TC2048
The Timex Computer 2048 or TC 2048 is a 1984 computer developed by Timex Portugal (the Portuguese branch of Timex Corporation), at the time part of Timex Sinclair. It was based on the Timex Sinclair 2048 prototype (see below), with a similar redesign case, composite video output, Kempston joystick interface, and additional video modes, while being highly compatible with the Sinclair ZX Spectrum computer (although ROM differences prevented 100% compatibility). After connecting an external disk drive, Timex FDD3000, the computer could work under TOS - Timex Operating System or CP/M. As Timex Portugal sold the Timex Sinclair models in Portugal and Poland under the Timex Computer brand, this computer is named "Timex Computer 2048", even though the "Timex Sinclair 2048" was never produced. Timex Sinclair 2048 (prototype) The Timex Sinclair 2048 was not released by Timex Sinclair because of the failure of the T/S 1500. According to an early Timex Sinclair 2000 computer flyer, it wou ...
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Timex FDD3000
The Timex FDD 3000 in 1982 was a nearly complete computer by Timex of Portugal. It began its development at Timex Computer Corporation in the U.S., but it was at Timex of Portugal that the work was finished. The Timex FDD 3000 is an upgraded Timex FDD (sometimes known as the FDD3 because it consisted of three separate boxes: the disk drive, the controller and the power supply). The Timex FDD3 was intended as a floppy disk peripheral for the Timex TC2048 or TC2068 microcomputers. It usually had 16K RAM and only one 3″ disk drive, but it could be upgraded to 64K RAM and a second disk drive, making it capable of running CP/M. Since the controller is electrically compatible with today's disk drives, it is possible to connect a 3.5″/5.25″ disk drive to the Timex FDD3 Controller (it's also possible to connect a Hitachi 3″ disk drive to an IBM PC Compatible computer). Later, Timex combined the three boxes of the FDD into one big box called the Timex FDD 3000. Timex also a ...
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Sinclair BASIC
Sinclair BASIC is a dialect of the programming language BASIC used in the 8-bit home computers from Sinclair Research and Timex Sinclair. The Sinclair BASIC interpreter was made by Nine Tiles Networks Ltd. History Sinclair BASIC was originally developed in 1979 for the ZX80 by Nine Tiles. The programmers were John Grant, the owner of Nine Tiles, and Steve Vickers. It was initially an incomplete implementation of the 1978 American National Standards Institute (ANSI) minimal BASIC standard with integer arithmetic only, termed the 4K BASIC (for its ROM size) for the ZX80. It evolved through the floating-point 8K BASIC for the ZX81 and TS1000 (which was also available as an upgrade for the ZX80), and became an almost complete version in the 16 KB ROM ZX Spectrum (known as 48K BASIC). It is present in all ZX Spectrum compatibles, with more advanced systems also offering expanded versions like 128K BASIC, +3 BASIC, T/S 2000 BASIC, BASIC64 or Timex Extended Basic. ...
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Timex Computer 2048 (Thomas Conté) (xparent Bg And Retouch)
The Timex Computer 2048 or TC 2048 is a 1984 computer developed by Timex Portugal (the Portuguese branch of Timex Corporation), at the time part of Timex Sinclair. It was based on the Timex Sinclair 2048 prototype (see below), with a similar redesign case, composite video output, Kempston joystick interface, and additional video modes, while being highly compatible with the Sinclair ZX Spectrum computer (although ROM differences prevented 100% compatibility). After connecting an external disk drive, Timex FDD3000, the computer could work under TOS - Timex Operating System or CP/M. As Timex Portugal sold the Timex Sinclair models in Portugal and Poland under the Timex Computer brand, this computer is named "Timex Computer 2048", even though the "Timex Sinclair 2048" was never produced. Timex Sinclair 2048 (prototype) The Timex Sinclair 2048 was not released by Timex Sinclair because of the failure of the T/S 1500. According to an early Timex Sinclair 2000 computer flyer, it wou ...
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Timex Sinclair 1000
The Timex Sinclair 1000 (or T/S 1000) was the first computer produced by Timex Sinclair, a joint venture between Timex Corporation and Sinclair Research. It was launched in July 1982, with a US sales price of US$99.95, making it the cheapest home computer at the time; it was advertised as "the first computer under $100". The computer was aimed at regular home users. As purchased, the T/S 1000 was fully assembled and ready to be plugged into home televisions, which served as a video monitor. The T/S 1000 was a slightly modified version of the Sinclair ZX81 with an NTSC RF modulator, for use with North American TVs, instead of PAL for European TVs. The T/S 1000 doubled the onboard RAM from 1 KB to 2 KB. The T/S 1000's casing had slightly more internal shielding but remained the same as Sinclair's, including the membrane keyboard. It had black-and-white graphics and no sound. It was followed by an improved version, the Timex Sinclair 1500 which had substantially more RAM (16 KB) ...
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Kempston Micro Electronics
Kempston Micro Electronics was an electronics company based in Kempston, Bedfordshire, England specialising in computer joysticks and related home computer peripherals during the 1980s. The Kempston Interface, a peripheral which allowed a joystick using the ''de facto'' Atari joystick port standard to be connected to the ZX Spectrum, was one of the most widely used add-ons to the machine. Interface file:Kempston joystick interface.jpeg, Kempston joystick interface file:ZX Spectrum .jpg, Kempston Interface plugged into a Spectrum Plus The Kempston Interface is a joystick interface used on the Sinclair ZX Spectrum series of computers that allows controllers complying with the ''de facto'' Atari joystick port standard (using the DE-9 connector) to be used with the machine. The interface itself would be attached to the computer's rear expansion port with a single joystick port on the front or top of the system. Apart from implementing existing joystick interfacing modes they p ...
