ST7MDT20J-EMU3 Probe User Guide
Contents
1. 2 3 e Updated Product Support with spare parts information and preparing to call procedure e Updated Section 4 3 with LVD limitation e Updated Section 1 Table 1 and Section 4 with new MCUs ST72344 e Updated Appendix C Firmware update procedure e Added Figure 2 Delivery check list illustrations e Added Section 3 2 Section 3 3 Section 3 4 and Section 3 5 application board connection information by package e Updated Section 3 1 flex adapter installation procedure based on new probe casing design e Updated Appendix C Firmware update procedure e Added Figure 1 EMU3 terminology and product structure e Updated Section 1 product terminology and description e Added Section 4 2 Emulator electrical characteristics e Updated Section 4 3 with information about STVD7 Discrepancies window e Updated Appendix B changing the TEB e Removed Appendix C Firmware update procedure e Added Appendix C description of user documentation and revision history Table 1 ST7MDT20J EMU3 Probe User Guide Revision History 25 29 Product Support ST7MDT20J EMU3 Probe User Guide PRODUCT SUPPORT If you experience any problems with this product or if you need spare parts or repairs contact the distributor or the STMicroelectronics sales office where you purchased the product Phone numbers for major sales regions are provided in the Contact List below In addition at our Internet sit2. Then insert the connector on the flex adapter into the socket on your application board as shown in Figure 6 and fasten with the provided screws Flex adapter Pin 1 indicators Socket Figure 6 TQFP44 10 x 10 connection scheme ST 13 29 3 Installing the flex adapter in your ST7 EMU3 probe ST7MDT20J EMU3 Probe User Guide 3 4 SDIP32 microcontroller package 1 Solder a SDIP32 socket onto your application board 2 Align the pin 1 indicators on the SDIP32 connector of the DB510 flex adapter then insert the SDIP32 end of the DB510 flex adapter into the socket on your application board as shown in Figure 7 Flex adapter Pin 1 indicators Figure 7 SDIP32 connection scheme 14 29 kT ST7MDT20J EMU3 Probe User Guide 3 Installing the flex adapter in your ST7 EMU3 probe 3 5 TQFP32 microcontroller package 1 Solder the TQFP32 male connector onto your application board 2 Align the pin 1 indicators for the TQFP32 end of the DB522 flex adapter and the TQFP32 male connector on the application board Then insert the pin of the TQFP32 male connector into the female connector of the DB522 flex adapter as shown in Figure 8 Pin 1 indicators TQFP32 male connector Application board Figure 8 TQFP32 7 x 7 connection scheme ky 15 29 4 Emulation characteristics ST7MDT20J EMU3 Probe User Guide 4 1 16 29 EMULATION CHARACTERISTICS On chip peripherals configuration You can configure certain on chip pe
3. pin flat cables to the ST Micro Connect connection ports on the top face of the probe housing 5 Continue by connecting your flex adapter to your application board A procedure for each supported package is provided in the following sections Section 3 2 SDIP42 microcontroller package on page 12 Section 3 3 TQFP44 10 x 10 microcontroller package on page 13 Section 3 4 SDIP32 microcontroller package on page 14 Section 3 5 TQFP32 microcontroller package on page 15 ky 11 29 3 Installing the flex adapter in your ST7 EMU3 probe ST7MDT20J EMU3 Probe User Guide 3 2 SDIP42 microcontroller package 1 Solder a SDIP42 socket onto your application board 2 Align the pin 1 indicators on the SDIP42 connector of the DB513 flex adapter then insert the into the socket on your application board as shown in Figure 5 Flex adapter Pin 1 indicators Socket Figure 5 SDIP42 connection scheme 12 29 IT ST7MDT20J EMU3 Probe User Guide 3 Installing the flex adapter in your ST7 EMU3 probe 3 3 TQFP44 10 x 10 microcontroller package 1 Solder the Yamaichi TQFP44 socket onto your application board according to the manufacturer s instructions Note Put aside the cover provided with the Yamaichi TQFP44 socket You can use it later to fasten an actual microcontroller into the socket in place of the emulator s flex adapter 2 Align the pin 1 indicators on the TQFP44 end of the DB521 flex adapter and the TQFP64 socket
