STARTER ST625x, ST626x MCUs HARDWARE FEATURES Immediate evaluatio
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ST626x-KIT
STARTER ST625x, ST626x MCUs
HARDWARE FEATURES Immediate evaluation ST625x ST626x devices, with demonstration examples. Software debugging within user's real application environment. Programming ST62T5x, ST62T6x ST62E6x devices (DIL packages). In-circuit programming ST62T5x, ST62T6x ST62E6x devices user's application board (all packages).
SOFTWARE FEATURES Software simulator including read/write. Assembler, linker, debugger. EPROM programming utilities. Application examples demonstrations.
March 1998
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Table Contents
ST626x-KIT
INTRODUCTION Where from here. STARTER HARDWARE Microcontrollers Starter Board Oscillator Reset Button Audio Transducer Digital Analog Conversion Buttons Indicators Resistance trimmer 2.10 Thermistor bridge Temperature control 2.11 RS-232 Interface 2.12 Demonstration Selector Jumpers INSTALLING STARTER Hardware Software Requirements Installing Software Connecting Power Supply RUNNING DEMOS What Demos 4.1.1 4.1.2 4.1.3 4.1.4 4.1.5 4.1.6 Demo Sound Generation Demo Music Demo Voltage trimming level indication Demo Temperature Control Demo Digital Analog Conversion Demo RS-232 Communications
Running Demonstration Programs CONNECTING EXTERNAL RESOURCES STARTER BOARD USING STARTER BOARD HARDWARE SIMULATOR Data Transmission Driver Technical Limitations Error Messages Troubleshooting
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Table Contents
PROGRAMMING MICROCONTROLLERS Programming Signals Setting Starter Board In-Circuit Programming 7.3.1 Application Board Connections Setting Starter Board In-Circuit Programming RUNNING YOUR PROGRAM STARTER BOARD HARDWARE INFORMATION Parts List Starter Board Schematic
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Introduction
INTRODUCTION
ST626x Starter provides with need start designing, developing evaluating programs ST6253, ST6255, ST6260, ST6263 ST6265 microcontrollers immediately. ST626x Starter includes: assembler linker, AST6 LST6. Windows debugger, WGDB6. Windows microcontroller programmer, Epromer. Starter board, which serves demonstration board low-cost debugging tool. Some demonstration programs that show microcontrollers Starter board resources. Some example programs. ST62E60BF1, ST62E62BF1 ST62E65BF1 microcontrollers. complete paper documentation online help. demonstration programs, that come pre-loaded ST62E65 microcontroller, show powerful features microcontrollers operate real environment. demonstration programs hardware resources provided Starter board, which include reset data control buttons, indicators, resistance trimmer, temperature control circuit RS-232 interface. Using assembler linker, AST6 LST6, assemble link programs. "ST6 Family Software development tools AST6, LST6, WGDB6" User Manual will guide through steps developing, assembling linking programs ST6. Starter software includes example programs typical applications. These installed directory C:\st6tools\sk626Xi1\examples. fast-track solution developing bug-free programs ST6, without hassle writing assembler code, ST6-Realizer program. Once have developed your program, Windows-based program debugger, WGDB6/SIMULATOR, together with Starter board, low-cost powerful debugging tool. WGDB6 includes simulator, that simulates execution your program, uses that plugged into Starter board emulate transactions that performed with data space. Thus, using Starter board with WGDB6, view microcontroller peripherals behave when your program executed. WGDB6 includes powerful debugging features, such source-level debugging, instruction conditional memory access breakpoints selective trace recording. "ST6 Family
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Introduction
Software development tools AST6, LST6, WGDB6" User Manual online help will lead through debugging process using WGDB6. When your program ready, Epromer provides with easy-to-use Windows interface, which lets prepare executable code, then write microcontroller that plugged into either sockets Starter board, your in-circuit application board that connected Starter board. observe evaluate consequences your program resources controls, microcontroller that plugged into Starter board. controls resource that included Starter board, connect your resource board. Instructions Warning This product conforms with 89/336/EEC directive; also complies with EN55022 emissions standard ITE, well with generic 50082-1 immunity standards. product Class apparatus. residential environment this device cause radioelectrical disturbances which require that user adopt appropriate precautions. product contained outer casing, cannot therefore immune against electrostatic discharge (ESD): should therefore only handled static safe work stations.
