ZXMW NR8120A/8120D Digital Microwave Transmission System
Configuration Guide Version: V2.04.02
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[email protected]
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Revision History Revision No.
Revision Date
R1.1
2015-10-23
Revision Reason Modify “Configuring Ethernet Ports”: add the steps of querying the port status.
R1.0
2015-10-16
First Edition
Serial Number: SJ-20150804150350-005 Publishing Date: 2015-10-23 (R1.1)
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About This Manual Purpose This manual provides information about configuring the ZXMW NR8120A/8120D Digital Microwave System on the Local Maintenance Terminal (LMT). Take the ZXMW 8120D as an example.
Intended Audience This manual is intended for: l l
Commissioning engineers Maintenance engineers
What Is in This Manual This manual contains the following chapters: Chapter 1, Preparations
Describes the preparations before the ZXMW NR8120A/8120D configuration.
Chapter 2, NE Basic Data
Describes the configuration flow and configuration example of ZXMW
Configuration
NR8120A/8120D NE basic data.
Chapter 3, Radio Link Data
Describes the configuration flow and configuration example of ZXMW
Configuration
NR8120A/8120D radio link data.
Chapter 4, TDM Service
Describes the configuration flow and configuration example of ZXMW
Data Configuration
NR8120A/8120D TDM service data.
Chapter 5, Ethernet Service
Describes the configuration flow and configuration example of ZXMW
Data Configuration
NR8120A/8120D Ethernet service data.
Chapter 6, Clock Data
Describes the configuration flow and configuration example of ZXMW
Configuration
NR8120A/8120D clock data.
Chapter 7, Other
Describes the operation procedures of other service configuration
Configuration Operation
on the LMT.
Chapter 8, Configuration
Describes the configuration check items.
Check
Conventions This manual uses the following conventions.
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Danger: indicates an imminently hazardous situation. Failure to comply can result in death or serious injury, equipment damage, or site breakdown. Warning: indicates a potentially hazardous situation. Failure to comply can result in serious injury, equipment damage, or interruption of major services. Caution: indicates a potentially hazardous situation. Failure to comply can result in moderate injury, equipment damage, or interruption of minor services. Note: provides additional information about a topic.
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Chapter 1
Preparations Table of Contents Preparing Tools and Software.....................................................................................1-1 Logging in to the Web LMT.........................................................................................1-1 Checking Versions......................................................................................................1-4
1.1 Preparing Tools and Software Prepare a computer that meets the following configuration requirements: l
l
Operating system: à
Microsoft Windows XP
à
Microsoft Windows 7
Web browser: Microsoft Internet Explorer 6.0, 7.0 or 8.0. Internet Explorer 8.0 is recommended.
1.2 Logging in to the Web LMT Users can log in to the Web Local Maintenance Terminal (LMT) by using either of the following methods: l Log in through the RCMUC/RCMUD boards' LMT interface, which has an initial IP address of 192.168.1.16. The IP address can be modified after login through the LMT interface. l Log in through the RCMUC/RCMUD boards' network management system (NMS) interface, which has an IP address that is the same as that of the NE.
Context The second method of logging in to the Web LMT helps log in to the entire network management system, which is NetNumen M31 (MW). Before using the second method to log in to the Web LMT, users must use the first method to log in to the Web LMT once. The detailed procedures are described as follows: 1. Log in to the Web LMT through the RCMUC/RCMUD boards' LMT interface. 2. In the left pane, select Setup > System > Parameter. The system parameter configuration page is displayed. 3. Modify the IP address, which should be unique in the entire network. 4. Log in to Web LMT through the RCMUC/RCMUD boards' NMS interface. The following describes how to log in to the Web LMT by using the first method. 1-1 SJ-20150804150350-005|2015-10-23 (R1.1)
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Steps 1. Right-click the My Network Places icon on the desktop, and click Properties from the shortcut menu. Right-click the local connection icon, and click Properties, see Figure 1-1. Figure 1-1 Local Area Connection Properties Dialog Box
2. Double-click Internet Protocol (TCP/IP). In the Internet Protocol (TCP/IP) Properties dialog box, select Obtain an IP address automatically, see Figure 1-2.
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Chapter 1 Preparations
Figure 1-2 Internet Protocol (TCP/IP) Properties Dialog Box
3. Click OK. 4. Use an Ethernet cable to connect the LMT interface of the IDU's RCMUC/RCMUD with the PC.
Note: This is the method of logging in through the RCMUC/RCMUD board's LMT interface. For the method of logging in through the RCMUC/RCMUD board's NMS interface, you should connect the NMS interface to the PC. You must enable the NMS interface before using it, because this interface is disabled by default.
5. Run the Internet Explorer. Enter the IP address of the IDU's LMT interface, for example, http://192.168.1.16, and press Enter. The Web LMT login dialog box is displayed, see Figure 1-3.
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Figure 1-3 Web LMT Login Dialog Box
6. Enter the user name in User Name and the password in Password. Then, click LOGIN. After the login succeeds, the system interface is displayed, see Figure 1-4. Figure 1-4 Web LMT Home Page (ZXMW 8120D)
– End of Steps –
1.3 Checking Versions This procedure describes how to check IDU ,ODU and AOU versions and update them if required.
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Chapter 1 Preparations
Steps 1. In the left pane, select Maintenance > Version > IDU Version. 2. Check the IDU version in the Version Management area, see Figure 1-5. Figure 1-5 IDU Version
Note: Package status description: l l l
The RUNNING status indicates a running IDU version. The VALID status indicates an activated backup IDU version. The NOT VALID status indicates a backup IDU version that is not activated.
3. Click the Query button in the Hardware Version Information area, see Figure 1-6. Figure 1-6 Hardware Version Information
4. In the left pane, select Maintenance > Version > ODU. 5. Check the ODU version in the right pane, see Figure 1-7.
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Figure 1-7 ODU Version
6. Ensure that the IDU, ODU and AOU versions are correct. If not, update the versions.
Note: It is unnecessary to update the ODU version manually. The system will update the ODU version to the latest automatically.
– End of Steps –
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Chapter 2
NE Basic Data Configuration Step
Configuration
Description
1
Configure the NE name and IP address.
Required For the configuration procedure, refer to “2.1 Configuring the NE Information”.
2
Configure the NE time and time zone.
Required For the configuration procedure, refer to “2.2 Configuring the NE Time”.
3
Configure the connection between the
Required
NE and NMS.
For the configuration procedure, refer to “2.3 Configuring the NMS”.
4
Configure AOU host.
Required if AOU is managed as an element of IDU. For the configuration procedure, refer to “2.4 Configuring AOU Host”.
