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Copyright 2003 by The McGraw-Hill Companies, Inc. Click Here for Terms of Use.
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XVI INTRODUCTION
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Hardware as well as software for each project is presented in an easy-tounderstand format, which will allow anyone with a basic interest in electronics and microprocessors to assemble, as well as program, any of the projects described in this book. The CD-ROM accompanying the book also includes three appendixes that are an invaluable aid to the reader and hobbyist alike. Appendix 1 contains many full data sheets of the integrated circuits used for projects covered in the book. Appendix 2 includes many useful tables and charts for help in understanding and programming the STAMP 2. Appendix 3 presents useful contacts and names, STAMP 2 news/mail groups, and manufacturers. The CD-ROM for STAMP 2 Communications and Control Projects also includes all the programs for the projects in this book. You can easily load any of the programs in just a few minutes. The CD-ROM also includes a STAMP 2 manual, application notes, and many additional free programs for other interesting projects. One of the reasons the STAMP 2 has been so successful is that it can be interfaced with many different types of sensors and external devices quite readily. The BASIC STAMP 2 can often be interfaced with the outside world with oneor two-wire interfaces. Many applications such as analog-to-digital conversion or temperature sensing, as well as external memory devices can be interfaced with two wires. One-wire devices or I2C devices are very easy to interface to the STAMP 2. The Dallas Semiconductor 1-Wire devices are available as sensors, external memory, and they even have a one-wire weather station that can be used with the STAMP 2. Many of the projects in this book are complete and self-contained in their own right, but also could be used together with other projects to form more complex projects and systems. Some projects could be used as idea generators for more complex systems. We hope this book will act to spur your imagination for building and modifying the circuit and programs contained within, to gain a better appreciation of the power and flexibility of the STAMP 2 microprocessor. Hobbyists, engineers, technicians, and amateur radio enthusiasts alike will appreciate this fascinating new book. 1 presents an alternative STAMP 2 a low-cost substitute for BASIC STAMP 2. This chapter will show you how to construct your own less expensive alternative for about half the price of the original! You can substitute the alternative STAMP 2 for any BS2 project in this book. 2 covers the basics of interfacing input and output devices such as switches, sensors, LEDs, and motors. This chapter also includes an introduction to serial interfacing of the STAMP 2 microprocessor to a personal computer and other devices. A QBASIC program for uploading and downloading between the STAMP 2 and a PC is included, and a full terminal program is presented. In 3 we explore new and interesting speciality ICs, or serial building blocks. While not a specific STAMP 2 project, this chapter presents special ICs that can be used with the BASIC STAMP 2 processor to create new and interesting serial infrared (IR) and radio remote control projects. This chapter is a project idea generator designed to stimulate your imagination in finding ways of using some new dedicated microprocessors that, combined with STAMP 2, create powerful new projects.
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INTRODUCTION XVII
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4 features an RJ-45 Ethernet network cable tester. This project is a real time saver and prevents headaches. Wiring 10Base-T Ethernet networks can be a long and frustrating task, fraught with problems. The RJ-45 cable tester uses STAMP 2 to test all eight wires in an Ethernet cable using a walking LED pattern. The tester is a two-piece unit. One end is placed at the originating end of the cable and the second part of the tester is placed at the end user PC and will test opens and shorts. 5 presents an infrared communicator utilizing the STAMP 2. This IrDA transceiver allows the STAMP 2 to communicate with other IrDA-enabled computers, laptops, and personal digital assistants (PDAs), for data collection and transfer. 6 illustrates a multichannel wireless alarm system. The wireless alarm system is a two-part system that combines a 12-channel alarm system with a transmitter and a complementary receiver and liquid crystal display (LCD) unit. With this alarm system you can monitor sensors, doors, windows, floor mats, etc. The resultant alarm warning is sent via radio to a remote receiver and display. The LCD unit beeps and indicates the particular alarm sensor that was activated. 7 describes the construction of a unique and inexpensive way to measure lightning activity up to 50 or more miles away. This monitor provides real-time data on lightning activity by counting the number of lightning strikes in the area. This lightning detector project is a two-piece system: a remote outdoor sensor and an indoor microprocessor and display unit. This system was designed to provide advanced warning for weather hobbyists or amateur radio operators who want advance notice of an approaching electrical storm. The lightning detector/display is based on the BASIC STAMP 2, which is used to display the number of lightning strikes per minute via a row of eight colored LEDs. 8 illustrates a 12-channel remote control system using an IBM PS/2 type keyboard, interfaced to an Abacom model AM-RT4/RT5 series wireless transmitter. An Abacom receiver coupled to a BASIC STAMP 2 controller provides a means to control 12 different devices via radio. This system can be expanded to control many more devices if desired. 9 interfaces the STAMP 2 to the Motorola MC145447 caller-ID demodulator, to provide a very useful and low-cost caller-ID project. The STAMP 2 program reads in the caller-ID data, stores it in electrically erasable and programmable read-only memory (EEPROM), and outputs the information on the serial LCD backpack. The program also allows selection of up to 10 telephone numbers, which are called blocked numbers. If a blocked number calls, the program can choose to inhibit that call from reaching the telephone, answering machine, or other device. 10 presents both a touch-tone encoder and a touch-tone decoder based on the new CM-8880 touch-tone encoder/decoder chip. The touch-tone decoder project features an LCD display that will display the decoded digits, which can be utilized in many applications including ham radio, robotics, and remote control projects. The touch-tone decoder with display can be used to monitor touch-tone sequences over radio or the telephone line for monitoring purposes. 11 depicts a touch-tone controller, which can be utilized in many applications including ham radio, robotics, or remote control projects. The touch-tone
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