4. probe and the SDIP32 socket mounted on your application board Connection accessories for the TQFP44 package a A 22 5 cm flex adapter with TQFP44 connector ref DB521 for connec tion between the EMUS3 probe and the TQFP44 socket mounted on your application board b One Yamaichi TQFP44 socket and cover kit with screws and washers to solder to your application board Connection accessories for the TQFP32 package a A19cm flex adapter with TQFP32 connector ref DB522 for connection between the EMU3 probe and the TQFP32 male connector mounted on your application board b A TQFP32 male connector to be soldered to your application board 7 29 2 Delivery Checklist ST7MDT20J EMU3 Probe User Guide Figure 2 ST7MDT20J EMU3 Probe kit 8 29 IT ST7MDT20J EMU3 Probe User Guide 3 Installing the flex adapter in your ST7 EMU3 probe 3 INSTALLING THE FLEX ADAPTER IN YOUR ST7 EMU3 PROBE The following sections tell you how to e connect the flex adapter to the TEB which is housed in the EMU3 probe e assemble the appropriate flex adapter and socket to emulate your target MCU The target MCUs that are emulated by the ST7MDT20J EMU3 Probe exist in various microcontroller packages four different packages in total To connect the emulator to your application board you must assemble connect the flex adapter adapters and or sockets for the microcontroller package you are using Table 1 summarizes the parts to assemble for e
5. to allow enough room for the microcontroller To compensate you will need to add a 5mm extension to the 10mm support on the DEB as shown in Figure 12 on page 23 The 5mm extensions are provided with your TEB and screw into the 10mm supports However remember that if you install a TEB with surface mounted microcontroller later you will have to remove the 5mm extensions 6 Once the TEB is firmly in place refasten the two screws that fix the TEB to the DEB as shown in Figure 10 Take care not to over tighten the screws 7 Connect the appropriate flex cable for your MCU package as described in Section 3 1 Connecting the flex adapter to the EMU3 probe on page 10 8 Replace the bottom panel of the probe housing such that the flex cable feeds through the slot provided 9 Reconnect the probe to the ST Micro Connect box by connecting the two 80 pin flat cables to the ST Micro Connect connection ports on the top face of the probe housing For details refer to the ST7 EMU3 Emulator User Manual If this is the first time that you have installed a new TEB in your EMU3 probe your emulator and probe firmware will be updated automatically by STVD7 when you start a debug session For more information refer to your STVD7 User Manual ST7MDT20J EMU3 Probe User Guide Appendix C Document Revision History APPENDIX C DOCUMENT REVISION HISTORY Date Revision Description Nov 2001 Jan 2002 Sep 2002 Mar 2005 2 0 2 1 2 2
6. ST7MDT20J EMU3 Probe User Guide Release 2 3 March 2005 Ref DOC ST7MDT20J EMU3 A INSTRUCTIONS FOR USE WARNING This product is conform to the 89 336 EEC Directive It complies with the ITE EN55022 standard for EMC emissions and generic 50082 1 1992 edition immunity standards This product is an FCC Class A apparatus In a residential environment it may cause radioelectrical disturbances Please refer to Appendix A EMC Conformity and Safety Requirements on page 21 for relevant safety information USE IN LIFE SUPPORT DEVICES OR SYSTEMS MUST BE EXPRESSLY AUTHORIZED STMicroelectronics PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF STMicroelectronics As used herein 1 Life support devices or systems are those 2 A critical component is any component of a life which a are intended for surgical implant into support device or system whose failure to the body or b support or sustain life and whose perform can reasonably be expected to cause the failure to perform when properly used in failure of the life support device or system or to accordance with instructions for use provided affect its safety or effectiveness with the product can be reasonably expected to result in significant injury to the user Table of Contents Chapter 1 Introduction Sai iesncis a ceinia dott seca eee ne ee wen eats 4 1 1 About the serman alS er
7. ach target MCU and package shows which flex adapter and TEB connector to use for each target MCU and package Table 1 Flex adapters and TEB connectors for supported MCU packages TEB connector Package Flex adapter required see Figure 4 SDIP42 a He a ref DB523 SDIP42 TQFP44 TQFP44 TQFP44 flex adapter AENEID 10 x 10 ref DB521 SDIP32 flex adapter Ose ref DB510 SDIP32 TQFP32 TQFP32 flex adapter connectar 7x7 ref DB522 ky 9 29 3 Installing the flex adapter in your ST7 EMU3 probe ST7MDT20J EMU3 Probe User Guide 3 1 Connecting the flex adapter to the EMU3 probe 1 Turn the EMUS3 probe upside down unscrew the retaining screw and slide the bottom out as shown in Figure 3 Figure 3 Opening the bottom of the probe 2 Using Table 1 identify the TEB connectors you must use for your microcontrollers package Connect the flex adapter supporting your microcontroller package to the appropriate connectors on the bottom face of the TEB Figure 4 shows a the SDIP32 flex adapter ref DB510 being inserted into its SDIP32 connector SDIP42 TQFP44 SDIP32 connector connector Figure 4 Connecting flex adapter to TEB 10 29 IT ST7MDT20J EMU3 Probe User Guide 3 Installing the flex adapter in your ST7 EMU3 probe 3 Replace the bottom panel of the probe housing so that the flex adapter feeds through the slot provided 4 Reconnect the probe to the ST Micro Connect box by connecting the two 80