Table of Contents Configuring the NE Information ..................................................................................2-1 Configuring the NE Time ............................................................................................2-4 Configuring the NMS ..................................................................................................2-8 Configuring AOU Host ..............................................................................................2-10
2.1 Configuring the NE Information This section describes how to configure NE information, such as NE name and IP address. An NE ID and NE IP address can identify an NE in a network. The NE IP address is used for communication through Transmission Control Protocol (TCP)/IP. After the NE information is configured, users can manage the NE through the NMS interface on the RCMUC/RCMUD board.
Steps 1. In the left pane, select Setup > System > Parameter. configuration page is displayed, see Figure 2-1.
The system parameter
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Figure 2-1 System Parameter Configuration Page
2. Set the NE information. For a description of the parameters, refer to Table 2-1. Table 2-1 System Parameter Description Parameter
Value Range
Default
Description
Value Site ID
-
-
Sets the site name. It can contain at most 100 characters, which cannot be , &, '', ?, +, or \.
NE ID
1–65535
0
Configured in the NetNumen U31 Unified Management System.
NE Name
-
zte
Sets the name of an NE. Usually, it is set to the site name. It can contain at most 30 characters, including numbers, letters, and symbols (@, (, ), -, _, and .), which cannot be , &, ?, +, or \.
NE Type
l
NR8120A
NR8120A or
Sets the equipment type. It is set to the default
l
NR8120D
NR8120D
value and cannot be modified.
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Chapter 2 NE Basic Data Configuration
Parameter
Value Range
Default
Description
Value Device IP
-
193.254.1.2
Address
Sets the IP address of an NE connected to the Internet through the NMS interface. It can be modified. This parameter cannot be set to the following values: l
IP addresses that start with 127 or 192. An IP address that starts with 127 is a loopback address of the host, that is, an IP address used by the NE to send IP packets to itself. It is used for network software tests and local inter-process communication. An IP address that starts with 192 is used for LMT port debugging.
l
Broadcast addresses The IP addresses in which host ID consists of all 1s are broadcast addresses. For example, the broadcast address for the 10.1.1.0/24 network segment is 10.1.1.255.
l
Multicast addresses (from 224.0.0.0 to 239.255.255.255).
Device MAC
-
-
Sets the MAC address of the microwave NE.
Address
The value of this parameter is displayed automatically and cannot be configured.
Subnet Mask
-
255.255.255
Sets the subnet mask of an NE. It is used
.0
with the Device IP Address parameter to separate the IP address of an NE into two parts: network address and host address.
193.254.1.1
Sets the default gateway for an NE. It is the IP
Default
IP addresses
Gateway
except those
address of an IP router that can be reached
start with 127 or
directly.
192, broadcast
When the NE sends a data packet, if there is
addresses,
no available gateway, the data packet is sent
and multicast
to the default gateway for processing.
addresses
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Parameter
Value Range
Default
Description
Value NE Health
l
No Alarm
l
Minor
No alarm
Displays the current device status.
Alarm l
Major Alarm
l
Critical Alarm
After this task is completed, users can log in to the Web LMT through the RCMUC/RCMUD's NMS interface (the NMS interface is On and enabled). The PC's IP address and the NE's IP address must be configured in the same network segment. 3. Click Apply. – End of Steps –
2.2 Configuring the NE Time This procedure describes how to set the system time and time zone, which provides time references for functions such as fault management and performance query. After the time zone is changed, the system time is updated automatically.
Steps Configuring the NE Time Zone 1. In the left pane, select Setup > System > Time. The system time configuration page is displayed, see Figure 2-2.
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Chapter 2 NE Basic Data Configuration
Figure 2-2 System Time Management Page
2. In the Time Zone Management area, select System Time Zone or Custom Time Zone. And select the time zone of the NE from the drop-down list, see Figure 2-3. Figure 2-3 Time Zone Configuration Example
3. Click Apply. Configuring the NE Time 4. Click the System Time text box in the System Time Management area. The calendar is displayed, see Figure 2-4.
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Figure 2-4 Configuring the System Time
5. In the System Time text box, move the cursor to the time part, delete the incorrect time, and enter the accurate time in the form of HH:MM:SS. 6. Click Apply. Configuring SNTP Management 7. In the SNTP Management area, configure the parameters. For a description of the parameters, refer to Table 2-2. Table 2-2 SNTP Management Parameters Parameter
Value Range
Default Value
Description
SNTP Clock
l
Enable
Disable
Enables or disables the SNTP clock
Sync Service
l
Disable
Server IP
l
The server
Address
l
synchronization service. 192.168.1.1
Usually, an SNTP server is a
IP address
device with SNTP configuration.
cannot be the
The network management server
IP address of
is often used as SNTP server.
the NMS or
If the SNTP server is available,
Debug port.
time can be calibrated to ensure
The server
time consistency within the entire
IP address
network.
cannot be the loopback IP address (the IP addresses of 127.***.) l
The server IP address can be A.x.x.x. “A” must be within the 2-6
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Chapter 2 NE Basic Data Configuration
Parameter
Value Range
Default Value
Description
6
Sets the interval of server time
range from 0 to 224, excluding 0 and 224. Time Interval (h)
1–24
synchronization. Timeout (s)
1–10
6
Sets the time of waiting for response from the server during the process of time calibration between a device and the server. If the parameter value expires, the system time is not calibrated properly.
System Time
-
-
Displays the current system time.
8. Click Apply. Configuring the DST Time 9. In the Summer Time Management area, configure the Daylight Saving Time (DST) parameters. For a description of the parameters, refer to Table 2-3. Table 2-3 Summer Time Management Parameters Parameter
Value Range
Default Value
Description
Summer Time
l
Enable
Disable
The DST system is a local time
l
Disable
system used to save energy. In areas where the DST system is applied, the unified time used is called summer time. In summer when daybreak is earlier, time is set one hour ahead of the standard time. It helps reduce lighting cost and make full use of sunlight. Countries that use the DST system have different regulations. Almost 110 countries use the DST system every year around the world.
Start Time
MM: 1–12
(MM-dd HH:mm)
dd: 1–30 (31)
01-01 00:00
Sets the start time of the DST system.
hh: 0–23 mm: 0–59
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Parameter
Value Range
Default Value
Description
End Time
MM: 1–12
01-01 00:00
Sets the end time of the DST
(MM-dd HH:mm)
dd: 1–30 (31)
system.
hh: 0–23 mm: 0–59 Step (h)
1–10
1
The DST system can adjust the current time according to the set offset. For example, if Offset is set to 1, the summer time is one hour ahead of the standard time. In other words, if the standard time is 10 a.m., the summer time is 11 a.m..