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Introduction
following diagram summarises possible uses Starter board hardware setup required each one. program ST6s your in-circuit programming board: running Epromer Starter board In-circuit programming board
Parallel port connected
connector
program ST6s using Starter board: running Epromer
programmed
Starter board Parallel port connected demonstrations: ST6265 Programmed with DEMOK65.HEX Starter board programmed with program Starter board software simulator: running WGDB6 Simulator ST6265 Programmed with DEMOK65.HEX your program:
Parallel port connected
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Introduction
Where from here. following table directs where should look further information about using Starter
Find about Starter board microcontrollers provided with kit. Install Starter software, connect power supply board. Find what demonstration applications them. Learn develop source code AST6 LST6. Prepare Starter board hardware simulator with WGDB6. Learn WGDB6 debugging your programs. Prepare Starter board programming microcontrollers using Epromer. Prepare Starter board connecting your in-circuit programming board. Learn Eprommer programming microcontrollers. Connect your hardware resource Starter board. your program using Starter board. Refer "The Starter Hardware" page this book. "Installing Starter Kit" page this book. "Running Demos" page this book. "ST6 Family Software development tools AST6, LST6, WGDB6" User Manual. "Using Starter Board Hardware Simulator" page this book. "ST6 Family Software development tools AST6, LST6, WGDB6" User Manual. "Programming Microcontrollers" page this book. "In-Circuit Programming" page this book. Epromer online help. "Connecting External Resources Starter Board" page this book. "Running Your program Starter Board" page
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Starter Hardware
STARTER HARDWARE
This section describes microcontrollers Starter board that come with Starter Kit. full schematic Starter board provided "Hardware Information" page Microcontrollers Starter includes following microcontrollers: ST62E65BF1 ST62E60BF1 ST62E62BF1 ST6265 microcontroller labelled DEMOK65 pre-loaded with code DEMOK65.HEX, which includes demonstration programs (see "Running Demos" page 20), well communications protocol program, that enables Starter board simulator (see "Using Starter Board Hardware Simulator" page 26). other microcontrollers blank. file Demok65.hex directory C:\st6tools\sk626Xi1, that erase from ST6265, re-program following instructions given "Programming Microcontrollers" page Starter Board Starter board includes following resources: Reset data control buttons. indicators. Resistance trimmer. Analog digital converter. Audio transducer circuit. RS-232 interface. Demonstration program selector jumpers. comes with power supply unit that plugged into mains source, source with following characteristics: Voltage: min./20V max. Current: min.
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Starter Hardware
includes following connectors: parallel port connector (P1) connection host when used hardware simulator programming. remote resource interface connector (J2) which connect your hardware resource. RS-232 connector, which observing RS-232 communication control using ST6. connector your in-circuit programming board. "Application Board Connections" page further details.
Below block diagram Starter board:
POWER SUPPLY UNIT TRANSDUCER LEDs THERMISTOR TRIMMER RS232
ST62E65
PARALLEL CONNECTION SOFTWARE SIMULATOR ST626x CONNECTION USER APPLICATION
EPROM PROGRAMME
IN-CIRCUIT PROGRAMMING
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Starter Hardware
ST626x Starter Board
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Starter Hardware
following diagram shows layout Starter board.
In-circuit programming connector (J1). Oscillator. "ST6260/62" "ST6265" device selection jumpers W13. connector Audio Transducer circuit. trimmer. Power supply JACK connector Power supply connector Power supply indicator LD6. buttons.
DIL-16 socket Digital analog conversion circuit. "Programming" "User" operating mode selection jumpers Five level indicators including jumpers 20-28 socket. Remote resource interface connector RS232 interface circuit connector. Demonstration routine selector. Thermistor including jumper W24. RESET button.
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Starter Hardware
Oscillator oscillator feeds ST6265 OSCIN input with clock signal. disconnect oscillator removing jumper (marked Starter board diagram page 11).
8MHz OSCILLATOR ST6265 USER JUMPER PROG OSCin
PROGRAMMING CLOCK FROM (only when programming microcontrollers)
Reset Button This activates ST6265 RESET input when pressed. power-on reset circuit also provided. Audio Transducer piezoelectric audio transducer connected ST6265 Audio Reload Timer (PB7 pin). provided demonstrate evaluate sound generation capabilities. transducer disconnected from removing W15-PB7 jumper.
ST6265 W15-PB7 AUDIO TRANSDUCER JUMPER ARTIMOUT
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Starter Hardware
Digital Analog Conversion Digital analog conversion performed using integrator circuit connected ST6265 auto reload timer output (PB7). signal generated ARTimer output. voltage value output integrator circuit controlled duty cycle. circuit input disconnected from output removing W15-PB7 jumper.
