TV Typewriter

Last updated
The September 1973 issue of Radio-Electronics shows Don Lancaster's TV typewriter Radio Electronics Cover Sept 1973.jpg
The September 1973 issue of Radio-Electronics shows Don Lancaster's TV typewriter

The TV Typewriter is a video terminal that could display two pages of 16 lines of 32 upper case characters on a standard television set. The design, by Don Lancaster, appeared on the cover of Radio-Electronics magazine in September 1973. [1]

Contents

The magazine included a 6-page description of the design but readers could send off for a 16-page package of construction details. Radio-Electronics sold thousands of copies for $2.00 each. The TV Typewriter is considered a milestone in the home computer revolution along with the Mark-8 and Altair 8800 computers. [2] [3]

Sometimes the term was used generically for any interactive computer display on a screen; until CRT displays were developed, the teleprinter was the standard output medium.

Don Lancaster's TVT I

Don Lancaster's prototype TV Typewriter TV Typewriter CHM.jpg
Don Lancaster's prototype TV Typewriter
Hobbyist built TV Typewriter TV Typewriter Kit 1.jpg
Hobbyist built TV Typewriter
The Signetics 2513 character set Signetics-2513.png
The Signetics 2513 character set

Don Lancaster was an engineer at Goodyear Aerospace designing a high resolution video display for the military. Don was also a prolific author of hobbyist projects for Popular Electronics and Radio-Electronics magazines. The video project gave Don the inspiration for his most influential project, a low cost video terminal known as the TV Typewriter.

Built in the era before widespread availability of low-cost microprocessors or solid-state computer memory, the system used small-scale integration TTL digital logic and shift register memory. Much of the circuitry was involved in timing the output of the analog generator with the memory, which had to be shifted bit-at-a-time to the output. On-screen text was generated by the Signetics 2513, [4] one of the first character generator integrated circuits.

The article appeared in the September 1973 issue. In addition to the six-page article, they also offered to ship out a larger 16-page version with complete layout plans for a mail-in fee of $2. [4] Given its limited functionality, they initially estimated that the magazine would sell about 20 copies of the plans for $20 each. Instead, they were flooded by requests and eventually sent out 10,000 copies. [5] With professional terminals costing over $1,000 this $120 kit looked like a bargain.

In the November issue, the editors apologized for the delays in shipping the TV Typewriter booklets to the thousands of readers that ordered them. They also listed electronics parts sources for the difficult to find components. Don Lancaster also answered a series of reader questions and gave ideas for additional functions and uses for the TV Typewriter. [6] The December issue had a page of corrections for the TV Typewriter booklet. [7] Both of the notices were included in later printings of the booklet.

The compact design and complex circuitry made the TV Typewriter a challenging project for hobbyists. But many finished the project and some even connected it to their Intel 8008 based computers. The April 1975 issue of the Micro-8 Newsletter has 6 pages of user modifications and interface designs to connect the TV Typewriter to Mark-8 or SCELBI computers. [8] The original TV Typewriter design did not include a serial interface, modem connection, or offline data storage on cassette tape. Don Lancaster wrote about these in the September 1975 issue of BYTE magazine and his TV Typewriter Cookbook. A serial interface board designed by Roger Smith was published in the February 1975 issue of Radio Electronics. [9]

Keyboards

Don Lancaster's $40 Keyboard kit produced by SWTPC. SWTPC Keyboard.jpg
Don Lancaster's $40 Keyboard kit produced by SWTPC.