10. Click Apply. – End of Steps –
2.3 Configuring the NMS The ZXMW NR8120A/8120D manages microwave equipment remotely by using inband network management mode. Users need to set Simple Network Management Protocol (SNMP) IP parameters to add the Network Management System (NMS) IP address to the IP address list.
Steps 1. In the left pane, select Setup > NMS. The NMS configuration page is displayed, see Figure 2-5.
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Chapter 2 NE Basic Data Configuration
Figure 2-5 NMS VLAN and Bandwidth Configuration Example
2. Enter the network management VLAN ID, and then click Apply. 3. Select the required bandwidth, and then click Apply. 4. In the left pane, select Security > SNMP. The SNMP configuration page is displayed, see Figure 2-6. Figure 2-6 SNMP Configuration Page
5. From the Switch drop-down list, select ON or OFF. l If OFF is selected, the system does not filter NMS IP addresses. l If ON is selected, the system filters added NMS IP addresses. If there is no added IP address, the system does not filter NMS IP addresses. 6. Click Add. The SNMP IP Address Configuration dialog box is displayed, see Figure 2-7. 2-9 SJ-20150804150350-005|2015-10-23 (R1.1)
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Figure 2-7 SNMP IP Address Configuration Dialog Box
7. Enter the NMS name in the Name text box, enter the NMS IP address in the IP Address text box, select Enable as the status, and then click Apply. Then, the NMS IP address is added to the IP address list. – End of Steps –
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Chapter 3
Radio Link Data Configuration Step
Configuration
Description
1
Configure the work mode.
Required. For the configuration procedure, refer to “3.1 Configuring the Work Mode”.
2
Configure ODU
Required.
parameters.
For the configuration procedure, refer to “3.2 Configuring ODU Parameters”.
3
Configure the ATPC
Required if the interference of the ZXMW NR8120A/8120D to
function.
the adjacent system, DC power consumption, and influence of level fading at the transmit end to the receive end need to be reduced. For the configuration procedure, refer to “3.3 Configuring the ATPC Function”.
4
Configure the ACM function.
Required if the spectrum utilization needs to be improved to increase system transmission capacity and guarantee reliable transmission of high priority services. For the configuration procedure, refer to “3.4 Configuring the ACM Function”.
5
Configure the PIS
Mandatory if Ethernet data priorities need to be determined
function
at the air interface and services with a high priority need to be scheduled first. For the configuration procedure, refer to “3.5 Configuring the PIS Function”.
Table of Contents Configuring the Work Mode ........................................................................................3-2 Configuring ODU Parameters.....................................................................................3-3 Configuring the ATPC Function ..................................................................................3-5 Configuring the ACM Function....................................................................................3-6 Configuring the PIS Function......................................................................................3-9
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3.1 Configuring the Work Mode This procedure describes how to configure the operation mode, bandwidth, and modulation mode of the equipment in accordance with the network planning. A broader bandwidth indicates a higher modulation mode and a larger radio transmission capacity but a lower system transceiving performance. The bandwidths for TDM services and Ethernet services are allocated automatically in accordance with the traffic. This feature increases the bandwidth utility.
Caution! The configuration of work mode results in instantaneous service disconnection.
Steps 1. In the left pane, select Radio Link > Basic Configuration. The radio link configuration page is displayed, see Figure 3-1. Figure 3-1 Basic Radio Link Configuration Page
Note: Current Capacity is calculated by the default bandwidth and modulation mode.
2. Click the tab of the transmit unit to be configured. In the Transmit Unit Info area, the information of the current transmission unit, such as slot number, capacity, and whether ACM is supported, is displayed. 3-2 SJ-20150804150350-005|2015-10-23 (R1.1)
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Chapter 3 Radio Link Data Configuration
3. Select the bandwidth and the modulation mode from the Bandwidth and Modulation Mode lists respectively, see Figure 3-2. Figure 3-2 Configuring the work Mode
Bandwidth: 7 M, 14 M, 28 M, 56 M and 40 M. Modulation Mode: QPSK , 16QAM , 32QAM , 64QAM , 128QAM , 256QAM , 512QAM, 1024QAM, and 2048QAM. 4. Select or clear Set also remote unit as required. l If Synchronize bandwidth to remote NE is selected, the bandwidth setting at the remote end is synchronized with the local end. l If Synchronize bandwidth to remote NE is cleared and the operation mode of the remote end is different from the local end, the communication link is broken. 5. Click Apply. – End of Steps –
3.2 Configuring ODU Parameters This procedure describes how to set the ODU frequency parameters and power parameters. To ensure normal communication, the ODU transmit power and receive power of the local end must match those of the remote end respectively.
Steps 1. In the left pane, select Radio Link > Basic Configuration. The radio link configuration page is displayed. In the RF Parameter Configuration area, configure Frequency Parameter (kHz) and Power Parameter (dBm), see Figure 3-3.
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Figure 3-3 RF Parameter Configuration Area
2. In accordance with the frequencies in the microwave link planning, enter the frequencies of the the master ODU and slave ODU in TX Frequency Configuration text box. The transmit frequency must be within the range which is set by TX Frequency Range. 3. When ODU Type is SRU, select the duplex spacing of the master/slave ODU from the T/R Spacing drop-down list. When ODU Type is Others, configure RX Frequency Configuration. The value must be within the TX Frequency Range. 4. In the TX Power Configuration text box, enter the transmit power of the master ODU and the slave ODU. The configured transmit power must be within the range which is set by TX Power Range. 5. (Optional) Select Synchronize TX frequency configuration to remote NE.. l If you modify the transmit frequency or receive frequency for the local end and clear Synchronize TX frequency configuration to remote NE., the link in use will be disconnected after you click Apply. l If you modify the transmit frequency or receive frequency for the local end and select Synchronize TX frequency configuration to remote NE., both the transmit frequency and receive frequency for the remote end are modified after you click Apply and the link in use will not be disconnected. 6. Click Apply. – End of Steps –
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Chapter 3 Radio Link Data Configuration
3.3 Configuring the ATPC Function The Automatic Transmit Power Control (ATPC) function enables the system to adjust the transmission power at the local end in accordance with the receive power at the remote end. If the receive level at the remote end is not within the ATPC adjustment range, the transmission power needs to be adjusted to enable the receive power at the remote end to be within the adjustment range. If the transmission power of ODU is adjusted to the threshold value but the receive power at the remote end is not within the ATPC adjustment range, the transmission power does not need to be adjusted.
