- •CONTENTS
- •FIGURES
- •TABLES
- •1.1 Manual Contents
- •1.2 Notational Conventions and Terminology
- •1.3 Related Documents
- •1.4 Application Support Services
- •2.1 Typical Applications
- •2.2 Microcontroller Features
- •2.3 Functional Overview
- •2.3.1 Core
- •2.3.1.3 Register File
- •2.3.2 Memory Controller
- •2.4 Internal Timing
- •2.4.1 Clock and Power Management Logic
- •2.4.2 Internal Timing
- •2.4.2.1 Clock Failure Detection Logic
- •2.4.2.2 External Timing
- •2.4.2.3 Power Management Options
- •2.4.3 Internal Memory
- •2.4.4 Serial Debug Unit
- •2.4.5 Interrupt Service
- •2.5 Internal Peripherals
- •2.5.1 I/O Ports
- •2.5.2 Serial I/O (SIO) Port
- •2.5.3 Synchronous Serial I/O (SSIO) Port
- •2.5.4 Event Processor Array (EPA) and Timer/Counters
- •2.5.7 Stack Overflow Module
- •2.5.8 Watchdog Timer
- •2.6 Special Operating Modes
- •2.7 Chip Configuration Registers
- •3.1 Overview of the Instruction Set
- •3.1.1 BIT Operands
- •3.1.2 BYTE Operands
- •3.1.4 WORD Operands
- •3.1.5 INTEGER Operands
- •3.1.9 Converting Operands
- •3.1.10 Conditional Jumps
- •3.1.11 Floating-Point Operations
- •3.1.12 Extended Instructions
- •3.2 Addressing Modes
- •3.2.1 Direct Addressing
- •3.2.2 Immediate Addressing
- •3.2.3 Indirect Addressing
- •3.2.3.1 Extended Indirect Addressing
- •3.2.3.2 Indirect Addressing with Autoincrement
- •3.2.3.3 Extended Indirect Addressing with Autoincrement
- •3.2.3.4 Indirect Addressing with the Stack Pointer
- •3.2.4 Indexed Addressing
- •3.2.4.3 Extended Indexed Addressing
- •3.2.4.4 Zero-indexed Addressing
- •3.3 Considerations for Crossing Page Boundaries
- •3.4 Software Protection Features and Guidelines
- •4.1 Memory Map Overview
- •4.2 Memory Partitions
- •4.2.1 External Memory
- •4.2.2 Internal ROM
- •4.2.2.1 Program Memory in Page FFH
- •4.2.2.3 Reserved Memory Locations
- •4.2.2.4 Interrupt, PIH, and PTS Vectors
- •4.2.2.5 Chip Configuration Bytes
- •4.2.3 Internal RAM (Code RAM)
- •4.2.4.2 Peripheral SFRs
- •4.2.5 Register File
- •4.2.5.2 Stack Pointer (SP)
- •4.3 Windowing
- •4.3.1 Selecting a Window
- •4.3.2 Addressing a Location Through a Window
- •4.3.2.4 Unsupported Locations Windowing Example
- •4.3.2.5 Using the Linker Locator to Set Up a Window
- •4.3.3 Windowing and Addressing Modes
- •4.4 Controlling Read Access to the Internal ROM
- •4.5 Remapping Internal ROM
- •5.1 Functional Overview
- •5.2 Stack Operations
- •5.3 Stack Overflow Module Registers
- •5.4 Programming the Stack Overflow Module
- •5.4.1 Initializing the Stack Pointer
- •5.4.2 Enabling the Stack Overflow Module and Specifying Stack Boundaries
- •6.1 Overview of the Interrupt Control Circuitry
- •6.2 Interrupt Signals and Registers
- •6.3 Interrupt Sources, Priorities, and Vector Addresses
- •6.3.1 PIH Interrupt Sources, Priorities, and Vector Addresses
- •6.3.1.1 Using Software to Provide the Vector Address
- •6.3.1.2 Providing the Vector Address in Response to a CPU Request
- •6.3.2 Special Interrupts
- •6.3.2.1 Unimplemented Opcode
- •6.3.2.2 Software Trap
- •6.3.2.4 Stack Overflow
- •6.3.3 External Interrupt Signal
- •6.3.4 Shared Interrupt Requests
- •6.4 Interrupt Latency
- •6.4.1 Situations that Increase Interrupt Latency
- •6.4.2 Calculating Latency
- •6.4.2.2 PTS Interrupt Latency
- •6.5 Programming the Interrupts
- •6.5.1 Modifying Interrupt Priorities
- •6.5.2 Determining the Source of an Interrupt
- •6.6 Initializing the PTS Control Blocks
- •6.6.1 Specifying the PTS Count
- •6.6.2 Selecting the PTS Mode
- •6.6.3 Single Transfer Mode
- •6.6.4 Block Transfer Mode
- •6.6.5 Dummy Mode
- •7.1 I/O Ports Overview
- •7.2 Configuring the Port Pins
- •7.2.2 Configuring Ports 3 and 4 (Address/Data Bus)
- •7.2.3 Port Configuration Example
