Texas Instruments TMS370 manuel d'utilisation
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Un bon manuel d’utilisation
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Qu'est ce que le manuel d’utilisation?
Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Texas Instruments TMS370 décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.
Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.
Donc, ce qui devrait contenir le manuel parfait?
Tout d'abord, le manuel d’utilisation Texas Instruments TMS370 devrait contenir:
- informations sur les caractéristiques techniques du dispositif Texas Instruments TMS370
- nom du fabricant et année de fabrication Texas Instruments TMS370
- instructions d'utilisation, de réglage et d’entretien de l'équipement Texas Instruments TMS370
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes
Pourquoi nous ne lisons pas les manuels d’utilisation?
Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Texas Instruments TMS370 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Texas Instruments TMS370 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Texas Instruments en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Texas Instruments TMS370, comme c’est le cas pour la version papier.
Pourquoi lire le manuel d’utilisation?
Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Texas Instruments TMS370, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.
Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Texas Instruments TMS370. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.
Table des matières du manuel d’utilisation
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Page 1
2546239-9704 Microcontroller Products TMS370 Microcontroller/Gang Programmer User ’ s Guide[...]
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2546239-9704[...]
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TMS370 Microcontroller/Gang Programmer User ’ s Guide SPNU023 February , 1991[...]
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IMPORT ANT NOTICE T exas Instruments (TI) reserves the right to make changes to its products or to discontinue any semiconductor product or service without notice, and advises its customers to obtain the latest version of relevant information to verify , before placing orders, that the information being relied on is current. TI warrants performance[...]
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Preface Read This First How to Use This Manual This manual describes how to use and operate the TMS370 Microcontroller Programmer and the TMS370 Gang Programmer . Chapter 1 gives an over- view of each programmer and describes the correct way to install your specific programmer . After your programmer is correctly installed, you can use the configur[...]
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Related Documentation iv Read This First Related Documentation The following TMS370 documents are available through T exas Instruments Incorporated: The TMS370 Family Data Manual (literature number SPNS014) describes the hardware aspects of the TMS370, such as pin functions, architec- ture, stack operation, and interface; the manual also includes t[...]
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Information About Cautions and W arnings v Information About Cautions and Warnings This book may contain cautions and warnings. A caution describes a situation that could potentially damage your soft- ware or equipment. This is what a caution looks like. A warning describes a situation that could potentially cause harm to you . This is what a warni[...]
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vi Read This First[...]
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vii Contents 1 Introduction and Installation 1-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.1 Microcontroller Programmer Overview and Description 1-2 . . . . . . . . . . . . . . . . . . . . . . . . . . 1.2 Gang Programmer Overview and Description 1-4 . . . . . . . . . . . . . . . . . [...]
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Contents viii T able of Contents 2.12 Saving Configuration Parameters and the Device T able to a File — the Save Command 2-15 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.13 Showing the Display Window — the Display Command 2-16 . . . . . . . . . . . . . . . . . . . . . .[...]
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Running Title ix Figures 1–1. Microcontroller Programmer Personality Module 1-2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–2. Gang Programmer Board 1-4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1–3. Socket Identification 1-1 1 . . . . . . . . . . . . [...]
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Running Title x T able of Contents T ables 1–1. XDS Memory Expansion/Communications Board Switch Settings 1-10 . . . . . . . . . . . . . . . . . . 2–1. Edit Control Keys 2-4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2–2. Configuration Window Commands 2-5 . . . . .[...]
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Running Title xi Examples A–1. Example Configuration/Batch File A-2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D–1. Keystroke File Example.key D-2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .[...]
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xii T able of Contents[...]
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1-1 Chapter 1 Introduction and Installation This chapter describes how each programmer operates, how to install hard- ware, and how to install software. It also gives examples on getting started. Chapter 1 comprises the following sections: Section Page 1.1 Microcontroller Programmer Overview and Description 1-2 . . . . . . . . 1.2 Gang Programmer O[...]