Context l l l
During the process of exchanging microwave link's antennas, ATPC Switch should be set to OFF, and the transmission power of ODU should be set to an appropriate value. The ATPC function can be accomplished only when it is enabled on both ends. After the ATPC function is disabled, the transmission power of ODU return to the value before ATPC is enabled. That may lead to instantaneous link disconnection.
Steps 1. In the left pane, select Radio Link > Basic Configuration, and select ATPC Parameter Configuration, see Figure 3-4. Figure 3-4 ATPC Parameter Configuration Example
2. Configure the ATPC parameters. For a description of the parameters, refer to Table 3-1. Table 3-1 ATPC Parameters Parameter
Value Range
Default
Description
Value ATPC Enable
l
Enable
l
Disable
Disable
Determines whether to enable the ATPC). With this function, the system transmission power can be adjusted within a certain range according to the remote end receiving level.
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ZXMW NR8120A/8120D Configuration Guide
Parameter
Value Range
Default
Description
Value High
–70 to –30
–45
Sets the highest transmission power of the
Threshold
ATPC function. The ATPC function automatically adjusts the transmission power at the local end according to the receive level at the remote end. If the receive level at the remote end is not within the ATPC adjustment range, it is necessary to adjust the transmission power to make the receive level at the remote end be within the adjustment range. If the ODU transmission power is adjusted to the power threshold but the receive level at the remote end is not within the ATPC adjustment range, the transmission power will not be adjusted.
Low
–70 to –30
–65
Sets the lowest received level at the remote end.
–20 to 40
0
Sets the lowest transmission power at the local
Threshold Min Tx Power (dBm)
end. It ensures that the receiving condition at the remote end is not affected by signal degradation due to low transmission power at the local end during ATPC adjustment. The priority of this parameter is higher than ATPC low threshold.
Max Tx
–20 to 40
0
Sets the highest transmission power at the local
Power (dBm)
end. It ensures that other links can operate properly and are not affected by high ODU transmission power at the local end during ATPC adjustment. The priority of this parameter is higher than ATPC high threshold.
3. Click Apply. – End of Steps –
3.4 Configuring the ACM Function The ACM function enables the device to use different modulation modes in accordance with the current channel status, which is represented by the Mean Square Error (MSE) value. This function improves system transmission efficiency and spectrum utilization when the channel quality is good. It also ensures link reliability of high priority services when the channel quality is deteriorated. 3-6 SJ-20150804150350-005|2015-10-23 (R1.1)
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Chapter 3 Radio Link Data Configuration
Context l l l
During the process of exchanging microwave link's antennas, ACM Switch should be set to OFF. The ACM function can be implemented only after it is enabled at both ends of the link. The change of ACM Switch status results in instantaneous link disconnection.
Steps 1. In the left pane, select Radio Link > Basic Configuration, and select ACM Configuration, see Figure 3-5. Figure 3-5 ACM Configuration Example
2. Configure the ACM parameters. For a description of the parameters, refer to Table 3-2. Table 3-2 ACM Parameters Parameter
Value Range
Default
Description
Value ACM Enable
l
Enable
l
Disable
Disable
Sets whether the ACM function is enabled. The ACM function enables the coding and modulation modes to be automatically adjusted according to channel quality.
MSE
Automatically
-
Sets the MSE value in the active status
evaluated by the
and standby status.
system
MSE reflects the digital signal performance. The RMUC/RMUD board receives IF signals, filters and decodes the signals, and outputs them as digital signals. Normally, if the MSE value is less than -32, the signal performance is good.
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Parameter
Value Range
Default
Description
Value l
Running TX
Automatically
Modulation
evaluated by the
this parameter will be regulated
system
automatically according to channel
-
If the ACM function is enabled,
quality. l
If the ACM function is disabled, this parameter is applied as the transmit modulation mode at the local end.
l
Running RX
Automatically
Modulation
evaluated by the
this parameter will be regulated
system
automatically according to channel
-
If the ACM function is enabled,
quality. l
If the ACM function is disabled, this parameter is applied as the receive modulation mode at the local end.
Start Modulation
End Modulation
Record ACM Log
l
QPSK
l
16QAM
one-hop link when the ACM function is
l
32QAM
enabled.
l
64QAM
l
128QAM
l
256QAM
l
512QAM
l
1024QAM
l
2048QAM
l
QPSK
l
16QAM
one-hop link when the ACM function is
l
32QAM
enabled. The end modulation mode must
l
64QAM
be higher than the start modulation mode.
l
128QAM
If they are the same, the ACM function
l
256QAM
does not take effect.
l
512QAM
l
1024QAM
l
2048QAM
l
Enable
l
Disable
-
-
Disable
Sets the lowest modulation mode for a
Sets the highest modulation mode for a
Sets whether the Record ACM Log function is enabled.
3. Click Apply. – End of Steps –
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Chapter 4
TDM Service Data Configuration Step
Configuration
Description
1
Configure cross
Required for the TDM relay service.
connections.
For the configuration procedure, refer to “4.1 Configuring a P2P Route”.
2
Configure the SNCP
Required if a Sub-Network Connection Protection (SNCP) ring
route.
network needs to be configured. For the configuration procedure, refer to “4.2 Configuring an SNCP Protection Route”.
Table of Contents Configuring a P2P Route............................................................................................4-1 Configuring an SNCP Protection Route ......................................................................4-3 Configuring an SNCP+ Protection Route ....................................................................4-5 Configuring the CES Function ....................................................................................4-8
4.1 Configuring a P2P Route This section describes how to configure cross connection of TDM services, that is, the route of TDM services. The ZXMW NR8120A/8120D supports cross connections between E1-level TDM services.
Steps 1. In the left pane, select TDM > P2P. The TDM P2P route configuration page is displayed, see Figure 4-1.
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Figure 4-1 P2P Route Configuration Page
2. Click Add, the P2P Route Configuration dialog box is displayed, see Figure 4-2. Figure 4-2 P2P Route Configuration Dialog Box
Configuring routing parameters 3. Select priority level 1–6 from the Priority drop-down list. 4. Set Shelf No., TN, and Port No. at the source end. For 1+1 protection, the TN of the RCMUC/RCMUD is 5. 5. Set Shelf No., TN, and Port No. at the destination end. TN is the transmit unit number configured on the shelf (generally, it is the slot number where the service board is located). For port number, refer to Port No. at the source end. Adding and activating cross connection configuration 6. Click Add to add TDM service route. The configured cross connection will be displayed in the P2P route table, and it is in inactivated state. 7. Select the cross connection, and click Activate. – End of Steps –
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4.2 Configuring an SNCP Protection Route This procedure describes how to configure SNCP protection route parameters, such as cross level, cross direction, and protection mode. SNCP protection, also called subnetwork connection protection, means that a dedicated protection route is pre-arranged for a network. When the working channel fails or the performance is deteriorated, the protection channel substitutes the working channel to ensure reliable microwave link transmission. The SNCP configuration specifies the principle of using the protection channel for TDM services, for example, whether to use the protective route when the working route is faulty and whether to switch back to the working route after it restores to normal operation.