Today keyboards are readily available and inexpensive, and they have a standard interface. In 1973, new keyboards were only available to computer and terminal manufacturers. Surplus keyboards were available to hobbyists but they often produced codes other than ASCII, such as Baudot or EBCDIC. The TV Typewriter project and kit did not include a keyboard. The unit on the September cover shows a keyboard project Don Lancaster did in the February 1973 issue. [10] This project involved hand crafting 55 key-switches including fabricating the springs for each key-switch. Most hobbyists chose to use a surplus keyboard and modified it to produce ASCII codes. Don Lancaster's prototype TV Typewriter which is now on display at the Computer History Museum has a surplus keyboard with an ASCII encoder circuit that was published in the February 1974 issue of Radio-Electronics. [11] The plans for this encoder were also included in the TV Typewriter booklet

Popular Electronics (April 1974) featured a complete keyboard kit designed by Don Lancaster and available from Southwest Technical Products for $39.50. [12] The first version used simple RTL ICs to decode the key matrix. The design was soon improved to use a full featured keyboard encoder IC.

SWTPC CT-1024

CT-1024 Terminal with monitor CT1024 Monitor.jpg
CT-1024 Terminal with monitor
CT-1024 Terminal System CT1024 Terminal System.jpg
CT-1024 Terminal System

Southwest Technical Products got their start selling sets of bare circuit boards for $27 and the eight major integrated circuits for $49.50. The hobbyist had to acquire the rest of the components on their own.

The original TV Typewriter was difficult to assemble and some of the ICs were going out of production so Southwest Technical Products decided to redesign the kit. The replacement was featured in Radio Electronics as the TV Typewriter II. This time readers did not have to order a set of plans, since the complete design was published in 6 issues starting in February 1975.

Daniel Meyer of SWTPC enlisted Ed Colle, an engineer who had worked at Datapoint on terminal design, to design the new TV Typewriter. The SWTPC CT-1024 Terminal displayed 32 characters by 16 lines without scrolling. It used common TTL parts and 2102 static RAMs. The boards were laid out with very loose part spacing and wide traces to make it easy to assemble. A complete set of option boards was offered including a serial interface. The keyboard was based on Don Lancaster’s design. The rest of the terminal was done by Ed Colle.

The design was finished by late 1974 and the kits were ready for sale by December 1974. The first advertisement for the CT-1024 appeared in the January 1975 issue of Popular Electronics on the page facing the Altair 8800 computer article. [13] The CT-1024 was very successful because a complete kit with options cost only $275. It was replaced in 1977 by the improved CT-64 that offered scrolling and 64 characters per line of upper and lower case.

TV Typewriter Cookbook

Cover of Don Lancaster's TV Typewriter Cookbook TV Typewriter Cookbook.jpg
Cover of Don Lancaster's TV Typewriter Cookbook

By 1975, Don Lancaster had written over 100 articles in magazines such as Popular Electronics and Radio-Electronics . He had also written a digital design book titled the RTL Cookbook in 1968. Resistor–transistor logic (RTL) was an early IC technology that was replaced by TTL, so in 1974 he published the TTL Cookbook. This book was in print for 20 years and sold a million copies.

The original TV Typewriter was designed before low cost RAM was available and the design was soon obsolete. Don had made many design improvements and published them as the TV Typewriter Cookbook in 1976. Portions had been serialized in the first issues of Byte magazine. The book was a guide on how to design a video computer terminal, divided into the following chapters:

  1. "Some Basics"
  2. "Integrated Circuits for TVT Use"
  3. "Memory"
  4. "System Timing – Calculation and Circuits"
  5. "Cursor and Update Circuits"
  6. "Keyboards and Encoders"
  7. "Serial Interfaces"
  8. "Television Interfaces"
  9. "Hard Copy and Color Graphics"

This book guided many hobbyist and professionals in designing video displays for home computer systems. The cassette interface design from chapter 7 was the basis for the Kansas City standard. The circuits in this book did not rely on a microprocessor, just TTL. The TV Cheap Video Cookbook (1978) showed the TVT 6 5/8 that would work with a 6502 or 6800 microprocessor. The design was targeted at the KIM-1 Microcomputer.

The original TV Typewriter book cover shows an ASCII keyboard designed by Don Lancaster and sold by Southwest Technical Products. An early computer store chain, the Byte Shop, had the publisher add their logo to the covers and sold the TTL Cookbook and the TV Typewriter Cookbook in their stores. A later edition cover was designed for Radio Shack stores. The ninth printing of the first edition was in 1983.

