what is 3g networks
DESCRIPTION
All about 3G NetworksTRANSCRIPT
What is 3G Networks?
3G refers to the Third (3rd) Generation Network, which belongs to latest technology with
mobile phone in telecommunication arena. In 3G you will get fast data or download speed
on your cell phone or smart phone. You can use 3G networks with your Android hand set,
Tab, PC and laptop.3G provides high speed internet access, video call, directs video
watching, music, high resolution image to view and experienced with multimedia herewith.By using 3G you will be proficient to enjoy a lot of features: ** You can establish a video call with others. ** High speed internet access. ** To see live each other during speaking, if both have 3G supported handset. ** Possible to send video emails and video clips. ** You can enjoy live TV programs on your 3G enabled phones while you are running or moving to different places.3G NETWORKS SETTING TO YOUR MOBILE PHONE:
Step-1: Go to your Phone settings.Step-2: Select Network Settings.Step-3: Select 2G & 3G Mode or 2G & UMTS mode or Dual NetworkStep-4: To save, Press OK Button.
What is the Speeds 1G Up-to 4G Networks?1G: 1G is provided only text messaging and assembling calls speed as like as analog system.
2G: 2G is World Wide Roaming system of its connectivity.
2.5G: 2.5G is GPRS or General Packet Radio Service, speed below 384Kbps based.
3G: 3G means UMTS which maximum speed is upto 3.2Mbps.
3.5G: 3.5G means HSDPA/HSUPA which maximum speed is upto 14Mbps.
3.75G: 3.75G is the latest and last Up-gradation, which is called HSPA and maximum speed is upto 21Mbps.
4G: 4G is one step ahead from 3.75G and its speed range 100Mbps to 1Gbps.
Description Network generation:
G and 2G, 3G and 4G stand designed for the “Generation” of the mobile network. at the
moment, mobile phone operators have ongoing gifting 4G armed forces in the country. A
superior digit previous to the ‘G’ means extra supremacy to send out and obtain more in
order and consequently the capability to accomplish a advanced good organization from
side to side the wireless set of connections.Seeing as the name would recommend, First Generation (1G) was the first generation of mobile phone networks. At this point fundamentally, telephone system signals were transmitted in ‘Analogue’ form and unexpectedly, one was not able to do a great deal other than transferring text messaging and assembling calls. But the major drawback, though came in the form of inadequate arrangement accessibility, as in the network was obtainable merely surrounded by the nation state.Second Generation (2G) networks on the additional hand, were based on slight crowd digital networks. Signals were transmitted in the digital format and this radically enhanced the excellence of calls and also compact the difficulty of data broadcast. The added benefit of the 2G network came in the form of partially worldwide roving System, which enabled the connectivity all in excess of the Globe.Stuck between 2G and 3G in attendance was a small stage in between someplace cellular phones became sleeker and more‘pocket able’ if we can call it that. This is prevalently referred to as 2.5G somewhere the measure of radio waves to be transmitted was greatly minor. This in revolve had an upshot on the figure and makeup of cellular phone. However the majority of all, 2.5G helped in the ushering of General Pocket Radio Service (GPRS).
The Third Generation (3G) of cellular networks has turn out to be well-liked principally
gratitude to the aptitude of users to right of entry the internet above procedure like Cell
Phones and Tab. The rapidity of data transmission on a 3G network ranges along with
384Kbps to 2Mbps. This means a 3G network in summit of fact allows for extra data
transmission and so the network enables right to be heard and video calling, file
transmission, internet surfing, online TV, watch high definition videos, play games and a
great deal extra. 3G is the most excellent choice for users who require to for all time
staying associated to internet. Fourth Generation (4G) cellular phone networks are supposed to make available a lot of importance supplementary facial appearance. In adding together to all the 3G conveniences, records transmission is whispered to go from side to side the covering by means of speeds ranging between 100Mbps to 1Gbps.Few! Joyful chatting, surfing, conferencing, conversation, networking, carousing, or whatsoever you want to do on your Cell phone.
UMTS NETWORK SUMMARY
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Communication has forever been essential to humankind. Once 2 individuals meet, they solely want their voice tocommunicate, however because the distance will increase the requirement for tools arises. Once Alexander Graham Bell unreal the telephone in 1876, a major step was taken to change 2 individuals to speak along, but way apart they’ll be that is, as long as they’re close to a phone set! For quite a century wire line telephone has been the answer for spoken communication over distance for many individuals. Radio based mostly communication systems not counting on a wire for network access were developed for special functions (e.g. military, police, military service and closed automotive radio nets), and eventually systems emerged permitting individuals to speak via telephones with radio instead of wire line access.They were primarily meant for individuals driving in cars and were called mobile telephone systems.During the first Nineteen Eighties, the primary generation (1G) of mobile phone systems supported analog technology was experiencing ascension in several European countries. Every country developed its own system, every incompatible with the others in terms of kit and operation. This semiconductor diode to would like and a necessity for a standard European mobile communication system with high capability and pan-European coverage. The latter understood that similar mobile telephones can be utilized in all European countries which incoming calls would mechanically be routed to the mobile phoneFREELANCE of location (automatic roaming). Additionally it had been expected that one single European market with common standards would result in cheaper user instrumentality and vendor-independent network parts.
Finally, the utilization of contemporary digital technology would lead to smaller hand-held devices in addition to improved functionality and quality. In 1982 the CEPT (Conference of European Posts and Telegraphs) shaped a study cluster known as the Group Special Mobile (GSM) to check and develop a pan-European public land mobile system – the second generation of cellular telephony (2G). The name of the study cluster – GSM – was additionally used for the cellular method. In 1989, GSM accountability was transferred from CEPT to the ETSI (European Telecommunication Standards Institute).Originally GSM was solely meant for the ETSI member countries. However, several alternative countries have additionally implemented GSM – e.g. jap Europe, the center East, Asia, Africa, the Pacific Basin and North America (with a spinoff of GSM known as PCS1900). The name GSM – currently which means the world System for Mobile communication – is therefore terribly acceptable.
UMTS Features:UMTS supports most theoretical information transfer rates of forty two Mbit/s once HSPA+ is enforced within the network.[2] Users in deployed networks will expect a transfer rate of up to 384 kbit/s for unharness ‘99 (R99)handsets (the original UMTS release), and 7.2 Mbit/s for HSDPA handsets within the downlink association. These speeds are considerably quicker than the nine.6 kbit/s of one GSM error-corrected circuit switched information channel, multiple 9.6 kbit/s channels in HSCSD and fourteen.4 kbit/s for CDMA new channels.Since 2006, UMTS networks in several countries are or are within the method of being upgraded with High Speed Downlink Packet Access (HSDPA), typically called three.5G. Currently, HSDPA allows downlink transfer speeds of up to twenty one Mbit/s. Work is additionally progressing on up the transmission transfer speed with the High-Speed transmission Packet Access (HSUPA). Long run, the 3GPP future Evolution (LTE) project plans to maneuver UMTS to 4G speeds of one hundred Mbit/s down and fifty Mbit/s up, employing a next generation air interface technology based mostly upon orthogonal frequency-division multiplexing.The first national shopper UMTS networks launched in 2002 with an important stress on Telco-provided mobile applications like mobile TV and video line of work. The high information speeds of UMTS are currently most frequently utilized for web access: expertise in Japan et al has shown that user demand for video calls isn’t high, and
Telco-provided audio/video content has declined in quality in favor of high-speed access to the globe Wide Web—either directly on a phone or connected to a laptop via Wi-Fi, Bluetooth or USB.GSM has been around for a decade and has become an awesome success, being terribly wide deployed in most components of the globe. The system is similar temperament for spoken communication and is additionally extensively used for brief Message Service (SMS) data transfer. Circuit switched information services were additionally lined by the GSM specification, because the integrated wireless access to voice and information services was one in all the goals for the system.However, the offered access speed (max. 9600 baud) has restricted the utilization of the GSM system for information applications. ETSI have outlined many solutions to enhance the information access of the mobile network typically noted as two.5G. This is to point that they represent a success compared to GSM; however these systems are still quite tightly connectedTo GSM:HSCSD (High Speed Circuit Switched Data), GPRS (General Packet Radio System) and EDGE (Enhanced Data rates for Global/GSM Evolution).HSCSD is that the simplest sweetening of the GSM system for data: Like GSM it’s supported circuit switched connections, however a higher utilization of the obtainable information measure and allocation of quite just once slot per connection permits higher information rates – on paper up to fifty seven.6 kbps. However, the circuit switched nature of HSCSD makes it inefficient for information traffic, as this is often packet headed. GPRS is intended as a packet information service with a theoretical most rate of approx. 170kbps. GPRS coexists with the GSM network, reusing the fundamental structure of the AN. General Packet radio service is an addition of GSM Networks with information services carried on the prevailing radio infrastructure, whereas the core network is increased by a packet overlay with new parts and interfaces. GPRS supports combined voice and information services and allows multimedia services.EDGE is a sweetening of the GSM/GPRS system employing a new air interface modulation technique that enables the bit rate on the air interface to be accrued significantly. EDGE can increase the theoretical most rates to 384kbps.The UMTS (Universal Mobile Telecommunication System) – third generation cellular telephone (3G) – is anticipated to do quite simply offer higher and quicker mobile communication. UMTS will change combination ofvoice and information services during a new means, as an example facilitating transmission and end-to-end broadband services. In summary, UMTS can mean the subsequent for operators and their customers:
UMTS for customers:• Worldwide wireless access employing a single phone• A large vary of transmission services with acceptable quality levels• The third generation mobile customary allows mobile users to harness the total power of the web through economical high-speed radio transmission, optimized for transmission communications• UMTS can create the dream of anyplace, anytime communications a reality
UMTS for the operator:• Unification of the various wireless access systems we tend to see nowadays into a versatile radio infrastructure• Evolution from earlier “legacy” systems, making certain international economies of scale and provide whereas allowing:– many scope for product and repair differentiation– selection of radio access strategies and core networks so as to flexibly implement and evolve their systems supported the restrictive, market or business necessities for every region or country For operators there’s an enormous distinction within the investment needed to supply a two.5G (GPRS) compared to a 3G system. 2.5G needs comparatively little investments for the required modifications of the radio access network and add-on instrumentality (a packet switched core network) on prime of existing GSM networks, whereas UMTS needs an awfullyLarge investment, as most of the network should be created from the bottom up. EDGE will need vastinvestments, as a brand new radio access network is going to be required.For existing GSM operators, 2.5G technologies are going to be enticing as they’ll be enforced supported the operation licenses operators have already got, whereas UMTS needs new (and in many countries luxurious) authorizations. On behalf of workers GPRS are going to be a serious success with new services, whereas UMTS is
principally AN extension of person’s facilities. Therefore the success of GPRS and therefore the services it offers are going to be a vital indicator of those services can drive the success of coming back 3G UMTS networks.
UMTS Facilities:The Services on a UMTS Network as the UMTS network evolves, a lot of and a lot of services are going to stand sustained. Through UMTS Rel-5 the mobile linkage will support services like those legendary from the web nowadays, e.g. video streaming, vocalization scientific discipline (VoIP), video conferencing and interactive services.The means UMTS is outlined separates as way as potential the part of the network that produces actual connections from the half that maintains services. This facilitates a lot of openness and potential within the market and permits a plan of separate suppliers of contents, service and carriers.
Glossary
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AbisInterface between Base Transceiver Station (BTS) and Base Station Controller (BSC).
Abis ConfigurationConfiguration of traffic channels (OMUSIG, TCH, TRXSIG) on Abis.
Abis ProtectionScheme used to provide redundant Abis Traffic across a separate path to guard against possible link failure.
Automatic Connection
Feature in 2G Flexi BTS Site Manager, which would allow the user to get connected to the BTS automatically once BTS Manager is launched. The parameters required for connection viz. the BTS IP Address, the port of connection and the Q1 address will be taken from the locally stored defaults. ‘Automatic Connection’ would be an optional feature that the user may enable or disable anytime.
BBU Battery Backup Unit. The Battery Backup Unit gives a power
supply in case of a temporary mains power supply breakdown.
BCF Base Control Function
Base Control function is a functional entity that handles common control functions e.g. main clock functions, external alarm handling, control signals and frequency hopping. There is no physical BCF unit in BTS, the functional BCF operates in the Master TRX memory.
Block/UnBlock
This scenario (block) is typically used to change faulty unit. The command specifies the object to be blocked. When the command is received by the BTS from the BTS Manager then it first checks the availability of the object for which the command was sent. If available the ACK is sent to BTS Manager immediately and if it is not available then NACK is sent to BTS Manager.
Unblock command message structure is similar to Block command message structure but with a parameter data specified as UNBLOCK. Unblock command unblocks the object that was previously blocked from BTS Manager. BTS sends ACK to BTS Manager to confirm the unblock operation when this command is sent from BTS Manager to BTS.
BTS Base Transceiver Station
Commissioning
Commissioning is set of tasks performed to enable the BTS to be connected to the network. It includes operational tests and configuring of transmission equipment.
Commissioning Wizard A comprehensive utility, which provides set of GUI screens to aid user to fill in parameters required for commissioning a BTS.
CRCCyclic Redundancy Check, which is used to detect errors in data received over a transmission media.
Cross- ConnectionA path between the two termination points inside any network element.
DDU
Dual Duplexer Module (ERxA). Dual Duplexer Module (ERxA). The Dual Duplexer Module and the Dual TRX Module (EXxA) create one Sector Module. At least one Dual Duplexer Module is needed per sector, depending on the configuration (concerns non-RTC configurations). The Dual Duplexer Module is always attached to the Dual TRX Module, which provides the Dual Duplexer Module with power and O&M link. Extension Dual TRX Modules are installed without the Dual Duplexer Module.
DFCA Dynamic Frequency and Channel Allocation.
DTRX Dual TRX Module / Dual Transceiver Module.
EasyWizard mode
The mode of commissioning as like in EasyWizard where user selects a file and specifies only those parameters which were user specified in EasyWizard that is Site Specific information, Antenna Settings and Passive Units (BBU and other passive units).
Egress direction
Traffic direction out of a network element. The traffic direction is to be determined with respect to one link termination point. If the termination point is connected, the egress direction for one termination point is the ingress direction for the other termination point and vice versa.
EIF1, EIF2 and EIF3New names for the external Ethernet ports: EIF1 = FE1, EIF2 = FE2 and EIF3 = SFP
Export Abis Allocation Save Abis Allocation in a local File.
External Ethernet port
Ethernet port of the integrated switch which allows to connect external equipment to the BTS like further switches or other endnodes. On the PWE unit these are the interfaces EIF1 (FE1), EIF2 (FE2), and EIF3 (SFP). EIF1 (FE1) and EIF2 (FE2) allow fast Ethernet 100BASE-T and EIF3 (SFP) port allows inserting SFP modules for optical gigabit Ethernet 1000BASE-SX and 1000BASE-LX.