Steps 1. In the left pane, select TDM > SNCP. The TDM SNCP route configuration page is displayed, see Figure 4-3. Figure 4-3 SNCP Route Configuration Page
2. Click Add, the dialog box is displayed, see Figure 4-4. Figure 4-4 SNCP Route Configuration Dialog Box
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Configuring route parameters 3. In the Priority drop-down list, select an appropriate priority level.
Note: The priority level is from 1 to 6. The smaller value of Priority is, the higher the corresponding priority level is.
4. In the Protection Mode drop-down list, select Non-Revertive or Revertive. l Non-Revertive: After the service is switched from the working channel to the protection channel due to poor channel quality, if the working channel restores normal, the service will not be switched back to the working channel. In this case, Wait-to-Restore Time(s) is in grey and not editable. l Revertive: After the service is switched from the working channel to the protection channel due to poor channel quality, if the working channel restores normal, the service will be switched back to the working channel after a specified WTR time. In this case, Wait-to-Restore Time(s) is editable, and the default value is 600 ms. 5. In the Hold-Off Time (ms) text box, enter the hold-off time. If the current channel is not restored within the specified hold-off time, the service will be switched to the other channel. This parameter helps avoid frequent switchover. 6. Set Shelf No., TN, and Port No. at the source end (including the active and protected). TN is the transmit unit number configured on the shelf (generally, it is the slot number where the service board is located). 7. Set Shelf No., TN, and Port No. at the destination end. TN is the transmit unit number configured on the shelf (generally, it is the slot number where the service board is located). For port number, refer to Port No. at the source end. Adding and activating SNCP protection 8. Click Apply, and the SNCP configuration is added to the SNCP route table. 9. Select the SNCP route and click Activate. Configuring SNCP switchover 10. Select an SNCP route in the SNCP route list, and click Switch. The SNCP Switch dialog box is displayed, see Figure 4-5.
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Figure 4-5 SNCP Switch Dialog Box
11. Select a switch command. l Auto: The service is automatically switched to the available channel according to the protection mode and the channel condition. l Protection Lockout: The protection channel is closed and no protection is provided. l Force to Slave: The system forcibly switches the service to the protection channel irrespective of whether the channel is normal or not. l Force to Master: The system forcibly switches the service to the working channel irrespective of whether the channel is normal or not. l Manual to Slave: Users need to manually switch the service to the protection channel when the protection channel is normal. If the protection channel is improper, the system automatically switches the service back to the working channel. l Manual to Master: Users need to manually switch the service to the working channel when the working channel is normal. If the protection channel is improper, the system automatically switches the service back to the protection channel. l Clear: The system clears the previous switchover operations, that is, clear the Hold On timer. After that, the SNCP clear command becomes an automatic command. 12. Click Apply. – End of Steps –
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Chapter 5
Ethernet Service Data Configuration Table of Contents Configuring Ethernet Ports Configuring a VLAN Configuring QoS Configuring the LACP Function
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5.1 Configuring Ethernet Ports Ethernet port is used to provide service access and signal transmission for microwave transmission.
Steps Configuring Physical Ethernet Interfaces 1. In the left pane, select Home > Home. The board page is displayed, see Figure 5-1. Figure 5-1 Board Page
The Ethernet electrical and optical interfaces are mutually exclusive. 2. Double-click the desired interface, and click Apply to enable it. The interfaces marked with red crosses are disabled interfaces. The interfaces without red crosses are enabled interfaces. Configuring Logical Ethernet Ports 3. Basic configurations of the Ethernet interface a. In the left pane, select ETH > Port Related > Basic Configuration. The basic port configuration page is displayed. Select the line where the port to be configured is located, and click Modify. The Port Configuration dialog box is displayed, see Figure 5-2.
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Figure 5-2 Ethernet Port Basic Configuration Page
b. Configure the related parameters. c.
Click Apply.
d. Use the same method to configure other ports.
– End of Steps –
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Chapter 5 Ethernet Service Data Configuration
5.2 Configuring a VLAN 5.2.1 Configuring VLAN Port Information This procedure describes how to configure port VLAN types, such as Access, Trunk, Hybrid, Customer, Provider, and UserDefine. Port Type
Description
Access
An Access port is used to connect the VLAN switch with a device that cannot identify VLAN tags, for example, work station. This port type transmits only frames without VLAN tags and can be associated with only one VLAN.
Trunk
A Trunk port is used to transmit services of multiple VLANs. This port type transmits only frames with VLAN tags and can bear multiple VLANs.
Hybrid
A Hybrid port can transmit frames with or without tags. However, for a specific VLAN, the frames transmitted by this port type must be all with tags or all without tags.
Customer
A Customer port is used to identify an inner VLAN tag or untagged packet, and add a specified outer VLAN tag. The frames whose TPID of the inner VLAN tag is consistent with the setting will be discarded. 5-11
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Port Type
Description
Provider
A Provided port is used to identify the outer VLAN tags that are consistent with the configured TPID and transmit them. At the same time, the inconsistent frames are discarded.
UserDefine
A UserDefine port is used for VLAN Tag in VLAN Tag (QinQ). It can be configured flexibly based on the actual requirement. QinQ allows adding a VLAN tag to the original 802.1Q tag packet. The original tag becomes the inner tag and the VLAN is marked as CVLAN. The added tag becomes the outer tag and the VLAN is marked as SVLAN.
Steps 1. In the left pane, select ETH > VLAN > Port Info Configuration. The VLAN port information page is displayed, see Figure 5-12. Figure 5-12 Port Information Configuration Page
2. Select the port to be configured and click Modify. The Port Configuration dialog box is displayed, see Figure 5-13.
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Figure 5-13 Port Configuration Dialog Box
3. Set Port Type, Port Default Priority, PVID, and VLAN ID. l The PVID must be within the VLAN ID. l The VLAN IDs to be added or deleted can be continuous or discrete. To add continuous VLAN IDs, use the symbol -, for example, 1-10. 4. Click Apply. – End of Steps –
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5.3 Configuring QoS Configuration Item
Description
Ingress
Traffic classification is to classify packets into different priorities
Traffic classification
or services. For the configuration procedures, refer to “5.4.1 Configuring Queue Priorities” and “5.4.3 Configuring the Access Control Policy (ACL)”. Traffic policing
Traffic policing is to limit the traffic entering a network to the allowed range. If the packet traffic of some connection is too large, traffic policing will discard the packet or reset its priority to protect network resources and the operator's investment. For the configuration procedure, refer to “5.4.2 Configuring Access Rate Control (CAR)”.