See also

Related Research Articles

<span class="mw-page-title-main">ASCII</span> American character encoding standard

ASCII, abbreviated from American Standard Code for Information Interchange, is a character encoding standard for electronic communication. ASCII codes represent text in computers, telecommunications equipment, and other devices. Because of technical limitations of computer systems at the time it was invented, ASCII has just 128 code points, of which only 95 are printable characters, which severely limited its scope. Modern computer systems have evolved to use Unicode, which has millions of code points, but the first 128 of these are the same as the ASCII set.

<span class="mw-page-title-main">Motorola 6800</span> 8-bit microprocessor

The 6800 is an 8-bit microprocessor designed and first manufactured by Motorola in 1974. The MC6800 microprocessor was part of the M6800 Microcomputer System that also included serial and parallel interface ICs, RAM, ROM and other support chips. A significant design feature was that the M6800 family of ICs required only a single five-volt power supply at a time when most other microprocessors required three voltages. The M6800 Microcomputer System was announced in March 1974 and was in full production by the end of that year.

<span class="mw-page-title-main">ZX80</span> Popular and inexpensive home computer launched in 1980

The Sinclair ZX80 is a home computer launched on 29 January 1980 by Science of Cambridge Ltd.. It is notable for being one of the first computers available in the United Kingdom for less than a hundred pounds. It was available in kit form for £79.95, where purchasers had to assemble and solder it together, and as a ready-built version at £99.95.

<span class="mw-page-title-main">Punched tape</span> Data storage device

Punched tape or perforated paper tape is a form of data storage device that consists of a long strip of paper through which small holes are punched. It was developed from and was subsequently used alongside punched cards, the difference being that the tape is continuous.

Donald E. Lancaster was an American author, inventor, and microcomputer pioneer.

<span class="mw-page-title-main">KIM-1</span> Single-board computer produced by MOS Technology

The KIM-1, short for Keyboard Input Monitor, is a small 6502-based single-board computer developed and produced by MOS Technology, Inc. and launched in 1976. It was very successful in that period, due to its low price and easy-access expandability.

<span class="mw-page-title-main">Altair 8800</span> Microcomputer designed in 1974

The Altair 8800 is a microcomputer designed in 1974 by MITS and based on the Intel 8080 CPU. Interest grew quickly after it was featured on the cover of the January 1975 issue of Popular Electronics and was sold by mail order through advertisements there, in Radio-Electronics, and in other hobbyist magazines. According to Harry Garland, the Altair 8800 was the product that catalyzed the microcomputer revolution of the 1970s. It was the first commercially successful personal computer. The computer bus designed for the Altair was to become a de facto standard in the form of the S-100 bus, and the first programming language for the machine was Microsoft's founding product, Altair BASIC.

<span class="mw-page-title-main">Kansas City standard</span> Data storage standard

The Kansas City standard (KCS), or Byte standard, is a data storage protocol for standard cassette tapes at 300 bits per second. It originated in a symposium sponsored by Byte magazine in November 1975 in Kansas City, Missouri to develop a standard for the storage of digital microcomputer data on inexpensive consumer quality cassettes. The first systems based on the standard appeared in 1976.

<span class="mw-page-title-main">Ferguson Big Board</span>

The Big Board (1980) and Big Board II (1982) were Z80 based single-board computers designed by Jim Ferguson. They provided a complete CP/M compatible computer system on a single printed circuit board, including CPU, memory, disk drive interface, keyboard and video monitor interface. The printed circuit board was sized to match the Shugart 801 or 851 floppy drive. This allowed attachment to up to two 8 inch or 5 1/4 inch floppy disk drives. The Big Board II added a SASI interface for hard disk drives, enhancements to system speed and enhancements to the terminal interface.

