A.1 Configuring the Maintenance Terminal
This topic describes how to configure the IP address of the maintenance terminal so that the maintenance terminal can access the UA5000 normally in telnet mode or SSH mode.
Prerequisite
l The maintenance terminal must be connected and started.
l The IP address of the maintenance terminal and the IP address of the device must be at the same network segment, so that the maintenance terminal can log in to the device to commission.
Procedure
Step 1 Right-click My Network Places on the desktop, and then choose Properties to display the Network Connections interface.
Step 2 Right-click Local Area Connection on the Network Connections interface, and then choose Properties to display the Local Area Connection Properties dialog box.
Step 3 Select General. In the This connection uses the following items pane, select Internet Protocol (TCP/IP).
Step 4 Click Properties to display the Internet Protocol (TCP/IP) Properties dialog box.
Step 5 Select General and then select Use the following IP address to configure the IP address and the subnet mask.
Step 6 Click OK to return to the Local Area Connection Properties dialog box.
Step 7 Click OK.
----End
Result
After query, it is found that the IP address of the maintenance terminal is consistent with the IP address in the data plan.
A.2 Making a Script
This topic describes how to make a script according to the collected data plan.
Script Overview
Before commissioning, you can make the commissioning script according to the data plan collected in Data Requirements, and then load the script to configure the basic data for the device so that the device can run normally. In this case, you can test commission the basic functions and the services of the device.
The basic configuration through the script includes but is not limited to the following items:
l Configuring the environment monitoring unit (including the FAN and the ESC) l Configuring an MG Interface
NOTE
l For details about how to load the script, see Loading the Script.
l For the information on how to configure the MG interface, see Configuration Example of the MG Interface (the H.248 Protocol).
Example Script
Table A-1 provides the data plan for configuring the example script. After the example script is configured, the maintenance terminal in the management center can log in to the UA5000 to commission the basic functions of the device.
Table A-1 Script data plan
Item Data
FAN EMU l SN: 1
l Sub-node: 6 l Name: FAN
l Fan speed adjustment mode: automatic
Item Data
ESC l SN: 0
l Sub-node: 30 l Name: H303ESC MG interface data l mgid: 0
l code: text l transfer: udp l protocol: H.248
l Port ID: MG; 2944; MGC: 2944 l domainname: UA5000.com l Stand-alone digitap: 1234xxxx l Escape bucket digitmap: 110|119|999
IP address l Media IP address of MG interface 0 of the UA5000: 10.10.10.2/24 l Signaling IP address of MG interface 0 of the UA5000:
10.10.10.4/24
l IP address of the MGC: 10.10.20.1/24
The following displays the commands that need to be included in the script according to the preceding data plan.
CAUTION
Each command in the script must end with a carriage return (CR).
enable config
emu add 1 fan 0 6 FAN interface emu 1
fan speed mode automatic quit
emu add 0 h303esc 0 30 interface h248 0 y
if-h248 attribute mgip 10.10.10.2 mgport 2944 code text
transfer udp domainName UA5000.com mgcip_1 10.10.20.1 mgcport_1 2944 mg-media-ip 10.10.10.4
digitmap set inner 1234xxxx emergency 110|119|999 reset coldstart y
quit save
A.3 Operation Guide on Battery Supplementary Charge
Based on the battery features, automatic discharge may occur due to chemical reactions during the delivery and storage. In this case, the battery capacity and the open circuit voltage decrease.
To restore the voltage and capacity of the battery completely, perform the supplementary charge before using the battery.
A.3.1 Preparing Tools
Before performing the supplementary charge for the battery, check and ensure that the tools that facilitate the subsequent commissioning work are available.
Table 1 lists the check items for tools before the commissioning.
Table A-2 Charging devices and common tools
SN Item Description Purpose
It is recommended that you use the detection device for the battery charge/discharge. If you do not have the detection device, use the system power compatible with the
communication device.
Used for the battery supplementary charge and the capacity detection.
2 Multimeter 0.5 level, three and half bits meter Used for detecting the voltage of the battery group and the voltage of the single battery.