TEST (ANALOG VOLTAGE) W15-PB7 (ARTIMOUT) ST6265
Buttons These connected pins microcontroller respectively. They drive inputs down when pressed. disconnect removing appropriate jumper.
W22-PB5 W23-PB6 JUMPERS ST6265
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Starter Hardware
Indicators Five LEDs used level indication demonstration routines. They connected ST6265 pins: (when programmed outputs) demonstrate direct LED-driving capability. five LEDs disconnected removing (PB4 PB0) jumpers.
RESISTORS ARRAY JUMPERS ST6265
Resistance trimmer resistance trimmer feeds ST6265 (when programmed Converter input) with variable voltage DC). used conversion demonstration/evaluation. trimmer disconnected from removing W18-PA4 jumper.
TRIMMER JUMPER
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Starter Hardware
2.10 Thermistor bridge Temperature control thermistor bridge (with negative coefficient) connected ST6265 PA5, which defined analog digital converter (ADC) input. voltage value input decreases when temperature increased. Demonstration shows thermistor used indicate temperature levels five LEDs (see "Running Demos" page 20.) thermistor bridge disconnected from removing W24-PA5 jumper.
W24-PA5
ST6265
JUMPER THERMISTO
2.11 RS-232 Interface RS-232 interface enables communicate with pre-programmed ST6265 microcontroller provided with Starter Kit. includes RS-232 buffer circuit that connected standard PC-compatible RS-232 SUBD-9 connector. following table lists RS-232/ST6 connections:
Signal Name Data Transmission (TX) Data Reception (RX) Request Send (RTS) Clear Send (CTS) SUBD-9
disconnect these removing corresponding jumpers from W21.
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Starter Hardware
following diagram shows RS-232 connections line allocations:
+12V SUBD POINTS CONNECTOR RS232 LINE BUFFER ST6265
defined that board used slave. board master, swap both connections cable. 2.12 Demonstration Selector Jumpers demonstration selector made jumpers (marked Starter board diagram page 11), with each jumper connected resistor. Each resistor generates different voltage. After reset, voltage value generated resistor whose jumper installed sent ST6265. programmed converter. program installed ST6265 uses input from select appropriate demo. following table lists voltage values generated each resistor:
Resistor value: R14: R15: R16: R17: R19: R20: Theoretical voltage value: JUMPER: JUMPER-D1: JUMPER-D2: JUMPER-D3: JUMPER-D4: JUMPER-D5: 1.332
same principle used keyboard decoding. complete example this, refer SGS-Thomson application note: "AN431: Using Analog Inputs Multiple Decoding".
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Starter Hardware
disconnect demonstration selector from removing jumper from W25.
JUMPER ST6265
W25-PA3
JUMPE
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Installing Starter
INSTALLING STARTER
Hardware Software Requirements able install Starter Kit, need with: 1/2" Floppy Disk Drive CDROM Disk Drive Mbytes free memory space free Centronics compatible parallel port connector MS-Windows3.11, Installing Software diskettes provided, must install software with them order have latest release: Place SK626XI1 diskette into your floppy disk drive. Windows Explorer File Manager, view contents diskette, then double-click Setup file icon. Follow instructions they appear screen. only ST62 CDROM provided, then:Place ST62 CDROM provided into your CDROM disk drive. Windows Explorer File Manager, view contents CDROM, browse st62oncd\ftools\sk626Xi1 double-click Setup file icon. Follow instructions they appear screen. Connecting Power Supply have mains supply, connect Jack plug power supply cable provided input socket, then connect mains plug mains source. have mains supply, connect male plug power supply cable provided input socket, then connect mains plug mains source with following characteristics: Voltage: min./20V max. Current: min. Note: avoid short circuit, always connect power input cable starter board before connecting mains power supply.
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Installing Starter
your power supply plug, polarity must follows:
JACK PLUG
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Running Demos
RUNNING DEMOS
This section describes demonstration programs that provided with Starter explains them. What Demos following paragraphs describe demos that come pre-loaded with Starter demos. "Running Demonstration Programs" page below details select demo. source files these demos provided with Starter software file 4.1.1 Demo Sound Generation After RESET, this program generates signal output AUTO RELOAD TIMER peripheral (PB7), which connected Audio Transducer. frequency signal adjusted pressing (increase) (decrease) pushbuttons. oscilloscope probe positioned W15-PB7 jumper observe signal. 4.1.2 Demo Music After RESET, this program produces tunes that played Audio Transducer. sound frequencies generated AUTO RELOAD TIMER output peripheral (PB7), used mode. that turned indicates tune played through select tune play, press button. music starts playing when button pressed. tempo music modified using voltage trimmer (marked Starter board diagram page 11). This connected programmed Analog input. Once music finished playing, another tune selected played same way.