<span class="mw-page-title-main">SWTPC</span> Defunct US electronic kit and computer producer

Southwest Technical Products Corporation, or SWTPC, was an American producer of electronic kits, and later complete computer systems. It was incorporated in 1967 in San Antonio, Texas, succeeding the Daniel E. Meyer Company. In 1990, SWTPC became Point Systems, before ceasing a few years later.

Micro Instrumentation and Telemetry Systems (MITS) was an American electronics company founded in Albuquerque, New Mexico that began manufacturing electronic calculators in 1971 and personal computers in 1975.

<i>Popular Electronics</i> American magazine (1954–1982, 1989–1999, in print)

Popular Electronics was an American magazine published by John August Media, LLC, and hosted at TechnicaCuriosa.com. The magazine was started by Ziff-Davis Publishing Company in October 1954 for electronics hobbyists and experimenters. It soon became the "World's Largest-Selling Electronics Magazine". In April 1957, Ziff-Davis reported an average net paid circulation of 240,151 copies. Popular Electronics was published until October 1982 when, in November 1982, Ziff-Davis launched a successor magazine, Computers & Electronics. During its last year of publication by Ziff-Davis, Popular Electronics reported an average monthly circulation of 409,344 copies. The title was sold to Gernsback Publications, and their Hands-On Electronics magazine was renamed to Popular Electronics in February 1989, and published until December 1999. The Popular Electronics trademark was then acquired by John August Media, who revived the magazine, the digital edition of which is hosted at TechnicaCuriosa.com, along with sister titles, Mechanix Illustrated and Popular Astronomy.

<span class="mw-page-title-main">Teletype Model 33</span> 1963–1981 ASCII communications/computer terminal device

The Teletype Model 33 is an electromechanical teleprinter designed for light-duty office use. It is less rugged and cost less than earlier Teletype models. The Teletype Corporation introduced the Model 33 as a commercial product in 1963, after it had originally been designed for the United States Navy. The Model 33 was produced in three versions:

The currency sign¤ is a character used to denote an unspecified currency. It can be described as a circle the size of a lowercase character with four short radiating arms at 45° (NE), 135° (SE), 225° (SW) and 315° (NW). It is raised slightly above the baseline. The character is sometimes called scarab.

<span class="mw-page-title-main">Daniel Meyer (engineer)</span>

Daniel Meyer was the founder and president Southwest Technical Products Corporation. He was born in New Braunfels, Texas, and raised in San Marcos, Texas, where he earned a bachelor's degree in mathematics and physics in 1957 from Southwest Texas State. After college he married Helen Wentz, moved to San Antonio and became a research engineer in the electrical engineering department of Southwest Research Institute.

<i>Radio News</i> American technology magazine (1919–1971)

Radio News was an American monthly technology magazine published from 1919 to 1971. The magazine was started by Hugo Gernsback as a magazine for amateur radio enthusiasts, but it evolved to cover all the technical aspects to radio and electronics. In 1929, a bankruptcy forced the sale of Gernsback's publishing company to B. A. Mackinnon. In 1938, Ziff-Davis Publishing acquired the magazines.

<span class="mw-page-title-main">Sol-20</span> Computer

The Sol-20 was the first fully assembled microcomputer with a built-in keyboard and television output, what would later be known as a home computer. The design was the integration of an Intel 8080-based motherboard, a VDM-1 graphics card, the 3P+S I/O card to drive a keyboard, and circuitry to connect to a cassette deck for program storage. Additional expansion was available via five S-100 bus slots inside the machine. It also included swappable ROMs that the manufacturer called 'personality modules', containing a rudimentary operating system.

<i>Radio-Electronics</i> American electronics magazine

Radio-Electronics was an American electronics magazine that was published under various titles from 1929 to 2003. Hugo Gernsback, sometimes called the father of science fiction, started it as Radio-Craft in July 1929. The title was changed to Radio-Electronics in October 1948 and again to Electronics Now in July 1992. In January 2000 it was merged with Gernsback's Popular Electronics to become Poptronics. Gernsback Publications ceased operations in December 2002 and the January 2003 issue was the last. Over the years, Radio-Electronics featured audio, radio, television and computer technology. The most notable articles were the TV Typewriter and the Mark-8 computer. These two issues are considered milestones in the home computer revolution.