3 Clamp meter Current precision ≤ 3% Used for detecting the charge/discharge current of the battery.
4 Adjustable spanner
- Used for tightening the
screw.
5 Flathead
screwdriver
- Used for unscrewing the
battery covering piece.
A.3.2 Precautions
This topic describes the precautions to be taken during the battery supplementary charge.
Precautions
The precautions to be taken in the charge are as follows:
l For the battery supplementary charge, you need to use the dedicated device for the battery charge/discharge. If the required condition is unavailable, you can also use simplified power or directly use the system power of the offices. When using the simplified power or the system power of the offices, you must properly set the charge/discharge parameters.
l The entire process of the battery supplementary charge needs to be monitored strictly.
Otherwise, abnormalities may occur.
l The connection point of the battery terminal should be clean, bright, and smooth. Before connection, check and clean the terminal to reduce contact resistance and prevent connection voltage drop from being too high.
l Prevent short circuit in the connection and insulate all the tools.
l Do not connect the positive and negative polarities of the battery reversely.
l During the test, ensure that all the cables are connected reliably and tightly. Otherwise, the circuit may catch fire or be overheated after the circuit is closed, which may burn the battery and cause accidents when the problem reaches a serious extent.
l Do not over-charge the battery. Otherwise, the life span of the battery may be shortened.
When the constant voltage is 2.35 V/cell and the limited current is 0.15 C10A, the maximum charge time cannot exceed 24 hours.
A.3.3 Operation Process
This topic describes how to perform the battery supplementary charge.
Context
The cable must be connected properly based on the requirements in "Precautions."
Procedure
Step 1 Connect the battery that needs the supplementary charge with the cable properly. Ensure that the bolts of each connection point are tight, and then connect the positive and negative polarities of the battery group respectively to the positive and negative polarities of the charge device.
CAUTION
This helps to prevent device faults or connection and setting errors from damaging the battery.
You should add an air circuit breaker in the serial connection mode between the battery and the device loop. The capacity of the air circuit breaker should be designed 1.5 times as the maximum current of the loop.
Step 2 Run the power charge command to set the battery charge mode, value of charge voltage, and value of charge limited current.
NOTE
Each parameter of the battery is set as follows:
l The battery charge mode is equalized charge.
l The battery charge voltage is (2.35±0.02) V/cell. Where:
l For the -48 V power system, the charge voltage is 56.4 V.
l For the battery group that consists of 12 V single batteries, the charge voltage is 2.35 V/cell x 6 x battery quantity.
l For the battery group that consists of 2 V single batteries, the charge voltage is 2.35 V/cell x battery quantity.
l The limited current of the battery charge is 0.15 C10A.
Step 3 Close the loop air breaker, start the device, and charge up the battery.
Step 4 When the battery charge current is equal to or less than 0.005 C10A, prolong the charge for three or 16 hours based on requirements.
NOTE
One hour before the battery charge is over, check the value of the battery voltage one by one. If the battery voltage is equal to or less than 2.16 V/cell, discharge the battery that has completed charge at the constant current of 0.25 C10A. Ensure that the discharge time is approximately three hours. Then, perform the charge in the constant voltage and limited current mode based on the preceding procedures of the battery supplementary charge.
If the battery capacity cannot be restored completely through this charge/discharge cyclic method either, it indicates that the battery is invalid because it remained unused for a long time or is faulty. In this case, the battery must be discarded as useless.
----End
A.4 Settings of the Software Package
This topic describes the software package settings of the UA5000.
A.4.1 Settings of the Default System Parameters
The default system parameter settings of the UA5000 are as follows:
Table A-3 System parameters Parameter
Index Meaning Default Setting
0 Howler tone sending identifier. 0: not send; 1: send 1: send 1 Overseas version identifier. 0:China, 1:HongKong,
2:Brazil, 3:Egypt, 4: Singapore, 5:Thailand, 6:France, 7:Britain MSFUK, 8:Britain ETSI, 9:Bulgaria, 14:Turkey, 15:Syria
0:China
2 Consistency test identifier. 0: disable; 1: enable 0: disable 3 Stop the initial ringing identifier. 0: not issue; 1: issue 0: not issue 4 System self-check flag. 0: not implement; 1: reset ports
selectively; 2: reset the idle PSTN port
1: resets ports selectively.