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Microcontroller Programmer Overview and Description 1-2 Introduction and Installation 1.1 Microcontroller Programmer Overview and Description The TMS370 Microcontroller Programmer is an interactive, menu-driven sys- tem that facilitates programming TMS370 family devices and EPROMs either directly or through an XDS. The microcontroller programmer is[...]
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Microcontroller Programmer Overview and Description 1-3 The base unit of the programmer contains two LEDs. The red LED is marked program or device power and is lit whenever power is applied to device sockets. The green LED is marked power and indicates that the base is turned on. This LED should turn on approximately three seconds after power is su[...]
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Gang Programmer Overview and Description 1-4 Introduction and Installation 1.2 Gang Programmer Overview and Description The TMS370 Gang Programmer is an interactive, menu-driven system that provides programming support for on-chip EEPROM or EPROM of TMS370 microcontrollers in production environments. The gang programmer has the following features: [...]
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Gang Programmer Overview and Description 1-5 alone mode; it is ignored in PC mode. The red LED built into this switch is marked TMS370 power on and indicates that power is being supplied to the sockets on the gang programmer . Do not insert or remove devices from the programmer while the red TMS370 power on LED is lit! The main body of the gang pro[...]
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Gang Programmer Overview and Description 1-6 Introduction and Installation 1.2.1 Operating the Gang Programmer in PC Mode In PC mode , the gang programmer is an interactive, menu-driven system that facilitates programming TMS370 family devices and EPROMs. The system al- lows you to perform any or all of the operations listed below . Program any or [...]
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Gang Programmer Overview and Description 1-7 1) Position the toggle switch to either the program position or the verification position. 2) Press the push button on the programmer . While you press the push button, all 16 LEDs turn on, and remain on to verify LED operation, until you release the push button. 3) Release the push button to begin the p[...]
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Properly Installing the Programmer Hardware 1-8 Introduction and Installation 1.3 Properly Installing the Programmer Hardware Correctly installing the programmer hardware is essential to the proper opera- tion of programmer system. The following subsections explain how to connect the programming board to the PDS base unit and the required power con[...]
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Properly Installing the Programmer Hardware 1-9 1.3.2 Power Connection Connect the female end of the power cord to the PDS base unit. The programmer can handle a power range of 105 to 265 volts AC at 47 to 440 hertz. All units are equipped with two power cords. If you are in the U.S.A., use the power cord with a male connector that can be plugged d[...]
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Properly Installing the Programmer Hardware 1-10 Introduction and Installation 2) Connect port A of the XDS to the PC by using the cable supplied with the XDS. 3) Ensure that the switches on the XDS Communications board are set as in T able 1–1. T able 1–1. XDS Memory Expansion/Communications Board Switch Settings Switch No. S1 S2 S3 S4 1 Off O[...]
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Properly Installing the Programmer Hardware 1-1 1 1.3.5 Integrated Circuit (IC) Insertion ICs may be inserted or removed while power is applied to the programmer; however: 1) When using the microcontroller programmer , never use more than one IC socket at a time. Damage to the IC or the programmer could result. 2) Never insert or remove the IC whil[...]
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Properly Installing the Programmer Hardware 1-12 Introduction and Installation T o install a DIP device: 1) Align the IC so that pin 1 is oriented in the upper-left corner , indicated on the printed circuit board by a circled number 1: 2) Raise the locking arm, pulling it toward you to the upright position. 3) Insert the IC. locking arm DIP 4) Lowe[...]
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Properly Installing the Programmer Hardware 1-13 T o install a PLCC device: With this release of the programmers, the PLCC sockets do not have a lid; therefore, they are not sensitive to the device package height. These new sockets also have the pin 1 orientation at the top of each socket, making it less likely for you to insert a device backwards.[...]
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Properly Installing the Programmer Software 1-14 Introduction and Installation 1.4 Properly Installing the Programmer Software Installing software is exactly the same whether you are using the Microcontrol- ler Programmer or the Gang Programmer . Insert the diskette supplied with the programmer into the PC disk drive and use one of the following me[...]