8. ator User Manual set up instructions for your emulator ST72324B ST72F324 Datasheet or ST72321 Datasheet includes debugging and programming information that is specific to these ST7 families Because of the modularity of the EMU3 emulator this guide is delivered with the following products e ST 7MDT20J TEB e ST 7MDT20J EMU3 emulator ST7MDT20J EMU3 Probe User Guide 2 Delivery Checklist DELIVERY CHECKLIST The EMUS3 probe is typically delivered as part of the ST7MDT20J EMU3 emulator kit This kit contains the emulator components refer to the delivery check list in your ST7 EMU3 Emulator User Manual as well as all of the probe accessories listed below Owners of other versions of EMU3 emulators can configure them to emulate the ST72324 and ST72321 families with the ST7MDT20J TEB kit This kit includes the ST7MDT20J TEB ref DB518 to install in the probe as well as the connection accessories listed below No 2 5 The ST7MDT20J EMU3 Probe kit includes refer to Figure 2 1 The ST7 EMU3 probe with slots for connections to the ST Micro Connect box and analyzer input connector The ST7MDT20J EMU3 TEB target emulation board ref DB518 already installed in the ST7 EMUS probe A 21 5 cm flex adapter with SDIP42 connector ref DB523 for connection between the EMU3 probe and the SDIP42 socket mounted on your application board A 19 5 cm flex adapter with SDIP32 connector ref DB510 for connection between the EMU3
9. e and when the frequency is out of range the clock source will be switched to the backup oscillator OSCRANGE This option allows you to select the normal operating frequency range for the Clock Security System The following operating frequency range options are available e VLP 32 100 kHz e LP 1 2MHz e MP 2 4 MHz e MS 4 8 MHz e HS 8 16 MHz PLL This option allows you to Enable or Disable the PLL which allows the multiplication by two of the main input clock frequency The PLL is guaranteed only when the input frequency is between 2 and 4 MHz RSTC Reset clock cycle selection This option allows you to select the number of CPU cycles applied during the RESET phase and when exiting HALT mode You can choose between 4096 CPU cycles and 256 CPU cycles VD Voltage detection This option allows you to enable the voltage detection block LVD and AVD witha selected threshold for the LVD and AVD The options available are e LVD AVD OFF Both LVD and AVD are disabled e Highest Voltage e Medium Voltage e Lowest Voltage The last three options are equivalent regardless of the threshold voltage chosen above highest medium or lowest the threshold applied will be 1 5 V Refer to 17 29 4 Emulation characteristics ST7MDT20J EMU3 Probe User Guide 18 29 Emulation functional limitations and discrepancies on page 20 for more information WDG HALT Watchdog halt There are two options Reset or No Reset If this op
10. e www st com mcu you will find a complete listing of ST sales offices and distributors as well as documentation software downloads and user discussion groups to help you answer questions and stay up to date with our latest product developments Software updates All our latest software and related documentation are available for download from the ST Internet site www st com mcu For information about firmware and hardware revisions call your distributor or ST using the Contact List provided below Hardware spare parts 26 29 Your development tool comes with the hardware you need to set it up connect it to your PC and connect to your application However some components can be bought separately if you need additional ones You can order extra components such as sockets and adapters from STMicroelectronics from the component manufacturer or from a distributor Sockets Complete documentation and ordering information for P TQFP sockets from Yamaichi Ironwood CAB and Enplas are provided at the following Internet sites www yamaichi de www ironwoodelectronics com www cabgmbh com www enplas com Connectors Complete documentation and ordering information for SAMTEC connectors is provided at www samtec com SZA ST7MDT20J EMU3 Probe User Guide Product Support Getting prepared before you call Collect the following information about the product before contacting ST or your distributor 1 Name of the company where yo
