SDIN7DP2 8G eMMC NAND FLASH 1D2000000hx8 64Giga programming 1 342 sec S25FL164K serial Flash 800300hx8 64 Mega programming and verify 30 7 sec AT89LP51RD2 microcontroller 10000hx8 programming and verify 5 2 sec PIC32MX360F512L microcontroller 80000hx8 programming and verify 8 9 sec Conditions Core2 Duo 3 16 GHz 1G RAM USB 2 0 HS Windows 7 Version of SW 3 09 10 2014 1 Verification of programming is done by internal controller of eMMC device The device receives a block of data plus CRC if it all matches the internal controller confirm the proper programming SOFTWARE e Algorithms only manufacturer approved or certified algorithms are used Custom algorithms are available at additional fee e Algorithm updates software updates are available regularly approx every 4
179. st plus with using AP3 diagnostic POD enclosed with the standard delivery package Selftest of programmer site e Run selftest of programmer site in PG4UW menu Programmer Selftest Selftest plus of programmer site e Put together Board A with Board B of AP3 diagnostic POD 21 Elnec s r o e Insert AP3 diagnostic POD into programming module interface PMI of the programmer site e Run selftest of programmer in PG4UW menu Programmer Selftest plus AP3 diagnostic POD for Selftest plus Calibration test e Disconnect Board A from Board B of AP3 diagnostic POD e Insert Board A of AP3 diagnostic POD into programming module interface PMI of the programmer site e Run calibration test of programmer in PG4UW menu Programmer Calibration test AP3 diagnostic POD for Calibration test ma 22 LE Q BeeHive304 Technical specification HARDWARE Base unit DACs e USB 2 0 high speed compatible port up to 480 Mb s transfer rate e 100Mbit LAN port e on board intelligence powerful processor ARM9 400MHz and FPGA based state machine basic clock 50 MHz plus PLL built in mSATA SSD as internal buffer 32GB upgradeable to higher capacity ethree D A converters for VCC1 VCC2 and VPP controllable rise and fall time e VCC1 VCC2 range 0 8V 7V 1A step 10mV e VPP range OV 25V 1A step 25mV e Temperature controlled fans e selftest capability e protection against surge and ESD on power supply inpu
180. stall software tool FlashPro component of Actel Libero tool suite or can be downloads from lt http www actel com gt as a standalone version run FlashPro e click the New Project button or from the File menu choose New Project and type in the name of your project in the Project Name field Select desired programming mode single device or chain and click OK e from the Configuration menu choose Load Programming File and select corresponding pdb file to convert e from the File menu choose Export Export Single Device STAPL File Type in file name and click Save button for export STAPL file to the directory you specified Wa sss C mnan 103 Elnec s r o e Conversion of PDB file to STAPL has finish and created stp file can be used for programming Actel device Frequently asked questions about Actel Q How can we identify verify already programmed Actel device A There are several possible options to get this done Each option action is varying from each other in method of comparing already programmed Actel device with loaded STAPL file There are the following appropriate mentioned actions in a STP file DEVICE_INFO read and among other things display to log window also the checksum of the programming environment programmed into the device This value can be manually compared by user with the value in the header of the STAPL file can be viewed in Information window Caution Value of the programmed device checksum isn
181. stic POD Board is connected with Board B which is included in standard delivery of programmer Recommendations how often run Selftest plus you can find at Maintenance section Programmer Calibration test Command executes test of programmer s calibration values using AP3 diagnostic POD Board A only which is included in standard delivery of programmer There are tested voltage levels of TTL drivers VCCP VPP1 and VPP2 voltages on each pin of ZIF socket Result of the Calibration Test can be saved into file and or printed for next use Options The Options menu contains commands that let you view and change various default settings Options General options General options dialog allows user to control and set variety of PG4UW program options The options can be saved to PG4UW configuration file when closing PG4UW application or anytime by command Options Save options File options File options page allows you to set options for erase buffer before loading auto reload of current file and recognition method of file formats for loaded files Erase buffer before loading option sets erasing buffer with desired value automatically before loading of data file In group When current file is modified by another process can be set mode of reloading of actually loaded current file There are three choices e Prompt before reloading file e Reload automatically e Ignore change scanning of current file There are three situ
