<^< The Analogue World | Course index | Digital Data >^>

Introduction to Microcontroller Programming * Course Index * Introduction * About the Author * About this Course * Feedback * Course Navigation * Quick Course Navigation * How to use this Course * Acronyms Used and Course Conventions

About PICmicro Chips * What is a PICmicro? * Microcontrollers * Digital versus Analogue ## The Digital World ## The Analogue World ##

Analogue Data ## Digital Data ## Analogue to Digital Conversion * Inputs and Outputs * Memory * Programming * 16F1937 Architecture

Clocking Your PICmicro Devices * Introduction * The Clock Circuit * Clock Settings * Clock Confusion

E-Blocks * Introduction to E-blocks * Using E-blocks * E-blocks Boards

Flowcode Step By Step * Introduction to Flowcode * Basic Flowcode Functions * Digital Outputs * Digital Inputs * Basic Loops * The LCD Display * Binary Numbers * Decisions * Goto (Connection Point) * 7-Segment Displays * Software Macro * Strings and Memory * A Simple Hi-Fi

PICmicro Projects * Introduction to PICmicro Projects * Construction Methods * Choosing a Power Source * Adding Inputs * Input Conditioning * Adding Outputs * Adding Drivers

Labs * Introduction and Lesson Plan * 1. Output * 2. Delay * 3. Connection Point * 4. Calculations * 5. Loop * 6. Input * 7. Decision * 8. LCD * 9. Keypad * 10. Analogue + EEPROM * 11. Software Macro * 12. External Interrupt * 13. Timer Interrupt

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DigitalVersusAnalogue /

Analogue Data

<^< The Analogue World | Course Index | Digital Data >^>(:nl:)

Many electronic sensors provide signals in analogue form. For example, a microphone provides an electrical 'copy' of a sound wave.

Here is the circuit diagram for a temperature sensor.

The output voltage from this increases when the temperature increases. It is an analogue signal because the voltage copies the behaviour of the temperature.

The analogue signal can have any voltage value, limited only by the power supply used.

In this case, the output of the temperature sensor could, in theory, go as high as 5V, or as low as 0V with many readings in between.

Over a period of time, the output voltage could change as follows:

This is an analogue signal. (:nl:)(:table style="clear:both":)

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Page last modified on August 19, 2011, at 10:27 AM