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Composite Video
Composite video is an analog video signal format that carries standard-definition video (typically at 525 lines or 625 lines) as a single channel. Video information is encoded on one channel, unlike the higher-quality S-Video (two channels) and the even higher-quality component video (three or more channels). In all of these video formats, audio is carried on a separate connection. Composite video is also known by the initials CVBS for composite video baseband signal or color, video, blanking and sync, or is simply referred to as ''SD video'' for the standard-definition television signal it conveys. There are three dominant variants of composite video signals, corresponding to the analog color system used: NTSC, PAL, and SECAM. Usually composite video is carried by a yellow RCA connector, but other connections are used in professional settings. Signal components A composite video signal combines, on one wire, the video information required to recreate a color pic ...
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RF Modulator
An RF modulator (or radio frequency modulator) is an electronic device whose input is a baseband signal which is used to modulate a radio frequency source. RF modulators are used to convert signals from devices such as media players, VCRs and game consoles to a format that can be handled by a device designed to receive a modulated RF input, such as a radio or television receiver. History Prior to the introduction of specialised video connector standards such as SCART, TVs were designed to only accept signals through the aerial connector: signals originate at a TV station, are transmitted over the air, and are then received by an antenna and demodulated within the TV. When equipment was developed which could use a television receiver as its display device, such as VCRs, DVD players, early home computers, and video game consoles, the signal was modulated and sent to the RF input connector. The aerial connector is standard on all TV sets, even very old ones. Since later te ...
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ZX Spectrum Graphic Modes
The ZX Spectrum is generally considered to have limited graphical capabilities in comparison to some other home computers of the same era such as the Commodore 64, largely due to its lack of a dedicated graphics chip. Nevertheless, throughout its commercial life and later activity on the demoscene, various techniques have been developed to provide (or emulate) improvements to the Spectrum's graphical output. Colour palette The ZX Spectrum (and compatibles) computers uses a variation of the 4-bit RGBI palette philosophy (also used on CGA, Thomson MO5, Sharp MZ-800, Mattel Aquarius, etc.) resulting in 8 basic colours with brightness variations. This results in each of the colours of the 3-bit palette having a ''basic'' and ''bright'' variant, with the exception of black. The ''bright'' half of the palette is generated using the video displays' maximum voltage levels for each of the three Red, Green and Blue (RGB) components that a colour uses. The ''basic'' half of the pal ...
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Uncommitted Logic Array
A gate array is an approach to the design and manufacture of application-specific integrated circuits (ASICs) using a prefabricated chip with components that are later interconnected into logic devices (e.g. NAND gates, flip-flops, etc.) according to a custom order by adding metal interconnect layers in the factory. It was popular during upheaval in semiconductor industry in 80s and its usage declined by end of 90s. Similar technologies have also been employed to design and manufacture analog, analog-digital, and structured arrays, but, in general, these are not called gate arrays. Gate arrays have also been known as ''uncommitted logic arrays'' (''ULAs''), which also offered linear circuit functions, and ''semi-custom chips''. History Development Gate arrays had several concurrent development paths. Ferranti in the UK pioneered commercializing bipolar ULA technology, offering circuits of "100 to 10,000 gates and above" by 1983. The company's early lead in semi-custom chips ...
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Random-access Memory
Random-access memory (RAM; ) is a form of computer memory that can be read and changed in any order, typically used to store working data and machine code. A random-access memory device allows data items to be read or written in almost the same amount of time irrespective of the physical location of data inside the memory, in contrast with other direct-access data storage media (such as hard disks, CD-RWs, DVD-RWs and the older magnetic tapes and drum memory), where the time required to read and write data items varies significantly depending on their physical locations on the recording medium, due to mechanical limitations such as media rotation speeds and arm movement. RAM contains multiplexing and demultiplexing circuitry, to connect the data lines to the addressed storage for reading or writing the entry. Usually more than one bit of storage is accessed by the same address, and RAM devices often have multiple data lines and are said to be "8-bit" or "16-bit", etc ...
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Central Processing Unit
A central processing unit (CPU), also called a central processor, main processor or just processor, is the electronic circuitry that executes instructions comprising a computer program. The CPU performs basic arithmetic, logic, controlling, and input/output (I/O) operations specified by the instructions in the program. This contrasts with external components such as main memory and I/O circuitry, and specialized processors such as graphics processing units (GPUs). The form, design, and implementation of CPUs have changed over time, but their fundamental operation remains almost unchanged. Principal components of a CPU include the arithmetic–logic unit (ALU) that performs arithmetic and logic operations, processor registers that supply operands to the ALU and store the results of ALU operations, and a control unit that orchestrates the fetching (from memory), decoding and execution (of instructions) by directing the coordinated operations of the ALU, registers and oth ...
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Uncommitted Logic Array
A gate array is an approach to the design and manufacture of application-specific integrated circuits (ASICs) using a prefabricated chip with components that are later interconnected into logic devices (e.g. NAND gates, flip-flops, etc.) according to a custom order by adding metal interconnect layers in the factory. It was popular during upheaval in semiconductor industry in 80s and its usage declined by end of 90s. Similar technologies have also been employed to design and manufacture analog, analog-digital, and structured arrays, but, in general, these are not called gate arrays. Gate arrays have also been known as ''uncommitted logic arrays'' (''ULAs''), which also offered linear circuit functions, and ''semi-custom chips''. History Development Gate arrays had several concurrent development paths. Ferranti in the UK pioneered commercializing bipolar ULA technology, offering circuits of "100 to 10,000 gates and above" by 1983. The company's early lead in semi-custom chips ...
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