• Product Name :

    TS-385M60/4 Type 1 Surge Arrester

  • Instruction

    TS Series Three Phases Type 1 Surge Arrester is designed according to IEC 61643-11 / GB 18802.11. to protect low voltage devices from surge damages, mainly used in power supply system such as power distribution-room, distribution-cabinet and other important power supply system; widely used to protect mobile communication station, telecommunication center, airport, finance, and so on. For installation at LPZ 0A -1 or higher, applied in Surge Arrester Type 1 for various power supply system.

    ♦ Product Size

    TS-385M60 4-Type-1-Surge-Arrester-Customized

    ♦ Basic Circuit Diagram(4+0)

    TS-385M60 4-Type-1-Surge-Arrester-Customized

    ♦ Technical Data of TS-385M60,50,40,30/4

    Model Number 

    4+0 for TN-S system

     

    TS-385M60/4 

    (4+0) 

    TS-385M50/4 

    (4+0) 

    TS-385M40/4 

    (4+0) 

    TS-385M30/4 

    (4+0) 

    Rated voltage (max. continuous voltage)

    Uc

    385V~

    385V~

    385V~

    385V~

    Nominal discharge current (8/20)

    In

    60 KA

    50 KA

    40 KA

    30 KA

    Max. discharge current (8/20)

    Imax

    120 KA

    100KA

    80 KA

    60 KA

    Voltage protection level

    Up

    ≤ 2.5KV

    ≤ 2.2KV

    ≤ 2KV

    ≤ 1.8KV

    Response time

    tA

    ≤ 25ns

    Max. back up fuse (L)

     

    200AgL/gG

    Max. back up fuse (L-L’)

     

    125AgL/gG

    Operating temperature range

    Tu

    -40°C...+80°C

    Relative humidity:

     

    ≤95% (25°C)

    Cross-sectional area

     

    35mm2 solid / 50 mm2 flexible

    Mounting on

     

    35mm2 DIN rail

    Enclosure material

     

    Red thermoplastic, UL94-V0

    Dimension

     

    8 mods

    Standards

     

    IEC 61643-11; GB 18802.11

    Type of remote signalling contact

     

    Switching contact

    Switching capacity

    U/I

    AC:250V/0.5A DC:250V/0.1A,125V/0.2A,75V/0.5A

    Cross-sectional area for remote

    signalling contact

     

    Max. 1.5mm2 solid / flexible

    Certification

     

    CE (LVD, EMC)


    ♦ Technical Data of TS-275M60,50,40,30/4

    Model Number 

    4+0 for TN-S system

     

    TS-385M60/4 

    (4+0) 

    TS-385M50/4 

    (4+0) 

    TS-385M40/4 

    (4+0) 

    TS-385M30/4 

    (4+0) 

    Rated voltage (max. continuous voltage)

    Uc

    275V~

    275V~

    275V~

    275V~

    Nominal discharge current (8/20)

    In

    60 KA

    50 KA

    40 KA

    30 KA

    Max. discharge current (8/20)

    Imax

    120 KA

    100KA

    80 KA

    60 KA

    Voltage protection level

    Up

    ≤ 2.2KV

    ≤ 2.0KV

    ≤ 1.8KV

    ≤ 1.5KV

    Response time

    tA

    ≤ 25ns

    Max. back up fuse (L)

     

    200AgL/gG

    Max. back up fuse (L-L’)

     

    125AgL/gG

    Operating temperature range

    Tu

    -40°C...+80°C

    Relative humidity:

     

    ≤95% (25°C)

    Cross-sectional area

     

    35mm2 solid / 50 mm2 flexible

    Mounting on

     

    35mm2 DIN rail

    Enclosure material

     

    Red thermoplastic, UL94-V0

    Dimension

     

    8 mods

    Standards

     

    IEC 61643-11; GB 18802.11

    Type of remote signalling contact

     

    Switching contact

    Switching capacity

    U/I

    AC:250V/0.5A DC:250V/0.1A,125V/0.2A,75V/0.5A

    Cross-sectional area for remote

    signalling contact

     

    Max. 1.5mm2 solid / flexible

    Certification

     

    CE (LVD, EMC)


     MAIN CHARACTER 

    1, High discharge capacity, quick response
    2, Consist of varistor and thermal disconnection device
    3, Double terminals for parallel or series (V-shape) connection
    4, Multifunctional connection for conductors and busbars
    5, Green windows will change to Red and Green Light will Change to Red when fault occurs

    ♦ INSTALLATION INSTRUCTION

    According to lightning protection zones concept, for installation at LPZ 0 -1 or higher. This surge protective device is usually installed in distribution-box or feeder bus of UPS, protecting devices or equipment downstream. Fuse must be installed at the upstream of the Surge Arrester or the lightning arrester to make sure that the protected system has double protection. The value of the fuse used in a Surge Arrester system should be conformed to:

    1. The value of FUSE should not be larger than the max withstand capacity of the Surge Arrester's backup fuse value.

    2. Under the status of the max. current in the power supply & close loop circuit available current, the fuse should be able to disconnect when overloaded or short-circuited.

    3. Take 1 & 2 into consideration, the fuse should be as large as possible to allow the maximum surge discharge of Surge Arrester.

    ♦ INSTALLATION STEPS

    1) Check the product for integrity of the package; make sure the product window indicates green.

    2) Mount the Surge Arrester on 35 mm DIN rail.

    3) Connect conductors, the cross-sectional area of cable must be larger than 16mm2 . The withstand voltage value of cable is not smaller than AC500V; ensure wiring reliable.

    4) If need remote alarm, it should be connected signal lines to remote signal terminal 1 and 2, or 2 and 3 (When normal,1 and 2 open, 2 and 3 close; when fault, the state is reversed).

    5) After above, switch on the power supply and turn on the circuit breaker,if the Surge Arrester’s window does not appear red,(and if the Surge Arrester with lights,3 green lights display HIGH GREEN and another red light doesn’t display HIGH RED), this indicates the unit is operating normally.

    Regularly inspect the operating status, especially after lightning. Once the fuse upstream break, or the Surge Arrester's window indicates red and 1 light display HIGH RED, electrician should check/replace the Surge Arrester. 


    ♦ Installation Diagram (4+0)
    TS-385M60 4-Type-1-Surge-Arrester-Price

     

    WARNING:  

    1. The device must be installed by electrically skilled person, conforming to national standards and safety regulations. 

    2. It is recommended that installation should be done under power off condition.