The Processor Technology VDM-1, for Video Display Module, was the first video card for S-100 bus computers. Created in 1975, it allows an S-100 machine to produce its own display, and when paired with a keyboard and their 3P+S card, it eliminates the need for a separate video terminal. Using a 7 x 9 dot matrix and ASCII characters, it produces a 64-column by 16-row text display.

<span class="mw-page-title-main">Electronic Arrays 9002</span> 1976 microprocessor

The Electronic Arrays 9002, or EA9002, was an 8-bit microprocessor released in 1976. It was designed to be easy to implement in systems with few required support chips. It included 64 bytes of built-in RAM and could be directly connected to TTL devices. It was packaged in a 28-pin DIP which made it less expensive to implement than contemporary designs like the 40-pin MOS 6502 and Zilog Z80. Today it would be known as a microcontroller, although that term did not exist at the time.

References

  1. Lancaster, Don (September 1973). "TV Typewriter". Radio Electronics. New York: Gernsback Publications. 44 (9): 43–52.
  2. Freiberger, Paul; Swaine, Michael (2000). Fire in the Valley: The Making of the Personal Computer. New York: McGraw-Hill. pp.  35–36. ISBN   0-07-135892-7. "A giant step toward the realization of the personal-computer dream happened in 1973, when Radio Electronics published an article by Don Lancaster that described a 'TV Typewriter'."
  3. Ceruzzi, Paul E. (2003). A History of Modern Computing. Cambridge, MA: MIT Press. p.  226. ISBN   0-262-53203-4."One influential project was the TV-Typewriter, designed by Don Lancaster and published in Radio-Electronics in September 1973."
  4. 1 2 Lancaster, Don (September 1973). "TV Typewriter" (PDF). Radio-Electronics . New York: Gernsback Publications. 44 (9): 43–52.
  5. Social.
  6. "TV Typewriter Notes and Comments". Radio Electronics. New York: Gernsback Publications. 44 (11): 16, 22. November 1973.
  7. Lancaster, Don (December 1973). "TV Typewriter Corrections". Radio Electronics. New York: Gernsback Publications. 44 (12): 16, 22.
  8. Singer, Hal, ed. (April 15, 1975). "Modifications for the TVT-1". Micro-8 Computer User Group Newsletter. Lompoc, CA: Cabrillo Computer Center. 1 (6): 27–33.
  9. Smith, Roger (February 1975). "UART and Modem for TV Typewriter". Radio-Electronics. Vol. 46, no. 2. Gernsback Publications. pp. 51–53.
  10. Lancaster, Don (February 1973). "Low-Cost Keyboards". Radio Electronics. New York: Gernsback Publications. 44 (2): 54–57, 87, 88.
  11. Lancaster, Don (February 1974). "Build Improved ASCII Encoder". Radio-Electronics. Vol. 45, no. 2. New York: Gernsback Publications. pp. 59–61, 92–96.
  12. Lancaster, Don (April 1974). "ASCII Keyboard and Encoder". Popular Electronics. Vol. 5, no. 2. Ziff Davis. pp. 27–31.
  13. Roberts, H. Edward; William Yates (January 1975). "Altair 8800 minicomputer". Popular Electronics. Vol. 7, no. 1. New York: Ziff-Davis. pp. 33–38. The full page advertisement, "SWTPC is Proud to Announce the CT-1024 Terminal System", appeared on page 32. The Altair 8800 article started on page 33.

Bibliography

Magazine
Books
Construction articles for TVT I
Construction articles for TVT II
Construction articles for TVT-6
TV Typewriter Cookbook serialized in BYTE magazine