FE Fast Ethernet. IEEE standard for high speed l00Mbps Ethernet
FIFAA plug in-unit with built in FIU 19E RRI and E1. Supports 16 asymmetric E1 interfaces.
FIEAA plug-in-unit that supports 8 E1 Asymmetric (75 ohm) interfaces
FIPAA plug-in-unit that supports 8 E1/T1 Symmetric (120 ohm for E1, 100 ohm for T1) interfaces
FIQA
Field replaceable transmission sub-module (plug-in unit) of Flexi EDGE BTS, with 3 Ethernet and 4 symmetrical RJ48 E1T1 interfaces. Ethernet interfaces are used for PseudoWire Emulation or from EP3 on also for bypassing other Ethernet traffic.
FIQB Field replaceable transmission sub-module (plug-in unit) of
Flexi EDGE BTS, with 3 Ethernet and 4 symmetrical RJ48 E1T1 interfaces. Ethernet interfaces are used for PseudoWire Emulation or for bypassing other Ethernet traffic. This Flexi transmission interface supports Packet Abis over IP with SyncE and ToP.
FIYA
Field replaceable transmission sub-module (plug-in unit) of Flexi EDGE, with 3 Ethernet and 4 asymmetrical (coaxial) E1 interfaces. Ethernet interfaces are used for PseudoWire Emulation or in from EP3 on also for bypassing other Ethernet traffic.
FIYB
Field replaceable transmission sub-module (plug-in unit) of Flexi EDGE, with 3 Ethernet and 4 asymmetrical (coaxial) E1 interfaces. Ethernet interfaces are used for PseudoWire Emulation or for bypassing other Ethernet traffic. This Flexi transmission interface supports Packet Abis over IP with SyncE and ToP.
GEGigabit Ethernet. IEEE standard for high speed l000Mbps Ethernet
GUI Graphical User Interface
Hardware View
Graphical View displaying the status and state of hardware modules/units physically present within a 2G Flexi BTS Site Manager.
Help
Browser Software, which displays Online Helps to the user. Examples of Help browsers: NED, JavaHelp, WebHelp, DynaText, and WinHelp.
HTMLHypertext Markup Language, subset of standard generalised markup language (SGML) used on the web
Ingress direction
Traffic direction into a network element. The traffic direction is to determined with respect to one link termination point. If the termination point is connected, the egress direction for one
termination point is the ingress direction for the other termination point and vice versa.
Internal Ethernet port
Ethernet port of the integrated switch which has no externally accessible Ethernet interface. On the PWE unit the internal Ethernet port is connected to the PWE terminating device.
Import Abis Allocation Open locally saved Abis Allocation file.
LAPD
Link Access Protocol on D – channel. Used on Abis links (OMUSIG and TRXSIGs) and on the BTS internal D-bus. The LAPD is a layer 2 protocol which is defined in CCITT Q.920/921. LAPD works in the Asynchronous Balanced Mode (ABM). This mode is totally balanced (i.e., no master/slave relationship). Each station may initialize, supervise, recover from errors, and send frames at any time.
LMPLocal Management Port. BTS Manager communicate with BTS through an LMP cable.
Local Connection
BTS Manager connected locally to Flexi EDGE BTS via an Ethernet wire. For establishing this kind of connectivity BTS Manager is co-located at the BTS site.
Local Mode
A special BTS state which allows TRX tests to be run without the need for a BSC connection. The BTS will be placed in local mode if the Use Current command is given when the BTS is in “Waiting for LAPD” state
Logical ViewGraphical View displaying Logical Object details for all logical objects present within an Flexi EDGE BTS.
MAC address For Ethernet a globally unique 48 bit number assigned to every
Ethernet end node or station.
Monitoring DestinationThe Ethernet interface which is used for receiving this mirrored traffic is called monitoring destination.
Monitoring SourceThe Ethernet interface on which traffic shall be monitored is called Monitoring source.
NE Network Element.
NetActThis is the Nokia Siemens Networks&rsquos NMS suite which operator use for managing the GSM network.
NOLSNokia Online Services, Web portal for e-commerce, technical support, documentation, etc.
Node Level The whole transmission unit
Offline Mode When BTS Manager is not connected to BTS.
Online Mode When BTS Manager is connected to BTS (locally or remotely).
O&M Link Refers to Abis O&M Link
PAoPSN Packet Abis over IP
PAoTDM Packet Abis over TDM
Pilot BitA Bit used for choosing between the Protected and Protecting path of a Signal in case Protection feature is configured.
PILS Product Information and Learning Solutions
PIU Plug-in Unit
PseudowireA mechanism that carries the essential elements of an emulated circuit from one PE to another PE over a PSN.
PWE
Pseudowire Emulation defined e.g. in the PWE3 standardization group. For Flexi EDGE also used as generic term for the transmission sub-modules FIQx and FIYx.
Q1 Protection Scheme used to provide redundant Q1 Traffic across
a separate path to guard against possible link failure.
Remote Connection
BTS Manager connected remotely to Flexi EDGE BTS via NetAct and BSC. For establishing this kind of connectivity BTS Manager connects to NetAct server over LAN and via BSC communicates to Flexi EDGE BTS.
RTC Remote Tune Combiner (ECxx) Module
SCF
Site Configuration File, XML based file used to exchange commission/configuration information between BTS Manager & BTS.
SCF Upload Sending the SCF from BTS to BTS Manager.
Sobriquet This is the connection name present in the GCS database.
STIRC
Space-Time Interference Rejection Combining – interference rejection combining that uses space-time processing to handle co-channel interference from transmitters that support transmit diversity.
SW Compatibility
The compatibility between 2G Flexi BTS Site Manager and Flexi Multiradio BTS is driven by the SW version in the BTS Manager-BTS interface. The SW version is embedded in the both the 2G Flexi BTS Site Manager as well as the O&M software inside BTS. These values of the SW version are compared during the initial handshake.
Synchronization ProtectionScheme used to provide redundant Abis Clock across a separate path to guard against possible link failure.
ToolTipA ‘bubble Help’ coded in software, or alternatively written as Help and opened as a pop-up window of the Help browser
Transmission Configuration File
This file contains all Transmission related parameters. (Transmission PIU properties, Abis allocation, LIF, Service Interface, Interface Loop, Synchronization)
Transmission Manager
Transmission Manager manages E1 or E1/T1 transmission interfaces. Transmission cards are used to connect BTS with BSC and to other BTS.
Transmission Plug-in UnitTransmission Plug-in Unit. Following PIUs are available: FIFA, FIEA, FIPA, FIQA, FIYA, FIQB and FIYB
Undo Commissioning
To uncommission the BTS wherein all commissioning related parameters are erased from flash of BTS. It is followed by a reset. Undo commissioning is of two types Keep traffic bypass and erase traffic bypass.
VLAN Virtual Local Area Network.
VSWR Voltage Standing Wave Ratio
Questions and Answers
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Question: What is difference between ultra bts and flexi bts?
Answer: Ultra BTS can support maximum of 12 TRX (transceivers), while Flexi can support max. of 24 TRX. however, one TRX card supports 8 time slots i.e. max of 8 users, but not practically. It will support max. of 7 callers. Capacity in terms of users can be increased using Half rate, i.e. A TRX will support approximately 14-15 users at half rate transmission, half rate is used during bysy hours, i.e. on one time slot 2 user will send their data/speech, with a half rate of 5.6 kbps, but at half rate voice quality is not very good. Simply one time slot will be assigned to two users in Half rate. So both of them(Ultra & Flexi) support equal no. of users if having equal no. of TRX.
Ultra BTS has drawback that it has all Pin connections on back side, if any of the Pin of a particular slot is
damaged then that slot is useless, while in Flexi all connections are on front side so it is easy to install
every equipment.
As an operator wants to cover maximum area he will use Flexi.
you can say ultra a BTS of old times.
Question: Explain the 3+3+3/4+4+4 carrier configurations with the cabling diagram in NSN Flexi EDGE BTS?
Answer: NSN Flexi EDGE CARRIER CONFIG(Explain the 3+3+3/4+4+4 carrier configurations with the
cabling diagram in NSN Flexi EDGE BTS?Lists all the necessary modules required for this config like
EXxA,ERxA,EwxA,ESMA,FPAA.)
Question: Explain the 8+8+8 carrier configurations with the cabling diagram in NSN Flexi EDGE
BTS?
Answer: Here 8+8+8 configuration of nokia flexi edge-
Question: What is the Power Consumption of Nokia Flexi BTS at -48V DC?
Answer: Power consuption of Flexi BTS depends upon the configuration and the GSM band.
Configuration Power in watt
GSM 800&900 GSM 1800&1900
1+1 496 544
2+2+2 1051 1189
4+4+4 2021 2297
8+8+8 3700 4252
*This is for Flexi EDGE BTS.Question: How to define BTS settings in Nokia WCDMA BTS Commissioning?
Answer: This page is shown when the BTS or the BTS Site option was selected in the Commissioning – Introduction page. If you selected the TRS option, continue to Sending parameters to BTS site.There are three possible sources: GPS, External 2.048 MHz Synchronisation, and Iub SynchronisationThe selection in the commissioning defines only the synchronisation sources for the fault management functionality, that is, which signal sources there should be present for the BTSIn BTS synchronisation, source with priority 1 is the PPS signal from GPS, source with priority 2 the external 2.048 MHz signal connected to the Sync In interface, and source with priority 3 the Iub reference from the FTM unit.A signal is always used as a reference source when it is present, according to the priority order: the higher one overrules the lower one.Question: How to define local cell resources in Nokia WCDMA BTS Commissioning?
Answer: In the Commissioning – Local Cell Resources page you can create local cells, and define antennas of the radio modules and carrier power to the local cells. Local Cell Resource (LCR) is a concept for defining all hardware that a logical wideband cell (WCEL) requires in the base station.Antennas have fixed Tx/Rx usage: TxRx for ANT 1, ANT 3 and ANT 5, and Rx for ANT 2, ANT 4 and ANT 6. In a dual carrier configuration for sector configuration type B the lower Id LCR uses the Tx from the ANT 1 and the higher Id LCR uses the Tx from the ANT 3, and for sector configuration type C the lower Id LCR uses the Tx from the first radio module and the higher Id LCR uses the Tx from the second radio module.You can select antennas for local cells as follows:. ANT 1 + ANT 2 (sector configuration type A). ANT 3 + ANT 4 (sector configuration type A). ANT 5 + ANT 6 (sector configuration type A). ANT 1 + ANT 3 (sector configuration type B). FRx ANT1 + FRy ANT1 (sector configuration type C). FRx ANT3 + FRy ANT3 (sector configuration type C). FRx ANT5 + FRy ANT5 (sector configuration type C). FRx ANT1 (sector configuration type F). FRx ANT3 (sector configuration type F). FRx ANT5 (sector configuration Type F).
In an RF module you can configure only one sector configuration type excluding sector configuration type F that can be used with other sector configuration types from the same RF module. Sector configuration type C can be configured using two release 2 RF modules. Radio modules are numbered according to system module interfaces, that is, the radio module connected to the system module interface #1 is FRxx 1. The RF Modules that are connected to the FSMB System Module’s RF interfaces #1,#2 and #3 can house a maximum of 4 cells. The RF Modules that are connected to the FSMC or FSMD System Module’s RF interfaces #1,#2 and #3 can house a maximum of 4 cells. If you are using Triple RF Modules, the FSMC and FSMD System Module’s RF interfaces #1 and #2 can house up to 6 cells. There can be 12 Txs and 24 Rxs assigned to local cells.When the Tx antenna is used for the local cell with the maximum carrier power (the default carrier power for the local cell), it is not possible to create another local cell from the same Tx antenna. If the same Tx antenna is used for two local cells, a half of the maximum carrier power has to be selected for the local cell.
