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Hitachi HD64180

From Wikipedia, the free encyclopedia

For other uses, see HD-64180 (disambiguation).
HD64180
HD64180SY10
General information
Common manufacturer
  • Hitachi
Architecture and classification
Instruction set8080, 8085, Z80, NSC 800
Physical specifications
Transistors
  • (1.3μm process)
Hitachi HD64180 DIP64

The HD64180 is a Z80-based embedded microprocessor developed by Hitachi with an integrated memory management unit (MMU) and on-chip peripherals.[1] It appeared in 1985.[2] The Hitachi HD64180 "Super Z80" was later licensed to Zilog and sold by them as the Z64180 and with some enhancements as the Zilog Z180.

Overview

The HD64180 has the following features:

  • Execution and bus access clock rates up to 10 MHz.[3]
  • Memory Management Unit supporting 512K bytes of memory (one megabyte for the HD64180 packaged in a PLCC)
  • I/O space of 64K addresses
  • 12 new instructions including 8 bit by 8 bit integer multiply, non-destructive AND and illegal instruction trap vector
  • Two channel Direct Memory Access Controller (DMAC)
  • Programmable wait state generator
  • Programmable DRAM refresh
  • Two channel Asynchronous Serial Communication Interface (ASCI)
  • Two channel 16-bit Programmable Reload Timer (PRT)
  • 1-channel Clocked Serial I/O Port (CSI/O)
  • Programmable Vectored Interrupt Controller

The HD64180 has a pipelined execution unit which processes most instructions in fewer clock cycles than the Z80. The most improved instruction group comprises the block instructions; for example those such as LDIR, CPIR, INIR and OTDR. This instruction type takes 21 transition states to execute per iteration; on the HD64180 it takes 14 t-states.

The on-chip DMAC makes block memory transfers possible at a rate faster than the LDIR/LDDR instructions.[4] The on-chip generator for wait states makes it possible to access too-slow hardware on a selective basis using a device filter, as is done for the TRS-80 Model 4's balky keyboard. The on-chip ASCI makes it possible to implement additional RS-232 serial ports.[5]

The HD64180 will not execute the "undocumented" Z80 instructions, particularly the ones that access the index registers IX and IY as 8-bit halves. The Hitachi CPU treats them as illegal instructions and accordingly executes the illegal instruction trap, redirecting the PC register to address zero.

Usage

The Micromint SB180, SemiDisk Systems DT42 CP/M computers, and Olivetti CWP 1 and ETV 210s videotypewriters (also running ROM-based CP/M 2.2) were based on the Hitachi HD64180. The XLR8er upgrade board for the TRS-80 Model 4 also used it.[6] On the Victor HC-90 and HC-95 MSX2 computer, the HD64B180 was used for its turbo mode next to the regular Z80.[7][8]

See also

References

  1. ^ Cohen, Charles L. (4 March 1985). "Sun Rises on New Designs". ElectronicsWeek. pp. 18–21. Retrieved 2 June 2024.
  2. ^ Reh, Tilmann (November 1991). "The CPU280 - When 8 Bits Aren't Enough" (PDF). The Computer Journal (53): 3-5. ISSN 0748-9331. Retrieved 1 December 2016.
  3. ^ "Z80 Application Note: Migrating from the Hitachi HD64180 to ZiLOG's Z80180, page 7 Summary". zilog.com/appnotes_download.php. Zilog Inc. Retrieved May 20, 2019.
  4. ^ Slinkman, J.F.R. "Frank". "The Misosys Quarterly Vol VI.i Autumn 1991, "The Final Solution to the XLR8er Question", page 33" (PDF). tim-mann dot org. Roy Soltoff/Misosys Inc. Retrieved May 13, 2019.
  5. ^ Cameron, James. "The Misosys Quarterly Vol VI.iv Summer/Fall 1992, "A New EIA-232 Driver with XLR8er", page 10" (PDF). tim-mann dot org. Roy Soltoff/Misosys Inc. Retrieved May 15, 2019.
  6. ^ Slinkman, J.F.R. "Frank". "The Misosys Quarterly, "How to "roll your own" on the XLR8er", page 23" (PDF). tim-mann dot org. Roy Soltoff/Misosys Inc. Retrieved May 13, 2019.
  7. ^ "Victor HC-95". msx dot org. Retrieved Jun 6, 2020.
  8. ^ "HC-95". usbsecretbase dot michikusa dot jp. Retrieved Jun 6, 2020.

Further reading

See also: List of books about Z80 microprocessor

External links

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This page was last edited on 16 June 2024, at 17:06
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