- •7.3.1 Address and Data Signals (Ports 3, 4, and EPORT)
- •7.3.1.1 EPORT Status During Reset, CCB Fetch, Idle, Powerdown, and Hold
- •7.3.5 External Interrupt Signal (Port 2)
- •7.3.6 PWM Signals (Port 11)
- •7.3.7 Serial I/O Port Signals (Ports 2 and 7)
- •7.3.8 Special Operating Mode Signal (Port 5 Pin 7)
- •7.3.9 Synchronous Serial I/O Port Signals (Port 10)
- •7.4 I/O Port Internal Structures
- •7.4.3 Internal Structure for Ports 3 and 4 (Address/Data Bus)
- •8.1 Serial I/O (SIO) Port Functional Overview
- •8.2 Serial I/O Port Signals and Registers
- •8.3 Serial Port Modes
- •8.3.1 Synchronous Mode (Mode 0)
- •8.3.2 Asynchronous Modes (Modes 1, 2, and 3)
- •8.3.2.1 Mode 1
- •8.3.2.2 Mode 2
- •8.3.2.3 Mode 3
- •8.3.2.4 Multiprocessor Communications
- •8.4 Programming the Serial Port
- •8.4.1 Configuring the Serial Port Pins
- •8.4.2 Programming the Control Register
- •8.4.3 Programming the Baud Rate and Clock Source
- •8.4.4 Enabling the Serial Port Interrupts
- •8.4.5 Determining Serial Port Status
- •CHAPTER 9 Synchronous Serial I/O (SSIO) Port
- •9.1 SSIO Port Overview
- •9.1.1 Standard Mode
- •9.1.2 Duplex Mode
- •9.2 SSIO pORT sIGNALS AND rEGISTERS
- •9.3 ssio Port Operation
- •9.3.1 Transmitting and Receiving Data
- •9.3.1.1 Normal Transfers (All Modes)
- •9.3.1.2 Handshaking Transfers (Standard Mode Only)
- •9.4 Programming the SSIO Port
- •9.4.1 Configuring the SSIO Port Pins
- •9.4.2 Configuring the SSIO Registers
- •9.4.2.1 The SSIO Baud (SSIO_BAUD) Register
- •9.4.2.3 The SSIO 0 Clock (SSIO0_CLK) Register
- •9.4.2.4 The SSIO 1 Clock (SSIO1_CLK) Register
- •9.4.3 Enabling the SSIO Interrupts
- •9.5 Programming Considerations
- •9.5.2 Standard Mode Considerations
- •9.5.3 Duplex Mode Considerations
- •10.1 PWM FUNCTIONAL OVERVIEW
- •10.2 PWM Signals and Registers
- •10.3 pwm operation
- •10.4 Programming the Frequency and Period
- •10.5 Programming the Duty Cycle
- •10.5.1 Sample Calculations
- •10.5.2 Reading the Current Value of the Down-counter
- •10.5.3 Enabling the PWM Outputs
- •10.5.4 Generating Analog Outputs
- •11.1 EPA Functional Overview
- •11.2 EPA and Timer/Counter Signals and Registers
- •11.3 Timer/Counter Functional Overview
- •11.3.1 Timer Multiplexing on the Time Bus
- •11.4 EPA Channel Functional Overview
- •11.4.1 Operating in Input Capture Mode
- •11.4.2 Operating in Output Compare Mode
- •11.4.3 Operating in Compare Mode with the Output/Simulcapture Channels
- •11.4.4 Generating a 32-bit Time Value
- •11.4.5 Controlling a Pair of Adjacent Pins
- •11.5 Programming the EPA and Timer/Counters
- •11.5.1 Configuring the EPA and Timer/Counter Signals
- •11.5.2 Programming the Timers
- •11.5.3 Programming the Capture/Compare Channels
- •11.5.4 Programming the Compare-only (Output/Simulcapture) Channels
- •11.6 Enabling the EPA Interrupts
- •11.7 Determining Event Status
- •CHAPTER 12 Analog-to-digital (A/D) Converter
- •12.1 A/D Converter Functional Overview
- •12.2 A/D Converter Signals and Registers
- •12.3 A/D Converter Operation
- •12.4 Programming the A/D Converter
- •12.4.1 Programming the A/D Test Register
- •12.4.2 Programming the A/D Result Register (for Threshold Detection Only)
- •12.4.3 Programming the A/D Time Register
- •12.4.4 Programming the A/D Command Register
- •12.4.5 Programming the A/D Scan Register
- •12.4.6 Enabling the A/D Interrupt
- •12.5 Determining A/D Status and Conversion Results
- •12.6 Design Considerations
- •12.6.1 Designing External Interface Circuitry
- •12.6.1.1 Minimizing the Effect of High Input Source Resistance
- •12.6.1.2 Suggested A/D Input Circuit
- •12.6.1.3 Analog Ground and Reference Voltages
- •12.6.2 Understanding A/D Conversion Errors
- •CHAPTER 13 Minimum Hardware Considerations