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Running Demos
4.1.3 Demo Voltage trimming level indication Initialises pins follows:
This pin: initialised Analog input. Connected trimmer. Push-pull outputs. Connected five LEDs marked board).
Reads converter data register, turns according Voltage value input trimmer:
This voltage: Turns this
Adjusting voltage trimmer (marked Starter board diagram page turns appropriate LED. 4.1.4 Demo Temperature Control Initialises pins follows:
This pin: initialised Analog input. Connected thermistor circuit. Push-pull outputs. Connected five LEDs marked board).
Reads stores converter data register value. This value indicates temperature reset. Reads stores converter data register value regular intervals. this value exceeds value that stored reset, turned indicating difference between values. higher difference between stored value read value, higher number turned (roughly steps LD(n+1) each additional degree difference). increase temperature touching thermistor (marked Starter board diagram page 11).
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Running Demos
4.1.5 Demo Digital Analog Conversion Digital Analog Conversion (DAC) performed using integrator circuit connected ST6265 Auto Reload Timer output (PB7). signal generated ARTimer output. voltage value output integrator circuit controlled duty cycle. After RESET, program: Generates frequency signal Auto Reload Timer output. duty cycle initialized 50%. Decreases/increases duty cycle value each time button pressed steps). This modifies analog voltage integrator circuit output. more precise observation, position oscilloscope probe test point, located Digital Analog circuit (marked Starter board diagram page 11). 4.1.6 Demo RS-232 Communications This demonstration shows RS-232 communication line buffer managed using ST6265 microcontroller. this demonstration: Connect RS-232 connector Starter board serial port your using RS-232 cable provided. host MS-DOS, execute program: ST6K232.EXE which st6tools\sk626Xi1 directory. Follow instructions they appear screen. Running Demonstration Programs ST6265 microcontroller labelled DEMOK65 programmed with demonstration software. this software been erased from microcontroller, reprogram from file DEMOK65.HEX (the file st6tools\sk626Xi1 directory). details program microcontrollers refer "Programming Microcontrollers" page
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Running Demos
demonstrations: Power down Starter board. Make sure that pre-programmed ST62E65 plugged into connector, that DEVICE jumpers (marked Starter board diagram page ST6265 shown following diagram:
ST6265 ST6260/62
Select USER mode using jumpers marked (marked Starter board diagram page 11), shown diagram below:
PROG
Disconnect cable from parallel port (P1) connection, connected. Power Starter board.
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Running Demos
Install demonstration program jumper marked PA3, shown diagram below:
DEMO SELECTION
Select demo want run, installing appropriate jumper (marked Starter board diagram page 11), indicated diagram below:
DEMO SELECTION
Selects demo Sound Generation Selects demo Music Selects demo Voltage trimming level indication Selects demo Temperature Control Selects demo -Digital Analog Conversion (DAC) Selects demo -RS-232 Communications
example, above diagram demo selected. Press reset button. selected demo ran. different demo, repeat steps
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Connecting External Resources Starter Board
CONNECTING EXTERNAL RESOURCES STARTER BOARD
connect your external resources pre-programmed ST6265 debug evaluate your programs, using connector (marked Starter board diagram page 11). able connect your resources Starter board, must disconnect resources that already connected ST6265, avoid external resource/Starter board resource conflicts. following table lists Starter board resources corresponding connections, indicates jumper that disconnects each resource.
On-board resource level indicator level indicator level indicator level indicator level indicator Pushbutton Pushbutton Audio Transducer System Tasks System Tasks System Tasks ST6265 Connector ST6265 Connector RESET/(*) OSCOUT OSCIN On-board resource RS232 RS232 RS232 RS232 used System Tasks Reset push. Power-on System Tasks 8MHz Osc. None used Thermistor Trimmer Demonstration Selector
This available Starter board connected host Note: Some signals connector used during programming, thus must disconnect external resource that conencted before using Starter board programming.