182. subject of wear and tear or mechanically damaged Equally the warranty does not apply to products opened and or repaired and or altered by personnel not authorized by Elnec or to products that have been misused abused damaged by accident or that were improperly installed Repairs which does not fall under conditions mentioned above will be billed according to the costs of replacement parts service time and shipping Elnec or its distributors will determine whether the defective product should be repaired or replaced and decide whether or not the warranty applies Elnec puts its best effort to develop hardware and software that is stable and reliable Elnec does not guarantee that the hardware and software are free of bugs errors or defects Elnec s liability is always limited to contract s net value paid by a buyer 149 Elnec s r o Elnec is not liable for e Damage caused by inappropriate use or handling of products Damage caused by users or third parties modifying or trying to modify products damage caused by viruses root kits etc Any further damage or consequent damage caused by hardware errors or software bugs For example lost profits lost savings damages arose from claims of third parties against a client damage or loss of recorded data or files renown loss caused by impossibility to use etc Manufacturer Elnec s o Jana Bottu 5 SK 08001 Presov Slovakia T 42151 77 34 328
183. t This command executes a test of device selected from list of supported devices for example static RAM on programmers which support this test The sRAM test is done in 3 basic steps Test of data drivers functionality Drivers test test of DO D7 signals reaction on CE OE and WE in first cycle write data 0x55 to the address 0 0 CE L WE L OE H and compare with data read from same address CE L WE H OE L data have to be valid then other combination control pins CE L WE H OE H CE H WE H OE L is set and data have to be not valid data bus driver have to be inactive e sRAM test basic part Programmer here writes random data to SRAM device and then verifies the content 98 LE PG4UW software e RAM test advanced optional Walking one and Walking zero are common terms who need explanation can study http www google com search q memory test walking one http www google com search q memory test walking zero Notes it is possible to select a delay between write operation and succeeding verify of programmed data at condition the device is supplied in intent to detect leak of the bits programmer hasn t capability to detect errors like too big current on the signal pins or such analog errors all tests are done at low frequency meant compared with maximal speed of tested device therefore usage of such test is limited Conclusions the device programmer can provide o
184. t USB and LAN port and pins of programming module interface PMI IEC 1000 4 2 15kV air 8kV contact e banana jack for ESD wrist straps connection e screw with two washers for connection to ground Pindriver available on the programming module interface connectors for programming modules e pindrivers 64 universal e VCC1 VCC2 and VPP can be connected to each pin e perfect ground for each pin e2 independent FPGA based TTL driver provides H L CLK pull up pull down on all pindriver pins logic level 0 75V 5V IOL and IOH current 20mA logic signals frequency up to 125MHz 3 3V 80MHz 5V e analog pindriver output level selectable from 0 8 V up to 25V e current limitation overcurrent shutdown power failure shutdown e continuity test each pin is tested before every programming operation DEVICE SUPPORT Programmer using programming modules e NAND FLASH Samsung K9xxx KFxxx SK Hynix ex Hynix HY27xxx H27xxx Toshiba TC58xxx TH58xxx Micron MT29Fxxx ex Numonyx ex STM NANDxxx Spansion S30Mxxx S34xxx 3D Plus 3DFNxxx ATO Solution AFNDxxx Fidelix FMNDxxx Eon Silicon Sol EN27xxx ESMT F59xxx LBA NAND Toshiba THGVNxxx e serial NAND FLASH Micron MT29Fxxx GigaDevice GD5Fxxx e eMMC Hynix H26Mxxxxxxxx Kingston KE44B xxxx xxx Micron MTFCxxxxxx Numonyx NANDxxxxxxxx Phison PSM4A11 xx Samsung KLMxxxxxxx SanDisk SDINxxx xx Toshiba THGBMxxxxxxxxxx Wa ss ra a c Ft 23 Elnec s r o e Multi chip de
185. t activities result without burden of operator with non important details There is used a project file to control the BeeHive304 multiprogramming system Project file contains user data chip programming setup information chip configuration data auto programming command sequence etc Therefore the operator error is minimized because the project file is normally created and proofed by engineering and then given to the operator The optional protected mode can be set for project file to avoid unwanted changes of the project file Each chip may be programmed with different data such as serial number configuration and calibration information using rich features serialization system e PG4UW is control software for engineering mode or programming site driver This part of the software is focused to the quick and easy preparation of the project file for usage in the production mode control software Each programming site is driven by a comfortable and easy to use control program with pull down menu hot keys and on line help It is the same years proven software as is used for all other Elnec single site programmers Selecting of device is performed by its class by manufacturer or simply by typing a fragment of vendor name and or part number Standard device related commands read blank check program verify erase are boosted by some test functions insertion test signature byte check and some special functions autoincrement production mode
