User manual

ManualsBrandsMICROCHIP TECHNOLOGY ManualsDev KitsPCB design board

Table Of Contents

Chapter 1. Overview
1.1 Introduction
1.2 Highlights
1.3 PICDEM™ Lab Development Kit Contents
1.4 PICDEM™ Lab Development Board Construction and Layout
- Figure 1-1: PICDEM™ Lab Development Board
1.5 Target Power
1.6 Connecting the PICkit™ 2 Programmer/Debugger
- Figure 1-2: Connecting the PICkit™ Programmer/Debugger to an ICSP™ connector
1.7 Solderless Prototyping Area Strip Configuration
- Figure 1-3: Solderless Prototyping Area Strip Configuration
Chapter 2. Getting Started
2.1 Introduction
2.2 Prerequisites
2.3 The Software Control Loop
- Figure 2-1: Main() Software Control Loop Flowchart for uSED iN lABS
2.4 MPLAB® IDE Download Instructions
- Figure 2-2: MPLAB Zip file
- Figure 2-3: HI TECH Installer Window
- Figure 2-4: HI TECH License Agreement
- Figure 2-5: HI TECH Components
- Figure 2-6: HI TECH Language Preferences
- Figure 2-7: HI TECH Install Confirmation
2.5 Installing the Included Lab Files
Chapter 3. General Purpose Input/Output Labs
3.1 Introduction
3.2 General Purpose Input/Output Labs
3.3 GPIO Output Labs
- 3.3.1 Reference Documentation
- 3.3.2 Equipment Required for GPIO Output Labs
- 3.3.3 PICDEM Lab Development Board Setup for GPIO Output Labs
- Figure 3-1: PICDEM Lab Schematic for GPIO Output Labs
- 3.3.4 Lab 1: Light LEDs
- Figure 3-2: MAIN() Software Control Loop Flowchart for Lab 1
- Figure 3-3: Step One
- Figure 3-4: Step Two
- Figure 3-5: Step Three
- Figure 3-6: Step Four
- Figure 3-7: Summary
- Figure 3-8: Project Window
- Figure 3-9: PICkit 2 PROGRAMMER/DEBUGGER TOOLBAR
- Figure 3-10: Lab 1 LED Output
- 3.3.5 Lab 2: Flash LEDs (Delay Loop)
- Figure 3-11: Main() Software Control Loop Flowchart for Lab 2
- Figure 3-12: Timing() Delay Routine Flowchart for Lab 2
- 3.3.6 Lab 3: Simple Delays Using Timer0
- Equation 3-1: TMR0 Overflow Period using FOSC/4
- Equation 3-2: TMR0 Overflow Period when including the Prescaler
- Equation 3-3: Calculating a TMR0 PreLoad Value to generate a 10mS Overflow Period
- Figure 3-13: Delay_10mS() using Timer0
- Equation 3-4: Maximum TMR0 Overflow Period
- Figure 3-14: Delay_1S() using Timer0
- 3.3.7 Lab 4: Rotate LEDs
- Figure 3-15: Main() Software Control Loop Flowchart for Lab 4
- Figure 3-16: Decide() Flowchart for Lab 4
- Figure 3-17: Results of Do_Output()
3.4 GPIO Input Labs
- 3.4.1 Reference Documentation
- 3.4.2 Equipment Required for GPIO Input Labs
- 3.4.3 PICDEM Lab Development Board Setup for GPIO Input Labs
- Figure 3-18: PICDEM Lab Schematic for GPIO Input Labs
- 3.4.4 Lab 5: Adding a Push Button
- Figure 3-19: Main() Software Control Loop Flowchart for Lab 5
- Figure 3-20: Get_Inputs() Software Flowchart for Lab 5
- Figure 3-21: Delay_5mS() Software Flowchart for Lab 5
- Figure 3-22: Decide() Software FlowChart for Lab 5
- 3.4.5 Lab 6: Push Button Interrupt
- Figure 3-23: Main() Software Control Loop Flowchart for GPIO Lab 6
- Figure 3-24: pb_pressISR() for Lab 6 Showing Switch Debounce
- 3.4.6 Lab 7: Push Button Interrupt-on-Change
- Figure 3-25: pb_pressisr Flowchart for Lab 7
- 3.4.7 Lab 8: Using Weak Pull-Ups
Chapter 4. Comparator Peripheral Labs
4.1 Introduction
4.2 Comparator Labs
- 4.2.1 Reference Documentation
- 4.2.2 Comparator Labs
- 4.2.3 Equipment Required
- 4.2.4 Lab 1: Simple Compare
- Figure 4-1: Schematic for Comparator Lab 1
- Figure 4-2: Main() software Control Loop Flowchart for Comparator Lab 1
- 4.2.5 Lab 2: Using the Comparator Voltage Reference
- Equation 4-1: CVref Output Voltage
- Equation 4-2: Calculating a 2.5V Internal Reference (Low-Range Method)
- Figure 4-3: Schematic for Comparator Lab 2
- 4.2.6 Lab 3: Higher Resolution Sensor Readings Using a Single Comparator
- Figure 4-4: Basic Relaxation Oscillator Circuit
- Figure 4-5: Schematic for Comparator Lab 3
- Figure 4-6: Main() software Control Loop Flowchart for Comparator Lab 3
- Figure 4-7: TMR0_ISR Flowchart for Comparator Lab 3
Chapter 5. Analog-to-Digital Converter Peripheral Labs
5.1 Introduction
5.2 ADC Labs
- Figure 5-1: Schematic for ADC Lab 1
- Figure 5-2: Main() software Control Loop Flowchart for Comparator Lab 1
- Figure 5-3: Main() software Control Loop Flowchart for Comparator Lab 1
- Figure 5-4: ADC Result Bit Significance
- Figure 5-5: Schematic for ADC Lab 2
- Figure 5-6: Main() software Control Loop Flowchart for ADC Lab 2
Appendix A. Schematic
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PICDEM

Lab Development Board User’s Guide

3.3.7.3 TESTING THE APPLICATION

Program the PIC16F690. The LEDs connected to the individual PORTC pins should

now all flash on/off sequentially from right-to-left in 1 second intervals.

The solution for this project is located in the

C:\PICDEM_Lab\GPIO_Labs\GPIO_Lab4\solution directory.

3.4 GPIO INPUT LABS

3.4.1 Reference Documentation

PIC16F690 Data Sheet

• Section 2: Memory Organization

• Section 4: I/O Ports

• Section 5: Timer0 Module

3.4.2 Equipment Required for GPIO Input Labs

To complete the labs in this section, the following components are required:

1. 1 – push button

2. 8 – Light Emitting Diodes

3. 1 – 10 K

4. 8 – 470Ω resistors

5. PIC16F690 populating socket U2

6. Assorted jumper wires

3.4.3 PICDEM Lab Development Board Setup for GPIO Input Labs

The GPIO input labs will require that the PICDEM Lab Development Board be

configured as shown in Figure 3-12 using the components listed in the previous

section.