Q . What was the peak data rate using EDGE? A. 473 Kbps B. 384 Kbps C. 171 Kbps D. 14.4 Mbps
Q . The full form of HSDPA is : A. High Speed Packet Access B. High Speed Dedicated Packet Access C. High Speed Downlink Power Access D. High Speed Downlink Packet Access
Q .The higher Modulation scheme used in HSDPA R5 was _____ ? A. 64 QAM B. 4 QAM C. QPSK D. 16 QAM
Q .How many GSM TDMA frame can be made by a frequency spot of 5 MHz? A. 125 B. 22 C. 1 D. 25
Q .What is the size the one PRB in LTE? A. 180 KHz B. 15 KHz C. 5 MHz D. 20 MHz
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Macros for BSS RF works in Telecom
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Macros download link are below:1) KPI Report & Alarm Report Generator – KPI Report Generator
2) Channel Failure & Mean Holding Alarms Clear – CFR & Mean Holding
3)
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Nokia BSC’s & MSC’s Command List
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COMMANDS LISTZABB – BLOCK ALARM
ZABU – UNBLOCK ALARMS
ZABO – OUTPUT BLOCKED ALARMS
ZACC – CANCEL ACCORDING TO CONSECUTIVE NUMBER
ZACA – CANCEL ACCORDING TO ALARM NUMBER
ZAEM – MODIFY ERROR RATIO COUNTER BASE VALUE
ZAEO – OUTPUT ERROR RATIO COUNTER VALUES
ZAHO – PRINT ALARMS CURRENTLY ON
ZAHP – PRINT ALARM HISTORY
ZALD – DISPLAY STATE OF ALARM OUTPUTS
ZALO –DISPLAY UPDATING OF ALARM OUTPUTS FROM LOCAL SYSTEM
ZALL –DISPLAY UPDATING OF ALARM OUTPUTS INTO LOCAL SYSTEM
ZALU – SET UPDATING OF ALARM OUTPUTS
ZALS – SET STATE OF ALARM OUTPUTS
ZAOA – ADD OPERATING INSTRUCTIONS
ZAOC – CHANGE OPERATING INSTRUCTIONS
ZAOD – DELETE OPERATING INSTRUCTIONS
ZAOL – LIST OPERATING INSTRUCTIONS
ZAPM – MODIFY ALARM PARAMETERS
ZAPO – OUTPUT ALARM PARAMETERS
ZARA – ADD SUPPORTING/PREVENTING RULE
ZARD – DELETE SUPPORTING/PREVENTING RULE
ZARM – MODIFY SUPPORTING RULE
ZARO – OUTPUT SUPPORTING/PREVENTING RULES
ZARR – RESTORE SUPPORTING/PREVENTING RULE
ZATB – BLOCK ALARM CLASS PRINTING
ZATU – UNBLOCK ALARM CLASS PRINTING
ZATO – OUTPUT PRINTING STATES
ZATS – SET ALARM PRINTING TIMES
ZATD – DISPLAY ALARM PRINTING TIMES
ZATC – CHANGE ALARM PRINTING PARAMETERS
ZATL – OUTPUT ALARM PRINTING PARAMETERS
ZCEC – CHANGE EXTERNAL CIRCUIT STATE
ZCET – CALL CONNECTION INFORMATION
ZCEL – LIST EXTERNAL CIRCUIT STATE
ZCIM – MODIFY INTERNAL CIRCUIT OR CIRCUIT GROUP STATE
ZCII –INTERROGATE INTERNAL CIRCUIT OR CIRCUIT GROUP STATE
ZCIC – MODIFY INTERNAL ROUTE STATE
ZCIL – INTERROGATE INTERNAL ROUTE STATE
ZCRM – MODIFY EXTERNAL CIRCUIT GROUP STATE
ZCRI – INTERROGATE EXTERNAL CIRCUIT GROUP STATE
ZCRC – MODIFY EXTERNAL ROUTE STATE
ZCRL – INTERROGATE EXTERNAL ROUTE STATE
ZDBF – LIST DATABASE FILES
ZDBB – BUILD DIRECTORY
ZDBE – DISPLAY DATABASE FILL RATIO
ZDBL – LIST DATABASES
ZDBC – COPY DATABASE TO DISK
ZDBP –PREVENT UPDATING OF DATABASE IN MEMORY OR TO DISK
ZDBQ – MAKE QUERIES TO DATABASE
ZDBR –RESUME UPDATING OF DATABASE IN MEMORY OR TO DISK
ZDBS – DISPLAY DATABASE STATE
ZDBT –PREVENT OR RESUME DATABASE REMOTE COPY UPDATING
ZDBM –COPY DATABASE FROM DISK TO UNIT OR REFRESH SUBDATABASE
ZDBO – SAVE DATABASE LOG TO DISK
ZDBX – EMPTY DATABASE DISK UPDATING LOG
ZDBY – SET DATABASE CONSISTENCY OR REPLICA STATE
ZDBD – DISPLAY DISK UPDATING SYSTEM STATE
ZDBW – COPY DATABASE FROM DISK TO DISK
ZDBV – CHECK INTEGRITY
ZDCD – DISPLAY DATE, TIME AND TIME ZONE
ZDCC – CHECK DATE AND TIME
ZDCS – SET DATE, TIME AND SUMMER TIME
ZDCA – ADJUST TIME
ZDCT – CHANGE TO STANDARD/SUMMER TIME
ZDCE – SET TIMEZONE
ZDDS – START REMOTE SESSION
ZDDE – EXECUTE DEBUGGER COMMAND
ZDDT – START REMOTE PREPROCESSOR SESSION
ZDDX – EXECUTE PREPROCESSOR DEBUGGER COMMAND
ZDEC – CREATE MEMORY FILE ON DISK OR MEMORY
ZDEE – EXECUTE PROGRAM
ZDEM – COPY MEMORY FILE ON DISK OR MEMORY
ZDES –UPDATE MEMORY FILE CHECKSUMS AND BITMAP ON DISK
ZDEI – INTERROGATE FILE ATTRIBUTES ON DISK
ZDEU – CHECK FILE SYSTEM INTEGRITY ON DISK
ZDEV – COMPARE TWO FILES SYSTEMS ON DISK
ZDEP – DISPLAY FILE DIMENSIONING PARAMETERS
ZDEY – INTERROGATE/CHANGE ENVIRONMENT SETTINGS
ZDEF – MODIFY MEMORY FILE HEADER ON DISK
ZDER – DISPLAY REPORT FILE OF CONVERSIONS
ZDEX – DISPLAY PROGRESS OF CONVERSIONS
ZDFD – DISPLAY FILE OR RECORDS
ZDFS – SUBSTITUTE RECORDS OR SUBRECORDS
ZDFR – MODIFY RESERVATION STATES OF RECORDS
ZDFB – LIST RESERVATION STATES OF RECORDS
ZDFL – LIST FILE INFORMATION
ZDFC – COPY FILE OR FILES TO DISK
ZDFM – COPY FILE OR FILES TO MEMORY
ZDFF – COMPARE FILES
ZDMF –INTERROGATE TRANSMITTED AND RECEIVED FRAMES AND OCTETS
ZDMI – INTERROGATE MISCELLANEOUS STATISTICAL COUNTERS
ZDMQ – INTERROGATE Q.921 ERROR COUNTERS
ZDMN –INTERROGATE OCCASIONAL VALUES OF LINK SET METERS
ZDMT –INTERROGATE OCCASIONAL VALUES OF TERMINAL METERS
ZDMU –INTERROGATE OCCASIONAL VALUES OF FUNCTIONAL UNIT METERS
ZDML – INTERROGATE LAPD EVENT LOGS
ZDME – EMPTY LAPD EVENT LOGS
ZDMV – INTERROGATE SBUS COUNTERS
ZDMX – INTERROGATE BIT ERROR RATE
ZDOM – MODIFY SUPERVISION PARAMETERS
ZDOP – DISPLAY PERMANENT SUPERVISION PARAMETERS
ZDOT – DISPLAY CURRENT SUPERVISION PARAMETERS OF UNIT
ZDOC –MODIFY OPERATING SYSTEM ERROR COUNTER SUPERVISION PARAMETERS
ZDOE –DISPLAY OPERATING SYSTEM ERROR COUNTER SUPERVISION PARAMETERS
ZDOI – INTERROGATE SUPERVISION RESULT
ZDOH – CREATE PROCESSOR TIME USAGE MEASUREMENT
ZDOR – CREATE MEMORY USAGE MEASUREMENT
ZDOF – CREATE FAMILY RESOURCE USAGE MEASUREMENT
ZDOD – DELETE MEASUREMENT
ZDOG – CHANGE STATE OF MEASUREMENT
ZDOV – DISPLAY DEFINED MEASUREMENTS
ZDOW – CREATE PASSIVE WARMING MEASUREMENT
ZDOO – INTERROGATE PASSIVE WARMING STATUS
ZDPD – DISPLAY MEMORY OF PREPROCESSOR
ZDPS – SUBSTITUTE MEMORY OF PREPROCESSOR
ZDPF – FILL MEMORY WITH GIVEN DATA
ZDPI – INPUT DATA FROM PORT
ZDPV –DISPLAY SECMO-B/C PLUG-IN UNIT SOFTWARE INFORMATION
ZDPY – DISPLAY BID / PID OF CHORUS-TYPE PREPROCESSOR
ZDPP – DISPLAY CID / PID OF PECTUS-TYPE PREPROCESSOR
ZDPX – DISPLAY CID / PID / MID OF PREPROCESSOR
ZDRM – SET OPERATING MODE
ZDRC – CREATE SYNCHRONIZATION INPUTS
ZDRD – DELETE SYNCHRONIZATION INPUTS
ZDRI – INTERROGATE SYNCHRONIZATION UNITS
ZDRS – SELECT SPECIAL FUNCTIONS
ZDRO – SELECT OSCILLATOR HANDLING FUNCTIONS
ZDSC – CREATE D-CHANNEL LINK SET
ZDSD – DELETE D-CHANNEL LINK SET
ZDSI – INTERROGATE D-CHANNEL LINK SET DATA
ZDSE – CREATE BASE STATION CONTROLLER D-CHANNEL
ZDSL – CREATE BSC LOGICAL UNIT D-CHANNEL
ZDSB –INTERROGATE BASE STATION CONTROLLER D-CHANNEL DATA
ZDSF – INTERROGATE D-CHANNEL DATA OF FUNCTIONAL UNIT
ZDTC – MODIFY D-CHANNEL WORKING STATE
ZDTI – INTERROGATE D-CHANNEL WORKING STATE
ZDTT –MODIFY D-CHANNEL WORKING STATE OF FUNCTIONAL UNIT
ZDTF –INTERROGATE D-CHANNEL WORKING STATE OF FUNCTIONAL UNIT
ZDUP – PREVENT FILE UPDATES TO DISK
ZDUR – RESUME FILE UPDATES TO DISK
ZDUD – DISPLAY DISK UPDATE STATE
ZDUQ – DISPLAY DISK UPDATE QUEUE STATE
ZDVC – CREATE NEW SUBLOG FILE
ZDVE – CLOSE SUBLOG FILE
ZDVR – RESIZE LOGFILE
ZDVM – MODIFY LOG FILTERING SETT
ZDVD – DELETE SUBLOG FILE
ZDVF – CLEAR SUBLOG FILE
ZDVI – INTERROGATE LOG FILTERING
ZDVG – DISPLAY LOG DIRECTORY
ZDVL – DISPLAY LOG DATA
ZDVP – DISPLAY LOG SETTINGS
ZDVT – DISPLAY LOG STATISTICS
ZEAC – CREATE ADJACENT CELL PARAMETERS
ZEAD – DELETE ADJACENT CELL PARAMETERS
ZEAR – DELETE INCOMING ADJACENT CELLS
ZEAM – MODIFY ADJACENT CELL PARAMETERS
ZEAO – OUTPUT ADJACENT CELL PARAMETERS
ZEAP – OUTPUT SHORT LIST OF ADJACENT CELL PARAMETERS
ZEAT – CHECK ADJACENT CELL DATA
ZEBE – CREATE MOBILE ALLOCATION FREQUENCY LIST
ZEBR – DELETE MOBILE ALLOCATION FREQUENCY LIST
ZEBT – MODIFY MOBILE ALLOCATION FREQUENCY LIST
ZEBI – OUTPUT MOBILE ALLOCATION FREQUENCY LIST(S)
ZECA – CREATE MESSAGE WITH EDITOR
ZECB – CREATE/MODIFY MESSAGE TEXT PAGE BY PAGE
ZECM – MODIFY MESSAGE WITH EDITOR
ZECR – MODIFY MESSAGE PARAMETERS
ZECS – ACTIVATE MESSAGE
ZECE – DEACTIVATE MESSAGE(S)
ZECC – DEACTIVATE BTS(S)
ZECD – DELETE MESSAGE(S)
ZECP – DISPLAY MESSAGE(S)
ZECL – DISPLAY BTS WORK LOAD
ZEEM –MODIFY GENERAL BASE STATION CONTROLLER PARAMETERS
ZEEN – MODIFY RADIO NETWORK SUPERVISION PARAMETERS
ZEEQ – MODIFY MISCELLANEOUS PARAMETERS
ZEEE – CONTROL ACTIVATION OF RNW PLAN
ZEEK – OUTPUT RNW PLAN DATA ACTIVATION STATES
ZEEO – OUTPUT BASE STATION CONTROLLER PARAMETERS
ZEEI – OUTPUT RADIO NETWORK CONFIGURATION
ZEEL – OUTPUT TRX RADIO TIME SLOTS
ZEFC – CREATE BASE CONTROL FUNCTION
ZEFD – DELETE BASE CONTROL FUNCTION
ZEFM – MODIFY BASE CONTROL FUNCTION PARAMETERS
ZEFO – OUTPUT BASE CONTROL FUNCTION PARAMETERS
ZEFL –OUTPUT BASE CONTROL FUNCTION SYNCHRONIZATION CONFIGURATION
ZEFS –CHANGE BASE CONTROL FUNCTION ADMINISTRATIVE STATE
ZEFT – SET BASE CONTROL FUNCTION OUTPUTS
ZEFX –SET BASE CONTROL FUNCTION EXTERNAL INPUT PARAMETERS
ZEFR – RESET BASE CONTROL FUNCTION
ZEFE – MODIFY EXTERNAL INPUT AND OUTPUT TEXT
ZEFP – OUTPUT EXTERNAL INPUT AND OUTPUT TEXTS
ZEGO – OUTPUT TIMERS/PARAMETERS
ZEGT – MODIFY TIMER
ZEGP – MODIFY PARAMETERS
ZEHC – CREATE HANDOVER CONTROL PARAMETERS
ZEHG – MODIFY GENERAL PARAMETERS
ZEHA – MODIFY AVERAGING PARAMETERS
ZEHS – MODIFY SIGNAL STRENGTH THRESHOLD PARAMETERS
ZEHQ – MODIFY SIGNAL QUALITY THRESHOLD PARAMETERS
ZEHI –MODIFY SIGNAL INTERFERENCE THRESHOLD PARAMETERS
ZEHD – MODIFY MS DISTANCE PARAMETERS
ZEHN – MODIFY PARAMETERS RELATED TO ADJACENT CELL
ZEHO – OUTPUT HANDOVER CONTROL PARAMETERS
ZEMB – BLOCK BASE CONTROL FUNCTION ALARM HANDLING