186. tallation the Network Mode feature will not be installed by default You have to activate it by executing installation procedure with command line parameter Inetworkmode e g Start Run C pg4uwarc exe networkmode After some initial screens an option to include installation of PG4UWMC Network Agent and selection of Programmers Group will appear Please define name of Programmers group which this installed computer will belong to PG4UWMC Network Agent will be configured to start with windows Documents Pictures ma Computer Type the name of a program folder document or Internet Connect To a resource and Windows will open it for you Control Panel 01 networkmode E Devices and Printers Open 1 This task will be created with administrative privileges Default Programs Help and Support gt All Programs Cancel Browse Installation procedure with command line parameter networkmode 136 PG4UWNC software Welcome to Elnec programmers software setup wizard Setup will install PG4UW PG4UWMC universal control program for Einec programmers version 2 99nw01 08 2013 It is recommended that you close all other applications before continuing In case of unusual behaviour during the installation please check your antivirus firewall configuration especially custom rules for files copying Note for programmers with USB connection
187. ted option Move used file to specified directory User can specify target directory into which used serialization data files will be moved Following error indicators are used in Playlist From file serialization e s n error 3 serialization data file does not exist e s n error 34 used serialization data file can not be deleted maybe serialization files are placed on write protected disk e s n error 35 used serialization data file can not be moved to target directory of used serialization files maybe serialization files are placed on write protected disk or target directory does not exist Device Device options Serialization Custom generator mode Custom generator serialization mode provide maximum flexible serialization mode because the user have serialization system fully in his hands When Custom generator mode of serialization is selected serial numbers are generated by user made program on the fly before each device is programmed in PG4UW PG4UWMC Custom generator mode serialization allows user to generate unique sequence of serial numbers desired Serial numbers can be incremented as a linear sequence or completely non linear sequence The user made serial number generator program details are described later in the following section Custom generator program Examples There are also example exe and C C source files available The files are placed in the PG4UW installation directory in Examples subdirectory as
188. ter items fragments has OR function If you want to enter exact filter string including spaces use quotation mark character If you wish display additional information about the current device use button Device info or an lt Ctrl F1 gt key This command provides a size of device organization programming algorithm and a list of programmers including auxiliary modules that supported this device You can find here package information and other general information about current device too The currently displayed device list can be saved to text file by pressing button Save currently displayed list to file Select device This window allows selecting the desired type of the device from all devices supported by current programmer Supported devices are displayed in a list box Device can be select by double click on a line from list with desired manufacturer name and device number or by entering manufacturer name and or device number in a search box use a key Space as a separation character and press Enter or click OK button Press a key lt Esc gt or click Cancel button at any time to cancel device selection without affecting the currently selected device Selected device is automatically saved to buffer of default devices This buffer is accessible with Device Select from default devices command If you wish display additional information about the current device use button Device info or an lt Ctrl F1