5 CPU overload call restriction identifier (this parameter is valid for only the V5 and the SPC). 0: not restricted;
1; restricted
0: Not restricted
6 Call waiting tone. 0: played by the MGC; 1: played by the MG
0: played by the MGC
7 Message LED mode. 0: voltage ascending mode; 1:
send FSK and ring; 2: send FSK and not ring
0: voltage ascending mode
9 Reserved parameters 1
10 Whether to support the inconsistency of the IDs for the peer UDP transmitting and receiving ports. 0: not support; 1: support
0: not support
Parameter
Index Meaning Default Setting
11 Medium stream forwarding mode inside a device. 0:
device internal forwarding; 1: device external forwarding
0: device internal forwarding
12 Howler tone source. 0: FPGA; 1: DSP; 2: analog subscriber board; 3: customer test board
0: FPGA
13 TEI check cycle 5 min
14 Whether to support the POTS GTC statistics. 0: not support; 1: support
1: support
54 Power line alarm switch. 0: not support; 1: support 0: not support 55 Long-time call alarm duration. Multiple of 30 minutes. 0 min
60 ISDN timer value for periodic activation(min), Value:
0~60(min)
0: Disable the function of ISDN periodic
activation 78 Whether allow the board autoload when the version of
board is higher than the version of system's packet, 0:unallowed, 1:allowable
1:allowable
A.4.2 Settings of the Default Overseas Parameters
The default overseas parameter settings of the UA5000 are as follows:
Table A-4 Overseas parameters Parameter
Index Meaning Default Setting
0 Busy tone frequency configuration. 0: China (450 Hz);
1: Hongkong (480 + 620 Hz); 2: Reserved value
0: China (450 Hz)
1 Break duration of the busy tone (ms). Reference standard: China 350 ms; Hongkong: 500 ms
350 ms
2 Ringing duration of the busy tone (ms). Reference standard: China 350 ms; Hongkong: 500 ms
350 ms
3 Upper hooking threshold (ms). Reference standard:
China: 300 ms; Hongkong: 800 ms
300 ms
4 Lower hooking threshold (ms). Reference standard:
China: 100 ms; Hongkong: 100 ms
100 ms
Parameter
Index Meaning Default Setting
5 Flag of sending pulse information signal or not after processing the pulse signal from the switch. 0: not send (Brazil standard); 1: send
1: send
6 Flag of switch sending initial ringing signals or not in the calling line identification service. 0: not send (Brazil standard); 1: send
1: send
7 Flag of whether access network (AN) using the pulse polarity reversal unit or not. 0: not use; 1: use (Brazil standard)
0: not use
8 Flag of whether AN using the resource unavailable unit or not. 0: not use; 1: use (Brazil standard)
0: not use
9 Flag of AN sending LE off-hook signal or not in case of call conflict. 0: not send; 1: send (Brazil standard)
0: not send
10 Flag of AN sending howler tone or not when the port is busy or idle during the 112 howler tone test. 0: not send (Hongkong standard); 1: send
1: send
11 Flag of AN conducting the dial tone test during the circuit test. 0: not conduct; 1: conduct (Hongkong standard)
0: not conduct
12 Width of the polarity reversed pulse 0
13 Delay in sending the Establish_Ack messages (ms) 0 ms 14 Delay in sending the called offhook messages (ms) 0 ms 15 Flag of sending the hotline phone busy tone. 0: send; 1:
not send
0: Send
16 Flag of AOCE. 0: Not stop the ringing; 1..20: duration of stopping ringing (s)
0: Not stop the ringing 17 NEC-PCMMUX pulse protection timer duration (ms) 0 ms 18 NEC-PCMMUX pulse tail timer duration (ms) 0 ms
19 Call restriction flag. 0: not restrict; 1: restrict 0: not restrict 20 Transmission enable issue flag. 0: not issue; 1: issue 0: not issue
21 CDI loop line check cycle (40~960s) 240 s
22 Radius packet Rx and Tx direction control. 0: positive direction; 1: negative direction
0: positive direction 23 CDI Z-extension first ring timer length (ms) 1000 ms 24 CDI Z-extension first ring break timer length (ms). 4000 ms
