NEC R1000 manual September Caller ID Indication disappears

Page 50

September 2003

NEC Business Solutions Ltd

 

 

The Caller ID Indication disappears:

zWhen an incoming call is answered.

zWhen an internal or ring transfer call is received.

zWhen Feature Access, DSS, Redial, or Feature key is pressed.

The Caller ID number is printed on the SMDR printout for incoming calls that are answered at stations that can display Caller ID data. The name is not printed.

When a station is engaged in a voice over, whisper page, or broker's call, the station can display Caller ID until the process ends.

When an incoming call is answered before Caller ID is sent, the Caller

ID is not displayed.

The following incoming calls display Caller ID on a Multiline terminal:

zOrdinary CO Calls

zDIT/ANA calls

zVRS/AA calls

zRing Transfer calls

zCAR calls

zACD/UCD calls

zCalls with delayed ringing

When a Multiline Terminal displays Caller ID with off hook ringing and receives another incoming CO call, the Caller ID changes to the second caller.

When trunk name indication is assigned, the data in Memory Block 3- 00 (Trunk Name/Number Assignment) is displayed on the Multiline Terminal assigned for Caller ID indication even when a terminal receives a caller name and number.

When hotline/prime line is set in Memory Block 4-23 (Prime Line/ Hot Line Assignment, a station user can originate an outgoing call using Caller ID.

Scrolling Caller ID with Return Call

When the Scroll key is used, a maximum of 50 Caller IDs can be stored in System Memory. When 50 Caller IDs are stored and an additional call is answered, the first Caller ID is erased from System Memory. Press the Scroll key to display the stored Caller IDs. When you go Off-hook, the displayed Caller ID is automatically dialled.

When Scroll key is not pressed with five seconds of the last press, the LCD returns to idle, and Caller ID disappears.

When an outgoing call is made using the Scroll function, the call follows Code Restriction, Digit Restriction, and Least Cost Routing (LCR) or Automatic Carrier Routing (ACR). The LCR or ACR feature is required for the Scroll function to operate properly.