ZEMU – UNBLOCK BASE CONTROL FUNCTION ALARM HANDLING
ZEME –LIST BASE CONTROL FUNCTIONS ON MAINTENANCE MODE
ZEMM – MODIFY MAINTENANCE MODE PARAMETERS
ZEMO – OUTPUT MAINTENANCE MODE PARAMETERS
ZEOB – BLOCK ALARM
ZEOU – UNBLOCK ALARM
ZEOE – LIST BLOCKED ALARMS
ZEOC – CHANGE ALARM CLASS
ZEOM – MODIFY ALARM PARAMETERS
ZEOO – OUTPUT ALARM PARAMETERS
ZEOR – CANCEL ALARM
ZEOH – LIST ALARM HISTORY
ZEOL – LIST ALARMS CURRENTLY ON
ZEQC – CREATE BTS
ZEQD – DELETE BTS
ZEQA –MODIFY MOBILE ALLOCATION FREQUENCY LIST USAGE PARAMETERS
ZEQE – MODIFY BTS IDENTIFICATION PARAMETERS
ZEQF – MODIFY CELL ACCESS PARAMETERS
ZEQG – MODIFY RADIO LINK CONTROL DL PARAMETERS
ZEQH – MODIFY QUEUEING PARAMETERS
ZEQJ – MODIFY CCH CONFIGURATION PARAMETERS
ZEQK – MODIFY INTERFERENCE AVERAGING PARAMETERS
ZEQM – MODIFY MISCELLANEOUS PARAMETERS
ZEQO – OUTPUT BTS PARAMETERS
ZEQS – CHANGE BTS ADMINISTRATIVE STATE
ZERC – CREATE TRANSCEIVER
ZERD – DELETE TRANSCEIVER
ZERM –MODIFY TRANSCEIVER AND RADIO TIME SLOT PARAMETERS
ZERT – MODIFY TRANSCEIVER BINARY OUTPUTS
ZERO – OUTPUT TRANSCEIVER PARAMETERS
ZERS – CHANGE TRANSCEIVER AND RADIO TIME SLOT STATE
ZETC – CREATE DECISION THRESHOLD TABLE
ZETD – DELETE DECISION THRESHOLD TABLE
ZETM – MODIFY DECISION THRESHOLD PARAMETERS
ZETO – OUTPUT DECISION THRESHOLD PARAMETERS
ZEUC – CREATE POWER CONTROL PARAMETERS
ZEUG – MODIFY GENERAL PARAMETERS
ZEUA – MODIFY AVERAGING PARAMETERS
ZEUQ – MODIFY SIGNAL QUALITY THRESHOLD PARAMETERS
ZEUS – MODIFY SIGNAL STRENGTH THRESHOLD PARAMETERS
ZEUO – OUTPUT POWER CONTROL PARAMETERS
ZEVC – CREATE BCF HW DATABASE
ZEVD – DELETE BCF HW DATABASE
ZEVA – ATTACH HW DATABASE TO BCF
ZEVE – DETACH HW DATABASE FROM BCF
ZEVV – ACTIVATE BCF HW DATABASE
ZEVS – REPLACE HW DATABASE
ZEVT – LIST BCFs ATTACHED TO SAME HW DATABASE
ZEVL – LIST EXISTING BCF HW DATABASES
ZEVO – LIST HW DATABASE CONFIGURATION OF BCF
ZEVU – UPLOAD HW DATABASE FILE(S)
ZEVR – ERASE BCF NON-VOLATILE MEMORY
ZEWC – CREATE BCF SOFTWARE BUILD
ZEWD – DELETE BCF SOFTWARE BUILD
ZEWA – ATTACH SOFTWARE BUILD TO BCF
ZEWE – DETACH SOFTWARE BUILD FROM BCF
ZEWV – ACTIVATE BCF SOFTWARE BUILD
ZEWH – CHANGE STATUSES OF TWO BCF SOFTWARE BUILDS
ZEWS – SET OR REMOVE INITIAL SOFTWARE BUILD
ZEWI – LIST BCF SOFTWARE HANDLING SYSTEM ACTIVITIES
ZEWL – LIST EXISTING BCF SOFTWARE BUILDS
ZEWO – LIST SOFTWARE CONFIGURATION OF BCF
ZEWP – LIST BCF SOFTWARE BUILD CONTENTS
ZEXA – CREATE LMU AREA
ZEXR – DELETE LMU AREA
ZEXB – MODIFY LMU AREA PARAMETERS
ZEXI – OUTPUT LMU AREA PARAMETERS
ZEYI – INTERROGATE SPEECH CODEC POOL LIST(S)
ZEYM – MODIFY SPEECH CODEC POOL LIST
ZEYR – RESTORE SPEECH CODEC DEFAULT LISTS
ZFNS –MODIFY LOCAL BEARER CHANNEL SIGNALLING PARAMETERS
ZFNO –INTERROGATE LOCAL BEARER CHANNEL SIGNALLING PARAMETERS
ZFUC – CREATE FRAME RELAY BEARER CHANNEL
ZFUM – MODIFY FRAME RELAY BEARER CHANNEL DATA
ZFUD – DELETE FRAME RELAY BEARER CHANNEL
ZFUI – INTERROGATE FRAME RELAY BEARER CHANNEL DATA
ZFXC – CREATE NETWORK SERVICE VIRTUAL CONNECTION
ZFXD – DELETE NETWORK SERVICE VIRTUAL CONNECTION
ZFXM – MODIFY NETWORK SERVICE VIRTUAL CONNECTION
ZFXS – CHANGE THE STATE OF NETWORK SERVICE VIRTUAL
CONNECTION
ZFXO –OUTPUT THE NETWORK SERVICE VIRTUAL CONNECTION DATA
ZFXR – RESET NETWORK SERVICE ENTITY
ZI2E – DEFINE SSH LAYER IN UNIT
ZI2F – CLEAR SSH LAYER DEFINITIONS FROM UNIT
ZI2G – CONFIGURE FTP SERVER
ZI2H –INTERROGATE MANAGEMENT INTERFACE CONFIGURATION
ZI2I – INTERROGATE SSH LAYER CONFIGURATIONS
ZI2K – GENERATE NEW SSH HOST KEY PAIR
ZI2M – MODIFY SSH LAYER IN UNIT
ZI2Q – CONFIGURE SFTP SERVER
ZI2S – CONFIGURE SSH SERVER
ZI2T – CONFIGURE TELNET
ZIAA – CREATE OR MODIFY PROFILE
ZIAR – DELETE PROFILE
ZIAH – CREATE USER ID
ZIAD – DELETE USER ID
ZIAE – ATTACH PROFILE TO USER ID OR TERMINAL
ZIAG – CHANGE OWN PASSWORD
ZIAS – CHANGE PASSWORD OF OTHER USER ID
ZIAF – CHANGE SERVICE TERMINAL PASSWORD
ZIAQ – RESET LOGIN DELAYS
ZIAX – MODIFY MML SESSION TIME LIMIT
ZIAK – CHANGE ENCRYPTION METHOD
ZIAM – CHANGE COMMAND DEFINITIONS
ZIAI – INTERROGATE USER IDS, TERMINALS AND PROFILES
ZIAT – INTERROGATE COMMAND DEFINITIONS
ZIAL – INTERROGATE ALLOWED COMMANDS
ZIAB – BLOCK/UNBLOCK COMMAND
ZIAO – INTERROGATE BLOCKED COMMANDS
ZIAJ – CONFIGURE DIRECTORY CLIENT
ZIAU – REFRESH DIRECTORY CLIENT CONFIGURATION DATA
ZIAV –INTERROGATE DIRECTORY CLIENT CONFIGURATION DATA
ZIAN –CONFIGURE CENTRALIZED USER AUTHENTICATION AND AUTHORIZATION
ZIAY – SET NE ACCOUNT
ZIBB – COPY BYTES FROM STATISTICAL TAPE TO HARD DISK
ZIBC – COPY MASS MEMORY FILES
ZIBD – DELETE LAST FILE SET OF CTU
ZIBF – MOVE DATA FROM DISK BUFFER OF CTU
ZIBP – DUMP DATA FROM TAPE
ZIBR – RESTORE DATA FROM TAPE TO LOGICAL FILE
ZIBT – TYPE FILE
ZIBX – DISPLAY CONTENTS OF TAPE
ZICI – ADD NEW COMMAND CALENDAR TASK
ZICM – MODIFY COMMAND CALENDAR TASK
ZICD – DELETE COMMAND CALENDAR TASK
ZICL – LIST CALENDAR
ZICT – TEST COMMAND CALENDAR TASK EXECUTION
ZICB – BLOCK OR UNBLOCK COMMAND CALENDAR TASK
ZICS – STOP COMMAND FILE EXECUTION
ZIDE – EXECUTE COMMAND FILE
ZIDS – STOP COMMAND FILE EXECUTION
ZIDL – LIST COMMAND FILE
ZIDX – EXECUTE REMOTE COMMAND
ZIEE – EDIT DISK FILE
ZIFS – SET DISK FILE STATUS
ZIFA – SET ALARM MODES
ZIFF – DEFINE FILE AND STORING RELATED PARAMETERS
ZIFN – INITIALIZE VDS DEVICE
ZIFT – DEFINE TIME CONTROL FOR CHANGING DISK FILES
ZIFM – MODIFY FTAM ATTRIBUTES
ZIFH – DEFINE CONTROL FILE HANDLING
ZIFQ – DEFINE Q3 TRANSFER UP READY PARAMETERS
ZIFC – COPY DATA FILES
ZIFO – DISPLAY CONTROL FILES
ZIFP – DISPLAY FILE STATUS MAP
ZIFI – INTERROGATE DISK FILE INFORMATION
ZIGO – DISPLAY MML COMMAND LOG
ZIGK – CLOSE MML COMMAND LOG FILE
ZIID – DISPLAY INFORMATION OF GIVEN LOGICAL FILE
ZIIS – CHANGE OBJECT CONNECTED TO LOGICAL FILE
ZIIL – LIST LOGICAL FILES CONNECTED TO GIVEN OBJECT
ZIIC – CHANGE OBJECT TO ANOTHER IN ALL LOGICAL FILES
ZIIF – CREATE LOGICAL FILE
ZIIP – CREATE SPARE LOGICAL FILE
ZIIR – REMOVE LOGICAL FILE
ZIII – LINK PHYSICAL DISK FILE TO LOGICAL FILE
ZIIG – CHANGE SIGNALLED PROCESS
ZIMP – PREMARK MAGNETIC TAPE
ZIMO – OPEN FILE ON MAGNETIC TAPE
ZIMC – CLOSE FILE ON MAGNETIC TAPE
ZIMR – RELEASE MAGNETIC TAPE
ZIMD – DISPLAY STATUS OF UNIT(S) AND TAPE(S)
ZIMT – CHANGE MAGNETIC TAPE
ZIMF – REOPEN FILE ON MAGNETIC TAPE
ZIMI – IDENTIFY TAPE AND RESERVE UNIT
ZIMS – SET TAPE TYPE
ZIME – RESET TAPE UNIT
ZIMM – MODIFY/INTERROGATE TAPE CODING
ZIOA – ADD USER PROFILE
ZIOM – ADD USER ACCESS RIGHTS
ZIOR – REMOVE USER ACCESS RIGHTS
ZIOE – INTERROGATE NETWORK ELEMENT USERS
ZIOI – INTERROGATE USER PROFILE
ZIPI – INTERROGATE GENERAL COPY TASK INFORMATION
ZIPP – DISPLAY DETAILED COPY TASK LOG
ZIPS – START BACKUP COPY TASK
ZIPT – TERMINATE ONGOING COPY TASK
ZIPX – DISPLAY BACKUP COPIES ON REMOVABLE DISK
ZIQC – CONFIGURE THE DISK CACHE
ZIQS – DISPLAY CACHE STATISTICS
ZIQV – HANDLE DISK WRITE VERIFICATION
ZIRM – MODIFY CRITICAL LIMITS
ZIRR – RESET LONG TERM COUNTERS
ZIRT – SET COUNTER REPORT OUTPUT TIME
ZIRI – INTERROGATE COUNTER REPORT OUTPUT PARAMETERS
ZIRO – DISPLAY DETAILED REPORT
ZIRP – PRINT COUNTER REPORT
ZISC – CHANGE I/O DEVICE STATE
ZISI – INTERROGATE I/O DEVICE INFO
ZISL – LIST I/O DEVICES IN SPECIFIED STATE
ZISM – MODIFY SPARE DEVICE OF I/O DEVICE
ZISK – MODIFY/INTERROGATE SCSI ADDRESS OF MTU
ZISF – CHANGE FUNCTIONAL MODE OF CTU
ZITI – INTERROGATE TERMINAL PARAMETERS
ZITM – MODIFY TERMINAL PARAMETERS
ZITF – SET TERMINAL OPERATION MODE
ZIVS – SET PASSWORD POLICY CHECKING STATE
ZIVH – SET PASSWORD HISTORY CHECKING STATE
ZIVU – SET USER ACCOUNT POLICY CHECKING STATE
ZIWB – HANDLE BAD BLOCKS
ZIWC – CREATE FILE
ZIWD – DELETE FILE
ZIWE – EMPTY FILE
ZIWF – INTERROGATE/CHANGE DEFAULT VERSION
ZIWI – INITIALIZE DISK
ZIWK – INITIALIZE DIRECTORY
ZIWL – CREATE DIRECTORY
ZIWM – DELETE DIRECTORY
ZIWN – RENAME FILE
ZIWP – PACK DISK
ZIWQ – INTERROGATE/MODIFY DISK CONFIGURATION
ZIWS – SET FILE ATTRIBUTES
ZIWX – DISPLAY DIRECTORY
ZIWY – INTERROGATE/CHANGE DEFAULT SETTINGS
ZIXF – COMPRESS FILE(S) TO ZIP ARCHIVE
ZIXX – EXTRACT FILE(S) FROM ZIP ARCHIVE
ZIXL – LIST CONTENTS OF ZIP ARCHIVE
ZIXC – COMPRESS FILE TO GZIP ARCHIVE
ZIXE – EXTRACT FILE FROM GZIP ARCHIVE
ZIXI – LIST CONTENTS OF GZIP ARCHIVE(S)
ZNAA – CREATE GLOBAL TITLE MODIFICATION DATA
ZNAC – CREATE TRANSLATION RESULT
ZNAD – DELETE TRANSLATION RESULT
ZNAI – INTERROGATE TRANSLATION RESULTS
ZNAM – MODIFY TRANSLATION RESULT
ZNAR – DELETE GLOBAL TITLE MODIFICATION DATA
ZNAS – MODIFY GLOBAL TITLE MODIFICATION DATA
ZNAX – INTERROGATE GLOBAL TITLE MODIFICATION DATA
ZNBC – CREATE OR ADD ANALYSIS
ZNBD – DELETE OR REMOVE ANALYSIS
ZNBI – INTERROGATE OR SEARCH ANALYSIS
ZNBJ – INTERROGATE ROOTS OF ANALYSIS TREES
ZNCC – CREATE SIGNALLING LINK
ZNCM – MODIFY SIGNALLING LINK
ZNCD – DELETE SIGNALLING LINK
ZNCI – INTERROGATE SIGNALLING LINK DATA
ZNCL – CHANGE PARAMETER SET
ZNCO – EXCHANGE PARAMETER SET OF SIGNALLING LINKS
ZNER – INTERROGATE SIGNALLING ROUTE SET STATES
ZNES – INTERROGATE SIGNALLING LINK SET STATES
ZNEL – INTERROGATE SIGNALLING LINK STATES
ZNET – INTERROGATE NETWORK ITEM STATES
ZNEO – INTERROGATE SIGNALLING POINT LOAD SHARING
ZNEP – INTERROGATE PROHIBITED STP MESSAGES
ZNEJ – RUN SIGNALLING ROUTING TEST
ZNFD – DEFINE SCCP FOR SIGNALLING POINT
ZNFE –DEFINE SCCP FOR SIGNALLING POINTS WITH SUBSYSTEMS COPY
ZNFR – REMOVE SCCP FROM SIGNALLING POINTS
ZNFA – ADD REPLICATIVE SIGNALLING POINT
