Power Surge Protection Device / Class I+II Surge Arrester For
Security Systems
The DC surge protector is an electronic device that provides safety
protection for various electrical lightning protection
sub-equipment, instrumentation, and communication lines. When the
peak current or voltage in the protected circuit or electrical
circuit is caused by external force majeure factors, the DC surge
protector can conduct and shunt in a very short time, thereby
avoiding the surge phenomenon from causing the protected equipment
or circuit damage.
DC surge protector is an electrical component used to limit
transient over-voltage phenomenon. Because it needs to operate for
a long time, there will be aging. If the DC surge protector is used
for a long time, the aging caused by it will not be timely. If the
facility is updated, it may cause performance degradation, failure
and other malfunctions. Therefore, the DC surge protector needs to
be inspected regularly. If the inspection result shows aging or the
status indicator is invalid, please replace the DC surge protector
in time.
OBV10-I-15
Surge protectors OBV10-I-15 meet the type 1 requirement class
according to IEC 61643-11. These devices protect low-voltage
consumer systems from overvoltages of all types and are available
in single-pole to four-pole versions.The
voltage-limiting,high-performance spark gaps provide several
benefits.A short response time, a low protection level and high
current leakage capability with long service life.
Technical Parameters
Model: OBV10-I-15 |
Maximum continuous operating voltage | Uc | V | 255/275/320/385 |
SPD to EN 61643-11 | | | Type 1 |
SPD to IEC 61643-1 | | | class I |
LPZ | | | 0→2 |
Lightning impulse current (10/350μs) | Iimp | kA | 15 |
Lightning impulse current (10/350μs) [total] | | kA | 60 |
Nominal discharge surge current (8/20μs) | In | kA | 60 |
Maximum discharge surge current (8/20μs) | Imax | kA | 100 |
Voltage protection level | Up | kV | 2,5 |
Response time | tA | ns | <25 |
Follow current quenching capacity Ipeak | Ifi peak | kA | 12.5 |
Maximum back-up fuse | | A | 315 |
Temperature range | ϑ | °C | -40℃~+85℃ |
Protection rating | | | IP 20 |
Connection cross-section, rigid | | mm² | 10-50 |
Connection cross-section, multi-wire | | mm² | 10-35 |
Connection cross-section, flexible | | mm² | 10-25 |
Feature&Benefits
1,Protect electric system and on-loading electrical apparatus from
thunder and instantaneous over-voltage.
2,Protect transmission of Ethernet signals with 48V DC / 34V AC
power supply circuits against
lightning induced surges.
3,Enhanced surge protection.
4,For mounting on 35mm DIN rails acc. to EN 60715.
5,It can effectively ensure the equipments work properly.
·Easy installation or retrofit.
·Din-rail mountable.
·Fail-safe /self-protected designRemote indicator (optional) with
3pin NO/NC contact.
·IP20 finger-safe designVisual indicator.
·Small foot print.
Application
●AC/DC distribution
●Power supplies
●Industrial automation
●Telecommunications
●Motor controls systems
●PLC applications
●Power transfer equipment
●HVAC applications
● AC drives
●UPS systems
●Security systems
●IT/Data centers
Others
Technology SPD parameter(Note:According to user requirement ,can be
customized Uc=140V,440V,550V,voltage range of range of the SPD):
Type No. | Rated Voltage(V) Un | Continuous Voltage Uc(V~) | Standard Discharge Current In(KA) | Max Discharge Current Imax(KA) | Protection Level(KA~) | Response Time(ns) |
DGM1(2)-D5 | 220/380 | 275/320 385/420 | 5 | 10 | 1.2 | ≤25 |
DGM1(2)-D10 | 10 | 2 | 1.6 |
DGM1(2)-C20 | 20 | 40 | 1.8 |
DGM13-B30 | 30 | 60 | .2.2 |
DGM3(4)-B40 | 10 | 80 | 2.4 |
DGM(4)-B60 | 60 | 100 | 2.8 |
DGM-N-PE | 220/255 | 40/60 | 60/80 | 1.2 | ≤100 |
Transient voltage surgesin lv power lines
Transient overvoltages are voltage surges that can reach tens
ofkilovolts with a duration of the order of microseconds.Despite
theirshort duration, the high energy content can cause serious
problemsto equipment connected to the line, from premature aging to
destruction, causing disruptions to service and financial
loss.Thistype of surge can have various different causes, including
atmospheric lightning directly striking the external
protection(lightning rods) on a building or transmission line or
the associatedinduction of electromagnetic fields on metallic
conductors.
Outdoor and longer lines are the most exposed to these fields,which
often receive high levels of induction.
It is also common for non-weather phenomena, such as transformer
centre switching or the disconnection of motors orother inductive
loads to cause voltage spikes in adjacent lines.
Surges in telecom andsignalling networks
Surges tend to induce currents in allmetal conductors; not only are
thepower lines affected, but so are allcables to a greater or
lesser extent,depending on the distance to the focusof the surge.
Although a lower current is induced,the effect produced is equally
or moredestructive, due to the greatersensitivity of electronic
equipmentconnected to communications lines(telephone, Ethernet, R,
etc.).
Importance of theground connection
Overvoltage protectors (SPD) divert excess energy toground, so
limiting the peak voltage to an acceptablevalue for connected
electrical equipment.
A ground connection in adequate condition is, therefore,a key
aspect for effective protection against overvoltages.Monitoring
ground connection condition guaranteesproper operation of surge
protection devices.
Comprehensive protection
An effective overvoltage protection must combine thefollowing
protection systems:
External protection (ESE lightning rods and faradization).System
for protection against direct lightningstrike.These capture the
lightning within the protectedarea and lead it, in a controlled
manner, safely to ground. Internal protection (power frequency
overvoltage andsurge protection devices). Equipment designed to
protectagainst the effects of overvoltages in equipment connected
to the power supply systems and/orcommunications networks.Grounding
systems (grounding and insulation monitoring).Systems that allow
atmospheric dischargecurrents to be dispersed into the ground. The
need formonitoring the grounding system.CUAJE offers a widerange of
products for each of these systems. It alsodevelops custom
products, provides advice and consultingservices and the best
possible aftersales service.
What skills should lightning protectors have in the selection?
1.Confirm power supply system
First of all, you must determine what your power distribution
system is like, whether it is TT, TN or IT system. After
determining the power distribution system, you can choose the
protection mode and wiring method of the lightning arrester to
select the appropriate lightning arrester.
For example, TN-C uses 3P lightning protection device, TN-S uses
4P, TT uses 3P+N, etc.
2.Know the main parameters of the lightning arrester.
FAQ
Q: Can I get some samples?
A: Yes, Sample orders welcomed.
Q: Can I use my own Logo or design on goods?
A: Yes, Customized logo and design on mass production are
available.
Q:What is the delivery time?
A: 3 days for samples, 7-15 days for mass production.
Q: What is the payment term?
A: T/T, L/C at sight, West union , Paypal, etc.