Parameter
Index Meaning Default Setting
25 Flag of not processing ISDN deactive message from the LE. 0: process; 1: not process
0: process
26 Flag of LE not sending reduce battery message. 0: send;
1: not send
0: send
27 Reserved parameters 65535
28 Hotline ring back tone parameters (0~15). For configuring this parameter, refer to the user-defined ringing types.
15
29 Hotline ringing parameters (0~255). For configuring this parameter, refer to the initial and cadence ringing types of the V5 interface.
0
30 Length of timer for line card send on-hook message after howler tone (ms).
1000 ms
31 Reserved parameters 65535
32 Flag of checking V5 free timeslot when caller off-hook.
0: not check; 1: check
0: not check
33 Flag of DSL port sending deactive signal to LE after V5 switch-over. 0: not send; 1: send
0: not send
34 Power of the comfortable noise. 0~90 correspond to 0~-90 db.
60
35 Flag of DSP chip working mode. 0: normal; 1:
intelligent public telephone (IPT); 2: NLP enhanced; 3:
NLP decreased; 4: NLP closed; 5: DTMF EC
0: normal
36 Flag of Z interface extension dynamic timeslot allocation. 0: Not dynamically allocate timeslot; 1:
Dynamically allocate timeslot
0: Not dynamically allocate timeslot 37 Flag of whether the current is limited when the
subscriber port is locked. 0: not limited; 1: limited
0: not limited
38-39 Reserved parameters 65535
40 Short-circuit current protection threshold on the E1 port, which is valid for only the SA586 chip. 1: 140 mA;
2: 165 mA; 3: 190 mA; 4: 215 mA
1: 140 mA
41 Flag of the exchange re-assigning the timeslot when the V5 PSTN is restarted. 0: re-assign; 1: not re-assign
1: not re-assign
42 Timeout time of PPP negotiation (0~300 s) 10 s 43 Flag of stop dialtone when pulse dial the first telephone
number. 0: not stop; 1: stop
0: not stop
Parameter
Index Meaning Default Setting
44-47 Reserved parameters 65535
48 The time length of the meter test timer (10~65535 min) 65535 min 49 Flag of whether using user-defined ring 15 as default
ring or not and flag of whether enable the optimization of CC0SASL board name or not.
In the case of the binary system: From the lowest bit to the highest bit, if the sixth bit is 0, it indicates that user-specified ringing 15 is the default ringing; if the sixth bit is 1, it indicates that user-specified ringing 15 is not used. If the seventh bit is 0, it indicates that the CC0SASL board name optimization function is enabled; if the seventh bit is 1, it indicates that the CC0SASL board name optimization function is disabled.
If the two functions are both enabled, the value of this parameter is 1111111100111111 in binary format and is 65343 in decimal format.
65535
50-51 Reserved parameters 65535
52 Flag of whether to allow deleting a user forcibly. 0: not allow; 1: allow
0: not allow
53 Configuration for the DTMF signal detection. 0: Q.24;
1: Russia
0: Q.24
54-56 Reserved parameters 65535
57 Flag of enabling or disabling the board line exception report function. 0: enable; 1: disable
1: disable
58-65 Reserved parameters 65535
66 Flag of whether to modify the TEI value when the softswitch is interconnected. 0: universal standard and not modify; 1: set TEI to 1
Preamble letter used for selecting the calling number of
the DTMF to be issued. 12: A; 13: B; 14: C; 15: D. 15: D
77 Reserved parameters 65535
78
Flag of support R2 over analog line. 0: not support; 1:
support 0: not support
79-80 Reserved parameters 65535
81 Flag of the subscriber board supporting the low power consumption. 0: not support; 1: support
1
Parameter
Index Meaning Default Setting
82 Flag of reporting the out-of-service (OOS) of the user port when the LOS fault occurs on the U port. 0: not report; 1: report.