- •13.1 Minimum Connections
- •13.1.1 Unused Inputs
- •13.1.2 I/O Port Pin Connections
- •13.2 Applying and Removing Power
- •13.3 Noise Protection Tips
- •13.4 The On-chip Oscillator Circuitry
- •13.5 Using an External Clock Source
- •13.6 Resetting the Microcontroller
- •13.6.1 Generating an External Reset
- •13.6.2 Issuing the Reset (RST) Instruction
- •13.6.3 Issuing an Illegal IDLPD Key Operand
- •13.6.4 Enabling the Watchdog Timer
- •13.6.5 Detecting Clock Failure
- •13.7 Identifying the Reset Source
- •14.1 Special Operating Mode Signals and Registers
- •14.2 Reducing Power Consumption
- •14.3 Idle Mode
- •14.3.1 Enabling and Disabling Idle Mode
- •14.3.2 Entering and Exiting Idle Mode
- •14.4 Powerdown Mode
- •14.4.1 Enabling and Disabling Powerdown Mode
- •14.4.2 Entering Powerdown Mode
- •14.4.3 Exiting Powerdown Mode
- •14.4.3.1 Generating a Hardware Reset
- •14.4.3.2 Asserting the External Interrupt Signal
- •14.4.3.3 Selecting an External Capacitor
- •14.5 ONCE Mode
- •CHAPTER 15 Interfacing with External Memory
- •15.1 Internal and External Addresses
- •15.2 External Memory Interface Signals and Registers
- •15.3 The Chip-select Unit
- •15.3.1 Defining Chip-select Address Ranges
- •15.3.2 Controlling Bus Parameters
- •15.3.3 Chip-select Unit Initial Conditions
- •15.3.4 Programming the Chip-select Registers
- •15.3.5 Example of a Chip-select Setup
- •15.4 Chip Configuration Registers and Chip Configuration Bytes
- •15.5 Bus Width and Multiplexing
- •15.5.1 A 16-bit Example System
- •15.5.2 16-bit Bus Timings
- •15.5.3 8-bit Bus Timings
- •15.5.4 Comparison of Multiplexed and Demultiplexed Buses
- •15.6 Wait States (Ready Control)
- •15.7 Bus-hold Protocol
- •15.7.1 Enabling the Bus-hold Protocol
- •15.7.2 Disabling the Bus-hold Protocol
- •15.7.3 Hold Latency
- •15.7.4 Regaining Bus Control
- •15.8 Write-control Modes
- •15.9 System Bus AC Timing Specifications
- •15.9.1 Deferred Bus-cycle Mode
- •15.9.2 Explanation of AC Symbols
- •15.9.3 AC Timing Definitions
- •16.1 Serial Debug Unit (SDU) Functional Overview
- •16.2 SDU Signals and Registers
- •16.3 SDU Operation
- •16.3.1 SDU State Machine
- •16.3.2 Code RAM Access State Machine
- •16.3.3 Minimizing Latency
- •16.4 Code RAM Access
- •16.4.1 Code RAM Data Transfer
- •16.4.2 Code RAM Access Instructions
- •16.4.3 Code RAM Data Transfer Example
- •16.5 SDU Interface Connector
- •17.1 Signals and Registers
- •17.2 Memory Protection Options
- •17.3 Entering Test-ROM Routines
- •17.3.1 Power-up and Power-down Sequences
- •17.4 ROM-dump Routine and Circuit
- •17.5 Serial Port Mode Routine
- •17.5.1 Serial Port RISM
- •17.5.2 Serial Port Mode Circuit
- •17.6 SDU RISM Execution Routine
- •17.6.1 SDU RISM Data Transfer
- •17.6.1.1 SDU RISM Data Transfer Before
- •17.6.1.2 SDU RISM Data Transfer After
- •17.6.2 SDU RISM Execution Circuit
- •17.7 RISM Command Descriptions
- •17.8 Executing Programs from Register RAM
- •17.9 RISM Command Examples
- •17.9.1 Serial Port Mode RISM Read Command Example
- •17.9.2 Serial Port Mode RISM Write Command Example
- •17.9.3 SDU RISM Execution Write Command Example
- •17.9.4 SDU RISM Execution Go Command Example
- •B.1 Functional Groupings of Signals
- •B.2 Signal Descriptions
- •B.3 Default Conditions
GUIDE TO THIS MANUAL
1.3 RELATED DOCUMENTS
The tables in this section list additional documents that you may find useful in designing systems incorporating MCS 96 microcontrollers. These are not comprehensive lists, but are a representative sample of relevant documents. For a complete list of available printed documents, please order the literature catalog (order number 210621). To order documents, please call the Intel literature center for your area (see Table 1-4 on page 1-8).
