AC7MDT10-D16/S16 STMicroelectronics, AC7MDT10-D16/S16 Datasheet
AC7MDT10-D16/S16
Specifications of AC7MDT10-D16/S16
Related parts for AC7MDT10-D16/S16
AC7MDT10-D16/S16 Summary of contents
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... ST7MDT10-TEB kit. The ST7MDT10-EMU3 emulator is designed to emulate MCUs in the ST7226x, ST7LITE sub-families and the ST7DALI. Table 1. Related hardware for ST7MDT10-EMU3 probe Orderable part number AC7MDT10-D16/S16 AC7MDT10-D20/S20 AC7MDT10-D32/S28 ST7MDT10-TEB June 2007 Description SDIP16/SO16 Connection kit DIP20/SO20 Connection kit SDIP32/SO28 Connection kit EMU3 probe’ ...
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Contents Contents 1 Delivery Checklist . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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... Delivery Checklist The EMU3 probe is typically delivered as part of the ST7MDT10-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. Figure 1. ST7-EMU3 terminology EMU3 probe Target Emulation Board The ST7MDT10-EMU3 probe includes (refer to 1 ...
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... Delivery Checklist 3. Connection accessories for the DIP20 and SO20 packages: f) Flex adapter with DIP20 connector (ref.: DB482A) for connection between your probe and your application board DIP20 to DIP20 device adapter (ref.: DB535). Note: The DIP20 pinout on the flex adapter is askew by 90°. You must place the DIP20 to DIP20 device adapter (ref ...
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UM0139 Figure 2. Probe kit contents (not to scale) male-male connector female connector (1) (2) (a) (c) DB646 (e) DB715 Delivery Checklist (b) DB645 (d) DB489 5/38 ...
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Delivery Checklist Figure 2. Probe kit contents (not to scale) (continued) 6/38 (3) (g) (f) (h) (3) (i) (j) (5) MB509 Top view Bottom view UM0139 DB535 DB093 DB359 ...
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... Turn the EMU3 probe upside-down, unscrew the retaining screw and slide the bottom out as shown in Figure 3. Opening the bottom of the probe Connecting to the application board for emulation indicates which TEB connector to use, and the connection accessories TEB connector Flex adapter (see Figure ...
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Connecting to the application board for emulation 2. Using Table package. Connect the flex adapter supporting your microcontroller package to the appropriate connector on the TEB. pin connector (W2) on the ST7MDT10-TEB (DB509). Figure 4. TEB connectors 3. Replace the ...
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UM0139 2.2 DIP16 microcontroller package 1. Solder a DIP16 socket onto your application board. 2. Align the pin 1 indicators on the DIP16 connector of the DB483A flex adapter and the socket on your application board. Insert the flex adapter’s ...
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Connecting to the application board for emulation 2.3 SO16 microcontroller package 1. Solder the connection pins onto your application board in place of your microcontroller in SO16 package. Figure 6. Solder the SO16 socket to your application board Note: Care ...
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UM0139 Figure 7. SO16 connection Flex adapter (DB483A) DIP16/SO16 Device adapter (DB489) Connecting to the application board for emulation Application board Pin 1 indicators 11/38 ...
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Connecting to the application board for emulation 2.4 SO8 microcontroller package 1. Solder the connection pins for the DIP16/SO8 device adapter (DB645) onto your application board. 2. Align the pin 1 indicators of the DB483A flex adapter and the DIP16/SO8 ...
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UM0139 2.5 DIP8 microcontroller package 1. Solder the a SO8/DIP8 device adapter (DB646) onto your application board. 2. Align the pin 1 indicators of the DB483A flex adapter and the DIP16/SO8 device adapter (DB645), then insert the flex adapter’s pins ...
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Connecting to the application board for emulation 2.6 DFN8 microcontroller package 1. Solder the female DFN8 connector to your application board. 2. Align the pin 1 indicators of the DB483A flex adapter and the DIP16/SO8 device adapter (DB645), then insert ...
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UM0139 Figure 10. DFN8 connection DIP16/SO8 Device adapter (DB645) GND Connecting to the application board for emulation Flex adapter (DB483A) Pin 1 indicators GND Male-male DFN8 connector Female DFN8 connector SO8/DFN8 Device adapter (DB715) Application board 15/38 ...