189. through JTAG interface VME files are generated by design software which is provided by manufacturer of respective programmable device It is important to remember that a support of most of the new devices requires only a software update because the BeeHive304 is truly a universal programmer With our prompt service support for the new device can be added within hours See AlgOR Algorithm On Request service and OnDemand software for details EF Bg 18 BeeHive304 This service is almost in all cases free Please note however that we can ask the customer to share the costs if development and manufacturing costs are too high Advanced design of the BeeHive304 universal programmer including protective circuits original brand components careful manufacturing and burning in allow us to provide a three year warranty on parts and workmanship of the programmer limited to 500 insertion of programming module to programming module interface connectors Elnec provides free shipping of programmer repaired under warranty back to customers worldwide The warranty is valid from the date of purchase Registration of the product will speed up every repair request Registration should be performed within 60 days from the date of purchase BeeHive304 elements 1 programming module interface PMI 2 work result LEDs of site 3 power sleep LED of site 4 6x4 2mm holes for fastening BeeHive304 to
190. ti project Wizard is automatically opened In Multi project Wizard add required projects by Add project button Each project represents one sub device of multichip device e After completing of sub project selection use button Build Multi project to create final Multi project file Program will prompt for name of new Multi project file Final Multi project file will contain all sub projects listed in Table 1 Sub projects Notes There is possible to create Multi project from any classic project files So association with Master device is not mandatory It is only on user s consideration how to combine correct sub devices sub projects into one Multi project Multi project Wizard can be opened by one of following actions e selecting of Master multichip device from Select Device dialog in PG4UW e loading of created Multi project file e opening dialog Multi project Wizard directly from PG4UW menu Options Multi project Wizard 1 Convention for Master device and Sub device part names in PG4UW device list Master device Multichip original part name package type Sub devices Multichip original part name package type part1 Multichip original part name package type part2 Multichip original part name package type part n Example Master device TV0057A002CAGD FBGA 107 Sub devices 1 TV0057A002CAGD FBGA107 NAND 2 TV0057A002CAGD FBGA107 NOR Using of Multi project for running of device operation Typical usa
191. tions Find programmer this mode will be disabled The Response time is interval between insertion of the chip into the ZIF socket and the start of selected device operation If longer positioning of the chip in the ZIF socket is necessary select elongated response time Programming adapter used shows name of adapter used with currently selected device Pins of ZIF socket excluded from sensing contains list of pins that will be ignored from testing by Automatic YES The reason to ignore the pins is mostly capacitors connected to these pins Button Setting Automatic YES parameters will run wizard that can detect permanently connected pins pins with capacitors and set these pins to list of pins excluded from sensing After selecting of device list of excluded pins contains default excluded pins for selected device adapter If other bypass capacitors to universal programmer and or device adapter are added by customer there is necessary to run Automatic YES parameters wizard to override default parameters and detect other pins with capacitors In Device removal hold off time is time period between you removed device from the ZIF socket and the time when software starts to check the socket for new device inserted This interval is in seconds and must be from 1 to 120 default value is 2 seconds In Device insertion complete time is possible to set a time within all pins of the device have to be properly inserted after a first pin s detect
192. tly used project When you use a project it is added to the Reload project list Projects are listed in order depending on time of use of them Lastly used projects are listed before projects used far off 67 Elnec s r o To Reload a project 1 From the File menu choose Reload project 2 List of lastly used projects is displayed Click the project you want to reload File Project options This option is used for display edit project options of actually loaded project Project options mean basic description of project including following project data device name and manufacturer project creation date e user defined project description arbitrary text e g project author and other text data for more detailed project description User can directly edit user defined project description only Device name manufacturer project date and program version are generated automatically by program File Load encryption table This command loads the data from binary file from disk and it saves them into the part of memory reserved for an encryption security table File Save encryption table This command writes the content of the memory s part reserved for an encryption table into the file on the disk as a binary data File Exit without save The command deallocates heap cancels buffer on disk if exists and returns back to the operation system File Exit and save The command deallocates heap cancels