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Properly Installing the Programmer Software 1-15 table. The order in which the programmer looks for the device table is out- lined below . a) First, it looks for a device table file specified in the configuration/batch file if the configuration/batch file was included in the command line to invoke the programmer software. PRGRM370 @PROJ1.CFG where [...]
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Invoking the Programmer Software 1-16 Introduction and Installation 1.5 Invoking the Programmer Software Before activating the programmer , be sure that it is plugged in and correctly connected as described in Section 1.3. T urn on the programmer ’ s power switch (and the gang programmer ’s external power) before invoking the pro- grammer softw[...]
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Getting Started—Example Sessions 1-17 1.6 Getting Started—Example Sessions This section will help you get a quick start using your programmer . Once you get started, the menu structure and prompts make the programmer easy to learn and to use. The remainder of this manual provides a detailed reference if you need further information on any of th[...]
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Getting Started—Example Sessions 1-18 Introduction and Installation Object file: 6) Enter the name of the COFF file containing the object code with which the device is to be programmed. Press , and the following prompt appears: Object base address: all where all is the default, meaning that the entire object code address range is to be used. 7) S[...]
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Getting Started—Example Sessions 1-19 1.6.2 Interactive Programming Example 2 This sample session illustrates entering the interactive mode with the COFF file automatically loaded into PC memory . If the programmer software is active, that is, in the display or configuration windows, press to quit the program- mer and verify your choice. This ret[...]
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1-20 Introduction and Installation[...]
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2-1 Chapter 2 Operating in the Configuration Window This chapter describes the commands offered in the configuration window of the programmer ’s display . The first part of this chapter explains how the command menus and function keys work; it also has a short section on entering information at the cursor prompt. These sections are the same as th[...]
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Page 36
How Command Menus Work 2-2 Operating in the Configuration Window 2.1 How Command Menus Work The interactive mode of the programmer is driven by command menus that are displayed on the top line of the screen. A command menu is a list of command names, each of which is displayed with one highlighted letter , usually the first character in the name. T[...]
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Using the Special Function Keys/What Happens If I Make an Error 2-3 2.2 Using the Special Function Keys Function keys through invoke various actions in the programmer , depending on your location in the command menu structure. The valid function keys and their definitions for each mode are displayed on the bottom line of the screen for reference. P[...]
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Understanding Y our Input at the Cursor Prompt 2-4 Operating in the Configuration Window 2.4 Understanding Y our Input at the Cursor Prompt The programmer software often requires you to enter a response to a prompt or to move the cursor to a value on the screen and modify it. The previous or default value for the prompted parameter value is always [...]
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Configuration Window Overview and Description 2-5 2.5 Configuration Window Overview and Description If you use the configuration command while in the display window , the config- uration window illustrated in Figure 2–2 is displayed; it also displays when the programmer software is first invoked. Figure 2–2. Configuration Window at System Start[...]
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Configuration Window Overview and Description 2-6 Operating in the Configuration Window The device table lists devices that can be programmed through the program- mer . The device table displays 12 device types at a time and is sorted first by the device family names and then by the device first names. If there is more than one device type under on[...]
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Page 41
Secondary Configuration Window—the Show Ranges Window 2-7 2.6 Secondary Configuration Window—the Show Ranges Window A small subwindow appears when you select the show ranges function key , , from the device area of the configuration window . Figure 2–3 illustrates what the show ranges window looks like. Figure 2–3. The Show Ranges Window Ch[...]
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Secondary Configuration Window—the Show Ranges Window 2-8 Operating in the Configuration Window 2.6.1 Selecting the Proper Program Algorithm For EEPROM memory in devices, there are three programming modes: writing 0s only , all 1s in the data bytes are ignored. writing 1s only , all 0s in the data bytes are ignored. writing 0s and 1s. For all oth[...]
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Showing the Software Revision Information/Defining and Adding a Device to the Device T able 2-9 2.7 Showing the Software Revision Information — the Show ID Command This command displays the software release/revision information on the top line of the PC screen for reference. Press any key to return to the configuration command line. 2.8 Defining [...]
