MicroBee


MicroBee was a series of networkable home computers by Applied Technology, which became publicly listed company MicroBee Systems Limited soon after its release.
The original microbee computer was designed in Australia by a team including Owen Hill and Matthew Starr.
Its most distinctive features are its:
and was originally packaged as a two board unit with the lower "baseboard" containing all components except the system memory which was mounted on the upper "core board".
The original main board consisted of:
The original coreboards consisted of:
A floppy disk drive unit and S-100 Bus expansion unit were available. They connected to a microbee by a 50 way ribbon cable to the System Expansion port.
The microbee had two networking options - BeeNet and StarNet. The BeeNet was a low cost low speed LAN for 16-32K ROM Models and the StarNet was for the 64K and larger DRAM models.
The BeeNet uses a bus topology that uses synchronous serial transfers. The StarNet uses a single Star topology using dedicated 8 bit parallel data bus connections between the central hub and its remote spokes.

Ancestry

The microbee was the integration, simplification and modernisation of the following S-100 cards sold by Applied Technology, Microworld BASIC and DGOS Monitor for their System Z.A.T. chassis.
The removal of the S-100 bus support and configuration hardware and some other features made the microbee much simpler and cheaper than its ancestors.
Examples:
  1. The VDU Attribute RAM of the DG640 VDU was not employed in the original microbee
  2. Z80 CTC
  3. Tape motor on/off control
  4. 8 bit input sense port
  5. Configuration DIP switches
The utilisation of higher density memory devices made also the microbee smaller. HM6116 were instead of the earlier 2101 and 2114 Static RAMS and 2732 ROMS instead of 2516 ROMS as program ROM. Subsequent models used the even more dense HM6264 Static RAMs, 4164 Dynamic RAM and 27128 2764 program ROMs.

Kit beginnings

The computer was released as a kit, with assembly instructions included in Your Computer magazine, in February 1982. After a successful bid for the New South Wales Department of Education computer tender, the computer was repackaged in a two-tone beige and black case, and sold pre-built. The ROM held the MicroWorld BASIC interpreter written by Matthew Starr and DGOS compatible System Monitor. In addition to the there is additional ROM socket for optional programs such as WORDBEE or EDASM.
Original MicroBees ran at a clock speed of, with a video dot clock of, which was sufficient to display on a modified television or composite monitor. The original machines were supplied with of static RAM, and stored programs on cassette, using 300 or 1200 Baud encoding.

The IC model

The IC model was released in 1983, increasing the clock speed to and allowing display of , again on a modified television or composite monitor. It also included a "Telcom" terminal emulator ROM.

Disk machines

A floppy disk based machine was also released in 1983. Early disk machines used of static RAM, with a BIOS ROM. They ran CP/M 2.2. The disk controller, based on the Western Digital WD1793 Floppy Disk Controller chip was contained in an add-on card that connected to the core board. The machines uses 5.25" floppy disks.
Dynamic RAM disk machines with followed soon after, with a WD2793 Floppy Disk Controller incorporated on the core board. Later disk machines used.

Colour

A colour machine was also released in 1983, called the "32K Personal Communicator". This added a second byte of RAM for each character position, allowing each character to have 2 colours. The foreground colour has 32 possible values and are determined by the contents of the 82S123 PROM located on the colour board. Not all foreground colours combinations are unique with only 27 being possible. The background colours were made up from the remaining 3 bits of the colour RAM byte and another 3 bits on a colour control port that controlled the RGB background intensity level. This allowed the intensity of each of the RGB colours to be set to full or half intensity but only 7 different values could be in effect at any one time and changing the intensity value would affect the entire display. The extra colour circuitry required an additional board mounted under the main board, with numerous messy connections to the main board.
The Premium, 256TC and Teleterm models released in 1986 incorporated colour on the main board and used a different colour design compared to the earlier model and was not compatible for the resultant colours that were produced but application and system software will work on either hardware designs. The later colour design was largely compatible with the Color Graphics Adapter used on the IBM PC where 4 bits were used for the foreground and another 4 bits for the background colours.

The B-ETI Serial Terminal

The B-ETI was a Microbee-based serial terminal. It could emulate either an ADM-3A or Televideo 912 terminal. The display format was monochrome and it supported communication at either 300 or 1200 baud. An advertisement for a "special introductory offer" with an asking price of appeared in the December 1983 issue of Electronics Today International magazine.
Introduction, BETI Users Guide:
The BETI was designed as a low cost serial terminal operating at speeds of up to 4800 baud. The BETI also provides optional automatic code conversion to and from the baudot 5 level code used for RTTY and TELEX applications.
Specifications:
In 1985, a new mainboard was introduced. The resulting machine was called the "Premium Series" model. The new mainboard had of screen RAM, of "attribute" RAM, of colour RAM, and up to of PCG RAM. PCG RAM was sufficient to allow full mapped displays with a limited colour palette. These machines were typically sold with dual-floppy drives held in a monitor stand that connected to the main unit.

Physical coding for tape storage

Standard MicroBee Tapes are encoded at using its own variation of Processor Technology's SOLOS/CUTER Tape protocol that consists of a 300 baud metadata header followed by data payload blocks encoded at the desired transfer rate using CUTS.
The software converts audio data into Microbee files.

Books

A few books were written about the Microbee, including:
Games for the MicroBee include both original titles and clones of pre-existing games, including:
As well, numerous adventure games were written, mainly in BASIC, plus educational software.

Final versions

The final version of the MicroBee, released in 1987, was the 256TC. This increased the memory to of dynamic RAM and had a new keyboard with numeric keypad. The computer had a built in disk drive supporting both and formats. Bundled software included "Videotex", "Simply Write" and "Telcom".
MicroBee Systems also designed a PC clone, called the "Matilda", or 640TC, which ran an NEC V40, and emulated the MicroBee CP/M systems in software.
An advanced next generation model code named "Gamma", based on the Motorola 68010 and two Zilog Z80 processors, was designed but never made it to the market.
In 1992, after having undergone a number of ownership changes, the company ceased trading.

Legacy

After almost 20 years, the Microbee brand was re-launched in 2012 by Microbee Technology Pty Ltd, run by a Microbee employee from the 1980s, Ewan Wordsworth. The company produced a limited edition kit, the Premium Plus. The new version was still Z80-based and followed the original two-board design. It had dual-processor architecture, with some enhancements such as floppy emulation of the SD memory card.

In popular culture

In the '80s parody movie Kung Fury, Hackerman is hacking the timeline with MicroBee computers and Kung Fury himself also rides in the cyberspace on a MicroBee.