Siemens 2000 manual Jitter Buffer, L2 Default, L2/L3 Voice/Signalling

Page 68

Alphabetical Reference

Description of functions

Jitter Buffer

Select the duration of the intermediate storage here (number of data packets) that changes the effect of the Æ Jitter.

Short

2 packets

 

 

Medium

4 packets

 

 

Long

6 packets

 

 

The more stable the network connection, the shorter the selected buff- er time (less voice delay).

Depending on the frequency at which the data packets are sent by the terminal devices (e.g., 20 ms or 120 ms), this setting has a markedly different effect.

Standard value Æ page 96.

Æ page 54

Key Test

Test to check the functions of the telephone keys.

If you press a function key, the associated LED glows.

In display telephones, the corresponding name is displayed in the Æ LCD display when you press a key (exception: :terminates the test).

Æ page 26

L2 Default

This parameter describes the QoS values of each package which is nei- ther a voice nor a signalling package.

Standard value Æ page 96.

Æ page 53

L2/L3 Voice/Signalling

Can be defined only if the Æ Layer 3 support is activated (Æ QoS L2/

L3). The value describes in each case the place in the value of Æ Layer 2.

Valid values: 0 ... 63.

Standard values Æ page 96.

Æ page 53

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Contents Administrator Manual HiPathSafety Precautions For Your SafetySafety Precautions Protection of the TelephoneLocation of the Telephone Important NotesContents Administration scenarios Factory Default SettingsAlphabetical Reference EditorsData Visualisation optiPoint 410 entry only IndexGeneral Information About the ManualProduct Identification Echo EffectGeneral Information Safety Precautions for IP TelephonyVoIP Security Safety Reference to operation stepsOperating the telephone S o uorOptiPoint 410/420 economy/economy plus/stan- dard/advance OptiPoint 410 entryModel Properties of the Telephone ModelsVoIP Security Connectors on the bottom of the telephone Setting Up the TelephoneInstalling the Telephone Installing the Telephone Starting up the optiPoint 410/420Entering the administration area Preparing for OperationOnly if no Dhcp server TroubleshootingAll configuration types 2nd Function key OptiPoint 410 entry1st Function key Enter IP address of the optiPoint 410 entry to edit see Æ Only if you are working in a Virtual LAN VlanError handling Other settingsAdministration AdministrationRemote maintenance through LAN Locally on the telephonePress keys simultaneously Access to the Administration MenuOptiPoint 410/420 economy/ economy plus/standard/advance Configurations OptiPoint 410/420 economy/economy plus/standard/advanceDhcp IP Assignment Terminal IP AddressVlan ID Default RouteVlan Method LAN Port 1 Mode QoS Layer OptionsSubscriber Number LAN Port 2 ModeSubscriber Password LED Test DiagnosticsDisplay Test Key Test Audio Loop TestExecute test RAM TestPing Test Ping change targetLine Status SLK TestBy pulling the power plug RestartWeb-based Management Tool After restartError Messages Other error messages OptiPoint 410 entry Entering the administration areaView settings Function Codes Reset factory settings No Default Route LEDs on the phoneNo terminal screen No IP Address is setNo Default Route is set No Participant No. / passwordNo terminal screen is set No networkLog in failed No PBX addressPBX does not react OptiPoint display module Firmware UpdateLdap Configuration OptiPoint display module Configuring the Ldap ServerInstalling the Ldap Template OptiPoint application module Installing an Ldap Template OptiPoint application moduleWeb-based Management Tool GeneralPreparation Web-based Management ToolOpen web-based management tool Http//IP of the telephoneWeb-based Management structure Administrator Actions Change administrator passwordGeneral Information General InformationClear screenlock password Restart terminal Factory ResetOnly for optiPoint 410/420 standard/advance available Clear user dataWeb-based Management ToolAdministration Java Http SettingsLdap settings ApplicationsMiscellaneous WAP gatewayWAP Favourites Audio Audio settingsDiagnostic Tests Test results File transfer File Transfer optiPoint 410/420 entry/economy/economy plus Java FTP SettingsENB FTP Settings Network Network and RoutingQuality of Service QoS Snmp settingsQoS Data Collection DLS Settings Gateway settings SystemPort Settings Port ControlSrsr Settings Time Settings Voip Encryption SettingsAlphabetical Reference Description of functionsAlphabetical Reference Action On SubmitAdministration Password Cancel Mobility PasswordApplication Filename Application VersionCodec Independent Threshold Values Codec Audio Mode UseCodec Compression Compressing Codec Threshold ValuesDaylight saving Debug InterfaceDefault Sntp IP Default Vlan IDDhcp DLS Server PortExternal Access Code DNS AddressesDomain Name DSM FilenameFTP Password Emergency NumberFTP Account Name FTP Server AddressFTP Settings FTP UsernameG722 codec Gateway AddressHttps Http Username International Dial PrefixIP Routing Java GatewayJitter Buffer L2 DefaultL2/L3 Voice/Signalling LAN Port Settings Bandwith Possible applicationLanguage Ldap Server IP AddressLdap template example Template-String DeclarationExample for assumption Copy & Paste Syntax of the Ldap template fileLdap Template Filename Port Function LEDs on optiPoint 410/420 right rowMIB-II Error Count Local Area CodeLocal Country Code Local District CodeMinimal Session Length National Dial PrefixNon-Compressing Codec Threshold Values Observation IntervalQCU Home Address QCU Standby AddressQDC Server QoS L2/L3Report Mode Service AgentRestart Terminal RTP Port BaseSnmp Srsr Automatic Switch Back Srsr EnabledSrsr Switch To Home Expiry Timeout Srsr Switch To Home Retry CountSrsr Switch To Standby Retry Count Srsr Tctest Expiry TimeoutSrsr Tctest Retry Count System TypeTime Source Time WindowTimezone offset USB KeyboardWAP Username WAP PasswordWAP Connection Type WAP URL Abbreviations and Specialized Terms Cornet IP TSDLS DNSENB FTPHFA HttpLAN LdapLCD LEDMIB PBXPing PSSSIP SLKVlan SntpSwitch URLVoIP WAPSetting up the FTP server Administration scenariosSetting up the FTP server Installation and configuration Administration scenariosCheck handset functionalities Start up not successfulCheck LAN connection Determine the software versionImprove speech quality Editors Number EditorIP Number Editor Number EditorBit Block Teminal Mask EditorEditors Text Editor Text EditorKey 10x 11x 12x 13x 14x 15x 16x 17x 18x 19x 20x 21x 22x 23x OptiPoint 410/420 economy/economy plus/standard/advanceFunction Standard value Factory Default SettingsStandard value Vlan Dhcp Vlan ID Password Functions Password Function settingKey-Layout Taste Funktion HiPath 3000/5000Data Visualisation optiPoint 410 entry only Status MessagesBinary encoded Ascii table Data Visualisation optiPoint 410 entry only101 Technical dataBinary encoded Ascii table Technical data 102Administration Interface Operation Codes SummaryOptiPoint 410/420 OptiPoint 410/420Operation Codes SummaryOperation Codes SummaryoptiPoint 410/420 104105 Further functionsOptiPoint 410 entryOperation Codes Summary 106 Menu structureMenu structureoptiPoint 410/420 107 IndexIndex Https 108Srsr 109Bestell-Nr. A31003-A2056-B415-7-76A9