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Configuration Item
Description
Egress
Congestion
The congestion avoidance technology is normally used at the
avoidance and
network bottleneck to monitor network traffic load and avoid
management
potential congestions. The commonly used congestion avoidance mechanisms are tail drop, Random Early Detection (RED), and Weighted Random Early Detection (WRED). Congestion will occur on the interface where the arrival rate of packets is faster than the sending rate. The queue scheduling technology is always used to solve network congestion. For the configuration procedures, refer to “5.4.4 Configuring Queue Management” and “5.4.6 Configuring Packet Aging Time”.
Traffic shaping
Traffic shaping is to limit the traffic of a packet type from a port so that packets can be sent at an even speed; Buffer and token bucket are normally used to implement traffic shaping. The token bucket controls the rate for sending packets. The packets exceeding the rate limit are cached in the buffer and waits to be sent as scheduled. For the configuration procedure, refer to “5.4.7 Configuring the Flow Rate Limit Policy”.
5.3.1 Configuring Queue Priorities This procedure describes how to configure queue priorities for ports.
Steps 1. In the left panel, select ETH > QoS > Priority Mapping. configuration page is displayed, see Figure 5-17.
The queue priority
Figure 5-17 Port Priority Configuration Page
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2. Select the line where the port to be configured is located, and click Modify. The Priority Mapping dialog box is displayed, see Figure 5-18, Figure 5-19. Figure 5-18 Port Queue Priority Configuration Dialog Box (802.1p Page)
Figure 5-19 Port Queue Priority Configuration Dialog Box (DSCP Page)
3. Configure the port queue priority mapping parameters. 4. Click Apply. – End of Steps –
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5.3.2 Configuring Queue Management This section describes how to set the queue management policy and the congestion management (CM) policy. Three CM policies are supported: l l
l
Tail Drop: It is the default congestion management policy. Due to limited capacity of the tail drop chip, the packets exceeding the capacity are discarded directly. Random Early Detection: This policy supports flexible configurations. You can set the threshold and probability of dropping packets for each queue color. Among the three colors (yellow, red, and green), yellow queues have the same threshold and probability as red queues. Weighted Random Early Detection: The queue length percentage and packet drop rate of the packets marked in yellow or green should be configured respectively for a port.
Steps 1. In the left pane, select ETH > QoS > Queue Management. The queue management policy configuration page is displayed, see Figure 5-25. Figure 5-25 Queue Management Policy Configuration Page
2. Select the port to be configured and click Detach. 3. On the QoS Mode CFG page, configure the Mode Type, see Figure 5-26.
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Figure 5-26 Configure the Mode Type
4. Switch to the Congest CFG page, see Figure 5-27. Figure 5-27 Congest CFG Page
5. Configure the congestion management parameters. parameters, refer to Table 5-8.
For a description of the
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Table 5-8 Congestion Management Parameters Parameter
Value Range
Default
Description
Value Congestion
l
Tail Drop
Management
l
RED
congestion mode.
Policy Select
l
WRED
l
Tail Drop
l
Random Early Detection
l
Weighted Random Early Detection
Red/Yel-
Tail Drop
0–100
0
low/Green
Sets the policy for dropping packets in
Sets the threshold of red/yellow/green packet length to drop packets.
Packet Drop Threshold Red/Yel-
0–100%
100.0%
low/Green
Sets the maximum drop percentage of red/yellow/green packets.
Packet Maximal Drop Percent
6. Switch to the QoS Para CFG page, see Figure 5-28. Figure 5-28 QoS Para CFG Page
a. Click Modify after the port name, configure the port parameter, see Figure 5-29.
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Figure 5-29 Configure Port Parameter
b. Click Modify after the queue name, configure the quene parameter, see Figure 5-30. Figure 5-30 Configure Quene Parameter
– End of Steps –
5.4 Configuring the LACP Function Link Aggregation Control Protocol (LACP) is based on the IEEE802.3ad standard. It is used to implement dynamic link aggregation. It allows binding multiple physical interfaces into a logical interface. The physical interfaces form a redundant and backup relationship and implement load sharing. The LACP function enables multiple physical links to be bound into a logical link and form a link aggregation group. It accomplishes the following functions: l
Increasing bandwidth: The width of the bound physical links is the sum of the bandwidths of all physical links in the link aggregation group.
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l l
Improving system stability and availability: The aggregation link is available even if one physical link is disconnected. Sharing load: The aggregation link sends data in accordance with a policy to achieve load balancing.
Prerequisite l l
The required boards and ports are added. The corresponding ports are enabled in the Ethernet port configuration.
Steps 1. In the left pane, select ETH > Port Related > Port Configuration. The port configuration page is displayed. Ensure that the ports for configuring aggregation are all enabled. If not, enable the disabled ports. 2. Configure the LACP port: a. In the left pane, select ETH > LACP > Port Configuration. The LACP port configuration page is displayed. Click Add. The Port Configuration dialog box displayed, see Figure 5-39. Figure 5-39 Port Configuration Dialog Box
b. From the Port drop-down list, select the port to be aggregated. Configure the LACP port parameters. For a description of the parameters, refer to Table 5-13. Table 5-13 LACP Interface Configuration Parameters Parameter
Value Range
Default
Description
Value Port
Port names in
-
Specifies the port and its slot for
the drop-down
configuring the LACP protocol.
list
The ports that can be configured as LACP ports are Ethernet physical port and Ethernet air interface. An 5-41
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Parameter
Value Range
Default
Description
Value aggregated port cannot be configured as an LACP port. Port Priority
1–65535
32768
Sets the priority for selecting member ports in dynamic aggregation. A higher priority level indicates that the port is more easily to be aggregated.
Port Work
l
Active Mode
Mode
l
Passive
sends LACP packets.
Mode
l
l
Active Mode
Indicates whether the port actively
ON
Active Mode: indicates that the port actively sends packets.
l
Passive Mode: indicates that the port does not actively send packets.
l
Enable: indicates that the port does not send packets.