11. ected to the antistatic floor covering or to the grounded equipment If no antistatic wrist or ankle strap is worn before each manipulation of the powered on tool you must touch the surface of the grounded worktable just behind the rear panel of the ST Micro Connect box It is recommended that antistatic gloves or finger coats be worn It is recommended that nylon clothing be avoided while performing any manipulation of parts 21 29 Appendix B Changing the TEB in your ST7 EMU3 probe ST7MDT20J EMU3 Probe User Guide APPENDIX B CHANGING THE TEB IN YOUR ST7 EMU3 PROBE Each EMU3 probe has a modular design that is made up of three emulation boards Two boards the Common Emulation Board CEB and the Dedicated Emulation Board DEB are identical for all ST7 EMU3 probes However the third board the Target Emulation Board TEB is specific to an ST7 MCU or a family of ST7 MCUs Therefore what makes each EMU3 probe distinct and defines its emulation capabilities is the type of TEB it contains The EMU3 probe has been designed to work with many different Target Emulation Boards TEBs This appendix tells you how to replace the TEB in your EMU3 probe 1 Turn the EMU3 probe upside down unscrew the retaining screw and slide the bottom out as shown in Figure 3 on page 10 2 Remove the two screws that secure the TEB to the rest of the probe boards as shown in Figure 10 Figure 10 Removing the TEB screws 3 Remove the
12. fice from the list above and ask to be transferred to an 8 bit microcontroller Field Applications Engineer Europe France 33 0 1 47 40 75 75 Germany 49 89 46 00 60 U K 44 162 889 0800 Asia Pacific Region Japan 81 3 3280 4120 Hong Kong 85 2 2861 5700 Sydney 61 2 9580 3811 Taipei 88 6 2 2378 8088 lt 28 29 Information furnished is believed to be accurate and reliable However STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics Specifications mentioned in this publication are subject to change without notice This publication supersedes and replaces all information previously supplied STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners 2005 STMicroelectronics All rights reserved STMicroelectronics group of companies Australia Belgium Brazil Canada China Czech Republic Finland France Germany Hong Kong India Israel Italy Japan Malaysia Malta Morocco Singapore Spain Sweden Switzerland United Ki
13. le se 6 ei diuiwpcewesdeab in SrabeBebvoiatatse Dabs butabebieboniddeidbaeibee 27 OAC INS iy of cocci pheiedatatet stadoarabtnchint Guarialor a Sujal ae Galatia an E aeae ee aE ES N 28 ky 3 29 1 Introduction ST7MDT20J EMU3 Probe User Guide 4 29 INTRODUCTION The ST7 EMU3 series emulators are the third generation of high end emulators for ST7 EMU3 series emulators are designed to provide a complete range of advanced debugging features In addition they contain all the adapters connectors and sockets you need to emulate any of the supported ST7 devices Your EMU3 probe is the component of the ST7 EMU3 emulator that contains target emulating hardware It connects to your PC via the ST Micro Connect box and it can connect to your application board in place of your ST7 The EMU3 probe s Target Emulation Board TEB contains the hardware that allows you to emulate a specific MCU or family of MCU s This allows you to emulate a range of ST7 MCUs with one EMU3 emulator For this reason the ST7MDT20J Target Emulation Board is delivered either as part of the ST7MDT20J EMU3 emulator kit or independently in the ST7MDT20J TEB kit The ST7MDT20J EMU3 emulator is designed to emulate MCUs in the ST72321 ST72324 and ST72344 families EMUS3 probe Target Emulation Board Adapters Device Adapters Sockets Connectors Figure 1 ST7MDTxxx EMU3 terminology ST7MDT20J EMU3 Probe User Guide 1 Introduction The EMU3 probe connec
14. ngdom United States of America www st com
