AMCC M1120N specifications CC459A HP Printer LaserJet M1120n

Page 1

CC459A

HP Printer LaserJet M1120n

This file was downloaded from here

Product Description

HP Printer LaserJet M1120n - A4 print copy scan, prints up to 19ppm, copy up to 14cpm, USB-2, 10/100 integrated network, 600x600 Dpi, duty cycle up to 8000 pages/month, 250 sheet tray

Specifications on this product range

Functions

 

Colour scanning, black-and-w

 

 

copying, black-and-white scan

Print speed (black, normal quality, A4)

Up to 19 ppm

 

 

Print quality (black, normal quality)

Up to 600 x 600 dpi (1200 dpi

Maximum output capacity (sheets)

Up to 125

 

 

 

Duplex print options

 

Manual (driver support provid

Copy speed (black, draft quality, A4)

Up to 14 cpm

 

 

 

Copier resize

 

25 to 400%

Scan type

 

Flatbed

 

 

Enhanced scanning resolution

Up to 19200 dpi

 

 

 

Functions

Colour scanning, black-and-white printing, black-and-white

 

 

copying, black-and-white scanning

 

 

 

 

Print speed (black,

Up to 19 ppm

 

normal quality, A4)

 

 

Processor type

Tensilica®

 

 

 

 

Processor speed

230 MHz

 

Standard memory

32 MB (internal fixed)

 

 

 

 

First page out

< 7 sec

 

(black, A4)

 

 

Duty cycle (monthly,

Up to 8000

 

A4)

 

 

 

 

 

Print quality (black,

Up to 600 x 600 dpi (1200 dpi effective output)

 

normal quality)

 

 

 

 

 

1/4

Image 1
Contents CC459A HP Printer LaserJet M1120n Page

M1120N specifications

The AMCC M1120N is a robust and versatile chip designed for high-performance networking solutions. Tailored for various applications, including telecommunications, data centers, and enterprise networking, the M1120N is engineered to deliver outstanding efficiency and reliability. One of the primary attributes of the M1120N is its multi-core architecture, which enhances processing power and enables the handling of multiple tasks simultaneously. This multi-core design ensures that it can manage demanding applications, making it ideal for environments where high data throughput is essential.

A significant feature of the AMCC M1120N is its support for a range of networking protocols, which allows for seamless integration into existing network infrastructures. The chip is designed to accommodate both legacy protocols and the latest advancements in networking technology, ensuring compatibility and future-proofing for enterprises. The M1120N also supports Ethernet and other networking standards, fostering flexible deployment across various settings.

With respect to performance, the AMCC M1120N boasts impressive data processing capabilities. It incorporates advanced packet processing engines capable of executing complex algorithms and handling multiple streams of data with minimal latency. This is particularly important for applications that require quick and efficient data handling, such as real-time communications and streaming services.

Furthermore, the M1120N chip offers scalability, making it an ideal choice for growing enterprises and evolving technologies. Users can easily upgrade and expand their network capabilities without the need for complete system overhauls, which translates to cost savings and reduced downtime.

The chip also emphasizes power efficiency, a crucial characteristic in today's eco-conscious marketplace. The AMCC M1120N leverages energy-efficient technologies to minimize power consumption while maintaining high performance levels. This not only benefits the environment but also reduces operational costs for organizations relying on extensive networking setups.

In summary, the AMCC M1120N is a multidimensional networking solution that brings together multi-core processing, compatibility with various networking protocols, advanced packet processing, scalability, and energy efficiency. These features collectively contribute to its appeal in the competitive landscape of networking technologies, making it a suitable option for businesses aiming to enhance their communication infrastructure. As technology continues to evolve, the M1120N stands as a solid foundation for addressing both current and future networking demands.