193. tsjob report 000 myproject jrp Example 2 Let s use the conditions from Example 1 but assume there is already one report file present Name of this file is report 000 myproject jrp The final Job Report file name of new report will be d job reportsjob report 001 myproject jrp Note the order inside file name is incremented by 1 When Automatically save Job Report file setting is set no Job Report dialogs appears when generating Job Report Newly generated Job Report is saved to file without any dialogs or messages if no error occurs while saving to file If the checkbox Automatically save Job Report file is unchecked the PG4UWMC will show Job Report dialog every time needed In the Job Report dialog user can select operation to do with Job Report If user selects no operation Close button the Job Report will be written to PG4UWMC Log Window only Example of typical Job Report dialog is shown below Job Report Macronix MX29GL128EH TSOP56 BeeHive304 S N 3004 00001 Overall statistics _Elnec Job Report created at 2014 10 20 year month day Project Name MX29GL128EH eprj Project Path Project Checskum 63F9h CRC 16 Project Date 2014 10 20 16 42 08 Project Size 16 01MB Project Created In PG4UW 3 09 10 2014 Project Author peter m Protected Mode Enabled Software Revision PG4UW ver 3 09 10 2014 Programmer BeeHive304 S N 3004 00001 Programming Adapte
194. turer Main HTML file is placed to directory where this control program for programmers is located Partial HTML files are placed to subdirectory DEV HTML placed to the directory where control program for programmers is located Programmer Create problem report Command Create problem report is used for writing more particular diagnostic information to Log window and consequently copy Log window content to clipboard The Log window content can be placed from clipboard to any text editor Problem report is useful when error occurs in control program or programmer and kind of the error is that user can not resolve it oneself and he must contact programmer manufacturer In this case when customer send message to manufacturer about his problem it is good to send also problem report Problem report can help manufacturer to localize the reason of error and resolve it sooner About When you choose the Info command from the menu a window appears showing copyright and version information 123 PG4UWMC software 124 A Fa Program PG4UWMC is used for fully independent concurrent device multiprogramming on more programmers or on one multiprogramming capable programmer connected to USB ports to the same computer PG4UWMC is focused to the easy monitoring of high volume production operations Operator friendly user interface of PG4UWMC combines many powerful functions with ease of use and provides overview of all important activities
195. up exe and follow the on screen instructions Please for latest information about the programmer hardware and software see www elnec com Run the control program Double click on gt After start control program PG4UW automatically scans all existing ports and searches for any connected Elnec programmer Program PG4UW is common for all Elnec programmers hence PG4UW will try to find all supported programmers Menu File is used for source files manipulation settings and viewing directory changes drives changes start and finish address of buffer for loading and saving files and loading and saving projects Menu Buffer is used for buffer manipulation block operation filling a part of buffer with string erasing checksum and of course editing and viewing with other items find and replace string printing Menu Device is used for a work with selected programmable device select read blank check program verify erase and setting of programming process serialization and associated file control Menu Programmer is used for work with programmer Menu Options is used to view and change various default settings Menu Help is used for view supported devices and programmers and information about program version 11 Elnec s r o Programming a device 1 select device click on 2 load data into buffer a from file click on gt b from device insert device to AP3 programming module ZIF and cl
