MaxTech K56Plus Testing Your Modem After Installation, Using Your Modem, Where To Go From Here

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Note that your software must be configured to communicate with the modem on the same COM port and IRQ line used by the modem.

2.6 Testing Your Modem After Installation

In order to test your modem you should be familiar with your communication software. Load and set up your communication software and enter into “terminal mode.” Make sure that the COM Port and IRQ settings of the modem match the software. Type AT on your terminal screen and press ENTER. You may see “AT”, “AATT” or nothing on the screen. In any case, the modem should respond with an OK or 0. If it does not, either the modem may not have been in- stalled properly or the software has not been properly configured. Review Sections 2.2-2.5 and be certain that the modem and the software have been properly installed. If required, refer to Section 6 for additional troubleshooting information.

2.7 Using Your Modem

The communication software included with your modem product provides a user friendly interface to access the fax and data functions of your modem. This software should be sufficient for all of your com- munication needs. There may be times when you need to access the modem manually via modem commands. Read Section 3 for a summary description of the modem command set before manually access- ing the modem. You may want to read the software manual first, however, as the software may already provide a user friendly method of accessing the func- tions you need (i.e. dialing or answering calls).

2.8 Where To Go From Here

You should familiarize yourself with the functions available from the included software by reading its manual. You will be accessing most, if not all, of the modem's functions from this software. You may also use any other commercially available communication software with the modem. Read Section 3 only if you are interested in accessing the modem manually, and not through the included software. Section 4 and 5

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Contents 56K BPS Page Unpacking Your Modem Section Two InstallationSection One Introduction Hardware Installation Proceed to .3 now if you have every- thing requiredHardware Configuration Plug and Play Configuring in WindowsWindows 95 Release Windows 95 Release 4.00.950 BConfiguring in a Non-Plug and Play System Software Installation and ConfigurationConfiguring in a Plug and Play System with- out Windows Where To Go From Here Testing Your Modem After InstallationUsing Your Modem Section Three AT Command Set Executing CommandsCommand Structure Basic AT CommandsCommands are echoed Low speaker volumeEnable Autoscan mode Touch-tone dialingExtended AT Commands Force DSR Signal High on Power on or resetRatio CTS operates per flow controlMNP/V.42/V.42bis Commands Fax Class 1 Commands Section Four S RegistersRegister Function Range/units Default S RegistersSection Five Result Codes Section Six Troubleshooting Modem does not respond to commandsModem does not dial Modem dials but does not connectSection Seven Support and Service High pitch tone is heard whenever you answer the phoneFCC Compliance Appendix a SpecificationsAppendix C Notices FCC Class B Statement DOC Compliance InformationUL Notice

V.34+, K56Plus, 56K BPS specifications

MaxTech 56K BPS, K56Plus, and V.34+ are modem technologies that revolutionized data transmission in the late 1990s, allowing users to connect to the Internet at unprecedented speeds. As internet usage skyrocketed during this period, the need for faster, more efficient modem standards became paramount. MaxTech, a prominent player in the telecommunications industry, was at the forefront of this evolution.

One of the standout features of MaxTech 56K modems is their ability to exploit the existing telephone infrastructure for faster data transmission. The 56K BPS technology specifically allowed for download speeds of up to 56 kilobits per second, leveraging a combination of digital signal processing and advanced modulation techniques. This was a significant leap from the earlier 33.6K modems, providing users with enhanced access to online content, file downloads, and multimedia experiences.

K56Plus, another critical technology developed during this era, improved upon the 56K standard by enabling modems to achieve higher speeds in optimal conditions. It utilized both analog and digital transmission paths to maximize throughput, making it more versatile and efficient than its predecessors. This adaptability allowed for better performance in varied line conditions, something essential for comprehensive Internet use.

V.34+, an enhancement of the V.34 modem standard, introduced better error correction and modulation schemes, ensuring more reliable and robust connections. This technology featured improved handling of data corruption and transmission errors, which was vital for maintaining stable internet connectivity during longer sessions, particularly for those downloading large files or streaming audio.

In terms of characteristics, MaxTech modems were known for their user-friendly interfaces and plug-and-play capabilities, making installation a seamless experience for a majority of users. These modems also incorporated technologies such as V.42 error correction and MNP protocol, further enhancing the reliability of data transmission.

Overall, MaxTech 56K BPS, K56Plus, and V.34+ mark a significant chapter in the history of internet connectivity. They provided a foundation for the broadband revolution that followed by pushing the limits of dial-up technology. Their advanced features and robust performance paved the way for an era of enhanced online experiences, shaping the way users interacted with the digital landscape for years to come.
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