Port
l
Aggregation Mode
l
Aggregation
Individual
Indicates whether the specified port is
Port
Port
an individual port or an aggregation port
Individual
that can be aggregated with other ports.
Port
The default setting, Aggregation Port, is recommended, though the two options will have distinct differences only in a later version.
c.
Port Ethernet
l
Open
Traffic
l
Close
Open
Indicates whether the Ethernet traffic is enabled.
Click Apply.
d. Use the same method to add other ports to be aggregated. 3. Configure the LACP aggregation group: a. In the left pane, select ETH > LACP > LAG Configuration. aggregation group configuration page is displayed.
The LACP
b. Click Add. The LAG Configuration dialog box displayed, see Figure 5-40.
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Figure 5-40 LAG Configuration Dialog Box
c.
Configure the LACP aggregation parameters. For a description of the parameters, refer to Table 5-14. Table 5-14 LACP Aggregation Group Parameters Parameter
Value Range
Default
Description
Value Aggregation
1–31
1
Index
Uniquely identifies of an aggregation group. Multiple aggregation groups are allowed for a device. Each aggregation ID is assigned with an ID.
Aggregation
A character
Name
string with
SG
Names an aggregation group.
1
Specifies the priority of the two ends of a
at most 31 characters Aggregation
1–65535
Priority
device. A lower value indicates a higher priority.
Aggregation
l
Static
Policy
l
Manual
Static
Specifies the aggregation policy, which can be static or manual. For static aggregation, an aggregation group is created on the basis of protocol calculation. For manual aggregation, an aggregation group is created according to the configuration. Manual aggregation does not transmit or receive protocol packets.
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Parameter
Value Range
Default
Description
Value Load
l
Strategy l l
Source
Source
Specifies the load sharing policy used by
MAC
MAC
an aggregation group. The load policy
Destination
supports load sharing based on source
MAC
MAC, destination MAC, source and
Source and
destination MAC, source IP, destination
Destination
IP, source and destination IP.
MAC l
Source IP
l
Destination IP
l
Source and Destination IP
Master Port
LACP port
-
Specifies the master port of an
names in the
aggregation group. After an aggregation
drop-down list
group is created, the group attributes must be consistent with those of the master port. That is, the attributes of the master port are duplicated to the aggregation group port. If the aggregation group needs to be dismantled, resume the aggregation group attributed to the master port and prohibit other member ports.
LAG Port
Displayed
-
Specifies the member ports in an
member port
aggregation group. Two to eight members
names
are allowed. A LACP Port belongs to only one aggregation group.
d. Click Apply. 4. Log in to the LMT at the opposite end. Perform steps 1 through 3. 5. Connect the interfaces of the two devices for configuring aggregation by network cables, fibers or radio link. Verify that the status indicators of the interfaces are green. 6. Open the LMT interfaces at both ends. Select ETH > LACP > LAG Info and query the LAG information, see Figure 5-41. If the Port Number is equal to the Active Port Number, the LAG is operating normally.
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Figure 5-41 LAG Information
– End of Steps –
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Chapter 6
Other Configuration Operation Table of Contents Configuring EOW Configuring EDI Configuring CLK/MON Configuring User Security.
6.1 Configuring EOW The ZXMW NR8120A/8120D supports the Engineering Order-Wire (EOW) function to assist engineering order calling between sites. It is applicable for point-to-point calling and cross-site calling. The EOW function has the following advantages: l Reduces calling cost l Facilitates voice communications between engineers in areas without radio signal coverage during early phase of a project.
Steps 1. In the left pane, select Maintenance > Auxiliary Service > EOW. The EOW configuration page is displayed, see Figure 7-2.
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Figure 7-2 EOW Page
2. Configure the parameters of all related sites. For a description of the parameters, refer to Table 7-2. Table 7-2 EOW Parameters Parameter
Value Range
Description
Global
l
Open
An EOW call can be made only when both sites at
Enable
l
Close
the two ends and the relay sites are globally enabled.
Site Type
l
Call Site
For a point-to-point call, the Site Type at both ends
l
Relay Site
are configured as Call Site. For a cross-site call, the Site Type at both ends are configured as Call Site and the relay sites are configured as Relay Site. Multiple relay sites are allowed.
Call
l
TN=5
Specifies the EOW calling direction, which
Direction
l
TN=6
determines the air interface for transmitting EOW data. l
When only one air interface is available, the air interface of RCMUA is TN=5.
l
When 1+1 protection is enabled, the air interfaces of RCMUA and RMEA boards are TN=5.
l
When the air interfaces of RCUMA and RMEA boards are in different direction, the air interface of RCMUA is TN=5 and that of RMEA is TN=6.
When only one interface is available or 1+1 protection is enabled, only TN=5 is displayed on the GUI.
3. Insert the headset into the EOW interface of the RCMUC/RCMUD board, and then press Call. After hearing the buzzer sound, the opposite party insert a headset and start the conversation. The devices at the ends of a point-to-point calling can communicate with each other.
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The devices at the ends of a cross-site calling can communicate with each other. The relay devices only serve for back-to-back transmission of voice data on the air interface. – End of Steps –
6.2 Configuring EDI The ZXMW NR8120A/8120D supports the External Device Interface (EDI) alarm input and output function. It supports at most four ways of EDI alarm input and two ways of EDI alarm output. After EDI input alarm parameters are configured, the ZXMW NR8120A/8120D can report input alarm information after receiving external EDI output alarms. After EDI output alarm parameters (alarm type) are configured, the ZXMW NR8120A/8120D can detect internal alarms and outputs corresponding EDI alarms on the external devices.
Prerequisite For EDI input alarm configuration, all ports are connected to the alarm generation devices. For EDI output alarm configuration, all output ports are connected to the alarm detection devices.
Steps l
Configuring EDI Input Alarms 1. In the left pane, select Home > Home. The board interface diagram is displayed, see Figure 7-3. Figure 7-3 Board Interface Diagram (EDI in Disabled)
2. Double-click the EDI in interface to enable it, see Figure 7-4.
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Figure 7-4 Board Interface Diagram (EDI in Enabled)
3. In the left pane, select Maintenance > Auxiliary Service > EDI > Input. The EDI input page is displayed, see Figure 7-5. Figure 7-5 EDI Input Page
4. Select a record, and click Modify. The EDI IN dialog box is displayed, see Figure 7-6. Figure 7-6 EDI Input Parameter Configuration Example
5. Configure the EDI input parameters, and click Apply. l
Configuring EDI Output Alarms 1. In the left pane, select Home > Home, and double-click the EDI out / SC interface to enable it. 2. In the left pane, select Maintenance > Auxiliary Service > EDI > Output. The EDI output configuration page is displayed, see Figure 7-7.