ZNFS – REMOVE REPLICATIVE SIGNALLING POINT
ZNFB – ADD SUBSYSTEMS TO SIGNALLING POINTS
ZNFT – REMOVE SUBSYSTEM FROM SIGNALLING POINTS
ZNFC – ADD REPLICATIVE SUBSYSTEM
ZNFU – REMOVE REPLICATIVE SUBSYSTEM
ZNFI – INTERROGATE SCCP DATA OF SIGNALLING POINTS
ZNFJ –INTERROGATE SUBSYSTEMS DATA OF SIGNALLING POINTS
ZNFL – CHANGE SCCP SIGNALLING POINT PARAMETER SET
ZNFM – CHANGE SUBSYSTEM PARAMETER SET
ZNFN – EXCHANGE PARAMETER SET OF SCCP SIGNALLING POINT
ZNFO – EXCHANGE PARAMETER SET OF SUBSYSTEM
ZNFP – CHANGE SUBSYSTEM TEST STATUS
ZNGC – CHANGE SCCP STATE
ZNGD – CHANGE REPLICATION STATE
ZNGI – INTERROGATE SCCP STATE
ZNHC – CHANGE SUBSYSTEM STATE
ZNHD – CHANGE SUBSYSTEM REPLICATION STATE
ZNHI – INTERROGATE SUBSYSTEM STATE
ZNHJ – INTERROGATE SUBSYSTEM DISTRIBUTION DATA
ZNLC – CHANGE SIGNALLING LINK STATE
ZNLD – DENY ACTIVATION OF SIGNALLING LINKS
ZNLA – ALLOW ACTIVATION OF SIGNALLING LINKS
ZNLI – INTERROGATE SIGNALLING LINK STATES
ZNLT – TEST SIGNALLING DATA LINK
ZNLO – INTERROGATE SIGNALLING DATA LINK TEST
ZNLJ – RUN SIGNALLING LINK ROUTING TEST
ZNMM – MODIFY CCS7 LEVEL 3 PARAMETER
ZNMI – INTERROGATE CCS7 LEVEL 3 PARAMETERS
ZNMC – MODIFY CCS7 NETWORK SPECIFIC PARAMETER
ZNMO – INTERROGATE CCS7 NETWORK SPECIFIC PARAMETERS
ZNNC – CREATE SIGNALLING ROUTE SET PARAMETER SET
ZNNE – COPY SIGNALLING ROUTE SET PARAMETER SET
ZNNM – MODIFY SIGNALLING ROUTE SET PARAMETER SET
ZNNN – CHANGE SIGNALLING ROUTE SET PARAMETER SET NAME
ZNND – DELETE SIGNALLING ROUTE SET PARAMETER SET
ZNNI –INTERROGATING SIGNALLING ROUTE SET PARAMETER SETS
ZNOC – CREATE SIGNALLING LINK PARAMETER SET
ZNOE – COPY SIGNALLING LINK PARAMETER SET
ZNOM – MODIFY SIGNALLING LINK PARAMETER SET
ZNON – CHANGE SIGNALLING LINK PARAMETER SET NAME
ZNOD – DELETE SIGNALLING LINK PARAMETER SET
ZNOI – INTERROGATE SIGNALLING LINK PARAMETER SETS
ZNPC – CREATE SERVICE
ZNPM – MODIFY SERVICE
ZNPD – DELETE SERVICE
ZNPI – INTERROGATE SERVICES
ZNPU – UPDATE STP-SERVICE
ZNRP – MODIFY OWN SIGNALLING POINT DATA
ZNRC – CREATE SIGNALLING ROUTE SET
ZNRB – MODIFY DATA OF SIGNALLING ROUTE SET
ZNRD – DELETE SIGNALLING ROUTE SET
ZNRA – ADD SIGNALLING ROUTE TO ROUTE SET
ZNRR – DELETE SIGNALLING ROUTE FROM ROUTE SET
ZNRE – CHANGE SIGNALLING ROUTE PRIORITY
ZNRN – CHANGE SIGNALLING POINT NAME
ZNRI – INTERROGATE SIGNALLING POINT DATA
ZNRS – CHANGE STP ACCESS
ZNRT – INTERROGATE STP ACCESS
ZNRX – EXCHANGE ADJACENT SIGNALLING POINT CODE
ZNRV – VERIFY OF MTP ROUTING DATA CHAINS
ZNRF – REPAIR OF MTP ROUTING DATA CHAINS
ZNSC – CREATE SIGNALLING LINK SET
ZNSA – ADD SIGNALLING LINK TO LINK SET
ZNSR – DELETE SIGNALLING LINK FROM LINK SET
ZNSN – CHANGE SIGNALLING LINK SET NAME
ZNSS – CHANGE SIGNALLING LINK CODE
ZNSD – DELETE SIGNALLING LINK SET
ZNSI – INTERROGATE SIGNALLING LINK SET DATA
ZNST – CHANGE SIGNALLING LINK TEST STATUS
ZNSU – MODIFY LINK SET DATA
ZNSE – REMOTE SIGNALLING LINK IN LINK SET
ZNVC – CHANGE SIGNALLING ROUTE STATE
ZNVD – DENY ACTIVATION OF SIGNALLING ROUTE
ZNVA – ALLOW ACTIVATION OF SIGNALLING ROUTE
ZNVI – INTERROGATE SIGNALLING ROUTE STATES
ZOBM –MODIFY BROADCAST STATUS OF SCCP SIGNALLING POINTS
ZOBI –INTERROGATE BROADCAST STATUS OF SCCP SIGNALLING POINTS
ZOBC –MODIFY LOCAL BROADCAST STATUS OF SCCP SUBSYSTEMS
ZOBL –INTERROGATE LOCAL BROADCAST STATUS OF SCCP SUBSYSTEMS
ZOCC – CREATE SCCP SIGNALLING POINT PARAMETER SET
ZOCA – CREATE SCCP SUBSYSTEM PARAMETER SET
ZOCE – COPY SCCP SIGNALLING POINT PARAMETER SET
ZOCF – COPY SCCP SUBSYSTEM PARAMETER SET
ZOCM – MODIFY SCCP SIGNALLING POINT PARAMETER SET
ZOCN – MODIFY SCCP SUBSYSTEM PARAMETER SET
ZOCR – CHANGE PARAMETER SET NAME
ZOCD – DELETE SCCP SIGNALLING POINT PARAMETER SET
ZOCK – DELETE SCCP SUBSYSTEM PARAMETER SET
ZOCI –INTERROGATE SCCP SIGNALLING POINT PARAMETER SETS
ZOCJ – INTERROGATE SCCP SUBSYSTEM PARAMETER SETS
ZOCH – HELP TEXT FOR SCCP SIGNALLING POINT PARAMETERS
ZOCL – HELP TEXT FOR SCCP SUBSYSTEM PARAMETERS
ZODC –COPY SCCP SIGNALLING POINT SCREENING DATA FROM MTP
ZODF – INTERROGATE SCCP GLOBAL TITLE SCREENING DATA
ZODG – MODIFY SCCP GLOBAL TITLE SCREENING STATUS
ZODI –INTERROGATE SCCP SIGNALLING POINT SCREENING DATA
ZODM – MODIFY SCCP SIGNALLING POINT SCREENING DATA
ZODN – MODIFY SCCP GLOBAL TITLE SCREENING DATA
ZODR –INTERROGATE GT SCREENING STATUS OF CALLED GTT RESULTS
ZODS – MODIFY SCCP SIGNALLING POINT SCREENING STATUS
ZODT –MODIFY GT SCREENING STATUS FOR CALLED GTT RESULT
ZOIS – DEFINE MAXIMUM COUNTS OF INDEXES
ZOII – INTERROGATE MAXIMUM COUNTS OF INDEXES
ZOIO – CONNECT OP/DP INDEX TO SIGNALLING POINT
ZOIE – DELETE OP/DP INDEX
ZOID – LIST ALL OP/DP INDEXES
ZOIA – DELETE ALL OP/DP INDEXES
ZOIU – CONNECT SI INDEX TO USER PART
ZOIC – DELETE SI INDEX
ZOIP – LIST ALL SI INDEXES
ZOIL – DELETE ALL SI INDEXES
ZOLP – INTERROGATE SIGNALLING LINK PERFORMANCE METERS
ZOLA – INTERROGATE SIGNALLING LINK AVAILABILITY METERS
ZOLU – INTERROGATE SIGNALLING LINK UTILIZATION METERS
ZOLT – INTERROGATE SIGNALLING LINK LOAD
ZOLL – INTERROGATE SIGNALLING LINK EVENT LOGS
ZOLE – EMPTY SIGNALLING LINK EVENT LOGS
ZOMQ – INTERROGATE LEVEL 3 AUXILIARY METERS
ZOMT – INTERROGATE SIGNALLING LINK TERMINAL METERS
ZOMI – INTERROGATE MTP LEVEL 2 METERS
ZOMS –INTERROGATE ATM BASED SIGNALLING LINK SAAL METERS
ZONA –SIGNALLING LINK SET AND ROUTE SET AVAILABILITY METERS
ZONS – SIGNALLING POINT STATUS METERS
ZONP – SIF AND SIO METERS HANDLED WITH SP
ZONI – SIF AND SIO METERS HANDLED WITH SIO
ZONT –SIF, SIO AND MSU METERS HANDLED WITH OPC, DPC AND SIO
ZONE – EMPTY SIGNALLING POINT EVENT LOGS
ZONL – INTERROGATE SIGNALLING POINT EVENT LOGS
ZOSA – ACTIVATE SS7 STATISTICS AND REPORTS
ZOSD – DEACTIVATE SS7 STATISTICS AND REPORTS
ZOSE – INTERROGATE REPORTING STATUS OF SCCP SUBSYSTEMS
ZOSF – MODIFY REPORTING STATUS OF SCCP SUBSYSTEMS
ZOSI – INTERROGATE STATES OF SS7 STATISTICS
ZOSJ –INTERROGATE REPORTING STATUS OF SIGNALLING LINKS
ZOSK –INTERROGATE REPORTING STATUS OF SIGNALLING POINTS
ZOSL – MODIFY REPORTING STATUS OF SIGNALLING LINKS
ZOSM – MODIFY SS7 MEASUREMENT REPORT PARAMETERS
ZOSN – MODIFY REPORTING STATUS OF SIGNALLING POINTS
ZOSR – INTERROGATE SS7 MEASUREMENT REPORT PARAMETERS
ZOSG – MODIFY STATES OF INTERVAL LOG REPORTS
ZOSQ – INTERROGATE STATES OF INTERVAL LOG REPORTS
ZOTN – SCCP SIGNALLING POINT METERS
ZOTS – SCCP SUBSYSTEM METERS
ZOTJ – SCCP SUBSYSTEM METERS OF SIGNALLING POINT
ZOTA – SCCP LOCAL SUBSYSTEM AVAILABILITY METERS
ZOTI – INTERROGATE SCCP SINGLE METERS
ZOTG –INTERROGATE SCCP SEGMENTATION AND REASSEMBLY ERROR METERS
ZOTQ – SCCP QUALITY OF SERVICE METERS
ZOTE – EMPTY SCCP OR TC EVENT LOG
ZOTO – INTERROGATE SCCP SIGNALLING POINT EVENT LOG
ZOTL – INTERROGATE SCCP SUBSYSTEM EVENT LOG
ZOTR – INTERROGATE SCCP MESSAGE HANDLING FAILURE LOG
ZOTU – INTERROGATE TC UTILIZATION METERS
ZOTT – INTERROGATE TC TRANSACTION METERS
ZOTP – INTERROGATE TC FAULT METERS
ZOTF – INTERROGATE TC EVENT LOG
ZOYC – CREATE ASSOCIATION SET
ZOYA – ADD ASSOCIATION TO ASSOCIATION SET
ZOYR – REMOVE ASSOCIATION FROM ASSOCIATION SET
ZOYM – MODIFY ASSOCIATION SET
ZOYD – DELETE ASSOCIATION SET
ZOYI – INTERROGATE ASSOCIATION SET
ZOYN – CONFIGURATE SOURCE IP ADDRESSES FOR SCTP
ZOYG – REMOVE SOURCE IP ADDRESSES FOR SCTP
ZOYL – INTERROGATE SOURCE IP ADDRESSES FOR SCTP
ZOYE – CREATE PARAMETER SET
ZOYF – DELETE PARAMETER SET
ZOYT – MODIFY PARAMETER SET
ZOYO – INTERROGATE PARAMETER SET
ZOYX – CREATE SCTP ASSOCIATION
ZOYP – MANAGE ASSOCIATION IP ADDRESSES
ZOYY – DELETE SCTP ASSOCIATION
ZOYV – INTERROGATE SCTP ASSOCIATION
ZOYW – MODIFY SCTP ASSOCIATION
ZOYS – MODIFY ASSOCIATION STATE
ZOYQ – INTERROGATE AVERAGE M3UA CPU LOAD
ZQ4A – ADD KEY
ZQ4M – MODIFY KEY VALUE
ZQ4N – RENAME KEY
ZQ4D – DELETE KEY
ZQ4L – LIST KEYS
ZQ6N – CONFIGURE NETWORK INTERFACE AND IP ADDRESS
ZQ6G – REMOVE NETWORK INTERFACE OR IP ADDRESS
ZQ6W – FORCE INTERFACE SWITCHOVER
ZQ6I – INTERROGATE NETWORK INTERFACE
ZQ6T – CONFIGURE TCP/IP PARAMETERS
ZQ6H – INTERROGATE TCP/IP PARAMETERS
ZQ6C – CREATE STATIC ROUTE
ZQ6D – DELETE STATIC ROUTE DATA
ZQ6L – INTERROGATE STATIC ROUTES
ZQ6K – CONFIGURE DNS PARAMETERS
ZQ6J – INTERROGATE DNS PARAMETERS
ZQ6F – DISTRIBUTE CONFIGURATION FILE
ZQ6X – TEST HOST REACHABILITY (PING6/TRACEROUTE6)
ZQ6S – INTERROGATE NETWORK STATUS
ZQ6Y – INTERROGATE NEIGHBOR CACHE
ZQBC – CREATE NETWORK ADDRESS
ZQBD – DELETE NETWORK ADDRESS
ZQBI – INTERROGATE NETWORK ADDRESS DATA
ZQBN – CREATE NSAP
ZQBM – MODIFY NSAP DATA
ZQBR – DELETE NSAP
ZQBT – ATTACH NSAP TO NETWORK ADDRESS
ZQBF – DETACH NSAP FROM NETWORK ADDRESS
ZQBH –SET DEFAULT VALUES FOR ISO DCC AND ISO 6253-ICD NSAP
ZQBG – CHANGE NSAP STATE
ZQBL – INTERROGATE NETWORK NSAP DATA
ZQCC –CREATE PHYSICAL CHANNEL THROUGH DIGITAL TERMINAL
ZQCS –CREATE PHYSICAL CHANNEL THROUGH ANALOG TERMINAL
ZQCM –MODIFY PHYSICAL CHANNEL THROUGH DIGITAL TERMINAL
ZQCU –MODIFY PHYSICAL CHANNEL THROUGH ANALOG TERMINAL
ZQCD – DELETE PHYSICAL CHANNEL
ZQCI – INTERROGATE PHYSICAL CHANNEL DATA
ZQDL – CREATE LOCAL OSI APPLICATION
ZQDR – CREATE REMOTE OSI APPLICATION
ZQDM – MODIFY LOCAL OSI APPLICATION DATA
ZQDH – MODIFY REMOTE OSI APPLICATION DATA
ZQDN – MODIFY OSI APPLICATION NAME
ZQDD – DELETE OSI APPLICATION
ZQDI – INTERROGATE OSI APPLICATION DATA
ZQDA – ADD SERVICE PROFILE TO OSI APPLICATION
ZQDC – MODIFY SERVICE PROFILE OF OSI APPLICATION
ZQDE – DETACH SERVICE PROFILE FROM OSI APPLICATION
