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ECE 353 Introduction to Microprocessor Systems

ECE 353 Introduction to Microprocessor Systems. Michael J. Schulte. Week 9. Topics. I/O port basics I/O ports with MSI devices  P compatible devices Address decoding for isolated and memory-mapped I/O Conditional I/O 80C188EB integrated I/O unit 82C55A PPI. I/O Port Basics.

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ECE 353 Introduction to Microprocessor Systems

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  1. ECE 353Introduction to Microprocessor Systems Michael J. Schulte Week 9

  2. Topics • I/O port basics • I/O ports with MSI devices • P compatible devices • Address decoding for isolated and memory-mapped I/O • Conditional I/O • 80C188EB integrated I/O unit • 82C55A PPI

  3. I/O Port Basics • I/O subsystems allow CPU to interact with the outside world • Input, output, and combined I/O blocks • Input ports • Byte • Word • Output ports • Byte • Word • Unconditional I/O

  4. MSI I/O Ports • Medium Scale Integration (MSI) circuits are available to construct ports • Simple byte input ports can be constructed from… • Octal buffers • Octal registers • Simple byte output ports can be constructed from octal latches

  5. P Compatible I/O Devices • Complex I/O devices typically require complex interface and control logic • P compatible I/O devices have the necessary logic built in to the device itself • Interface designed to be reasonably compatible with many microprocessor buses • Need to add decoding/selection logic • Examples • Device controllers • Used to control complex I/O devices (LCD, disk drives, etc.) • Generic model

  6. I/O Address Decoding • I/O address decoding determines the logical location of the I/O device • Isolated I/O • Memory-mapped I/O • Input vs. output ports • Same address does not guarantee same function! • Device select pulses • Wait states • Using the CSU with I/O devices

  7. I/O Address Decoding (cont.) • PAL/PLA Decoders • Nonspecific I/O strobes • /IOW • /IOR • Linear selection • Conventional decoders • Device select strobes • Cascading

  8. Conditional I/O • Conditional vs. unconditional transfers • Hardware example • Polling • Overhead • Flags / semaphores • Wait loops • Timeouts • Software exercise • Possible race condition

  9. 80C188EB Integrated I/O Unit • Port 1 Functions • Port 2 Functions • Bidirectional pin structure • Synchronizer • Programming • Port Control Register • Port Direction Register • Port Data Latch Register • Port Pin State Register

  10. 82C55A Programmable Peripheral Interface (PPI) • LSI device providing 24 bits of I/O • Logical organization • Block diagram • Software configurable ports • Three modes of operation • Mode 0 • Basic Input/Output ports • Mode 1 • Strobed Input/Output • Mode 2 • Bidirectional data bus • Bit set/reset capability

  11. Real-World Example • Interface the MAX154 8-bit, 4-channel ADC to the 80C188EB • Hardware interface • Use /GCS0 at I/O address 1000h (CSU) • Poll conversion status using Port 2. • P2CON / P2DIR / P2LTCH / P2PIN • Software interfacing • Write a procedure that does an ADC conversion and then reads the ADC value using mode 1 • Input: AL = ADC input channel to use (0-3) • Output: ADC value returned in AL • What about mode 0? Timing?

  12. Byte Input Port Example

  13. Byte Output Port Example

  14. 74HC540/541

  15. 74HC573

  16. 74HC574

  17. MAX1200

  18. AD7865

  19. Generic Device Controller(Fig 12.3-2)

  20. HitachiHD44780ULCDController

  21. Port 1 Functions

  22. Port 2 Functions

  23. BidirectionalPort Pin

  24. Port Control Register

  25. Port Direction Register

  26. Port Data Latch Register

  27. Port Pin State Register

  28. Conditional I/O Exercise Write a procedure to read data from an input device like the hardware example. Assume that the flag is a READY signal (active high). If the device does not become ready after 1 million polling attempts, return with the carry flag set, otherwise, return with the data in AL and the carry flag cleared.

  29. 82C55A Block Diagram

  30. 82C55A Modes of Operation

  31. 82C55A Mode 1 Input

  32. 82C55A Mode 1 Output

  33. Chip-Select Start Reg

  34. Chip-Select Stop Register-Part 1

  35. Chip-Select Stop Register -Part 2

  36. Conditional I/O Example

  37. Synchronization

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