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Using Starter Board Hardware Simulator
USING STARTER BOARD HARDWARE SIMULATOWGDB6, debugger that runs under Windows, lets test your programs without having program EPROM your target ST6. Depending much information want, close real life want your test environment WGDB6 three ways: software simulator. WGDB6 simulator, need attach additional hardware your simulator program, that comes with WGDB6 when WGDB6/Simulator, simulates execution your program, letting step through code what happens program runs. WGDB6 simulator includes Wave Form Editor, which simulates output pins your target relation inputs that define, enabling peripherals react inputs they receive. With hardware emulator. Emulators hardware systems that your target microcontroller, same time capturing detailed information, such which areas memory accessed program what happens when they accessed. this case, WGDB6/Emulator provides interface between emulator your displaying data captured emulator letting implement WGDB6 features emulator, such software hardware breakpoints. With Starter board hardware simulator. This cross between above two. WGDB6 software simulator simulates execution your program, each time data space accessed, accesses that that plugged into your Starter board. Thus, using Starter board with WGDB6, view real microcontroller peripherals behave when your program executed. This section describes third option, Starter board hardware simulator. Starter board emulate ST6252, ST6253, ST6255, ST6260, ST6262, ST6263 ST6265 microcontroller. Note, however that must pre-programmed ST6265 microcontroller, labelled DEMOK65 supplied with hardware simulation. Thus, when simulating programs designed other microcontrollers, make sure that resources that available microcontroller your application designed for.
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Using Starter Board Hardware Simulator
Data Transmission Driver Data transferred between simulated peripheral registers ST626x registers host PC's parallel port. DEMOK65.HEX program, with which ST6265 microcontroller that plugged into Starter board must loaded includes transmission driver. data transfer driver uses following bits:
parallel port SDOP ST6265 RESET WGDB6 Synchronisation Write data Hardware reset peripherals Initiates data transfer Read data from
Note: connect external resources corresponding connector pins when using Starter board peripheral emulator. Technical Limitations Starter board following limitations when used with WGDB6 hardware simulator: Real-time program execution supported. Resetting ST6265 power pressing Reset button external reset does reset simulated core. perform complete simulated reset, WGDB6 reset command instead. Interrupts sent ST6265 microcontroller supported WGDB6 simulator. pins: NMI, PA0, ST6265 microcontroller used communications with host thus available simulation. cannot modify bits DDRA, registers.
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Using Starter Board Hardware Simulator
Starter board hardware simulator: Power down Starter board. Make sure that pre-programmed ST6265 plugged into socket that DEVICE jumpers (marked Starter board diagram page ST6265 shown following diagram:
ST6265
ST6260/62
Select USER mode using jumpers marked (marked Starter board diagram page 11), shown diagram below:
PROG
Connect Parallel port Starter board spare parallel port your using cable provided with Starter Kit. Power Starter board.
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Using Starter Board Hardware Simulator
WGDB6: using Windows click Start button, point Programs, then Tools, then click WGDB6/Simulator. using Windows 3.x, double-click appropriate WGDB6/Simulator icon Tools program group. Refer "WGDB6 User Guide" "ST6 Family Software Development Tools AST6, LST6, WGDB6" User Manual full instructions WGDB6. Error Messages following table lists error messages encounter when using WGDB6 with Starter board:
Error message Error Port protected when using board. Error Communication error with ST626x board. Description This means that WGDB6 tried access PORT registers. These used communications with board. This means that problem occurred during communcations between host board. Perform checks listed below.
Troubleshooting there communications problem between WGDB6 Starter board, title "WGDB6 Simulator" appears WGDB6 title bar. this case, shoud check following: That Starter board correctly powered That parallel port cable correctly connected. That device jumpers W1and USER position. That device type selection jumpers ST6265 position. That ST6265 plugged into Starter board, programmed with DEMOK65.HEX.
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Programming Microcontrollers
PROGRAMMING MICROCONTROLLERS
Starter board, conjunction with program Epromer, program ST6252, ST6253, ST6255, ST6260, ST6262, ST6263 ST6265 microcontrollers. also perform in-circuit programming ST6252, ST6253, ST6255, ST6260, ST6262, ST6263 ST6265 OTP/EPROM microcontrollers using your board, connected Starter board connector (marked Starter board diagram page 11). Programming Signals following table shows programming signals states their corresponding numbers.
Programming signals TEST OSCIN OSCOUT RESET Programming states High High/Low High/Low 5V/12V High/Low High High/Low ST62x65 connector ST62x60 connector ST62x62 connector
Note: PB2, PB3, OSCIN RESET signals connector used during programming, thus have connected external resource must disconnect these signals before using Starter board programming. PB2, PB3, OSCIN RESET pins used system during programming. programming signals therefore switched different pins DIL-28 socket.