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Defining and Adding a Device to the Device T able 2-10 Operating in the Configuration Window V alid types of memory are EPROM or EEPROM. Legal V CC values are listed following the prompt—0, 5, or 6. If you enter a value that is not one of the three valid choices, the following error message appears: invalid VCC value: 0, 5, or 6 (hit any key) Pre[...]
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Page 45
Editing the Configuration Parameters and Device T able 2-1 1 Program Algorithm: If the family code is 10h (TMS370 EEPROM range), one of three pro- gramming algorithms can be chosen— program 1s, program 0s, or program 1s and 0s. Using this parameter along with the block erase parameter , you can optimize for programming speed or can mini- mize the[...]
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Editing the Configuration Parameters and Device T able 2-12 Operating in the Configuration Window 2.9.2 Editing the Device T able The device table is a list of devices catagorized by family name and device first name . The software diskette provides a device table file, device.tbl , that con- tains a list of devices and their configuration paramete[...]
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Editing the Configuration Parameters and Device T able 2-13 Pressing causes this temporary window to disappear , and the previous window is resumed. Pressing from the device table selects the device on the line where your cursor is positioned. The device you have chosen is highlighted when se- lected. Pressing deletes the device on the line where y[...]
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Loading the Device T able and Configuration Parameters From a File 2-14 Operating in the Configuration Window 2.10 Loading the Device T able and Configuration Parameters From a File — the Load Command When you select the L command, a submenu displays options for choosing a file to load. The commands in this submenu are listed below; the letter th[...]
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Selecting a Current Device/Saving the Configuration Parameters and Device T able to a File 2-15 2.1 1 Selecting a Current Device — the Choose Device Command The choose device command moves the cursor directly to the device table. Use the cursor control keys to move the cursor to the device you will be pro- gramming and press to select it. The sel[...]
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Showing the Display Window/Ending Y our Current Session and Returning to DOS 2-16 Operating in the Configuration Window 2.13 Showing the Display Window — the Display Command When you choose the display command , the programmer software checks to to see if a current device type has been selected. If you have selected a current device type, the pro[...]
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3-1 Chapter 3 Operating in the Display Window This chapter describes the commands offered in the display window of the programmer ’s display . The first part of this chapter explains how the command menus and function keys work; it also has a short section on entering information at the cursor prompt. These sections are the same as the initial se[...]
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Page 52
How Command Menus Work 3-2 Operating in the Display Window 3.1 How Command Menus Work The interactive mode of the programmer is driven by command menus that are displayed on the top line of the screen. A command menu is a list of command names, each of which is displayed with one highlighted letter , usually the first character in the name. The hig[...]
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Page 53
Using Special Function Keys/What Happens If I Make an Error? 3-3 3.2 Using the Special Function Keys Function keys through invoke various actions in the programmer , depending on your location in the command menu structure. The valid function keys and their definitions for each mode are displayed on the bottom line of the screen for reference. Pres[...]
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Page 54
Understanding Y our Input At the Cursor Prompt 3-4 Operating in the Display Window 3.4 Understanding Y our Input at the Prompt The programmer software often requires you to enter a response to a prompt or to move the cursor to a value on the screen and modify it. The previous or default value for the prompted parameter value is always dis- played. [...]
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Page 55
Display Window Overview and Description 3-5 3.5 Display Window Overview and Description The display window has two separate areas (see Figure 3–2): the PC memory display (left half of screen) and the reverse assembled code (right half of screen). The programmer displays the PC memory in a hexadecimal format. The memory address occupies the left-m[...]
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Page 56
Display Window Overview and Description 3-6 Operating in the Display Window T able 3–2. Display Window Commands Command Function F ill Memory Fill PC memory with a byte value. L oad COFF File Load a COFF file to PC memory . O utput COFF File Create a COFF file from PC memory . M ove Memory Move a block of PC memory to another location in the PC m[...]
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Page 57
Display Window Overview and Description 3-7 F2 (Pg Up) Scroll backward through code. F3 (Address) Invoke disassembler at specified PC memory address. ESC Leave inspect mode and return to display command menu. ← Move cursor left one space. → Move cursor right one space. ↑ Move up one line, scrolling if necessary . ↓ Move down one line, scrol[...]
