NEC 1810 Why do we have environmentally labelled computers?, What does labelling involve?

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TCO'95

Congratulations! You have just purchased a TCO'95 approved and labelled product! Your choice has provided you with a product developed for professional use. Your purchase has also contributed to reducing the burden on the environment and also, to the further development of environmentally adapted electronics products.

Why do we have environmentally labelled computers?

In many countries, environmental labelling has become an established method for encouraging the adaptation of goods and services to the environment. The main problem, as far as computers and other electronics equipment are concerned, is that environmentally harmful substances are used both in the products and during the manufacturing. Since it has not been possible for the majority of electronics equipment to be recycled in a satisfactory way, most of these potentially damaging substances sooner or later enter Nature.

There are also other characteristics of a computer, such as energy consumption levels, that are important from the viewpoints of both the work (internal) and natural (external) environments. Since all methods of conventional electricity generation have a negative effect on the environment (acidic and climate-influencing emissions, radioactive waste, etc.), it is vital to conserve energy. Electronics equipment in offices consume an enormous amount of energy since they are often left running continuously.

What does labelling involve?

This product meets the requirements for the TCO'95 scheme which provides for international and environmental labelling of personal

LCD1810.PM5

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98.7.27, 2:36 AM

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Contents MultiSync LCD1810 Declaration of the Importer Safety Instruction Canadian Department of Communications Compliance Statement FCC InformationLCD1810.PM5 98.7.27, 236 AM Why do we have environmentally labelled computers? What does labelling involve?TCO Development Unit Environmental Requirements Brominated flame retardantsMercury Deutsch Analog ist besser Vorstellung des NEC MultiSync LCD1810Weitwinkel-Technologie Größere KompatibilitätErgonomisches Design Farbeinstellungsmenü ColorControl SystemOSM On Screen Manager Drehbares UntergestellMulti-Frequenz-Technologie IPM-System Intelligent PowerManagerBNC/D-Sub FullScanLieferumfang Empfehlungen zur Benutzung Empfehlungen zur Benutzung Empfehlungen zur Benutzung Installation Installation Installation Installation Transportschrauben KabelkanalAnheben und Senken des Bildschirms Bildschirmdrehung Neigen und SchwenkenKabelführung des Signalkabels Anschluß des mitgelieferten Videosignalkabels Forts Installation Abnehmen des Monitorfußes für die Montage FigureAbbSS.1.1Bedienungselemente OSM BedienungselementeHelligkeits-/Kontrastregler Automatische BildeinstellungPositionsregler BildeinstellungsreglerColorControl System Werkzeuge InformationTechnische Daten MultySync LCD1810 Technische Änderungen vorbehalten Fehlersuche/Abhilfe Störung Notwendige ÜberprüfungenFehlersuche/Abhilfe Appendix App. a PIN Assignments Pin NoApp. B Preset Signal Timing Resolution Vertical Horizontal PixelLA-1831JMW

1810 specifications

The NEC 1810, an innovative microprocessor introduced in the early 1980s, was pivotal in the evolution of computing technology. As the first 16-bit microprocessor in the NEC lineup, it incorporated several advanced features that set it apart from its contemporaries. Designed primarily for embedded systems, the NEC 1810 provided a rich set of functionalities that appealed to a wide range of applications, from consumer electronics to industrial automation.

One of the standout characteristics of the NEC 1810 was its architecture, which boasted a 16-bit data bus and 18-bit address bus. This allowed the processor to access a significant amount of memory, up to 256 KB, enabling developers to create more sophisticated programs than what was possible with 8-bit processors of the time. The ability to handle larger data types also enhanced the execution speed and efficiency, making the NEC 1810 a powerful choice for developers.

The microprocessor was built using CMOS technology, which contributed to its low power consumption and high noise immunity. This was particularly important for battery-operated devices, as it allowed for longer operational periods without the need for frequent recharging. The chip operated at a clock speed of up to 6 MHz, which, while modest by today's standards, was competitive during its heyday.

Another noteworthy feature of the NEC 1810 was its instruction set architecture. The microprocessor supported a variety of addressing modes and offered up to 78 different instructions, including arithmetic and logic operations, data manipulation, and control flow commands. This versatility made it suitable for a wide array of application domains.

The NEC 1810 also integrated several built-in hardware components that simplified the design of peripheral interfaces. This included timers, programmable I/O ports, and even interrupt handling capabilities, allowing developers to create responsive applications without needing extensive external circuitry.

As a member of a growing family of microprocessors, the NEC 1810 played a significant role in the proliferation of personal computers and programmable devices in the 80s. Its combination of efficiency, power, and flexibility made it a favored choice among engineers and designers seeking to push the boundaries of technology. Today, while far surpassed by modern processors, the NEC 1810 remains a noteworthy milestone in the history of microprocessor design, representing an era defined by rapid advancements in computing capabilities.
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