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Programming Microcontrollers
Setting Starter Board Power down Starter board. Plug microcontroller want program into DIL-28 socket (U3) DIL-16 socket (U4). DIL-16 socket (U4) only used program ST6252 ST6262 devices. DIL-28 socket (U3) according following diagram:
ST62x53 ST62x60 ST62x63 ST62x65 ST62x55
DEVICE jumpers (marked Starter board diagram page microcontroller that want program according following table:
Device Type ST6252 ST6253 ST6255 ST6260 ST6262 ST6263 ST6265 Position ST6260/62 ST6260/62 ST6265 ST6260/62 ST6260/62 ST6260/62 ST6265
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Programming Microcontrollers
shown following diagram: select ST6265:
ST6265
select ST6260/62:
ST6265
ST6260/62
ST6260/62
Select PROG mode using jumpers marked (marked Starter board diagram page 11), shown diagram below:
PROG
Connect Parallel port Starter board spare parallel port your using cable provided with starter kit. Power Starter board. Epromer program microcontroller that plugged into Starter board. Note: Epromer does work under Windows Epromer from Windows 3.x, double-click Epromer icon Tools group. Epromer from Windows click Start, Programs, Tools, then Epromer. instructions operate Epromer, click Help Epromer main window.
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Programming Microcontrollers
In-Circuit Programming perform in-circuit programming ST6252, ST6253, ST6255, ST6260, ST6262, ST6263 ST6265 OTP/EPROM microcontrollers using your board, connected Starter board connector (marked Starter board diagram page 11). 7.3.1 Application Board Connections following paragraphs specify connection requirements between your application board Starter board. application board must have suitable 16-way connector (8x2 header HE10) connected 16-way cable connector (marked Starter board diagram page Starter board. following table shows required connections:
ST626x/5x Connected OSCin RESET VPP/VDD Connector
connection optional, depending whether application board supply cannot disconnected. application board supply disconnected, supply through pins connector, long total load current does exceed capacitive load less than application board power supply, voltage must that logic levels compatible with those Starter board. OSCin Synchronises programming operations using clock generated programming tool. OSCin located application board, must directly connected 16way connector. isolation needed long quartz crystal ceramic resonator used application. external clock generator used application, must disconnected during in-circuit programming.
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Programming Microcontrollers
RESET Controls programming mode entry. prevent signal level contention, RESET must directly connected 16-way connector, must isolated from other nodes application board. direct connection output must avoided. This connected CMOS input, pull-up, KOhm pull-down left open (Internal pull-up). capacitive load RESET should exceed
Pins 16-way connector used establish communications between programming tool microcontroller. prevent signal-level contention, Pins must directly connected 16-way connector, must isolated from other nodes application board. direct connection VDD, output must avoided. These pins connected CMOS input, pull-up, KOhm pull-down left open (Internal pull-up). 16-pin connector connected target device, same applies. Connection necessary high voltage level guaranteed board design. Some pins connected 16-way connector must high level during programming. This normally achieved RESET signal sent programming tool through 16-way cable, setting pins inputs with internal pull-up. keep these lines high, direct connection these pins other signal level (even temporarily) must avoided. Only connections another CMOS input, external pull-up pull-down allowed. signals directly biased through 16-way connector) must kept high voltage level. Vpp/pin must directly connected GND/VSS application board, avoid conflict with programming voltage provided programming tool connector. This should pulled down resistor with minimum value must ceramic capacitor between Vpp/Test VSS.
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Programming Microcontrollers
Setting Starter Board In-Circuit Programming Power down Starter board. DEVICE jumpers (marked Starter board diagram page ST6265, shown following diagram:
ST6265
ST6260/62
Select PROG mode using jumpers marked (marked Starter board diagram page 11), shown diagram below:
PROG
Connect Parallel port Starter board spare parallel port your using cable provided with starter kit. Connect your application board connector (marked Starter board diagram page Starter board. Power your Starter board. Epromer program microcontroller that your board. Note: Epromer does work under Windows Epromer from Windows 3.x, double-click Epromer icon Tools group.
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Programming Microcontrollers
Epromer from Windows click Start, Programs, Tools, then Epromer. instructions operate Epromer, click Help Epromer main window. your application board powered Starter Kit, must connect power supply before start programming.
