SIIG 4110, 4590 manual Keys Features and Benefits, SystemRequirements

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Single-Serial PC Card

Quick Installation Guide

Introducing the Single-Serial PC Card

The Single-Serial PC Card adds one high-speed serial port (RS232) into your notebook computer to connect various types of serial devices.

Keys Features and Benefits

Works with notebook computers with one Type II/ III PC Card/CardBus slot

Fast 16550 UART supports baud rates up to 115.2Kbps

Built-in 16-byte FIFO buffer to speed up data transfer

Provides one RJ45-to-serial (DB9) removable cable for device connections

Works with various types of RS232 serial devices including modems, PDAs, label printers, bar code scanners, digital cameras, and more

SystemRequirements

Pentium or equivalent notebook computer with an available PC Card slot

Windows 98/98SE/ME/2000/XP/Server 2003

Package Contents

Single-Serial PC Card

RJ45 to 9-pin serial port cable

Driver CD

This quick installation guide

04-0254C

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Contents SystemRequirements Keys Features and BenefitsInserting PC Card Hardware InstallationWindows98/98SE Driver InstallationWindows ME Windows2000WindowsXP/Server2003 To verify successful driver installationAt the Found New Hardware Wizard Changing COM Port Address Click Port Settings tab and click AdvancedBlank SIIG, Inc Stewart Avenue Fremont, CA 94538 RMA # Technical Support and WarrantyAbout SIIG, Inc

4110, 4590 specifications

The SIIG 4110 and 4590 are versatile industrial-grade communication devices designed to enhance connectivity and data transfer in various applications, particularly within the realms of industrial automation, networking, and system integration. These products are recognized for their robust design, reliability, and support for multiple protocols, making them essential tools for improving operational efficiency and enhancing system performance.

One of the standout features of the SIIG 4110 is its ability to support serial communication across multiple channels. With the capability to connect up to 16 serial devices simultaneously, the 4110 is particularly beneficial for manufacturing environments where multiple sensors, controllers, or other devices need to communicate with a central processing unit. Enhanced throughput is achieved through advanced buffering technology, which minimizes data loss and ensures smooth operation.

The SIIG 4590, on the other hand, is tailored for high-speed connectivity. This device includes advanced Ethernet capabilities, allowing for high-speed data transfer and reduced latency in real-time applications. The integration of various Ethernet protocols supports both traditional and modern network setups, enabling seamless communication across diverse platforms.

Both models incorporate built-in diagnostics and monitoring tools. These features allow users to track the performance of their connections and devices, reducing the likelihood of downtime and facilitating preventative maintenance. The diagnostic tools can provide insights into system errors, connection statuses, and data flow, enabling more efficient troubleshooting.

In terms of technology, both the SIIG 4110 and 4590 utilize advanced signal processing techniques to ensure accurate data transmission. This includes error checking algorithms and redundancy protocols that improve reliability, particularly in environments where electromagnetic interference and other disturbances might otherwise compromise performance.

The rugged design of these devices is another important characteristic. Built to withstand harsh industrial conditions, both models feature enhanced housing that protects against dust, water ingress, and extreme temperatures. This makes them suitable for deployment in factories, warehouses, and other demanding settings.

Overall, the SIIG 4110 and 4590 blend advanced communication technologies with robust design, making them critical components for companies seeking to optimize their industrial operations and maintain seamless connectivity across various systems. Their features and capabilities are a testament to their role in enhancing productivity and operational efficiency.