0: not report
83-127 Reserved parameters 65535
A.4.3 Settings of the Default Parameters of the EMU
Table A-5 and Table A-6 provide the parameter settings of the EMU on the UA5000.
Table A-5 Default parameter settings of the H303ESC and H304ESC Parameter Default Setting
Sub-node 15
Analog parameters ESC analog parameter IDs
l 0: allocated to the temperature sensor by default (read-only).
l 1-4: allocated to the voltage sensor by default.
–1 indicates -48 V input of channel 0.
–2 indicates -48 V input of channel 1.
–3 indicates -48 V input of channel 2.
–4 indicates -48 V input of channel 3.
l 5-8 indicate user-defined analog parameters to be allocated to other extended analog sensors, such as humidity sensor.
Upper and lower alarm thresholds l Temperature: 5°C to 55°C l Humidity: 0% RH to 80% RH
Parameter Default Setting
Digital parameters ESC digital parameter IDs
l Allocated by default (read-only) –0: MDF
–1: door status sensor 0 –9: water
–10-13: lightning arresters 0-3 –14-15: switches 11 and 12 –16-17: switches 21 and 22 –18-19: switches 31 and 32 –20-21: switches 41 and 42 –22: external sensor power l User-defined IDs
–2-8: allocated to other extended digital sensors.
Definition of user-defined alarm indexes
1: AC voltage; 2: AC switch; 3: battery voltage; 4: battery fuse; 5: load fuse; 6: rectifier module; 7: secondary power supply; 8: door status of the cabinet; 9: door status of the equipment room; 10: window; 11:
theft; 12: cable distribution frame; 13: fan; 14: fire; 15: smoke; 16:
water; 17: diesel; 18: abnormal smell 19: air conditioner; 20: lightning arrester; 21-52: user-defined alarms 0-31 of digital parameters
Table A-6 Default Parameter Settings of the FAN EMU Parameter Default Setting
Sub-node 1
Fan speed adjustment mode
Automatic
Whether to report the fan alarm
Allowed
A.5 Acronyms and Abbreviations
A
ADSL Asymmetric Digital Subscriber Line
ADSL2 Asymmetrical Digital Subscriber Line 2 ADSL2+ Asymmetrical Digital Subscriber Line 2 PLUS
AG Access Gateway
B
BRA Basic Rate Access
BRI Basic Rate Interface
C
CLI Command Line interface
CRC Cyclic Redundancy Check
D
DC Direct Current
DSL Digital Subscriber Line Board
DSP Digital Signal Processor
DTMF Dual-Tone Multifrequency
E
EMU Environment Monitor Unit
EPON Ethernet Passive Optical Network
ESC Environment Supervision Control
F
FAQ Frequently asked question
FE Fast Ethernet
FoIP Fax over IP
FSK Frequency Shift Keying
FTP File Transfer Protocol
G
GE Gigabit Ethernet
GND Ground
GPON Gigabit Passive Optical Network
I
ID Identity
IP Internet Protocol
ISDN Integrated Services Digital Network
IUA ISDN Q.921-User Adaptation Layer
L
LAN Local Area Network
M
MGC Media Gateway Controller
MGCP Media Gateway Control Protocol
MoIP Modem over IP
O
OLT Optical Line Terminal
ONU Optical Network Unit
P
PBX Private Branch Exchange
PCM Pulse Code Modulation
POTS Plain Old Telephone Service
PPP Peer-Peer Protocol
PRA Primary Rate Access
PRI Primary Rate Interface
PSTN Public Switched Telephone Network
PVM Packet Voice Module
R
RTP Real-time Transport Protocol
S
SHDSL Single-line High Speed Digital Subscriber Line
SIGTRAN Signalling Transport
SP Service Provider
T
TA Terminal Adaptor
TCP Transport Control Protocol
TDM Time Division Multiplexing
TFTP Trivial File Transfer Protocol
U
UDP User Datagram Protocol
V
VAG Virtual Access Gateway
VLAN Virtual Local Area Network
VoIP Voice over IP
X
xDSL x Digital Subscriber Line