ZQDT –ATTACH SECONDARY SELECTOR GROUP TO OSI APPLICATION
ZQDF – DETACH OR MODIFY SECONDARY SELECTOR GROUP
ZQDG – CHANGE OSI APPLICATION STATE
ZQEC – CREATE CLNS
ZQEM – MODIFY CLNS DATA
ZQEA – ADD MANUAL AREA ADDRESS TO CLNS
ZQER – REMOVE MANUAL AREA ADDRESS FROM CLNS
ZQEN – MODIFY CLNS NAME
ZQEF – MODIFY CLNS PARAMETERS
ZQET – RESTART CLNS
ZQEG – CHANGE CLNS STATE
ZQED – DELETE CLNS
ZQEH – ACCEPT NEW CLNS
ZQEI – INTERROGATE CLNS DATA
ZQFA – COPY FILE
ZQFC – CREATE FILE
ZQFD – DELETE FILE
ZQFL – LIST FILE DIRECTORY
ZQFM – MODIFY FILE ATTRIBUTES
ZQGC – CREATE PHYSICAL CHANNEL GROUP
ZQGA – ADD PHYSICAL CHANNEL TO PHYSICAL CHANNEL GROUP
ZQGR –DELETE PHYSICAL CHANNEL FROM PHYSICAL CHANNEL GROUP
ZQGN – CHANGE PHYSICAL CHANNEL GROUP NAME
ZQGM – CHANGE PHYSICAL CHANNEL DATA
ZQGD – DELETE PHYSICAL CHANNEL GROUP
ZQGI – INTERROGATE PHYSICAL CHANNEL GROUP DATA
ZQHC – CREATE ETHERNET TERMINAL DATA
ZQHM – MODIFY ETHERNET TERMINAL DATA
ZQHD – DELETE ETHERNET TERMINAL DATA
ZQHI – INTERROGATE ETHERNET TERMINAL DATA
ZQHQ – INTERROGATE ETHERNET INTERFACE LINK PARAMETERS
ZQHR – RESET ETHERNET INTERFACE STATISTICS
ZQHS – SET ETHERNET INTERFACE LINK PARAMETERS
ZQHT – DISPLAY ETHERNET INTERFACE STATISTICS
ZQHW – DELETE CONFIGURATION OF ETHERNET INTERFACE
ZQKM – CREATE LOCAL IP ADDRESS BASED DEFAULT GATEWAY
ZQKP – DELETE LOCAL IP ADDRESS BASED DEFAULT GATEWAY
ZQKO –INTERROGATE LOCAL IP ADDRESS BASED DEFAULT GATEWAYS
ZQKC – CREATE STATIC ROUTE
ZQKA – DELETE STATIC ROUTE
ZQKB – INTERROGATE STATIC ROUTES
ZQKS – CONFIGURE OSPF PARAMETERS
ZQKI – INTERROGATE OSPF PARAMETERS
ZQKE – CONFIGURE OSPF AREA PARAMETERS
ZQKD – DELETE OSPF AREA
ZQKN – INTERROGATE OSPF AREA PARAMETERS
ZQKH – CONFIGURE NETWORK PREFIX
ZQKJ – CONFIGURE STUB HOST
ZQKF – CONFIGURE OSPF INTERFACE PARAMETERS
ZQKL – DELETE OSPF INTERFACE
ZQKR – INTERROGATE OSPF INTERFACE PARAMETERS
ZQKV – CONFIGURE VIRTUAL LINK PARAMETERS
ZQKT – DELETE VIRTUAL LINK
ZQKW – INTERROGATE VIRTUAL LINK PARAMETERS
ZQKU – CONFIGURE REDISTRIBUTE PARAMETERS
ZQKX – DELETE REDISTRIBUTE PARAMETERS
ZQKY – INTERROGATE REDISTRIBUTE PARAMETERS
ZQLC – CREATE X.25 LINKAGE
ZQLL – CREATE BROADCAST LINKAGE
ZQLM – MODIFY X.25 LINKAGE DATA
ZQLR – MODIFY BROADCAST LINKAGE
ZQLG – CHANGE LINKAGE STATE
ZQLF – MODIFY LINKAGE PARAMETERS
ZQLD – DELETE LINKAGE
ZQLI – INTERROGATE LINKAGE DATA
ZQLA – ADD MANUAL ES ADJACENCY TO LINKAGE
ZQLE – REMOVE MANUAL ES ADJACENCY FROM LINKAGE
ZQLP – INTERROGATE LINKAGE ADJACENCY INFORMATION
ZQNA – ADD NEW O&M CONNECTION
ZQND – DELETE O&M CONNECTION
ZQNM – MODIFY O&M CONNECTION
ZQNI – INTERROGATE O&M NETWORK CONFIGURATION
ZQNC – CHANGE WORKING STATE OF O&M CHANNEL
ZQNN –INTERROGATE OCCASIONAL VALUES OF O&M CHANNEL METERS
ZQNS – DISPLAY MML SESSIONS
ZQQC – ADD SNPA TO OSI ACCESS CONTROL LIST
ZQQM – MODIFY OSI ACCESS CONTROL METHOD
ZQQD – DELETE SNPA FROM OSI ACCESS CONTROL LIST
ZQQI – INTERROGATE OSI ACCESS CONTROL DATA
ZQRN – CONFIGURE NETWORK INTERFACE
ZQRG – REMOVE NETWORK INTERFACE
ZQRW – FORCE INTERFACE SWITCHOVER
ZQRI – INTERROGATE NETWORK INTERFACE
ZQRT – CONFIGURE TCP/IP PARAMETERS
ZQRH – INTERROGATE TCP/IP PARAMETERS
ZQRK – CONFIGURE DNS PARAMETERS
ZQRJ – INTERROGATE DNS PARAMETERS
ZQRO – INTERROGATE LOCAL DOMAIN NAMES
ZQRQ – CONFIGURE LOCAL DOMAIN NAME
ZQRU – DELETE LOCAL DOMAIN NAME
ZQRA – CREATE VLAN INTERFACE
ZQRB – INTERROGATE VLAN INTERFACES
ZQRR – DELETE VLAN INTERFACES
ZQRF – DISTRIBUTE CONFIGURATION FILE
ZQRX – TEST HOST REACHABILITY (PING/TRACEROUTE)
ZQRS – INTERROGATE NETWORK STATUS
ZQRP – PRIORITISE ETHERNET INTERFACE
ZQSC – CHANGE PHYSICAL CHANNEL STATE
ZQSI – INTERROGATE PHYSICAL CHANNEL STATES
ZQTC – CREATE ANALOG TERMINAL DATA
ZQTM – MODIFY ANALOG TERMINAL DATA
ZQTD – DELETE ANALOG TERMINAL DATA
ZQTI – INTERROGATE ANALOG TERMINAL DATA
ZQUA – ADD EQUIPMENT STATISTICS COLLECTION INFORMATION
ZQUD –DELETE EQUIPMENT STATISTICS COLLECTION INFORMATION
ZQUM –MODIFY EQUIPMENT STATISTICS COLLECTION INFORMATION
ZQUP –DISPLAY EQUIPMENT STATISTICS COLLECTION INFORMATION
ZQUF –HANDLE EQUIPMENT COLLECTION AND CHECKSUM POLLING
ZQUB – ADD OBJECT TO TRANSMISSION MEASUREMENT
ZQUR – REMOVE OBJECT FROM TRANSMISSION MEASUREMENT
ZQUI – INTERROGATE TRANSMISSION MEASUREMENT OBJECTS
ZQUC – CREATE SOFTWARE BUILD
ZQUG – DELETE SOFTWARE BUILD
ZQUJ – CREATE NETWORK ELEMENT GROUP
ZQUK – DELETE NETWORK ELEMENT GROUP
ZQUT – ADD EQUIPMENT TO NETWORK ELEMENT GROUP
ZQUU – DELETE EQUIPMENT FROM NETWORK ELEMENT GROUP
ZQUN – ATTACH BUILD TO NETWORK ELEMENT GROUP
ZQUQ – DETACH BUILD FROM NETWORK ELEMENT GROUP
ZQUV – SW BUILD HANDLING IN NETWORK ELEMENT GROUP
ZQUH – CHANGE STATUSES OF TWO BUILDS
ZQUW – LIST DOWNLOAD ACTIVITIES
ZQUL – LIST SOFTWARE BUILD DATA
ZQUO – LIST NETWORK ELEMENT GROUP DATA
ZQVC – CONNECT
ZQVI – INTERROGATE PAD PARAMETERS
ZQVM – MODIFY PAD PARAMETERS
ZQVP – DISPLAY CONNECTION INFORMATION
ZQVD – DISCONNECT
ZQWC – CREATE SERVICE CHANNEL
ZQWD – DELETE SERVICE CHANNEL
ZQWM – MODIFY SERVICE CHANNEL CONFIGURATION
ZQWS – SET SERVICE CHANNEL STATE
ZQWI – INTERROGATE SERVICE CHANNEL CONFIGURATION
ZQWA – ADD EQUIPMENT TO SERVICE CHANNEL
ZQWR – REMOVE EQUIPMENT FROM SERVICE CHANNEL
ZQWG – CHANGE EQUIPMENT INFORMATION
ZQWF – MODIFY BTS Q1 BUS PARAMETER
ZQWL – LIST EQUIPMENT
ZQXC – CREATE X25 CONFIGURATION PARAMETER SET DATA
ZQXM – MODIFY X25 CONFIGURATION PARAMETER SET DATA
ZQXF – ADD AND REMOVE X25 INTERFACE FACILITIES
ZQXD – DELETE X25 CONFIGURATION PARAMETER SET DATA
ZQXI – INTERROGATE X25 CONFIGURATION PARAMETERS
ZRBA – CREATE BROADBAND CONNECTION
ZRBB –CREATE POINT-TO-MULTIPOINT BROADBAND CONNECTION
ZRBI –INTERROGATE SEMIPERMANENT BROADBAND CONNECTIONS
ZRBM –MODIFY POINT-TO-MULTIPOINT BROADBAND CONNECTION
ZRBP – DELETE BROADBAND CONNECTION
ZRBR –DELETE POINT-TO-MULTIPOINT BROADBAND CONNECTION
ZRBX – UPDATE BOOKED TIME
ZRCC – CREATE CIRCUIT GROUP
ZRCA – ADD CIRCUITS TO CIRCUIT GROUP
ZRCN – MODIFY CIRCUIT GROUP
ZRCM – MODIFY ADDITIONAL CIRCUIT GROUP PARAMETERS
ZRCI – INTERROGATE CIRCUIT GROUP
ZRCR – REMOVE CIRCUITS FROM CIRCUIT GROUP
ZRCD – DELETE CIRCUIT GROUP
ZRRC – CREATE ROUTE
ZRRA – ADD CIRCUIT GROUP
ZRRM – MODIFY ROUTE
ZRRD – DELETE ROUTE / CIRCUIT GROUP
ZRRI – INTERROGATE ROUTE
ZRSM – CONFIGURE MONITORING CONNECTION
ZRSR – REMOVE MONITORING CIRCUIT
ZRSI – INTERROGATE SEMIPERMANENT CIRCUIT
ZT2S – START MEASUREMENT
ZT2E – STOP MEASUREMENT
ZT2I – INTERROGATE MEASUREMENT
ZT2M – MODIFY MEASUREMENT
ZT2C – CREATE OBJECT LIST
ZT2H – MODIFY OBJECT LIST
ZT2D – DELETE OBJECT LIST
ZTPM – MODIFY GSM MEASUREMENT CHARACTERISTICS
ZTPI – INTERROGATE GSM MEASUREMENT
ZTPS – START GSM MEASUREMENT
ZTPE – STOP GSM MEASUREMENT
ZUBE – SYNCHRONIZE BCCH FOR TERMINATING TEST CALL
ZUBF – START CALL STATUS REQUEST
ZUBG – START ORIGINATING TEST CALL
ZUBH – START BCCH FIELD STRENGTH MEASUREMENT
ZUBJ – START RECEIVER SENSITIVITY MEASUREMENT
ZUBK – HANDLE ABIS LOOP TEST
ZUBL – LIST ACTIVE ABIS LOOP TESTS
ZUBN – INTERRUPT TEST
ZUBR – START ANTENNA TEST
ZUBS – START TRANSCEIVER TEST
ZUBP – PRINT TEST REPORT
ZUBD – DELETE TEST REPORT
ZUCC – CREATE SCHEDULED TEST
ZUCD – DELETE SCHEDULED TEST
ZUCI – INTERROGATE SCHEDULED TEST
ZUCM – MODIFY SCHEDULED TEST FUNCTIONAL PARAMETERS
ZUCS – CHANGE SCHEDULED TEST STATE
ZUCT – MODIFY TIME PARAMETERS OF SCHEDULED TEST
ZUCV – HANDLE THRESHOLD PARAMETERS
ZUDU – START UNIT TEST/PARTIAL UNIT TEST
ZUDD – START I/O DEVICE TEST
ZUDH – OUTPUT DIAGNOSTIC REPORT HISTORY
ZUDI – INTERROGATE PARTIAL UNIT TESTS
ZUDL – LIST FAULTY UNITS/PROCESSOR UNITS
ZUDQ – INTERROGATE CURRENT TESTS
ZUDS – STOP CURRENT TEST
ZUSC – CHANGE UNIT STATE
ZUST – CHANGE UNIT INFO
ZUSW – WARM UP SPARE UNIT
ZUSI – INTERROGATE UNIT STATE
ZUSL – LIST UNITS IN SPECIFIED STATE OR INFO
ZUSU – START UNIT
ZUSS – START SYSTEM
ZW6E – CHANGE LAN SWITCH STATUS
ZW6G – CHOOSE NEW ACTIVE TOPOLOGY
ZW6I – INTERROGATE TOPOLOGY
ZW6M – MODIFY PASSWORD OF LAN SWITCH
ZW6N – MODIFY TOPOLOGY
ZW6R – READ CONFIGURATION FILE OF LAN SWITCH
ZW6S – COPY CONFIGURATION FILE OF LAN SWITCH
ZW6T – OPEN TELNET CONNECTION TO LAN SWITCH
ZW7L – INSTALL OR UPDATE LICENCE
ZW7M – MODIFY FEATURE STATE
ZW7E – SET LICENCE EXPIRATION WARNING PERIOD
ZW7I – INTERROGATE LICENCE OR FEATURE INFORMATION
ZW7D – DELETE LICENCE
ZW7R – DELETE OBSOLETE LICENCE
ZW7N – INTERROGATE TARGET IDENTIFIER
ZWAO – OPEN ALARM CONNECTION
ZWAC – CLOSE ALARM CONNECTION
ZWAI – OPEN ALARM INPUT
ZWAD – CLOSE ALARM INPUT
ZWAX – MODIFY ALARM INPUT PARAMETERS
ZWAP – PRINT OPEN CONNECTIONS/INPUTS
ZWAA – CREATE EXTERNAL ALARM
ZWAM – MODIFY EXTERNAL ALARM PARAMETERS
ZWAR – REMOVE EXTERNAL ALARM
ZWAT – PRINT EXTERNAL ALARMS
ZWAE – TEST CARTRIDGE ALARMS
ZWBA – ADD MESSAGE BUS ADDRESS
ZWBM – MODIFY MESSAGE BUS ADDRESS
ZWBR – REMOVE MESSAGE BUS ADDRESS
ZWBE – DELIVER DATA TO ALL COMPUTERS
ZWBI – INTERROGATE COMPUTER CONFIGURATION
ZWBS – SET MESSAGE INTERFACE MEDIA
ZWBO – INTERROGATE MESSAGE INTERFACE MEDIA
ZWDI – INTERROGATE BOOT PACKAGE VERSION
ZWDR – REPLACE BOOT PACKAGE
ZWDE – REPLACE EMBEDDED SOFTWARE OF ET UNITS
ZWDG –REPLACE EMBEDDED SOFTWARE OF SW256B AND SBMUX-A PLUG-IN UNITS
ZWGC – CREATE TRANSCODER PCM
ZWGD – DELETE TRANSCODER PCM
ZWGM – MODIFY TRANSCODER PCM
ZWGO – OUTPUT TRANSCODER PCM INFORMATION
ZWGS – SET NUMBER OF THROUGH CONNECTED CHANNELS
ZWGA – ADD THROUGH CONNECTED CHANNEL