196. urrently selected programmer The information includes e programmer type port via programmer is connected to computer programmer status can be one of following e Ready programmer is connected successfully found and ready to work e Not found programmer is not found e Demo when user selects option button Demo in dialog Find programmer e YES mode some types of programmers allow to use special modes of starting next device operation in one of following ways e manually by control program dialog Repeat e manually by button START placed directly on programmer e automatically programmer automatically detects device removing and insertion of new device For more details please look at Programmer Automatic YES Panel Device It contains information about currently selected device The information includes e device name type and manufacturer e device adapter needed to use with currently selected programmer Was uraI R H Ho9r 60 LE PG4UW software e reference to detailed Device info dialog available also by menu Device Device info e reference to Advanced device options this is available for some types of devices only Panel Statistics It contains statistics information about currently selected device The information includes e number of successful failure and total device operations e count down status indicating number of remaining devices Statistics and c
197. value fill buffer with random data save buffer data to binary file This command is available for secondary buffers only Secondary buffers are special areas used for some devices for example Data EEPROM for Microchip PlCmicro devices Commands for Load Save data to from Main buffer are available in main menu File and also by buttons Load Save in main application window copy block is used to copy specified block of data in current buffer on new address Target address needn t be out from source block addresses load data from binary file to buffer This command is available for secondary buffers only For more information see notes for save buffer data command Shift F2 above move block is used to move specified block of data in current buffer on new address Target address needn t be out from source block addresses Source address block or part will be filled by topical blank character swap bytes command swaps a high and low order of byte pairs in current buffer block This block must start on even address and must have an even number of bytes If these conditions do not fulfill the program modifies addresses itself start address is moved on lower even address and or end address is moved on higher odd address print buffer find string max length 16 ASCII characters find and replace string max 16 ASCII chars change current address change mode view edit switch the mode of buffer data view between 8 bit and 16 bit vie
198. ve304 can be mounted on base plate by 6 screws 4 with nuts Length of screw depends on base plate thickness On base plate can be 4 5mm holes replaced with M4 internal threads Drawing for mounting programmer on base plate uttino abo 4d v n s aerd uo payunow st sewwesboud uaun aue d eseq uo ilqu ssu 53 ES ui BeeHive304 can be mounted below base plate 6 screws M4 with nuts Length of screw depends on base plate thickness On base plate can be o 4 internal threads 5mm holes replaced with M4 Drawing for mounting programmer below base plate Assembly holes on base plane when programmer is mounted bellow base plate base plate programmer outline Hole for programming modules 54 aao Se BeeProg3 In the picture below are overall dimensions of BeeProg3 with programming module Total height of programmer with installed programming modules depends of programming module ZIF socket height Total height can be determined by 56 5mm ZIF socket height Right top view to BeeProg3 with dimensions Minimal distance between BeeHive304 and other object is 2cm It is necessary for good cooling of BeeHive304 and air ventilation around it At X and Y axis a center of ZIF is same with center of programming module 55 Elnec s r o BeeProg3 can be mounted on base plate by 3 screws M3
199. vices NAND RAM NOR RAM NOR NOR RAM NAND NOR RAM e Serial Flash standard SPI high performance Dual I O SPI and Quad I O SPI 25Bxxx 25Dxxx 25Exxx 25Fxxx 25Lxxx 25Mxxx 25Pxxx 25Qxxx 25Sxxx 25Txxx 25Uxxx 25V xxx ZBW xxx 25Xxxx 26Vxxx 45PExx MX66Lxxx S7OFLxxx DataFlash AT45Dxxx AT26Dxxx e parallel NOR Flash 28Fxxx 29Cxxx 29Fxxx 29GLxxx 29BVxxx 29LVxxx 29W xxx 49F xxx series Samsung s K8Fxxxx 8 K8Sxxxx K8Pxxxx series e EPROM NMOS CMOS 27xxx and 27Cxxx series e EEPROM NMOS CMOS 28xxx 28C xxx 27EExxx series 3D Plus 3DEEXxxxxxxxx emDOC H3 SanDisk ex M Systems SDED5xxx SDED7xxx MD2533xxx MD2534xxx Hynix HY23xxx e FRAM Ramtron e MRAM Everspin MRxxxxx8x 3D Plus 3DMRxxxxxxxx e NV RAM Dallas DSxxx SGS Inmos MKxxx SIMTEK STKxxx XICOR 2xxx ZMD U63x series e Serial E E PROM Serial E EJPROM 11LCxxx 24Cxxx 24Fxxx 25Cxxx 30TSExxx 34Cxxx 34TSxx 59Cxxx 85xxx 93Cxxx NVM3060 MDAxxx series full support for LV series AT88SCxxx e Serial FRAM Cypress Ramtron FM24xxxxxx FM25xxxxxx Fujitsu MB85ROCxxxx MB85RSxxxx Lapis OKI Rohm MR44xxxxx MR45xxxxx e Serial MRAM Everspin MH20xxx MH25xxx e Configuration EE PROM XCFxxx XC17xxxx XC18Vxxx EPCxxx EPCSxxx AT17xxx AT18F xxx 37LVxx 1 Wire E E PROM DS1xxx DS2xxx e PLD Altera MAX 3000A 7000A MAX 7000B MAX 7000S MAX7000AE MAX II G Z MAX V ePLD Lattice ispGAL22V10x ispLSI1xxx ispLSI1xxxEA