Table 1-1. Handbooks and Product Information
Title and Description |
Order Number |
|
|
Flash Memory Databook (2 volume set) |
210830 |
A collection of datasheets and application notes devoted to techniques and |
|
information to help design semiconductor memory into an application or system. |
|
Packaging Databook |
240800 |
Detailed information on the manufacturing, applications, and attributes of a variety |
|
of semiconductor packages. |
|
Embedded Microcontrollers Handbook |
270646 |
Datasheets and architecture descriptions for Intel’s MCS® 48, MCS 51, and |
|
MCS 96 microcontrollers. Documents in this handbook discuss hardware and |
|
software implementations and present helpful design techniques. |
|
MCS®Tools Handbook |
272326 |
Information on third-party hardware and software tools that support Intel’s |
|
embedded microcontrollers. |
|
Platform Components 1998 |
296467 |
Comprehensive information on Intel’s peripheral components, including |
|
datasheets, application notes, and technical briefs. |
|
MCS®96 Microcontroller Product Selection Guide |
270839 |
A table containing bus speed, internal memory, and other functional and physical |
|
information for all MCS microcontrollers. |
|
Table 1-2. Application Notes
Title |
Order Number |
|
|
AP-125, Designing Microcontroller Systems for Electrically Noisy Environments |
210313 |
AP-155, Oscillators for Microcontrollers |
230659 |
AP-406, MCS® 96 Analog Acquisition Primer |
270365 |
AP-445, 8XC196KR Peripherals: A User’s Point of View |
270873 |
AP-449, A Comparison of the Event Processor Array (EPA) and High Speed |
270968 |
Input/Output (HSIO) Unit |
|
AP-700, Intel Fuzzy Logic Tool Simplifies ABS Design |
272595 |
AP-711, EMI Design Techniques for Microcontrollers in Automotive Applications |
272637 |
AP-715, Interfacing an I2C Serial EEPROM to an MCS® 96 Microcontroller |
272680 |
Interfacing a 20 MHz 8xC196 to an 82527 Serial Communications Controller |
272732 |
Using the 4th Entry Interrupt in ABS Designs |
270692 |
1-7
8XC196EA USER’S MANUAL
Table 1-3. MCS® 96 Microcontroller Datasheets (Automotive)
Title and Description |
Order Number |
|
|
83C196EA Automotive CHMOS 16-Bit Microcontroller |
272788 |
80C196EA Commercial CHMOS 16-Bit Microcontroller |
273153 |
83C196LD CHMOS 16-BIT Microcontroller |
272805 |
87C196CB 20MHz Advanced 16-Bit CHMOS Microcontroller with Integrated CAN 2.0 |
272405 |
87C196JT 20 MHz Advanced 16-Bit CHMOS Microcontroller |
272529 |
87C196JV 20 MHz Advanced 16-Bit CHMOS Microcontroller |
272580 |
87C196KC 16-Bit High-Performance CHMOS Microcontroller |
270846 |
87C196KD 16-Bit High-Performance CHMOS Microcontroller |
272168 |
87C196KR, 87C196JV, 87C196JT, 87C196JR, and 87C196CA Advanced 16-Bit |
270827 |
CHMOS Microcontrollers |
|
87C196KT Advanced 16-Bit CHMOS Microcontroller |
273178 |
87C196LA CHMOS 16-Bit Microcontroller |
272806 |
87C196KB Advanced 16-Bit CHMOS Microcontroller ROMless or ROM |
270679 |
1.4APPLICATION SUPPORT SERVICES
Table 1-4. Intel Application Support Services
Service |
U.S. and Canada |
Asia-Pacific and Japan |
Europe |
|
|
|
|
World Wide Web |
http://www.intel.com/ |
http://www.intel.com/ |
http://www.intel.com/ |
|
|
|
|
Help Desk |
800-628-8686 |
Please contact your local |
Please contact your local |
|
916-356-7999 |
distributor. |
distributor. |
|
|
|
|
Literature |
800-548-4725 |
708-296-9333 |
+44(0)1793-431155 England |
|
|
+81(0)120 47 88 32 |
+44(0)1793-421777 France |
|
|
|
+44(0)1793-421333 Germany |
|
|
|
|
1-8
2
Architectural
Overview