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GB/T 21545-2008: Principles of protection against over-voltages and over-currents
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Principles of protection against over-voltages and over-currents
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GB/T 21545-2008
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Basic data | Standard ID | GB/T 21545-2008 (GB/T21545-2008) | | Description (Translated English) | Principles of protection against over-voltages and over-currents | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | M40 | | Classification of International Standard | 33.020 | | Word Count Estimation | 12,135 | | Date of Issue | 2008-03-31 | | Date of Implementation | 2008-11-01 | | Adopted Standard | ITU-T K.11-1993, IDT | | Regulation (derived from) | Announcement of Newly Approved National Standards No. 5, 2008 (No. 118 overall) | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This standard specifies: General, circuit protection, switching and transmission equipment protection, the user terminal equipment protection and so on. | GB/T 21545-2008: Principles of protection against over-voltages and over-currents---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Principles of protection against overvoltages and overcurrents
ICS 33.020
M40
National Standards of People's Republic of China
GB/T 21545-2008/ITU-TK. 11.1993
Communications equipment over-voltage over-current protection guidelines
(ITU-TK.11.1993, IDT)
Posted 2008-03-31
2008-11-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Introduction Ⅲ
1 General 1
1.1 Origin of dangerous over-voltage and over-current of 1
1.2 Method 1 protection
1.3 Type 1 protection device
1.4 residual effects 2
1.5 risk assessment 3
1.6 Decision on the protection of 4
Line protection 2 4
2.1 In addition to wire their own protective measures 4
2.2 Special Cable 5
2.3 Use protection device 5
Installation 5 2.4 protection device
2.5 program of work 5
2.6 recommends protective measures adopted 5
5 3 protection switching and transmission equipment
An outer protective equipment required 3.1 5
3.2 Minimum equipment required for the electrical strength of 6
3.3 Effect of exchange status 6
Protection of the user terminal device 4 6
4.1 "exposed" level 6
4.2 Dielectric strength 6
4.3 protectors use 6
4.4 Public Ground 7
4.5 High Insulation Technology 7
4.6 national regulations 7
4.7 Maintaining the high cost of user equipment 7
Appendix A (normative) Protection Definition 8
A. 1 8 primary protection
A. 2 secondary protection 8
A. More than three-level protection 8
A. 4 inherent protection 8
GB/T 21545-2008/ITU-TK. 11.1993
Foreword
This standard is equivalent to using ITU-TK. 11.1993 "over-voltage and over-current protection principles."
Appendix A of this standard is a normative appendix.
The standard proposed by the People's Republic of China Ministry of Information Industry.
The standard by the China Communications Standards Association.
This standard was drafted. China Telecommunications Corporation (Guangzhou Research Institute), Guangdong Tin Lok Communication Equipment Co., Ltd.
The main drafters of this standard. Liu Yu, city, Chen athletes, Chenshao Chuan, Tian Jiqing, Zhang Jin , Shi Ying, Fu Hao.
GB/T 21545-2008/ITU-TK. 11.1993
Communications equipment over-voltage over-current protection guidelines
1 General
1.1 Origin of the danger of over-voltage and over-current
1.1.1 direct lightning strike
Direct lightning strike can cause thousands of amps, flows along the wire or cable, sustained several microseconds. This can physically damaged, and the number of
KV line over-voltage shocks will dielectric equipment and terminal equipment of a threat.
Circle has some fusible member, usually when 500mA current flows through the 200s on the action.
1.3.6 resettable limiting devices
The disadvantage is that the fuse and the heating coil, when they make the operation of the circuit is permanently interrupted and must be replaced by a manual. Some variable resistance
Anti-devices are available, when the overload current flows through the heat and increase its resistance to high value. When the overload current cancellation, this is
Resistance member will return to its normal low resistance. It should be noted the response time and the ability to withstand these devices.
1.3.7 fusible cable
In the communication lines and power distribution line prolonged exposure to failure, by means of a fusible wire connected to the communication line to prevent the installation of non-melting
Over-voltage wire security component generates the risk of overheating.
Connected by a fusible wire is typically connected in series with the communication line of insulated conductors, and installed in the communication line and the power line affected by Paul
An assembly between. These wire diameter than the wire terminating on the security component of the conductor is generally at least two smaller number of wires number and
And have the appropriate length to avoid continuous arc in the power system can not be quickly blown off but the wires have been the case. in case
Fusible cable or part of it installed in a building or other potential fire hazard place, it should be sealed in a fusible cable
Cable sheath, splice case or other suitable box to suppress arcing wires that may occur when blown.
1.4 residual effects
Take measures to protect the fundamental purpose is to ensure that since most of the power dissipation caused by interference is not easily damaged parts in the device, and
It does not extend to personal expansion. However, none of the devices have ideally eliminate all interference voltage or current characteristics, for the following reasons.
GB/T 21545-2008/ITU-TK. 11.1993
1.4.1 residual overvoltage
It should take into account.
a) protection device is not functioning when the voltage, since it is below the operating voltage protection devices;
b) the transient voltage before the device action adopted;
c) After the device operation held residual voltage;
d) operation of the device produced a voltage transients.