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Page 58
Filling a Block of PC Memory With a V alue 3-8 Operating in the Display Window 3.6 Filling a Block of PC Memory With a V alue — the Fill Command Use the fill command to fill a block of PC memory with a value. Step 1: Define the size of the block by answering the following two prompts: Fill Start Address: 0000h Size (in bytes) : 0000h Enter the st[...]
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Page 59
Loading a COFF File Into PC Memory 3-9 3.7 Loading a COFF File Into PC Memory— the Load Command Use the load command to load a COFF file into the PC memory . This com- mand allows you to load the entire COFF file or part of it and also to specify where in the PC memory you want it loaded. Step 1: Identify the COFF file you want to load at the fol[...]
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Page 60
Outputting a COFF File From PC Memory 3-10 Operating in the Display Window 3.8 Outputting a COFF File From PC Memory — the Output COFF Command Use the output COFF command to create a COFF object file from the PC memory . This command allows you to specify the block(s) of PC memory to be used to create the COFF file. Each block of the PC memory is[...]
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Page 61
Outputting a COFF File From PC Memory 3-1 1 After the input session is completed, the programmer uses the PC memory blocks given to create the COFF file. As a result of debugging, you may have made code changes that you would like to save. Y ou can save the changes for later use by creating a COFF file from the working code in the PC memory . Y ou [...]
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Page 62
Moving Blocks of PC Memory 3-12 Operating in the Display Window 3.9 Moving Blocks of PC Memory—the Move Command Use the move command to move a block of PC memory from one location to another PC memory location. Step 1: Identify the size of PC memory to be moved. Move PC memory From Address: 0000h Size (in bytes) : 0000h Enter the start address of[...]
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Page 63
Programming a Device From PC Memory 3-13 3.10 Programming a Device From PC Memory — the Program Command When you use the program command, the microcontroller and gang programmers display different prompts and messages. The microcontroller programmer is discussed in sub-section 3.10.1, and the gang programmer is discussd in subsection 3.10.2. 3.10[...]
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Page 64
Programming a Device From PC Memory 3-14 Operating in the Display Window This message is updated when the programmer starts programming the next packet. If, for some reason, you want to terminate the programming process before it is completed, press the key to abort the process and return to the display command menu. When the programming process is[...]
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Page 65
Programming a Device From PC Memory 3-15 3.10.2 Programming Using the Gang Programmer In PC mode, use the gang programmer ’s program command to program multiple devices from the PC memory with verification. (For information on pro- gramming from standalone mode, refer to subsection 1.2.2 on page 1-6.) Starting the programming is a simple one-step[...]
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Page 66
Programming a Device From PC Memory 3-16 Operating in the Display Window Once the programming begins, it proceeds packet by packet in180-byte seg- ments. Before a packet is programmed, the programmer verifies that the desti- nation device address is inside the valid address ranges defined for the current device type. If the address is not inside th[...]
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Page 67
Showing and Operating Within a T ext File 3-17 3.1 1 Showing and Operating Within a T ext File—the Show Command Use the show command to show a text file. This command uses the entire screen below the second line as the file display window . When you select the show command, the programmer prompts for a file name: File: T ype the pathname of the f[...]
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Page 68
Showing and Operating Within a T ext File 3-18 Operating in the Display Window 3.1 1.1 Finding Character Strings Within a T ext File — the Find Command The find command allows you to search for a string of characters in the text file. When the programmer prompts you for a character string, type a string up to 30 characters long. The programmer be[...]
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Page 69
Uploading a Device’s Contents Into PC Memory 3-19 3.12 Uploading a Device’s Contents Into PC Memory– the Upload Command When you use the upload command, the microcontroller and gang program- mers display different prompts and messages. The microcontroller program- mer is discussed in sub-section 3.12.1, and the gang programmer is discussd in [...]
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Page 70
Uploading a Device’s Contents Into PC Memory 3-20 Operating in the Display Window During the uploading process, the programmer displays a status message on the bottom line of the screen to indicate the address currently being read. Reading at address 7000 (hit ESC key to abort) This message is updated when the programmer starts to upload the next[...]