15. on in STVD7 s Discrepancies window For more information refer to the STVD7 User Manual 4 3 1 LVD In reference to the option VD Voltage detection on page 17 e The LVD option is always turned off in HALT Active HALT mode no matter what the selected VD option is e The LVD thresholds for VDD rise and VDD fall are not compliant with the last version of the datasheet revision 1 4 for the ST72 F 521 321 324 emulator chip 20 29 IT ST7MDT20J EMU3 Probe User Guide Appendix A EMC Conformity and Safety Requirements APPENDIX A EMC CONFORMITY AND SAFETY REQUIREMENTS This product respects the EMC requirements of the European guideline 89 336 EEC under the following conditions Any tester equipment or tool used at any production step or for any manipulation of semiconductor devices must have its shield connected to ground All provided ferrites must be attached as described in the hardware installation instructions of the relevant user manual s The product must be placed on a conductive table top made of steel or clean aluminum grounded through a ground cable Before every contact with the emulator the operator must touch the surface of the grounded worktable just behind the rear panel of the ST Micro Connect box All manipulation of finished must be done at such a grounded worktable The worktable must be free of all non antistatic plastic objects It is recommended that you wear an antistatic wrist or ankle strap conn
16. reen aa ae a eei EE AEE 6 Chapter 2 Delivery Checklist 2000 e cece eee eee 7 Chapter 3 Installing the flex adapter in your ST7 EMU3 probe 9 3 1 Connecting the flex adapter to the EMU3 probe cccceceeceeeeeeeeeeeeeeeees 10 3 2 SDIP42 microcontroller package siciesseceeccieci cctacdisevccecanaass ihveseeae dadeeadensteaaect 12 3 3 TQFP44 10 x 10 microcontroller package ceccseesseeeeeeeeeeenseereeeeees 13 3 4 SDIPS32 microcontroller package cceeeeeeeeeeeeeeeeeeeeeeeeseeeeeeneeeeeeeeeeeetes 14 3 5 TQFP32 microcontroller Package scccscwsssiisiter ets cieetei asa an ces ectaabe woes lees 15 Chapter 4 Emulation characteristics 00 0c cee eee 16 4 1 On chip peripherals configuration ccceeececceceeeceeeeeeeeeeceeeeeeeetereeeeeeeeess 16 4 2 Emulator electrical characteristics c cceceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeees 19 4 3 Emulation functional limitations and discrepancies 0eeeeeeeeeees 20 Appendix A EMC Conformity and Safety Requirements 21 Appendix B Changing the TEB in your ST7 EMU3 probe 22 Appendix C Document Revision History 0000 eee eee 25 Product Support eriola wear ad ese dn eee da we Dae ee 26 Softwareupdate Ss tcsatiinretatic anticiareeeneasiaeictata heap ta caebc glance E N 26 Hardware spare DANS a es eateeioawtea iealacaa tacecs 26 Getting prepared before you Cal
17. ripherals in ST7 Visual Develop s MCU Configuration dialog box so that the ST7 EMU3 probe accurately emulates your target device The on chip peripheral options available for configuration for the ST7MDT20J EMUS TEB are described in this section MCU In STVD7 s MCU Selection window choose the MCU that you are using in your application A complete and up to date listing of supported MCUs for your ST7MDT20J EMU3 emulator is provided in the current version of the STVD7 Release Notes Clock The Clock frequency options are summarized in Table 2 below Table 2 Clock frequency options Fosc options Clock Source 16 MHz 8 MHz 4 MHz 2 MHz 1 MHz 500 kHz 250 kHz 125 kHz 62 5 kHz On probe Fixed frequency divided Other_freq_kHz On Probe Programmable Clock System Other_freq_kHz This option allows you to Enterthe Fosc value in kHz that will be generated by the Programmable Clock system on probe When the entered Fosc cannot be generated a warning message will be displayed giving the two nearest values that the Programmable Clock system is able to generate The user will have to retype the correct value ST7MDT20J EMU3 Probe User Guide 4 Emulation characteristics CSS Clock Security System This option allows you to Enable or Disable the clock security system function CSS which includes the clock filter and the backup safe oscillator When enabled the selected OSCRANGE is used to determine the operating frequency rang
18. target emulation board that is currently in the probe by gripping the edge of the board and pulling it straight out see Figure 11 Store it somewhere safe and static free for future use 22 29 IT ST7MDT20J EMU3 Probe User Guide Appendix B Changing the TEB in your ST7 EMU3 probe Figure 11 Removing the TEB The board under the TEB the Dedicated Emulation Board DEB should now be visible see Figure 12 4 Identify the top and bottom faces of the TEB you wish to install The bottom face is distinguished by the presence of two or more flex cable connectors placed side by side The top face is distinguishable by two DEB connectors along the long edges of the TEB There is one 84 pin connector and one 64 pin connector which match the DEB connectors shown in Figure 12 10mm TEB support with 5mm extension The 84 and 64 pin connectors on the DEB Figure 12 DEB and TEB connectors ST 23 29 Appendix B Changing the TEB in your ST7 EMU3 probe ST7MDT20J EMU3 Probe User Guide Note 24 29 5 Install the replacement TEB in the EMU3 probe by inserting the male 84 pin 64 pin connectors into the TEB s female 84 pin 64 pin connectors refer to Figure 12 Because the connectors are asymmetric there is only one possible connection scheme For some TEBs the microcontroller is mounted on a support and not soldered directly to the board In this case the TEB s 84 pin and 64 pin connectors have an additional height of 5mm
