The Hitachi H8 is a large family of 8-bit, 16-bit and 32-bit microcontrollers made by Renesas Technology, originating in the early 1990s within Hitachi Semiconductor. The original design, the H8/300, was an 8-bit processor that had a 16-bit registers and ALU that allowed some 16-bit operations. Two upgraded versions were introduced, the H8/300L that expanded the instructions to become a full 16-bit machine while being optimized for low cost, and the H8/300H which further expanded the registers to allow 32-bit operations and was optimized for low-power/high-performance roles. Many variations exist.
Bits | 8, 16, 32 |
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The entire line was sold to Renesas in 2003. Renesas continues to sell the designs as of 2023[update], but only to existing customers. An administrator on the Renesas user community boards commented in 2011 that there are no plans for further development of H8 based products.[1] H8 was supported in the Linux kernel starting with version 4.2 but support was removed in version 5.19.[2]
For higher performance needs, Hitachi introduced its SuperH family of 32-bit RISC-like microcontrollers, which have largely replaced the H8.
Variants
editSubfamilies include the 8/16-bit H8/300 and H8/500, the 16/32-bit H8/300H and H8S and the 32-bit H8SX series, each with dozens of different variants, varying by speed, selection of built-in peripherals such as timers, interrupts[3] and serial ports, and amounts of ROM, flash memory and RAM. Built-in ROM and flash memory tends to range from 16 KB to 1024 KB, and RAM from 512 B to 512 KB.
The basic architecture of the H8 is patterned after the DEC PDP-11 architecture, with eight 16-bit registers (the H8/300H and H8S have an additional bank of eight 16-bit registers), and a variety of addressing modes. Unlike the PDP-11 however, the H8 architecture employs big-endian byte ordering.
Both H8/300H and H8S have eight 32-bit registers, each of which can be treated as one 32-bit register, two 16-bit registers, or two 8-bit registers, with the H8S having an internal 32-bit configuration.[4] Several companies provide compilers for the H8 family, and there is a complete GCC port, including a simulator. There are also various hardware emulators available.
The family is continued with the H8SX 32-bit controllers.
Applications
editH8S may be found in digital cameras, the Cybiko handheld computers, some ThinkPad notebooks,[5][6] printer controllers, smart cards, chess computers, music synthesizers such as the Yamaha FS1R[7], Roland SC-55 and Roland JV880[8] and in various automotive subsystems. The LEGO Mindstorms RCX, an advanced robot toy/educational tool, uses the H8/300. An H8/3002 was used as a sound processor by Namco for various games it made in the late 1990s, notably those using its System 12 architecture and by Yamaha for the DB50XG and DB60XG daughterboards and the SW60XG ISA bus sound card.
H8/500 was being also used on a Nokia 2110 phone.
References
edit- ^ "H8はどうなるの". Cafe Rene. Retrieved 24 July 2018.
- ^ Git pull request for the H8 port on the LKML archives
- ^ "H8/36024Group, H8/36014Group 16-Bit Single-Chip Microcomputer H8 Family/H8/300H Tiny Series". p. 53. Retrieved 2023-12-20.
- ^ "H8S/2116". Renesas Electronics. Retrieved 2018-05-12.
- ^ Renesas H8S/2161BV on ThinkWiki.org
- ^ Renesas H8S/2116V on ThinkWiki.org
- ^ "FS1R Inside". Archived from the original on 2014-06-09. Retrieved 2014-08-19.
- ^ nukeykt (2024-11-24), nukeykt/Nuked-SC55, retrieved 2024-11-24