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Page 71
Uploading a Device’s Contents Into PC Memory 3-21 unable to communicate with TMS370 device – Retry, Abort Y ou should inspect all of the devices for misalignment or bent pins. Y ou may have to remove devices until the bad device is found. Once the actual uploading begins, it proceeds packet by packet in180-byte segments. Before a packet is uplo[...]
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Page 72
V erifying the Contents of a Device 3-22 Operating in the Display Window 3.13 V erifying the Contents of a Device – the V erify Command When you use the verify command, the microcontroller and gang programmers display different prompts and messages. The microcontroller programmer is discussed in sub-section 3.13.1, and the gang programmer is disc[...]
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Page 73
V erifying the Contents of a Device 3-23 rent device type. If the address is not in the range, the following error message is displayed. Address out of range, Press any key During the verification process, the programmer displays a status message on the bottom line to indicate the beginning address of the packet currently being programmed. Reading [...]
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Page 74
V erifying the Contents of a Device 3-24 Operating in the Display Window Step 3: If you chose to verify a single device against PC memory , you must now specify the error file. Otherwise, verification errors are indicated with the red LEDs found below each device socket. If you have en- tered an error file previously , it will appear as the default[...]
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Page 75
V erifying the Contents of a Device 3-25 Once the actual verification begins, it proceeds packet by packet (180-byte segments). Before a packet is read, the programmer verifies that the source device address is inside the valid address ranges defined for the current de- vice type. If the address is not inside the range, the following error message [...]
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Page 76
Editing the Contents of PC Memory 3-26 Operating in the Display Window 3.14 Editing the Contents of PC Memory—the Edit Command The edit command puts the programmer in a special mode that allows you to overwrite the contents of the PC memory by typing new values. When you press , the cursor moves into the PC memory display area. Y ou can scroll up[...]
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Page 77
Using the Master Mode Menu 3-27 3.15 Using the Master Mode Menu—the Master Command The master command mode allows you to program and manipulate data with a master device as the source of the data manipulation. This command brings up a menu simliar to the display window command menu. All the commands, except program, upload, and copy , work identi[...]
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Page 78
Suspending the Program and Entering DOS/Quitting the Program and Exiting to DOS 3-28 Operating in the Display Window 3.16 Suspending the Program and Entering DOS—the System Command The system command temporarily suspends the programmer software so that you can use DOS commands and functions. When you are ready to leave DOS and return to the progr[...]
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Page 79
A-1 Appendix A Operating the Programmer in Batch Mode In the batch control mode, the execution flow is defined in a configuration/ batch file, and all messages are displayed in line-oriented mode. The configu- ration/batch file consists of a set of commands that define the current configu- ration and give direction of execution. Section Page A.1 Un[...]
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Page 80
Understanding the Batch Mode File A-2 Operating the Programmer in Batch Mode A.1 Understanding the Batch Mode File Batch mode allows you to program and/or verify devices repeatedly with a fixed configuration setup in the configuration/batch file. When you invoke the programmer in batch mode, all device parameters are specified by the device type ca[...]
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Page 81
Batch File Command Rules and Descriptions A-3 A.2 Batch File Command Rules and Descriptions The batch commands can be classified as executable or nonexecutable . The executable commands invoke operations, whereas the nonexecutable com- mands define programming parameters and the device type. The batch commands must conform to the following basic sy[...]
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Batch File Command Rules and Descriptions A-4 Operating the Programmer in Batch Mode A.2.2 Nonexecutable Batch Commands Nonexecutable commands do not invoke any action. They set certain pro- gramming parameters and define the device type. These commands can be classified as defaultable or nondefaultable . Defaultable commands are not re- quired in [...]
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Batch Mode Status Messages A-5 A.3 Batch Mode Status Messages When programming begins, a status message informs you: Programming at device address where device address is the location on the device that is currently being pro- grammed. This message is updated every time the programmer starts on the next packet of data. A similar message appears whe[...]