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Connecting to the application board for emulation 2.7 DIP20 microcontroller package 1. Solder a DIP20 socket onto your application board. 2. Align the pin 1 indicators on the DIP20/DIP20 device adapter (ref.: DB535) and the DB482A flex adapter. Then insert ...
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UM0139 2.8 SO20 microcontroller package 1. Solder the connection pins for the DIP20/SO20 device adapter (DB093) onto your application board. When soldering, insert the two sets of connection pins into the device adapter. The device adapter will serve as a ...
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Connecting to the application board for emulation 2.9 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 and the socket on your ...
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UM0139 2.10 SO28 microcontroller package 1. Solder the connection pins for the SDIP32/SO28 device adapter (DB359) onto your application board. When soldering, insert the two sets of connection pins into the device adapter. The device adapter will serve as a ...
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Emulation Characteristics 3 Emulation Characteristics 3.1 On-chip peripheral configuration You can configure certain on-chip peripherals 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 ...
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UM0139 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. Watchdog halt There are two ...
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Emulation Characteristics Table 5 shows the Hardware Simulations that are available, depending on the target MCU that you have chosen in the MCU Configuration window. Table 5. Hardware simulation functions by target MCU Target MCU ST7226x ST7LITEx ST7DALI The simulation ...
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UM0139 3.3 Emulator electrical characteristics This section details the specific electrical characteristics of the ST7MDT10-EMU3 emulator. 3.3.1 I/O port electrical characteristics The values shown in 25°C). Table 6. Values for I/O port in pull up mode Parameter Symbol and Description ...
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Emulation Characteristics The values shown in (at 25°C). Table 7. Values for I/O port in true open drain mode Parameter Symbol and Description High level input V IH voltage Low level input V IL voltage High level output V OH ...
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UM0139 3.3.2 Power follower characteristics The application power supply follower converts the application voltage V within the range of 2.4 V and 5.5 V. The curve plotted on the graph below shows how the value of V value of V ...
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Emulation Characteristics 3.4 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 configuration in STVD7’s Discrepancies window. For more information refer to the STVD7 User ...
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UM0139 4 In-circuit debugging connection with ICD adapter This chapter describes the configuration and connection of the ICD adapter to your application board for in-circuit debugging (ICD) of ST7FLITEUS and ST7FLITEU0 microcontrollers. Complete instructions for setting up your ST7-EMU3 series ...
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In-circuit debugging connection with ICD adapter CLKIN solder point (G2) Your in-circuit debugging tool can provide the clock signal for initiating in-circuit communication with the microcontroller on the ICD adapter this, you must complete the connection with a ...
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UM0139 4.3 Connecting to the application Figure 20. Connectors on the ICD Adapter The ICD Adapter (MB509) connects to your in-circuit debugging tool via the 10-pin ICC connector on the top of the adapter. It connects to the connector installed ...
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In-circuit debugging connection with ICD adapter 4.3.1 Connection for DIP8 microcontroller package 1. Solder the DIP8 Device adapter (DB646) onto your application board in place of your microcontroller. 2. Plug the ICC cable from the in-circuit debugging tool into the ...
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UM0139 4.3.2 Connection for SO8 microcontroller package 1. Solder the SO8 connector (8-pin header) onto your application board in place of your microcontroller. 2. Plug the ICC cable from the in-circuit debugging tool into the 10-pin ICC connector on the ...
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In-circuit debugging connection with ICD adapter 4.3.3 Connection for DFN8 microcontroller package 1. Solder the DFN8 female connector onto your application board in place of your microcontroller. 2. Plug the ICC cable from the in-circuit debugging tool into the 10-pin ...
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UM0139 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, ...
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Changing the TEB in your ST7-EMU3 probe 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 ...
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UM0139 Figure 25. Removing the TEB The board under the TEB – the Dedicated Emulation Board (DEB), should now be visible (see Figure 4. Identify the top and bottom faces of the TEB you wish to install. The bottom face ...
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Changing the TEB in your ST7-EMU3 probe 5mm extension to the 10mm support on the DEB, as shown in extensions are provided with your TEB and screw into the 10mm supports. However, remember that if you install a TEB with ...
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... Removed Firmware update procedure • Added Appendix C – revision history • Updated Introduction • Updated Section 1 – with connection accessories for DIP8, SO8 and DFN8 packages • Updated Table 1 – with accessories and connection information 4 for DIP8, SO_ and DFN8 packages • ...
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