ZWGR – REMOVE THROUGH CONNECTED CHANNEL
ZWGI – INTERROGATE ROUTINE TEST INFORMATION
ZWGT – MODIFY ROUTINE TEST DATA AND PARAMETERS
ZWKS – START FALLBACK COPYING
ZWKQ – QUIT FALLBACK COPYING
ZWKI – INTERROGATE FALLBACK COPYING
ZWKP – DISPLAY FALLBACK LOGFILE
ZWNA – ADD CHANGE DELIVERY
ZWND – DELETE CHANGE DELIVERY
ZWNH – LIST CHANGE DELIVERY HISTORY
ZWNI – INTERROGATE CHANGE DELIVERY
ZWNJ – UPDATE PACKAGE IDENTIFIER
ZWOC – CHANGE PARAMETER VALUE
ZWOI – INTERROGATE PARAMETER VALUE
ZWOA – ACTIVATE/DEACTIVATE OPTIONAL FEATURE
ZWOS – OUTPUT FEATURES ACTIVATION STATUS
ZWQB – VERIFY SOFTWARE PACKAGE
ZWQC – CREATE SOFTWARE PACKAGE
ZWQD – DELETE SOFTWARE PACKAGE
ZWQH – LIST SOFTWARE PACKAGE CHANGE HISTORY
ZWQL – LIST SOFTWARE PACKAGE CONTENTS
ZWQM – COMPARE SOFTWARE PACKAGES
ZWQO – SHOW SOFTWARE PACKAGE INFORMATION
ZWQV – INTERROGATE MODULE VERSION LOADED IN UNIT
ZWRA – ADD UNITS TO TRIAL CONFIGURATION
ZWRR – REMOVE UNIT FROM TRIAL CONFIGURATION
ZWRD – DESTROY TRIAL CONFIGURATION
ZWRS – CUTOVER TO NEW SOFTWARE PACKAGE
ZWRO – RETURN TO OLD SOFTWARE PACKAGE
ZWRC – COMPLETE NEW CONFIGURATION
ZWSD – SELECT DEFAULT SOFTWARE PACKAGE
ZWSC – CHANGE STATUS OF TWO SOFTWARE PACKAGES
ZWSS – SWITCH ACTIVE PACKAGE IN DIRECTORY
ZWSA – ALLOW AUTOMATIC RETURN TO SPARE PACKAGE
ZWSB – DENY AUTOMATIC RETURN TO SPARE PACKAGE
ZWSR – ROLLBACK STATUSES OF CREATED PACKAGES
ZWSI – INTERROGATE AUTOMATIC RETURN SETTINGS
ZWTJ – CREATE RACK OR CABINET
ZWTK – DELETE RACK OR CABINET
ZWTC – CREATE CARTRIDGE
ZWTD – DELETE CARTRIDGE
ZWTU – CREATE UNIT
ZWTV – DELETE UNIT
ZWTP – CREATE PLUG-IN UNIT
ZWTR – REPLACE PLUG-IN UNIT
ZWTQ – DELETE PLUG-IN UNIT
ZWTF – CREATE FUNCTION
ZWTG – DELETE FUNCTION
ZWTY – PROCESS HARDWARE IDENTIFICATION DATA
ZWTX – PROCESS HARDWARE CONFIGURATION XML FILE
ZWTI – INTERROGATE INFORMATION
ZWTL – LIST EQUIPMENT IN CSV-FORMAT
ZWUC – CONNECT FUNCTIONAL UNIT
ZWUD – DISCONNECT FUNCTIONAL UNIT
ZWUP – DISPLAY PCM INFORMATION
ZWXE – RESERVE OPERATION RESOURCES
ZWXF – RELEASE RESOURCE RESERVATION
ZWXI – INTERROGATE RESOURCES
ZWXP – DISPLAY OPERATION EXECUTION CONDITION
ZWYA – ADD IP SUBNET
ZWYB – ADD INTERNAL LAN
ZWYM – MODIFY INTERNAL LAN OR IP SUBNET
ZWYR – REMOVE INTERNAL LAN OR IP SUBNET
ZWYC – ADD UNIT INTO INTERNAL LAN
ZWYD – REMOVE UNIT FROM INTERNAL LAN
ZWYI – INTERROGATE INTERNAL LAN TOPOLOGY
ZYAI –INTERROGATE SDH/SONET EXCHANGE TERMINAL CONFIGURATION
ZYAN – MODIFY SET CONFIGURATION
ZYAQ – INTERROGATE SET/ET/PATH MAPPING
ZYAS – MODIFY SDH/SONET TRACE
ZYAT – INTERROGATE SDH/SONET TRACE
ZYEM – MODIFY ET PARAMETERS
ZYEO – OUTPUT ET PARAMETERS
ZYEA – MODIFY ALARM LIMITS
ZYEP – OUTPUT ALARM LIMITS
ZYES – MODIFY STATISTICS COUNTERS LIMITS
ZYEL – OUTPUT STATISTICS COUNTERS LIMITS
ZYEU – MODIFY SLIP LIMITS
ZYER – OUTPUT SLIP LIMITS
ZYEC – MODIFY FUNCTIONAL MODES
ZYEI – OUTPUT FUNCTIONAL MODES
ZYEF – INTERROGATE PCM SERVICE STATE
ZYFE – INQUIRE CONNECTION SUPERVISION DATA
ZYFF – HANDLE LAN SWITCH SUPERVISION DATA
ZYFL – HANDLE EVENT LOG
ZYFM – MANAGE LAN SWITCH
ZYFS – HANDLE SNMP GET/SET LIST
ZYFT – MANAGE SHORT TIME MEASUREMENT DATA
ZYFX – EXECUTE SNMP GET/SET
ZYIC – CREATE LOOPBACK(S)
ZYIR – REMOVE LOOPBACK(S)
ZYII – INTERROGATE LOOPBACK(S)
ZYMC – CANCEL TEMPORARY MEASUREMENT
ZYMO – OUTPUT STATISTICAL DISTURBANCES ON ONE CIRCUIT
ZYMP – OUTPUT MEASUREMENT PERIOD PARAMETERS
ZYMS – START TEMPORARY MEASUREMENT
ZYNI – INTERROGATE SDH OR SONET INTERFACE COUNTERS
ZYNJ –INTERROGATE SDH OR SONET PROTECTION GROUP COUNTERS
ZYWC – CREATE PROTECTION GROUP
ZYWD – DELETE PROTECTION GROUP
ZYWF – EXECUTE FORCED SWITCH
ZYWI – INTERROGATE PROTECTION GROUP CONFIGURATION
ZYWL – ENABLE LOCKOUT
ZYWM – MODIFY PROTECTION GROUP CONFIGURATION
ZYWS – EXECUTE MANUAL SWITCH
ZYWE – EXECUTE EXERCISE
ZYWR – CLEAR SWITCH COMMANDS
ZZAB – BLOCKED ALARMS HANDLING
ZZAC – ALARM CANCELLING
ZZAE – ERROR RATIO COUNTER HANDLING
ZZAH – ALARM HISTORY HANDLING
ZZAL – LAMP PANEL HANDLING
ZZAO – ALARM OPERATING INSTRUCTION HANDLING
ZZAP – ALARM PARAMETERS HANDLING
ZZAR – ALARM SYSTEM RULEBASE HANDLING
ZZAT – ALARM PRINTING HANDLING
ZZCE – CIRCUIT STATE HANDLING
ZZCI – INTERNAL ROUTING STATES
ZZCR – EXTERNAL CIRCUIT GROUP AND ROUTE STATES
ZZDB – ATABASE HANDLING
ZZDC – LOCK HANDLING
ZZDD – EMOTE DEBUGGER SESSION
ZZDE – ILE CONVERSION HANDLING
ZZDF – EMORY FILE HANDLING
ZZDM – NTERROGATION OF LAPD AND SBUS STATISTICS METERS
ZZDO –PERATING SYSTEM SUPERVISION AND STATISTICS HANDLING
ZZDP – REPROCESSOR MEMORY HANDLING
ZZDR – YNCHRONIZATION UNIT HANDLING
ZZDS – RIMARY RATE ACCESS D-CHANNEL DATA HANDLING
ZZDT – RIMARY RATE ACCESS D-CHANNEL STATE HANDLING
ZZDU – ISK UPDATE HANDLING
ZZDV – ISK LOG HANDLING
ZZE4 –AUTHORISED NETWORKS AND SUBSCRIBER GROUP HANDLING
ZZE7 – BSC MSC NODE HANDLING COMMANDS
ZZEA – ADJACENT CELL HANDLING
ZZEB – FREQUENCY LIST AND GPRS OBJECTS HANDLING
ZZEC – SMS CELL BROADCAST HANDLING
ZZEE – BASE STATION CONTROLLER PARAMETER HANDLING IN
BSC
ZZEF – BASE CONTROL FUNCTION HANDLING
ZZEG – GSM TIMER AND BSC PARAMETER HANDLING
ZZEH – HANDOVER CONTROL PARAMETER HANDLING
ZZEM –BASE CONTROL FUNCTION MAINTENANCE MODE HANDLING
ZZEO – BASE TRANSCEIVER STATION ALARMS HANDLING
ZZEQ – BASE TRANSCEIVER STATION HANDLING IN BSC
ZZER – TRANSCEIVER HANDLING
ZZES – ABIS INTERFACE CONFIGURATION
ZZET – TRUNK RESERVATION ALGORITHMS HANDLING
ZZEU – POWER CONTROL PARAMETER HANDLING
ZZEV – BCF HARDWARE DATABASE HANDLING
ZZEW – BCF SOFTWARE HANDLING
ZZEX – POSITION BASED SERVICES HANDLING
ZZEY – A-INTERFACE HUNTING ORDER HANDLING
ZZFN – FRAME RELAY PARAMETER HANDLING
ZZFU – FRAME RELAY BEARER CHANNEL HANDLING
ZZFX – GB INTERFACE HANDLING
ZZI2 – SSH PROTOCOL LAYER HANDLING
ZZIA – MMI SYSTEM AUTHORITY HANDLING
ZZIB – I/O FILE BACKUP
ZZIC – COMMAND CALENDAR HANDLING
ZZID – DISK COMMAND FILE EXECUTION
ZZIE – DISK FILE OPERATIONS
ZZIF – VIRTUAL DATA STORING DEVICE HANDLING
ZZIG – MML COMMAND LOG HANDLING
ZZII – I/O CONFIGURATION HANDLING
ZZIM – MAGNETIC TAPE HANDLING
ZZIO – NETWORK USER AUTHORITY DATA HANDLING
ZZIP – BATCH COPY HANDLING
ZZIQ – DISK OPTIMIZATION CONTROL
ZZIR – SECURITY REPORTING HANDLING
ZZIS – I/O DEVICE WORKING STATES
ZZIT – TERMINAL PARAMETERS HANDLING
ZZIV – USER AUTHENTICATION POLICY HANDLING
ZZIW – DISK FILE AND DIRECTORY HANDLING
ZZIX – DISK FILE COMPRESSION HANDLING
ZZNA – GLOBAL TITLE RESULT HANDLING
ZZNB – GLOBAL TITLE ANALYSIS HANDLING
ZZNC – SIGNALLING LINK DATA HANDLING
ZZNE – SIGNALLING NETWORK STATE INTERROGATION
ZZNF – SCCP DATA HANDLING
ZZNG – SCCP STATE HANDLING
ZZNH – SCCP SUBSYSTEM STATE HANDLING
ZZNL – SIGNALLING LINK STATE HANDLING
ZZNM – CCS7 LEVEL 3 PARAMETERS
ZZNN – SIGNALLING ROUTE SET PARAMETER HANDLING
ZZNO – SIGNALLING LINK PARAMETER HANDLING
ZZNP – SERVICE INFORMATION DATA HANDLING
ZZNR – SIGNALLING ROUTE SET DATA HANDLING
ZZNS – SIGNALLING LINK SET DATA HANDLING
ZZNV – SIGNALLING ROUTE STATE HANDLING
ZZOB – SCCP BROADCAST STATUS HANDLING
ZZOC – SCCP PARAMETER SET HANDLING
ZZOD – SCCP SCREENING HANDLING
ZZOI –MANAGEMENT OF TRAFFIC MATRIX MEASUREMENT FOR MTP
ZZOL –INTERROGATION OF SIGNALLING LINK STATISTICS METERS
ZZOM – INTERROGATION OF AUXILIARY MTP STATISTICS METERS
ZZON –INTERROGATION OF SIGNALLING NETWORK STATISTICS METERS
ZZOS – STATES OF SS7 STATISTICS
ZZOT – INTERROGATION OF SCCP AND TCAP STATISTICS METERS
ZZOY – SCTP CONFIGURATION HANDLING
ZZQ2 – IPSEC CONFIGURATION HANDLING
ZZQ4 – KEYDATABASE HANDLING
ZZQ6 – IPv6 TCP/IP STACK CONFIGURATION HANDLING
ZZQB – OSINETWORK ADDRESS AND NSAP DATA HANDLING
ZZQC – PHYSICAL CHANNEL DATA HANDLING
ZZQD – OSIENVIRONMENT APPLICATION DATA HANDLING
ZZQE –OSIENVIRONMENT CONNECTIONLESS NETWORK SERVICE HANDLING
ZZQF – OSIFILE SERVICES
ZZQG – PHYSICAL CHANNEL GROUP DATA HANDLING
ZZQH – ETHERNET INTERFACE HANDLING
ZZQK – IPROUTING DATA HANDLING
ZZQL – OSIENVIRONMENT LINKAGE HANDLING
ZZQN – O&MNETWORK HANDLING
ZZQQ – OSIACCESS CONTROL
ZZQR – TCP/IP STACK DATA HANDLING
ZZQS – PHYSICAL CHANNEL STATE HANDLING
ZZQT – ANALOG TERMINAL DATA HANDLING
ZZQU – BSSTRANSMISSION EQUIPMENT HANDLING
ZZQV – VIRTUAL TERMINAL COMMUNICATION
ZZQW – Q1INTERFACE HANDLING
ZZQX –X.25 INTERFACE CONFIGURATION PARAMETERS HANDLING
ZZRB –SEMIPERMANENT BROADBAND CONNECTIONS HANDLING
ZZRC – CIRCUIT GROUP HANDLING
ZZRR – ROUTE HANDLING
ZZRS – SEMIPERMANENT CIRCUITS
ZZT2 – MEASUREMENT HANDLING
ZZTP – GSM MEASUREMENT HANDLING
ZZUB – SINGLE RADIO NETWORK TEST HANDLING
ZZUC – SCHEDULED RADIO NETWORK TEST HANDLING
ZZUD – DIAGNOSTICS HANDLING
ZZUS – WORKING STATE AND RESTART HANDLING
ZZW6 – LAN DEVICE TOPOLOGY MANAGEMENT
ZZW7 – LICENCE AND FEATURE HANDLING
ZZWA – WIRED ALARM CONNECTIONS HANDLING
ZZWB – COMPUTER CONFIGURATION HANDLING
ZZWD – EMBEDDED SOFTWARE HANDLING
ZZWG – TRANSCODER CONFIGURATION
ZZWK – SOFTWARE PACKAGE FALLBACK HANDLING
ZZWN – CHANGE DELIVERY HANDLING
ZZWO – PARAMETER HANDLING
ZZWQ – SOFTWARE PACKAGE MANAGEMENT
ZZWR – SOFTWARE PACKAGE DEPLOYMENT HANDLING
ZZWS – SOFTWARE PACKAGE STATUS HANDLING
ZZWT – EQUIPMENT MANAGEMENT
ZZWU – UNIT CONNECTIONS HANDLING
ZZWX – SOFTWARE CONFIGURATION RESOURCE HANDLING
ZZWY – INTERNAL LAN MANAGEMENT
ZZYA – SDH/SONET INTERFACE CONFIGURATION HANDLING
ZZYE – EXCHANGE TERMINAL SUPERVISION HANDLING
ZZYF – LAN HW SUPERVISION HANDLING
ZZYI – V.3 INTERFACE LOOPBACK HANDLING
ZZYM – PCM STATISTICS: MEASUREMENT AND OUTPUT