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Figure 7-7 EDI Alarm Output Page
3. Select an output record, and click Modify. The EDI OUT dialog box is displayed, see Figure 7-8. Figure 7-8 EDI Alarm Output Configuration Page
4. Configure the EDI output parameters, and click Apply. – End of Steps –
6.3 Configuring CLK/MON This procedure describes how to configure the CLK/MON interface to provide the clock service function or service monitoring function.
Prerequisite For the port monitoring function, the monitoring interface is correctly connected to the cabinet to be monitored.
Steps 1. In the left pane, select Home > Home. 2. Double-click CLK / MON port to enable it. 3. In the left pane, select Maintenance > Auxiliary Service > CLK/MON. The CLK/MON page is displayed, see Figure 7-9.
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Figure 7-9 CLK/MON Page
4. Select a record, and click Modify. The configuration information is expanded, see Figure 7-10. Figure 7-10 CLK/MON Configuration Example
5. Set Port Function to Clock or Monitor, and then click Apply. – End of Steps –
6.4 Configuring User Security This procedure describes how to configure user security, including the user lockout and user disable/enable functions. l
l
User lockout: When a user enters wrong passwords sequentially, the system disables this user account until it is automatically enabled after some time or manually enabled by the administrator. User disable/enable: When a user is not required, all operations of this user can be prohibited by disabling the user account. To restore the permission for a disabled user, you can enable this user.
Prerequisite You have already logged in to the LMT as the administrator.
Steps Configuring the Lockout Information 1. In the left pane, select Security Management > User. The User Security page is displayed, see Figure 7-11. 7-7 SJ-20150804150350-005|2015-10-23 (R1.1)
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Figure 7-11 User Security Page
2. In the User Security Management area, configure the Lockout Threshold and the Lockout Time. For a description of the lockout parameters, refer to the following table. Parame-
Value Range
ter Lockout
Default
Description
Value 1–10 Integer
5
Number of times that a user is allowed to enter wrong
Thresh-
passwords. The user will be locked if this threshold
old
is exceeded.
Lockout
10, 20, 30, 40,
Time
50, 60
10
Time (minute) for locking a user. The user will be automatically unlocked when the time is exceeded.
3. Click Apply. Configuring User Disable/Enable 4. In the User Management area, select the user name to be modified. Click Modify. The User Info Configuration dialog box is displayed, see Figure 7-12. Figure 7-12 User Info Configuration Dialog Box
5. Set Enable or Disable as Status. Click Apply. l Disable: Operations of this user are prohibited. l Enable: The user permission is restored. – End of Steps – 7-8 SJ-20150804150350-005|2015-10-23 (R1.1)
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Chapter 7
Configuration Check Table of Contents Checking NEs Checking Alarms
7.1 Checking NEs This procedure describes how to verify NE configuration based on the network planning.
Steps 1. In the left pane, select Setup > System > Parameter. The NE information page is displayed, see Figure 8-1. Figure 8-1 NE Information Page
2. Ensure that the NE information is correct. – End of Steps –
7.2 Checking Alarms By checking the alarms, users can locate the exceptions during system operation and handle the faults in a timely manner. 8-1 SJ-20150804150350-005|2015-10-23 (R1.1)
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ZXMW NR8120A/8120D Configuration Guide
For the alarm severity levels, refer to Table 8-1. Table 8-1 Alarm Severity Levels Icon
Color
Alarm Severity
Red
Critical
Orange
Major
Yellow
Minor
Light green
Warning
7.2.1 Checking Active Alarms This procedure describes how to check active alarms so that users can discover and solve device faults in a timely manner to ensure normal operation. Active alarms are the alarms that are currently on the device. Filtered alarms are not contained in the active alarm list. You can check the filtered alarms by using the filtering rule.
Steps 1. Log in to the Web LMT. 2. In the left pane, select Alarm > Current. 3. In the Current Alarm area in the right pane, select the slot No. and alarm level, and then click Query. The query result is displayed in the lower part, see Figure 8-2. Figure 8-2 Active Alarms
4. Select an alarm, and click Detail to view the alarm details, see .
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Chapter 8 Configuration Check
Figure 8.1
– End of Steps –
7.2.2 Checking History Alarms This procedure describes how to check history alarms for analyzing and resolving potential problems. History alarms are the alarms that are not displayed on the device. The LMT can store a maximum of 2000 history alarms.
Steps 1. In the left pane, select Alarm > History. 2. Check the history alarms in the right pane, see Figure 8-3. Figure 8-3 History Alarms
3. Select an alarm, and click Detail to view the alarm details. – End of Steps –
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Glossary ACL - Access Control List ACM - Adaptive Coding and Modulation AES - Advanced Encryption Standard AIS - Alarm Indication Signal AOU - All Outdoor Unit ATPC - Automatic Transmit Power Control CAR - Committed Access Rate CBS - Committed Burst Size CC - Connection Confirmation CFM - Connectivity Fault Management CIR - Committed Information Rate DR - Designated Router EDI - External Device Interface EFM - Ethernet in the First Mile EOW - Engineering Order-Wire ERPS - Ethernet Ring Protection Switching IDU - Indoor Unit I SJ-20150804150350-005|2015-10-23 (R1.1)
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ZXMW NR8120A/8120D Configuration Guide
IP - Internet Protocol LACP - Link Aggregation Control Protocol LLDP - Link Layer Discovery Protocol LMEP - Local Maintenance association End Point LMT - Local Maintenance Terminal MA - Maintenance Association MAC - Message Authentication Code MIB - Management Information Base MIP - Maintenance domain Intermediate Point MP - Maintenance Point MSE - Mean Square Error MSTP - Multiple Spanning Tree Protocol NBMA - Non-Broadcast Multiple Access NMS - Network Management System ODU - Outdoor Unit OSPF - Open Shortest Path First OUI - Organizationally Unique Identifier PBS - Peak Burst Size PIR - Peak Information Rate II SJ-20150804150350-005|2015-10-23 (R1.1)
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Glossary
PTP - Precision Time Protocol QoS - Quality of Service RED - Random Early Detection RMEP - Remote Maintenance association End Point RSTP - Rapid Spanning Tree Protocol SNCP - Sub-Network Connection Protection SNMP - Simple Network Management Protocol SSM - Synchronization Status Message STP - Spanning Tree Protocol SVLAN - Service Virtual Local Area Network TCP - Transmission Control Protocol TDM - Time Division Multiplexing VLAN - Virtual Local Area Network WRED - Weighted Random Early Detection
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