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A-6 Operating the Programmer in Batch Mode[...]
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B-1 Appendix B Error Messages This appendix briefly describes the error messages associated with the programmers. It also gives reasons why the error occurred and sugges- tions on how to fix the error . The messages are arranged in alphabetic order .[...]
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Error Message Descriptions B-2 Error Messages B.1 Error Message Descriptions The following messages are common to all programmers. Chip inserted incorrectly, or bad – Retry, Abort For the microcontroller programmer , this message refers to the 2732, 2764, 27128, and 27256 devices. For the gang programmer , this message refers to the master EPROM [...]
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Error Message Descriptions B-3 invalid Vcc chosen – Retry, Abort The V CC value you have chosen for your device is invalid. Use a valid V CC value—0, 5, or 6 volts. invalid VPP chosen – Retry, Abort The V PP value you have chosen is invalid. Use a valid V PP value—0, 5, 12, 12.5, or 21 volts. unable to communicate with TMS370 device – Ret[...]
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Error Message Descriptions B-4 Error Messages These error messages are specific to the gang programmers. checksum error in master device – Retry, Abort The data in the master device is corrupt. Replace the master EPROM. illegal memory type detected in master – Retry, Abort The master EPROM device has illegal configuration data. Replace the mast[...]
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C-1 Appendix C Configuration Parameters T able C–1 describes the valid configuration parameters for the programmers discussed in this manual. Use of invalid parameters will result in programming errors. T able C–1. V alid Configuration Parameters Device Family Device 1st Name Start Size T ype V CC V PP Pdt Ctrl Reg. Family Code Block Erase Prog[...]
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C-2 Configuration Parameters[...]
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D-1 Appendix D Using Keystroke Capture Files A keystroke capture file is a file in which the keystrokes you type are re- corded to be replayed later . Keystroke capture files are useful in setting up the programmer to perform a commonly repeated program or to verify operation. T wo command line switches allow the recording and replaying of keystrok[...]
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Using Keystroke Capture Files D-2 Using Keystroke Capture Files Example D–1. Keystroke File Example.key C$DARW choose device $DARW move cursor down to 370C756 device $DARW $DARW $DARW $DARW $F5 select this device $ESC go back to top menu d$F3 go to display window , select address 4000h 40000h$CR f4000h$CR fill memory starting at address 4000h 400[...]
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Using Keystroke Capture Files D-3 T ext Name Actual Keystroke $INS insert $LARW left arrow arrow $RA WR right arrow $SRECORD stop record $SP space $T AB tab $UARW up arrow[...]
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D-4 Using Keystroke Capture Files[...]
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Index-1 Index A add device command, 2-9 address range, PC memory , 3-5 B batch mode command descriptions, A-3 executable, A-3 nonexecutable, A-4 description, A-2 status messages, A-5 block erase, 2-8 C choose device command, 2-15 command menus, proper usage, 2-2, 3-2 commands configuration window , 2-5 differences between microcontroller and gang, [...]
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Index Index-2 system (using DOS commands), 3-28 uploading (device’ s contents), 3-19, 3-20 verify (device contents), 3-22, 3-23 description, 3-5 E edit command, 2-1 1 edit mode command, 3-26 editing screen values, 2-4, 3-4 error messages, B-2 cannot open file, 2-14 clearing, 2-3, 3-3 descriptions, B-2 device not selected, unable to set up the pro[...]
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Index Index-3 upload, 3-27 memory , PC, 1-2 microcontroller programmer description, 1-2 features, 1-2 physical description, 1-3 move PC memory command, 3-12 O output COFF file command, 3-10 P parameters. See configuration parameters PC connection, 1-9 PC memory address range, 3-5 PC memory display , 3-5 position-at-bottom-of-file command, 3-18 posi[...]
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Index Index-4[...]
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IMPORT ANT NOTICE T exas Instruments (TI) reserves the right to make changes to its products or to discontinue any semiconductor product or service without notice, and advises its customers to obtain the latest version of relevant information to verify , before placing orders, that the information being relied on is current. TI warrants performance[...]