ST626XCKITEU STMicroelectronics, ST626XCKITEU Datasheet
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ST626XCKITEU
Specifications of ST626XCKITEU
ST626XCKITEU Summary of contents
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R HARDWARE FEATURES Immediate evaluation of all ST625x and ST626x devices, with demonstration examples. Software debugging within the user’s real application environment. Programming of ST62T5x, ST62T6x and ST62E6x devices (DIL packages). In-circuit programming of ST62T5x, ST62T6x and ST62E6x devices on ...
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ST626x-KIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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PROGRAMMING ST6 MICROCONTROLLERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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... Using the ST6 assembler and linker, AST6 and LST6, you can assemble and link ST6 pro- grams. The "ST6 Family Software development tools AST6, LST6, WGDB6" User Manual will guide you through the steps of developing, assembling and linking programs for the ST6. The Starter Kit software includes a set of example programs of typical ST6 applications ...
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... Software development tools AST6, LST6, WGDB6" User Manual and online help will lead you through the debugging process using WGDB6. When your program is ready, Epromer provides you with an easy-to-use Windows interface, which lets you prepare executable code, then write it to the ST6 microcontroller that is plugged into either one of the DIL sockets on the Starter Kit board, or your own in-circuit application board that is connected to the Starter Kit board ...
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Introduction The following diagram summarises the possible uses of the Starter Kit board and the hard- ware setup required for each one. To program ST6s on your own in-circuit programming board: PC running Epromer Parallel port connected ...
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... Family Software development tools AST6, LST6, WGDB6" User Manual. “Using The Starter Kit Board as a Hardware Simulator” on page 26 of this book. "ST6 Family Software development tools AST6, LST6, WGDB6" User Manual. “Programming ST6 Microcontrollers” on page 30 of this book. ...
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... The Starter Kit Board as a Hardware Simulator” on page 26). The other ST6 microcontrollers are blank. The file Demok65.hex is in the directory C:\st6tools\sk626Xi1, so that if you erase it from the ST6265, you can re-program it following the instructions given in “Programming ST6 Micro- controllers” ...
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It includes the following connectors: • A parallel port connector (P1) for connection to the host PC when it is used as a hardware simulator or for programming. • A remote resource I/O interface connector (J2) to which you can ...
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The Starter Kit Hardware 10/41 14 ST626x Starter Kit Board ...
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The following diagram shows the layout of the Starter Kit board In-circuit programming connector (J1 Mhz Oscillator. 3 “ST6260/62” or “ST6265” device selection jumpers W10 ...
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The Starter Kit Hardware 2.3 Oscillator An oscillator feeds the ST6265 OSCIN input with an 8 MHz clock signal. You can disconnect the oscillator by removing the jumper W2 (marked 18 on the Starter Kit board diagram on page 11). ...
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Digital to Analog Conversion Digital to analog conversion is performed using an RC integrator circuit connected to the ST6265 auto reload timer output (PB7). A PWM signal is generated by the ARTimer at PB7 output. The voltage value at ...
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The Starter Kit Hardware 2.8 LED Indicators Five LEDs are used for level indication in the demonstration routines. They are connected to the ST6265 pins: PB0 to PB4 (when programmed as outputs) to demonstrate direct LED-driv- ing capability. The five ...
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Thermistor bridge - Temperature control A thermistor bridge (with a negative coefficient) is connected to the ST6265 I/O pin PA5, which is defined as an analog to digital converter (ADC) input. The voltage value at the ADC input decreases ...
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The Starter Kit Hardware The following diagram shows the RS-232 connections and line allocations: 10K +12V SUBD - 9 POINTS 5 CONNECTOR TX, RX, CTS and RTS are defined so that the ...
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You can disconnect the demonstration selector from PA3 by removing the PA3 jumper from W25. GND D6 D5 R20 R19 R17 R16 R15 The Starter Kit Hardware ST6265 JUMPER D1 W25-PA3 PA3 JUMPER R14 V CC 17/41 ...
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... If only the ST62 CDROM is provided, then:Place the ST62 CDROM provided into your CDROM disk drive Windows Explorer or File Manager, view the contents of the CDROM, browse to st62oncd\ftools\sk626Xi1 and double-click the Setup file or icon. 2 Follow the instructions as they appear on screen. 3.3 Connecting the Power Supply If you have AC mains supply, connect the Jack plug on the power supply cable provided to the J3 input socket, then connect the mains plug to a mains source ...
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If you use your own 3.5 mm power supply plug, its polarity must be as follows: - JACK PLUG Installing the Starter Kit + 19/41 23 ...
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... See “Running the Demonstration Programs” on page 22 below for details on how to select and run a demo. The source files of these demos are provided with the Starter Kit software in the file C:\st6tools\sk626Xi1\sk626Xli\DEMOK65.ASM. 4.1.1 Demo 1 - Sound Generation After RESET, this program generates a PWM signal at the output of the AUTO RELOAD TIM- ER peripheral (PB7), which is connected to the Audio Transducer ...
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Demo 3 - Voltage trimming and LED level indication 1 Initialises the pins as follows: This pin: Is initialised as: PA4 Analog input. Connected to the trimmer. PB0 to PB4 Push-pull outputs. Connected to the five LEDs (as marked ...