200. w It can be also doing by mouse clicking on the button to the right of View Edit mode buffer indicator This button indicates actual data view mode 8 bit or 16 bit too checksum dialog allows counting checksum of selected block of buffer move cursor up down right and left jump on start end current line jump on previous next page Ctrl PgUp PgDn jump on start end current page Ctrl Home End jump on start end current device ShifttHome End jump on start end current buffer Backspace move cursor one position left back 69 Elnec s r o Note characters 20H FFH mode ASCII and numbers 0 9 A F mode HEX immediately changes content of edit area Warning Editing of ASCII characters for word devices is disabled Print buffer This command allows write selected part of buffer to printer or to file Program uses at it an external text editor in which selected block of buffer is displayed and can be printed or saved to file too By default is set simple text editor notepad exe which is standard part of all versions of Windows In Print buffer dialog are following options Block start Defines start address of selected block in buffer Block end Defines end address of selected block in buffer External editor This item defines path and name of external program which has to be used as text viewer for selected block of buffer By default is set simple text editor notepad exe which is stan
201. weeks free of charge OnDemand version of software is available for highly needed chips support and or bugs fixes Available nearly daily depending on request eMain features revision history session logging on line help device and algorithm information Device operations e standard e intelligent device selection by device type manufacturer or typed fragment of part name automatic ID based selection of EPROM Flash EPROM blank check read verify program erase configuration and security bit program checksum interpret the Jam Standard Test and Programming Language STAPL JEDEC standard JESD 71 e interpret the VME files compressed binary variation of SVF files e interpret the SVF files Serial Vector Format e interpret the Actel STAPL Player files e security e insertion test reverse insertion check contact check Fac Y H H 40 em BeeProg3 e ID byte check e special e production mode automatic start immediately after device insertion e multi project mode e lot of serialization modes more type of incremental modes from file mode custom generator mode e statistic e count down mode Buffer operations e view edit find replace e fill copy move byte swap word dword split e checksum byte word e print File load save e automatic file type identification Supported file formats e unformatted raw binary e HEX Intel Intel EXT Motorola S record MOS Exormax Tektronix AS
202. wing Address Data 0000800 00 00 00 00 00 00 00 00 xx xx xx XX XX XX XX XX means any byte value B Set the serialization options as following S N size 3 bytes Address 800h Start value 123456h Step 1 S N mode BIN Style HEX Save to buffer LS byte first Split serial number checked Split gap 2 byte s S N fragment size 2 byte s Split settings described above mean split of serial number into fragments with 16 bit 2 bytes size to buffer with gap of 2 bytes between fragments The correct serial number is set tightly before device programming operation starts The buffer content of serial number when programming the first device will be Address Data 0000800 56 34 00 00 12 00 00 00 xx xx xx XX XX XX XX XX The second device will have Address Data 0000800 57 34 00 00 12 00 00 00 xx xx xx XX XX XX XX XX Next devices will have same format of serial number incremented by 1 for each device Example 3 Following example uses the same serialization options as Example number 2a instead the serial number Split gap is set to 2 and 3 eee J 2 2 A 86 LE PG4UW software When Split gap is set to 2 bytes the buffer content will look as following Byte buffer organization Address Data 0000080 CD xx xx AB xx xx 34 xx xx 12 XX XX XX XX XX XX Word16 buffer organization Address Data 0000040 xxCD ABxx xxxx xx34 12 XXXX XXXX XXXX When Split gap is set to 3 bytes the buffer content will lo