19. tion is set to Reset when the Watchdog is enabled and a Halt instruction is encountered in the executable code a chip reset will be performed If this option is set to No Reset no chip reset will be performed WDG Watchdog This option allows you to choose whether the watchdog timer is enabled by software or by hardware Refer to the datasheet of your target ST7 MCU for more information on the watchdog timer ST7MDT20J EMU3 Probe User Guide 4 Emulation characteristics 4 2 Emulator electrical characteristics This section details the specific electrical characteristics of the ST7MDT20J EMU3 emulator 4 2 1 Power follower characteristics The application power supply follower converts the application voltage Vapp to a voltage within the range of 2 4 V and 5 5 V The curve plotted on the graph below shows how the value of Vcc Emu evolves with the value of V app Vapp V Veco emu V Vape V Voc emu V 25 3 35 4 45 Vapp V Figure 9 Power follower behavior Note This curve this not necessarily characteristic of all emulators it is based on measurements taken using a single emulator Slight differences may occur between emulators ky 19 29 4 Emulation characteristics ST7MDT20J EMU3 Probe User Guide 4 3 Emulation functional limitations and discrepancies Some MCU s may present specific limitations and discrepancies You will find information specific to your MCU and your hardware configurati
20. ts to your application board via adapters device adapters and socket or connectors which are furnished as part of the emulator or TEB kit Adapters also called flex adapters connect to the probe s target emulation board Depending on the package of the target device they can be connected directly to a socket on your application board or a device adapter Device Adapters are special adapters for certain MCUs which allow the connection of a flex adapter to the socket on the application board A Socket which matches your MCU s package allows the connection of the probe s adapter device adapter to your application board Sockets have the added advantage of allowing you to install your ST7 without any modification of the application hardware once you have disconnected the probe from it ky 5 29 1 Introduction ST7MDT20J EMU3 Probe User Guide 1 1 6 29 About the user manuals This manual will help you connect your ST7MDT20J EMU3 emulator to your application board in place of your ST7 microcontroller Information is provided to help you connect using the provided adapters and sockets You will also find information about the emulation characteristics of your ST7MDT20J EMU3 emulator For information about the software and additional hardware intended for use with your emulator refer to the following documents that are included with it ST7 Visual Develop User Manual build and debug your application software ST7 EMU3 Emul
21. u purchased the product 2 Date of purchase 3 Order Code Refer to the side your emulators box The order code will depend on the region in which is was ordered i e the UK Continental Europe or the USA 4 Serial Number The serial number is found located on the rear panel of the ST Micro Connect box and is also listed on the Global Reference card provided with the emulator 5 TEB Target Emulation Board hardware and firmware versions The hardware and firmware versions can be found by opening an STVD7 session entering the debug context and selecting Help gt About from the main menu The TEB version numbers are given in the Target box scroll downwards until you find the TEB version hardware and TEB PLD version firmware 6 Target Device The sales type of the ST microcontroller you are using in your application 27 29 Product Support ST7MDT20J EMU3 Probe User Guide Contact List North America Canada and East Coast Mid West STMicroelectronics STMicroelectronics Lexington Corporate Center 1300 East Woodfield Road Suite 410 10 Maguire Road Building 1 3rd floor Schaumburg IL 60173 Lexington MA 02421 Phone 847 585 3000 Phone 781 402 2650 West coast STMicroelectronics Inc 1060 E Brokaw Road San Jose CA 95131 Phone 408 452 8585 Note For American and Canadian customers seeking technical support the US Canada is split in 3 territories According to your area contact the appropriate sales of
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