Siemens 50 manual Limitations, References, Abbreviations

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Limitations

Not known yet :-)

References

[1]TIA-811-A: Performance and Interoperability Requirements for Voice-over-IP (VoIP) Fea- ture Telephones (http://www.tiaonline.org/standards/technology/voip/documents/TIA- 811-A-final-for-global.pdf)

[2]Session Initiation Protocol (SIP)-Specific Event Notification: (RFC 3261)

[3]OpenStage Asterisk Admin Guide: (http://wiki.siemens- enterprise.com/images/e/e1/Administration_Manual_OpenStage_Asterisk.pdf)

[4]WPI Guide: (http://wiki.siemens- enter-

prise.com/images/c/c7/OpenStage_Provisioning_Interface_Developer%27s_Guide.pdf)

[5]Trace Guide Openstage SIP: http://wiki.siemens- enterprise.com/images/1/1b/Service_Info_How_to_trace_OST_SIP.pdf

[6]Services for Computer Supported Telecommunications Applications (ECMA-269).http://www.ecma-international.org/publications/standards/Ecma-269.htm

[7]Private Extensions to the Session Initiation Protocol (SIP) for Asserted Identity within Trusted Networks: http://www.ietf.org/rfc/rfc3325.txt

[8]Provisioning Interface Developer’s Guide: http://wiki.siemens- enter- prise.com/images/c/c7/OpenStage_Provisioning_Interface_Developer%27s_Guide.pdf

[9]OpenStage XML Applications Developer's Guide: https://app-enterprise.siemens- enterprise.com/gdmsproxy/retrieve?id=40776497

Abbreviations

AoR

Address of Record

BLA

Bridged Line Appearance

CCBS

Call Completion Busy Subscriber

CCNR

Call Completion No Reply

CTi

Computer Telephony Integration

FFK

Free Function Key

FPK

Free Programmable Key

HTTP

Hypertext Transfer Protocol Overview

HTTPS

HyperText Transfer Protocol Secure

MAA

Multiple Address Appearance

MLA

Multiple Line Appearance

MSA

Multiple Station Appearance

MWI

Message Waiting Indication

SCA

Shared Call Appearance

SIP

Session Initiation Protocol

UA

User Agent

uaCSTA User Agent Computer Supported Telephony Application

Open Communications Principles and Best Practices

24/09/2010, page 17

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Contents HowTo Scope Contents Feature OpenStage 20E Supplying Power for the PhonesPreparation 40 G 60 G 80 GOpenStage 20/20E Energy saving modePower consumption W Fast Ethernet variants Power consumption W Gigabit Ethernet variants Connecting OpenStage Phones to the IP NetworkOpenStage 20 G OpenStage 40 G OpenStage 60 G OpenStage 80 GPlug & Play / Autoprovisioning Plug & Play One Step Provisioning and ConfigurationProvisioning via the WPI WorkPoint Interface If a Firewall or NAT get in the Way Single Phone Configuration Local Menu, WBMLocal Menu Web Based Management WBMBusy Lamp Function BLF Using OpenStage@AsteriskXML Applications Send URL / Remote Server ControlCall Completion CCBS/CCNR Services on the SIP ServerCTI for OpenStage Uacsta Events Generated by the SIP ServerEvents Generated by OpenStage Services on the OpenStage deviceChanging the Caller Information PAI Header Multi Address Appearance MAA Automatic Call Answering Using Alert-Info Header Logging and Tracing Problem Description Error codeLAN Port Mirroring Tracing Capabilities within the PhoneQoS Data Collection Remote Control the Husim Phone TesterPage Abbreviations LimitationsReferences Siemens Enterprise Communications GmbH & Co. KG

50 specifications

Siemens 50, a notable offering from Siemens’ extensive range of solutions, is designed to cater to various industrial automation needs. This robust device integrates innovative technologies, making it a crucial component in modern manufacturing and process control systems.

One of the primary features of Siemens 50 is its advanced automation capabilities. The system is equipped with a powerful controller that is able to manage complex tasks with high precision and efficiency. The use of Siemens’ own TIA Portal software allows for seamless integration and programming, making it user-friendly for engineers and technicians. Its modular design enables easy expansion and customization to fit a variety of applications.

Communication is another strong suit of Siemens 50. It supports a range of communication protocols such as PROFINET, Modbus, and EtherNet/IP. This interoperability ensures that the device can connect effortlessly with existing infrastructures, facilitating data exchange between multiple devices and systems. This feature is critical for the Industrial Internet of Things (IIoT), where connectivity and real-time data access improve monitoring and control processes.

In terms of performance, the Siemens 50 is known for its reliability and efficiency. With an optimized power management system, it reduces energy consumption while maintaining high operational outputs. The device is designed for durability, capable of withstanding harsh industrial environments, which includes resistance to dust, moisture, and temperature variations.

Safety is a key characteristic of Siemens products, and Siemens 50 does not fall short. It is equipped with integrated safety features that adhere to international standards, ensuring a safe operating environment. These features help in mitigating risks associated with machinery operation, thereby protecting both workers and equipment.

The Siemens 50 also embraces the trend toward digitization in manufacturing. It provides advanced diagnostic tools and analytics that help operators in predictive maintenance, minimizing downtime and enhancing overall productivity. By leveraging powerful data analytics, users can gain insights into operational efficiency, which can be used to drive continuous improvements.

Overall, Siemens 50 stands out for its advanced features, robust communication capabilities, efficiency, safety measures, and support for digitization. This makes it a versatile choice for industries seeking to optimize their automation processes while ensuring safety and reliability.