ZZYN – SDH OR SONET STATISTICS HANDLING
ZZYW – SDH/SONET TRANSMISSION PROTECTION HANDLING
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BTS S/W check & Activate in BSC
16TuesdaySEP 2014
POSTED BY KAUSHALP13102014 IN UNCATEGORIZED ≈ LEAVE A COMMENT
ENTER USERNAME < BSCXXX
ENTER PASSWORD < ******
BSC3i BSC83BRM 2011-04-12 15:31:51
WELCOME TO THE DX 200 SERIES DIALOGUE
MAIN LEVEL COMMAND
< ZEWO
LOADING PROGRAM VERSION 15.7-0
/* DATA UNITS:
NUMBER OF BCF; */
EWO:126;
EXECUTION STARTED
BSC3i BSC83BRM 2011-04-12 15:32:04
BCF NUMBER STATUS BUILD-ID VERSION SUBDIR STATE SWMASTER
——————————————————————————–
BCF-0126 NW EP3_MP3 3.3-3 /PACK_17
BU EP3_MP2_BL0017 3.2-3 /PACK_16 DEFAULT
FB FLEXI_EP1_0 1.0-1 /PACK_8
COMMAND EXECUTED
BCF SOFTWARE HANDLING COMMANDS
< ZEWV
LOADING PROGRAM VERSION 15.7-0
/* DATA UNITS:
NUMBER OF BCF: BUILD STATUS; */
EWV:126
/* STATUS
NW … NEW
BU … BACK-UP
FB … FALL-BACK
PARAMETER IS OBLIGATORY */
EWV:126:NW;
EXECUTION STARTED
THIS COMMAND CUTS ALL ONGOING CALLS IN THE RESETED BTS SITE
CONFIRM COMMAND EXECUTION: Y/N ? Y
SOFTWARE BUILD ACTIVATED
BCF NUMBER RESET REASON FOR DENIAL
———————————————————
BCF-0126 DENIED O & M LINK STATE
COMMAND EXECUTED
BCF SOFTWARE HANDLING COMMANDS
<
MAIN LEVEL COMMAND
< EWO:126;
LOADING PROGRAM VERSION 15.7-0
EXECUTION STARTED
BSC3i BSC83BRM 2011-04-12 15:33:37
BCF NUMBER STATUS BUILD-ID VERSION SUBDIR STATE SWMASTER
——————————————————————————–
BCF-0126 NW EP3_MP3 3.3-3 /PACK_17 DEFAULT
BU EP3_MP2_BL0017 3.2-3 /PACK_16
FB FLEXI_EP1_0 1.0-1 /PACK_8
COMMAND EXECUTED
MAIN LEVEL COMMAND
< ZEWH
LOADING PROGRAM VERSION 15.7-0
/* DATA UNITS:
NUMBER OF BCF: FIRST STATUS, SECOND STATUS; */
EWH:126
/* STATUS
PARAMETER NAMES:
ST1 ….. FIRST STATUS OBLIGATORY
ST2 ….. SECOND STATUS OBLIGATORY */
EWH:126:ST1
/* FIRST STATUS
NW … NEW
BU … BACK-UP
FB … FALL-BACK */
EWH:126:ST1=BU
/* STATUS
PARAMETER NAMES:
ST1 ….. FIRST STATUS OBLIGATORY
ST2 ….. SECOND STATUS OBLIGATORY */
EWH:126:ST1=BU,ST2
/* SECOND STATUS
NW … NEW
BU … BACK-UP
FB … FALL-BACK */
EWH:126:ST1=BU,ST2=NW
/* STATUS
PARAMETER NAMES:
ST1 ….. FIRST STATUS OBLIGATORY
ST2 ….. SECOND STATUS OBLIGATORY */
EWH:126:ST1=BU,ST2=NW;
EXECUTION STARTED
SOFTWARE BUILD STATUSES CHANGED
BCF NUMBER FIRST STATUS SECOND STATUS
———————————————-
BCF-0126 BU NW
COMMAND EXECUTED
BCF SOFTWARE HANDLING COMMANDS
< ZEWO
LOADING PROGRAM VERSION 15.7-0
/* DATA UNITS:
NUMBER OF BCF; */
EWO:126
/* SELECT EXECUTION DETERMINATION OR
SYSTEM NAME OF OUTPUT DEVICE
EXECUTION DETERMINATION:
; .. COMMAND EXECUTION
N .. NO EXECUTION
SYSTEM NAME OF OUTPUT DEVICE:
1 … 11 CHARACTERS
DEFAULT IS CURRENT DEFINITION */
EWO:126;
EXECUTION STARTED
BSC3i BSC83BRM 2011-04-12 15:35:14
BCF NUMBER STATUS BUILD-ID VERSION SUBDIR STATE SWMASTER
——————————————————————————–
BCF-0126 NW EP3_MP2_BL0017 3.2-3 /PACK_16
BU EP3_MP3 3.3-3 /PACK_17 DEFAULT
FB FLEXI_EP1_0 1.0-1 /PACK_8
COMMAND EXECUTED
BCF SOFTWARE HANDLING COMMANDS
<
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Nokia Flexi BTS RF cabling configuration
16TuesdaySEP 2014
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Nokia Flexi BTS Splitting RF cabling configuration :
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2+2+2 HW RF Configuration cabling:
4+4+4 HW RF Configuration cabling:
Logical Cabling:
6+6+6 HW RF Configuration cabling:
Logical Cabling:
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Ceragon IP-10 IDU CLI Commands List
21TuesdayJAN 2014
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Command Line Interface (CLI):-
If you do not Ceragon IP-10 IDU IP address IP detail so you can learn it by Hyper Terminal to login. IDU and other work to set up the IP and login commands –
Click here to download file for commands list
Microwave Point-to-Point: FibeAirIP-10
• Manufacturer: Ceragon Networks (Israel)
• Basic parameters:
• Licensed 6-38GHz band (given a choice ODU)
• Bandwidth 7 -56 MHz full duplex (SW tunable)
• Capacity 10-500Mbps (same HW, license increments)
• Interface:
• 1x 1000BaseX (SFP)
• 1x 10/100/1000BaseT
• 5x 10/100 BaseT
• 16x E1
• Integrated Ethernet switch
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FibeAirIP-10: The main advantages
• Native TDM (E1) anativníEthernet, with no kind of traffic is mapped over the other, both dynamically share a
common bandwidth
• Maximálnívyužití bandwidth
• Low transport delay (• Unique 8-state adaptive modulation for maximum availability, seamless and flawless
switching
• Extended support QoS (IPv4/IPv6, Q-in-Q, STP / RSTP / MSTP, …)
• Statistics (radio, transmission, operation)
• SNMP and HTTP management
• Scalable solution for optimal distribution points (6U)
• CertifikovánoMEF MEF-9-14 (for EPL, EVPL, E-LAN)
• Compact IDU (1U), compact ODU (2.5 kg), low power consumption
• Full scalability (1 +1, 2 +0, Hot standby …)
Add caption
• Connect a serial cable to the terminal port
• Setting up HyperTerminal:
• Bit rate: 115200, data bits: 8, parity: none, stop bits: 1 Flow Control: no
• Recommended: type VT-100, size: 24 rows, 80 columns
• Default login:
• User: admin
• Password: admin
• After pressing get prompt
• The IP address IDU:
• IP-10 :/> cdmanagement / networking / ip-address
• IP-10 management :/ / networking / ip-address> get ip-addressBasic Commands The following basic commands are available when you first log in, if you belong to the Operator user group: ls List entities get Get parameter set Set parameter help Help cd Change directory exit Exit CLI logout Logout from CLI cli-ver CLI version cls Clear screen shell Enter secondary shell write Write the current switch configuration to the configuration file show-tree Show entity tree find Search for a string in the parameter’s entity name and information fields lsp List entity parameters and commands echo echoing free text to the console Note: To perform the operations in this guide, you should log in as follows: User: admin or operator Password: admin
Basic System ConfigurationSetting IP AddressesTo define a new IP address, do the following at the main unit:1. Log in as follows:User: admin or operatorPassword: admin2. At the command prompt, type: cd management/networking/ip-address/, and press Enter.3. Type: get ip-address, and press Enter. This will give you the current IP address.4. Type: set ip-address (the new IP address), and press Enter.Adding UsersTo define a new user, do the following:1. Log in.2. At the command prompt, type: cd management/mng-services/users/, and press Enter.3. Type: add-user , and press Enter.4. Type the password for the new user.
Navigating between Stacked UnitsGoing from the Main Unit to a Different UnitAfter log-in, a prompt always appears at the main unit. Tto change the prompt to a different unit, do thefollowing:1. Log in.2. At the command prompt, type: cd /platform/shelf-manager/, and press Enter.
3. Type: logon-unit , and press Enter.The prompt will change according to the relevant slot ID. For example, the prompt for a unit located in slot3 will show:IP-10-SLOT-3:/>Returning to the Main UnitIn order to go back to the main unit, do the following:1. Log in.2. At the command prompt, type: cd /platform/shelf-manager/, and press Enter.
TDM Trail ManagementDefining a TDM TrailTo define a TDM trail, do the following at the main unit:1. Log in.2. At the command prompt, type: cd /interfaces/pdh/trails/, and press Enter.3. Type: add-trail2 slot #> , and press Enter.Argument Description:• Trail-ID: up to 16 alphanumeric characters• Trail description: string of up to 32 characters• ACM priority: high or low• Operational/reserved: reserved trails are introduced in the database and the bandwidth won’t beused for TDM traffic (it may be used for ethernet traffic) but traffic does not flow. For operationaltrails, bandwidth is fully allocated and traffic flows.• Protected/unprotected: unprotected trails map between two interfaces only. Protected trails mapbetween an end-point interfaces and two other interfaces, the first of which is the primary path andthe second of which is the secondary path (see the SNCP section below).• Interface slot: slot number of the IDU containing the interface (from 1 to 6).• Interface type: line (E1/T1) or radio• Interface number: the number of the E1/T1 interface or radio VC to be used.o For E1/T1 it can be 1 to 32 (1 to 16 if no extra 16 E1 T-card is installed)o For radio, the maximum number depends on the radio script being usedUnprotected trail example:add-trail id1 desc1 high operational unprotected 1 line 1 1 radio 1.
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NEC, FIU & ULTRA BTS Cables Configuration for Telecom Equipments
21TuesdayJAN 2014
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NEC Tributary Cable Colour Code
Interface Tx Rx
1Blue – Yellow Red – Green
2 Black – Gray Red – Orange
3Black – Brown Red – Blue
4Black – Green White – Gray
5Black – Orange
White – Brown
6Balack –
BlueWhite – Green
7 Red – GrayWhite – Orange
8 Red – Brown White – Blue
Nokia FIU 19E Login Cable Pin Configuration
RJ-45 DB-9 (Female)
6 2
5 3
4 5Nokia Ultra BTS Login Cable Pin Configuration
DB-9 (Male) DB-9 (Female)
3 2
2 3
5 5
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