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... The ST6265 microcontroller labelled DEMOK65 is programmed with the demonstration soft- ware. If this software has been erased from the microcontroller, you can reprogram it from the file DEMOK65.HEX (the file is in the st6tools\sk626Xi1 directory). For details of how to pro- gram microcontrollers refer to “Programming ST6 Microcontrollers” on page 30. ...
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To run the demonstrations: 1 Power down the Starter Kit board. 2 Make sure that the pre-programmed ST62E65 is plugged into the DIL connector, and that the DEVICE jumpers W10 to W13 (marked 3 on the Starter Kit board diagram ...
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Running the Demos 6 Install the demonstration program jumper marked PA3, as shown in the diagram below: PA3 7 Select the demo you want to run, by installing the appropriate jumper W26 to W31 (marked 13 on the Starter Kit ...
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CONNECTING EXTERNAL RESOURCES TO THE STARTER KIT BOARD You can connect your own external resources to the pre-programmed ST6265 to debug or evaluate your programs, using the connector J2 (marked 15 on the Starter Kit board diagram on page ...
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Using The Starter Kit Board as a Hardware Simulator 6 USING THE STARTER KIT BOARD AS A HARDWARE SIMULATOR WGDB6, the ST6 debugger that runs under Windows, lets you test your programs without having to program the EPROM of your ...
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The Data Transmission Driver Data is transferred between the simulated peripheral registers and the ST626x registers via the host PC’s parallel port. The DEMOK65.HEX program, with which the ST6265 microcon- troller that is plugged into the Starter Kit board ...
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Using The Starter Kit Board as a Hardware Simulator To use the Starter Kit board as a hardware simulator: 1 Power down the Starter Kit board. 2 Make sure that the pre-programmed ST6265 is plugged into the DIL socket U3, ...
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... To run WGDB6: • If you are using Windows 95, click the Start button, point to Programs, then ST6 Tools, then click WGDB6/Simulator. • If you are using Windows 3.x, double-click the appropriate WGDB6/Simulator icon in the ST6 Tools program group. Refer to "WGDB6 User Guide" in the "ST6 Family Software Development Tools AST6, LST6, WGDB6" ...
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Programming ST6 Microcontrollers 7 PROGRAMMING ST6 MICROCONTROLLERS You can use the Starter Kit board, in conjunction with the program Epromer, to program ST6252, ST6253, ST6255, ST6260, ST6262, ST6263 or ST6265 microcontrollers. You can also perform in-circuit programming of ST6252, ST6253, ...
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Setting Up the Starter Kit Board 1 Power down the Starter Kit board. 2 Plug the ST6 microcontroller you want to program into the DIL-28 socket (U3) or the DIL-16 socket (U4). The DIL-16 socket (U4) is only used ...
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... Note: Epromer does not work under Windows NT. To run Epromer from Windows 3.x, double-click the Epromer icon in the ST6 Tools group. To run Epromer from Windows 95, click Start, Programs, ST6 Tools, then Epromer. For instructions on how to operate Epromer, click Help in the Epromer main window. ...
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In-Circuit Programming You can perform in-circuit programming of ST6252, ST6253, ST6255, ST6260, ST6262, ST6263 or ST6265 OTP/EPROM microcontrollers using your own board, connected to the Starter Kit board via the connector J1 (marked 1 on the Starter Kit board ...
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Programming ST6 Microcontrollers RESET Controls the programming mode entry. To prevent signal level contention, RESET must be di- rectly connected to Pin 9 on the 16-way connector, and must be isolated from other nodes on the application board. Any direct ...
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... Starter Kit board. 6 Power up your Starter Kit board. You can now use Epromer to program the microcontroller that is on your own board. Note: Epromer does not work under Windows NT. To run Epromer from Windows 3.x, double-click the Epromer icon in the ST6 Tools group. ST6265 D E ...
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... Programming ST6 Microcontrollers To run Epromer from Windows 95, click Start, Programs, ST6 Tools, then Epromer. For instructions on how to operate Epromer, click Help in the Epromer main window. If your application board is not powered by the Starter Kit, you must connect pow- er supply before you start programming. ...
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RUNNING YOUR OWN PROGRAM ON THE STARTER KIT BOARD You can run your own programs on the Starter Kit board, using any of the Starter Kit resourc- es: • 8 Mhz oscillator • 10 Kohm trimmer • Audio Transducer ...
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Running Your Own program on the Starter Kit Board 4 Select USER mode using the jumpers marked W1 and W2 (marked 19 on the Starter Kit board diagram on page 11), as shown in the diagram below: 5 Disconnect the ...
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HARDWARE INFORMATION 9.1 Parts List Part BZ1 C1,C2,C4,C5,C6,C7,C8,C9,C10 C3 C11,C12,C13,C16,C17,C18,C22 C14,C26 C15,C19,C20,C21,C24,C27,C28, CD21,CD22,CD23,CD24,CD25, CD26,CD27,CD28,CD37 C23 C25 D1 D2 D3,D4, LD1,LD2,LD3,LD4,LD5 LD6 R2,R5,R8,R12 R3,R4,R7,R14 R6 R9,R20 R10 R11 R13,R19 9.2 Starter ...
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Hardware Information 1 2 10MF-CT-16V SCHO 10-20 BYV 10MF-CT-16V BC547B-NPN-45V ...
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Hardware Information Notes: Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics 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 ...