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Running Your program Starter Board
RUNNING YOUR PROGRAM STARTER BOARD
your programs Starter board, using Starter resources: oscillator Kohm trimmer Audio Transducer buttons Thermistor bridge Heater resistor control circuit Five level indicator Note: only applications Starter board using ST6265 microcontrollers. your application designed another microcontroller, must change port definitions match those ST6265. also your hardware resource connecting connector (see "Connecting External Resources Starter Board" page 25). your program Starter board: Power down Starter board. Program ST6265 with application want following instructions given "Programming Microcontrollers" page DEVICE jumpers (marked Starter board diagram page ST6265, shown following diagram:
ST6265
ST6260/62
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Running Your program Starter Board
Select USER mode using jumpers marked (marked Starter board diagram page 11), shown diagram below:
PROG
Disconnect cable from parallel port (P1) connection, connected Disconnect demonstration program selector removing jumper marked Demonstration Selector circuit (marked Starter board diagram page 11.) using your hardware resources connected (marked Starter board diagram page 11), disconnect Starter board resources that same pins, following instructions given "Connecting External Resources Starter Board" page Power Starter board.
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Hardware Information
HARDWARE INFORMATION
Parts List
Part C1,C2,C4,C5,C6,C7,C8,C9,C10 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 D3,D4,D5 LD1,LD2,LD3,LD4,LD5 R2,R5,R8,R12 R3,R4,R7,R14 Device BUZZER 100pF 4.7MF 10MF 1.0nF 100nF 22MF-25V 1.0MF 10-20 SCHO 1N4004 1N4148 connected SOLDER BRIDGE HE10-16DM JACK Supply conn. 2,2µH LED-RED-RECT LED-RED-5MM SUBD25 SUBD9 4.7K RS1, SW1,SW2,SW3 T1,T2 TP1,TP3 U1,U6 W1,W2,W10,W11,W12,W13 W4,W5,W6,W7,W8,W15,W16,W17, W18,W19,W20,W21,W22,W23, W24,W25,W26,W27,W28,W29, W30,W31 R9,R20 R13,R19 1.2K connected MW2X14C 8MHZ-OSC 8.2V MW2X1C Part 4,7K SIL8 100K SIL10 SIL10 3.3K SIL8 SIL10 Trimmer SW-PUSH BC547B-NPN-45V BC557B-PNP-45V BD236-PNP-60V MW1X1C 74LS244 74LS125 ST6265 DIL-16 74LS04 78L05 LM7805 MAX232 MW3X1C Device
Starter Board Schematic next page
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MW3X1C SOC13 60B) DGND 100NF 60B/ SUPPLI SELECTO ST62E65B-DIL28 10MF-CT-16V
1N4004
SOC14 60B) SOC11 65B)
BD236-PNP-60V 100NF 60B- 62B) SOC5 VPP/ 60B- 62B) SOC7 60B- 62B) SOC8 60B- 62B) SOC9 SOC20 60B- 62B) SOC19 60B- SOC18 60B- 62B)
JACK
1N4148
4.7K
1N4148
1N4148
10MF-CT-16V
1.0NF
SELF_MC_0
UPPLY 100NF 100NF BUZZER 4.7K MW1X1C 4.7MF-CT-35V SOC20 390-SIL10-9R LED-RED-RECT SOC6 PB4- 65B) SOC5 PB3- 65B) SOC4 PB2- 65B) SOC2 PB1- 65B) RS3G RS3E RS3D USER/ RS3B RS3A LEDs BAR- CATO SOC1 PB0- 65B) 1.2K EMC_F 74LS125 SDOP SOC23 65B) SOC14 65B) A2SOC13 65B) FOUT 100PF 100NF SOC9 4.7K SOC7 VPP- 60B- 62B) SOC3 VPP- 65B) NTEG RATO RCUI NVERTI MW3X1C SOC9 ARTI 65B) TSOC24 SCK- 65B) 4.7K TRANSDUCER 60B- 62B/ LTAG SELECTO
BC547B-NPN-45V
Hardware Information
78L05 BC557B-PNP-45V
10-20 SCHO