2000 specifications

Siemens 2000 is a robust and advanced industrial automation system that exemplified Siemens' commitment to innovation and efficiency in manufacturing during its launch period. Known for its modular design and interoperability, Siemens 2000 leveraged the latest technologies to create a more integrated and flexible manufacturing environment.

One of the standout features of Siemens 2000 is its use of the S7 series programmable logic controllers (PLCs). These programmable devices allowed for real-time monitoring and control of various industrial processes. The S7 PLCs were designed to handle complex automation tasks while offering an intuitive programming interface through the STEP 7 software. This enabled operators to create and modify programs easily, enhancing responsiveness to production changes.

Another notable characteristic of Siemens 2000 is its emphasis on connectivity. The system utilized Industrial Ethernet for communication between devices, ensuring high-speed data transfer and reliable connections across the network. This facilitated a more cohesive integration of machinery and systems, leading to improved workflow and productivity. The support for various communication protocols, such as Profibus and Profinet, allowed for seamless integration into existing infrastructures.

Siemens 2000 also introduced features that enhanced data acquisition and processing through SCADA (Supervisory Control and Data Acquisition) systems. These capabilities provided operators with real-time insights into production metrics, enabling predictive maintenance and proactive decision-making. The combination of advanced analytics tools and human-machine interfaces (HMIs) allowed users to visualize data patterns easily, improving overall operational efficiency.

Safety was a paramount consideration in the design of Siemens 2000. The system included integrated safety features that complied with international standards, providing reliable protection for both personnel and equipment. These safety measures ensured that potential hazards were identified and mitigated, promoting a secure working environment.

In conclusion, Siemens 2000 represented a significant leap forward in industrial automation with its modular and flexible architecture. The integration of advanced PLCs, seamless connectivity through Industrial Ethernet, sophisticated data processing capabilities, and a strong focus on safety made it a preferred choice for manufacturers looking to enhance their productivity and operational excellence during its time. The legacy of Siemens 2000 continues to influence modern automation solutions, embodying the principles of efficiency, safety, and innovation.
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