203. xx 1 Wire E E PROM DS1xxx DS2xxx e PLD Altera MAX 3000A MAX 7000A MAX 7000B MAX 7000S MAX7000AE MAX II G Z MAX V ePLD Lattice ispGAL22V10x ispLSI1xxx ispLSI1xxxEA ispLSI2xxx ispLSI2xxxA ispLSI2xxxE ispLSI2xxxV ispLSI2xxxVE ispLSI2xxxVL LC4xxxB C V ZC ZE M4 xx xx M4A3 xx xx M4A5 xx xx M4LV xx xx ispCLOCK Power Manager ll ProcessorPM e PLD Xilinx XC9500 XC9500XL XC9500XV CoolRunner XPLA3 CoolRunner ll e SPLD CPLD series AMD AMI Atmel Cypress Gould ICT Lattice National Semicond Philips STMicroelectronics TI TMS Vantis VLSI e FPGA FPGA Microsemi Actel ProASIC3 IGLOO Fusion ProASICplus SmartFusion e FPGA Lattice MachXO MachXO2 LatticeXP LatticeXP2 ispXPGA e FPGA Xilinx Spartan 3AN e Clocks TI TMS Cypress e Special chips Atmel Tire Pressure Monitoring ATA6285N ATA6286N PWM controllers Zilker Labs Analog Devices Multi Phase ICs IR Chil Semiconductor Gamma buffers AUO Maxim TI e Microcontrollers MCS51 series 87Cxxx 87LVxx 89Cxxx 89Sxxx 89Fxxx 89LVxxx 89LSxxx 89LPxxx 89Exxx 89Lxxx all manufacturers Philips LPC series e Microcontrollers Atmel ARM AT91SAM7Sxx AT91SAM7Lxx AT91SAM7Xxx AT91SAM7XCxx AT91SAM7SExx series e Microcontrollers Atmel ARM9 AT91SAM9xxx series e Microcontrollers Cortex M3 ATSAM3Axxx ATSAM3Uxxx ATSAM3Nxxx ATSAM3Sxxx ATSAMD20 ATSAM3Xxxx series e Microcontrollers ARM Cortex M4 ATSAM4Sxxx series e Microcontroll
204. xxxx ZGP323xxxxxx ZLF645xxxxxxx ZLP12840xxxxx ZLP323xxxxxxx series n fl 25 Elnec s r o e Microcontrollers other EM Microelectronic Spansion Fujitsu Goal Semiconductor Hitachi Holtek Novatek Macronix Princeton Winbond Samsung Toshiba Mitsubishi Realtek M Square ASP Coreriver Gencore EXODUS Microelectronic Topro TinyARM VersaChips SunplusIT M Square QIXIN Signetic Tekmos Weltrend Amic Cyrod Technologies Ember Ramtron Nordic Semiconductor Samsung ABOV Semiconductor Notes e For all supported devices see actual Device list on www elnec com Package support e package support includes DIP SDIP PLCC JLCC SOIC SOP PSOP SSOP TSOP TSOPII TSSOP QFP PQFP TQFP VQFP QFN MLF SON BGA EBGA FBGA VFBGA UBGA FTBGA LAP CSP SCSP LQFP MQFP HVQFN QLP QIP etc Programming speed Notes e t is important to say that we always use random numbers data pattern for programming speed testing Some our competitors use sparse data pattern where only small amount of non blank data are programmed or there are used data with only few 0 bits FE EF etc This cheating approach can decrease programming time considerably If you plan to compare always ask which pattern they use e The programming speed practically doesn t depend on PC type because data for programming and main part of programm
205. y count is limited to last 15 items Note Address history values are common for all buffer data manipulation dialogs Default address range is set according to buffer range of selected device Selecting option Maintain last inserted values causes that for the next time you open this dialog previously confirmed values will be reloaded as default The reserved key lt Shift Ctrl F2 gt will bring out this menu from any menu and any time Buffer Duplicate buffer content This command performs duplicate buffer content in range of source EPROM to range of destination EPROM This procedure is suitable if there is used for example 27C512 EPROM to 27C256 EPROM position Note The procedure always uses buffer start address 00000h Buffer Checksum Checksum of data stored in buffer of PG4UW is useful to verify that the buffer data are correct PG4UW contains following functions related to checksum e Tab Checksum calculator this is on demand checksum calculator that can calculate and display various types of checksums of various data blocks in buffer 1 e Tab Main checksum options contains options for Automatic checksum calculator with Main checksum value displayed in main window of PG4UW in table Addresses and in Log window of PG4UW 2 ia x P F Jl 73 Elnec s o Checksum calculator contains on demand checksum calculator 1 Fields From address and To address are used to enter address range for main checksum c
206. zation program The number is entered and displayed in hexadecimal format Last serial number This option specifies the maximum value of serial number allowed If the value is non zero it will be passed to serialization generator program The generator is responsible for testing the value of last serial number and generate serial dat file with appropriate error information in the serialization dat file in case of current serial number greater then last serial number If the value of Last serial number is zero the value will not be passed to generator program Check box Call generator with RESULT parameter after device operation completed This new option has special purpose If there is requirement to call custom generator with special parameter RESULT the check box should be checked Otherwise it has to be unchecked the default state is unchecked If checked custom generator is called by PG4UW control program after each device operation is completed no matter the result of device operation is OK or Error Parameters for generator are created by PG4UW serialization engine Two parameters are used RESULT n TRUE FALSE where n is optional Programmer Site order number if multiprogramming is used TRUE means that device operation was finished OK FALSE means that device operation was finished with error N lt serial number gt specifies current serial number in the same way as for normal calling of serialization generator Custo
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