Doc. No. 8283 - Release 1.0 September 2003

42 – Chapter 3

Caller ID - Incoming C-6

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Contents Xen IPK This page Intentionally Left Blank Preface & Disclaimer Preface & Disclaimer Important Note About this Upgrade Procedure September Table of Contents 13-04 11-2-0413-00 13-05Xen IPK R1000 Upgrade Procedure for Xen Axis/ Master ChapterChapter Direct Download from the Installed Xen System Only the Xen Axis system can be saved as Xen IPK Basic Chapter Direct Download from the Installed Xen System Upgrade Type Comments Chapter Direct Download from the Installed Xen System Click Hardware Upload When Upload is complete, click Close Chapter Direct Download from the Installed Xen System C T I O N September Only the Xen Axis system can be saved as Xen IPK Basic Upgrade Type Comments September September September For MIFM-U Software Verification for Mifm -U ETU For PRT1-U ETU Software Verification Adding AN Earth Connection Hardware Description and Specifications for Xen IPK Chapter B64-U23 KSUCpui -U ETU Description B64-U23 KSUInstallation SW1-3 Description Switch SettingsSW1-1 SW1-2 Description SW3-1 DescriptionDescription Flashing Off Replacing Memory BackupLED Indications PKU 192-UA Port Key Unit Description Basic Port ExpandedESIB8-U ETU Connections MDFESIE8-U ETU MJ1 Pin Signal Signal Name Pin Colour Pin AssignmentsMJ2 Pin Signal Signal Name Pin Colour This page Intentionally Left Blank Terminal Type Features and Specifications For Xen IPKAttendant Transfer Required ComponentsShortcut Key Feature Feature Name NumberGeneral ¶+BTTCall Arrival CAR Keys Restrictions Basic Port Expanded Feature Feature Name Number Call Appearance CAP Keys46/47 001 To return a call to the name/number displayed on the LCD Caller ID IncomingTo display a stored Caller ID Manual Operation Caller ID IndicationScrolling Caller ID with Return Call General September Caller ID Indication disappears Related Features List Mobile Pay Phone Out of Area Private Data ErrorShortcut Key Line Key Order Memory AttendantSystem Data Name Function Block Dterm Series i Multiline TerminalsD-19 Optional ComponentsRefer to individual feature for details SpecificationsGeneral Other TerminalButton Units Feature Name Number DTU-type Multiline Terminal MigrationD-20 September To change the LCD contrast for Multiline Display Terminals Electronic Volume ControlTo change the off-hook ringing volume To set the speaker volume To change the station ringing volumeTo set the handset receiver volume Related Feature List Guide to Feature Programming 46/47 049External Zone Paging Meet-Me E-6 To originate using a Multiline TerminalTo answer using a Multiline Terminal To originate using a Single Line Telephones To answer using a Single Line Telephones46/47 074 ~ 081 To use the HFU-UA using an DTU--type Multiline Terminal Full Duplex Handsfree¶+BTM HFU Selection ISDN-BRI Trunk Connections Not applicable Data AssignmentGeneral Xen IPK Expanded CO Line Service Order System Data NameCalling Party Number CPN Service Order Memory System Data Name FunctionISDN-PRI Trunk Connections Not applicable Data Assignment for ISDN-PRI Installation Data Assignments for Caller ID Calling Party Number CPN Data Assignment for CO Line ServicesData Assignment for did Line Services General Xen IPK Expanded Isdn PRI Installation Did Line Service System Data Name FunctionCalling Party Number CPN Presentation from Station Music on Hold Example Guide to Feature Programming Station Transfer Using a Multiline Terminal with a call in progressUsing a Single Line Telephone with a call in progress Direct Station Selection DSS Package Universal SlotsNot applicable PRT4 4 ports, 4 B channels z PRT8 8 ports, 8 B channels Maximum Capacities Station Interface Units Description IPT4-U ETU installed as a COI/COID4-U ETU ESI8 ETUs NO. Maximum NO.Other ETUs Gruide to Feature Programming Programming Display SettingsGeneral Description + BKProgramming Procedures Related Programming+ AN Settings PRI Channel AssignmentPRT B Channel Outgoing Priority Selection + ANPRT B Channel-to-Trunk Group Assignment Trunk-to-MOH Trunk Assignment + BCT+ BTM Programming Procedures Multiline Terminal Type Selection50, Multiline Terminal Type Selection Draft 3 MOH or Ring Back Tone Selection 66, MOH or Ring Back Tone Selection Draft 3 LCD Line Key Name Assignment + BTT68, LCD Line Key Name Assignment Draft 3 Card Interface Slot Assignment + BSCard Interface Slot Assignment Draft 3 Draft Card Interface Slot Assignment KSU Power-Based ETU Quantity Limitations ACD+/CMS/FMS/VMSCard Interface Slot Assignment EXP KTUMIF ACD Assignment This page Intentionally Left Blank

R1000 specifications

The NEC R1000 is an advanced server system designed for high-performance computing and enterprise applications. Offering numerous features and cutting-edge technologies, the NEC R1000 aims to meet the demands of businesses looking for efficiency, reliability, and scalability.

One of the defining characteristics of the NEC R1000 is its modular architecture. This design allows users to customize the server according to their specific needs. With a variety of configurations available, businesses can choose the optimum specifications for CPU, memory, and storage, facilitating the deployment of tailored solutions for various workloads, such as virtualization, big data analytics, or cloud computing.

The NEC R1000 is powered by the latest generation of Intel Xeon processors, which offer significant improvements in performance compared to previous iterations. With support for multiple cores and threads, the server can efficiently manage concurrent processes, making it well-suited for demanding applications. Additionally, the server supports advanced memory technologies, including DDR4 RAM, providing increased memory bandwidth and speed, essential for data-intensive tasks.

Storage is another area where the NEC R1000 excels. The server supports various storage configurations, including SSDs and traditional hard drives, allowing for a mix of performance and capacity. It incorporates advanced RAID technologies, ensuring data redundancy and resilience against failures. This capability is particularly important for businesses that rely on uptime and data integrity.

In terms of connectivity, the NEC R1000 features high-bandwidth networking options, including 10GbE and higher, facilitating fast data transfer between servers and storage devices, as well as with external networks. This is crucial for performance in environments such as data centers and distributed applications.

Energy efficiency is a key focus of the NEC R1000. It is equipped with power management technologies that optimize energy consumption without compromising performance. These technologies help enterprises reduce operational costs and minimize their carbon footprint.

Additionally, the NEC R1000 is designed with enhanced security features, including secure boot and trusted platform modules (TPM), which help protect sensitive data and ensure the integrity of the server's firmware.

In conclusion, the NEC R1000 is an efficient and robust server solution, featuring modular architecture, powerful processors, various storage options, high connectivity, and energy-efficient technologies. Its adaptability makes it suitable for a wide range of enterprise applications, ensuring that businesses have the resources they need to thrive in a competitive landscape.