ED102
BC547B-NPN-45V
74LS244 10K-SIL10-9R-B SOC1 SOC2
8MHZ-OSC LLATO
SOC25 SOC27 SOC26 MW2X14C SOC28 SOC13 SOC14 10MF 10MF
10MF C2TD1 VOUT1 OUT2 INP1 INP2
10MF
SOC21 65B)
10MF
RS5B
VDD)
74LS125
SOC19 60B- 62B)
RS5C
RESET/
RS5A
VPP)
74LS125
SOC1 PB0- 65B)
SOC4 SOC5 SOC6 SOC7 SOC8 SOC9 SOC10
3.3K-SIL8-4R CD28 100NF 100NF 74LS04 CD37 ST6262B)
SOC5 PB0- 60B- 62B)
SOC5 SOC20 SOC4 SOC22 HE10-16DM
SOC28 SOC27 SOC26 SOC25 SOC24 SOC23 SOC22 SOC21 SOC20 SOC19 SOC18 SOC17 SOC16 SOC15
MAX232 USER NNECTO Used
CD21 100NF
CD22
CD23
CD24
CD25
CD26
SOC12 65B) MW3X1C PC2/Ain Vpp/TEST PC3/Ain RESET PB6/ARTIMin OSCout PB7/ARTIMout OSCin PA5/Ain PA4/Ain ST62E62B-DIL16 78L05 100NF LM7805 220) 100NF SOC1 SOC2 SOC3 SOC4 SOC5 SOC6 SOC7 SOC8 SOC9 SOC10 SOC11 SOC12 SOC13 SOC14 PC0/Ain PC1/Ain PC2/Sin/Ain PC3/Sout/Ain PC4/SCK/Ain RESET OSCout OSCin PA7/Ain PA6/Ain PA5/Ain PA4/Ain PA3/Ain SOC28 SOC27 SOC26 SOC25 SOC24 SOC23 SOC22 SOC21 SOC20 SOC19 SOC18 SOC17 SOC16 SOC15 Vpp/TEST PB6/ARTIMin PB7/ARTIMout PA1/Ain PA2/Ain 4.7K SOC17 PA5- THERMISTOR_0 THERM USER SELECTO SOC7 PB5- 65B) SOC8 PB6- 65B) PUSH- BUTTO SOC16 PA4- 65B) 10K-RV LTAG ADJUST SOC15 PA3- 65B) OSCIN 65B) SOC22 RESET/ 65B) SOC5 65B) SDOP SOC9 60B- 62B) SDOP SOC18 60B- 62B) OSCIN ESET/ 60B- 62B) 1MF-ER-63V SOC22 ESET/ 65B) RS232 NTERFACE RCUI SW-PUSH Reset RS232 SUBD- NNECTO NNECTO CD27 74LS04 74LS04 MW1X1C MW1X1C
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LED-RED-5MM
22MF-EA-25V
1.2K
1.0NF
NTERFACE
74LS04
SUBD25C-F-COUDE 150-SIL8-4R 8.2V 100PF ENVDD RS4A 74LS04 100PF ENVPP RS4B OSCPI RS4C TROMIN RS4D 100PF RESETP RS1A 100PF RS1B 100PF OSCPI RS1D RESETP/ PPINT TROMIN 100PF 65B) SOC4 P1Y4 100PF REM/ TROMIN 60B- SOC8 OSCPI SDOP RS1C RESETP/ PG65B/ 100PF 150-SIL8-4R PG60B/_PG62B/ PG65B/ 74LS244
MW3X1C PG60B/_PG62B/
MW3X1C
RESETP
PA0- 65B) SOC10 PPINT OSCPI TROMIN RESETP/
USER/
74LS04
REM/
SIM/
100K-SIL10-9R-B
74LS125 SIM/ PG60B/_PG62B/ PG65B/ SOC22 Reset 65B)
LS244)
LS244)
LS125)
XT1)
100NF
100NF
100NF
100NF
100NF
100NF
Hardware Information
Notes:
Information furnished believed accurate reliable. However, SGS-THOMSON Microelectronics assumes responsibility consequences such information infringement patents other rights third parties which result from use. license granted implication otherwise under patent patent rights SGS-THOMSON Microelectronics. Specifications mentioned this publication subject change without notice. This publication supersedes replaces information previously supplied. SGS-THOMSON Microelectronics products authorized critical components life support devices systems without express written approval SGS-THOMSON Microelectronics. ©1998 SGS-THOMSON Microelectronics rights reserved. Purchase Components SGS-THOMSON Microelectronics conveys license under Philips Patent. Rights these components system granted provided that system conforms Standard Specification defined Philips. SGS-THOMSON Microelectronics Group Companies Australia Brazil Canada China France Germany Italy Japan Korea Malaysia Malta Morocco Netherlands Singapore Spain Sweden Switzerland Taiwan Thailand United Kingdom U.S.A.
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