1.4.2 Transverse Voltage
The same line of security devices on two wires may not be operated simultaneously, which may produce a transverse voltage pulses. In some cases, special
Do not be protected when the impedance of the device if the lower two protectors action may prevent a further protection action. Thus, as long as
The presence of voltage on the line longitudinal and transverse voltage will continue to exist.
1.4.3 Influence of the circuit to work - Coordination Design
It should be enough margin between the protection device operating voltage and the maximum voltage produced on line during normal operation. Similarly, the protection element
Characteristic element (internal impedance) must be protected with the performance of the device to adapt.
1.4.4 Effect of changes in state
Protection device may make a portion of the line to be protected, and the other part was sacrifice. For example. If the main distribution frame (MDF) melting
Since the contact wire and power line fuse, so that the ground when the communication is disconnected, the voltage on the line may rise to full voltage power line.
Similarly, since a certain protection action, and the impedance of the equivalent circuit relating to the device connected to it much less likely, whereupon produce
It can cause damage to the circulation.
1.4.5 primary protection and secondary protection coordination
To protect sensitive equipment, it is sometimes necessary to use several protection devices. For example. small fast acting current devices (such as semiconductor devices)
And slower movements high current devices (such as a gas discharge tube). In this case, several steps must be taken to ensure that in the event of a sustained
When over-voltage, low-current devices will not interfere with operation of high current devices. This is because if Once this happens, the device can be a small current
Be destroyed, or the internal connection lines through excessive current.
1.4.6 Temperature Rise
Design and installation protection element should be considered when making the temperature rise caused by them during their operation Buzhi Yu damage property or endanger personal safety.
1.4.7 Circuit Availability
When the protective device operation, the service protection circuit may temporarily or permanently interrupted.
1.4.8 the consequences of failure
After the use of protective devices, because the device is not reliable, it will cause a problem in need of repair. In addition, further protection may prevent some lines
Road and devices for testing.
1.5 risk assessment
1.5.1 overvoltage-related communication system performance depends on.
Overvoltage value --- surroundings, that is associated with the system line network produced its probability;
--- Line network configuration method, see Chapter 2;
--- Devices in the system overpressure resistance capability;
--- Protection devices provided;
--- Grounding protective device quality system operation and settings.
1.5.2 Environment
In assessing the environment, a number of factors mentioned in this standard 1.1 should be considered.
In different locations, there is a great difference in the severity of the overvoltage caused by lightning. In high lightning and high soil resistivity areas, suffer direct
Then lightning and an increased risk of lightning strikes nearby. At the same time, due to lightning is the cause of most of the power system faults, so sensing and ground potential rise
High impact also increases. On the other hand, buried metal facilities such as water pipes, telephone cables and other armored cables from the shielding effect, greatly reduced
Overvoltage generated by lightning or induction.
Higher costs, but often do not require follow-up investments.
b) over-voltage or over-current damage may not have thick insulated cable itself, but the cable that will over-voltage or over-current lead
Network easier to damage other portions. At this time, other easily damaged cables require additional protection, especially for maintenance
And for the many users with high service capacity underground cable for additional protection is particularly important.
c) traction power lines or line failure caused by over-voltage sensing is still possible even after the use of all available preventive measures
Exceeds the predetermined allowable value guide.
Install protection devices 2.4
a) In order to protect the insulated conductors, all the metal sheath, shield grounded together, and this together with the conductor of metal
Between access overvoltage protector is beneficial. This technique is particularly suitable for high soil resistivity areas, so as to avoid the use of
Expensive protective grounding electrode system.
b) the use of protective devices to reduce the high induced voltage power line fault currents induced in the telecommunications lines in place, all the wires are
Protection should be installed at appropriate intervals and that both ends of the impact of the line segment (or as close to the actual situation of these point).
c) For the underground cables from the effects of lightning surges, protection devices can be installed at the connection point of underground cables and overhead lines. total
Protection Devices Distribution Frame (MDF) and user terminals installed reduces the risk of damage to the line, but their main function is to
The protective insulating strength is lower than the cable part. See ITU-TK. 20 and ITU-TK. 21.
d) for lightning overvoltage protection, it should be possible to shorten the connection line between the line and ground to minimize lines and isoelectric
Bit connection between the impulse voltage.
2.5 planning
The standard 1.5 and 1.6 of the General considerations apply to line protection. It recommends that at the beginning of the design, it is possible to determine the line depending on the environment
Protection measures required for the road. For only a first line of protection is imperfect, we want to achieve a satisfactory level of protection possible phase
As difficult and costly.
2.6 recommends protective measures adopted
Local telecommunication network lines frequently or severely harassed power line faults or lightning caused, should be in line conductor
Between the ground and the access protection device or using a suitable line construction methods to limit these lines with respect to the voltage of the local ground potential.
3 protection switching and transmission equipment
External protective equipment required 3.1
Operations should take into account the possibility for an external device installed in a protected facility, bearing in mind the following points.
GB/T 21545-2008/ITU-TK. 11.1993
3.1.1 Under certain conditions, the equipment of telecommunication lines will play some protective effect, such as.
--- May fuse wire, and cut off excessive current;
GB/T 21545-2008/ITU-TK. 11.1993
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