Customization: | Available |
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Type: | Power Source Arrester |
Structure: | Zinc Oxide Arrester |
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SPD Surge Protective Devices are designed to protect against transient surge conditions. Large single surge events, such as lightning, can reach hundreds of thousands of volts and can cause immediate or intermittent equipment failure. However, lightning and utility power anomalies only account for 20% of transient surges. The remaining 80% of surge activity is produced internally. Although these surges may be smaller in magnitude, they occur more frequently and with continuous exposure can degrade sensitive electronic equipment within the facility.
A power surge is a brief overvoltage event that can damage electrical devices and is a common cause for the failure of electrical equipment. Surges can damage and reduce the lifespan of:
NEW 2020 National Electrical Code Requirements
All new and renovated homes are required to be protected by Listed and Approved Type 1 or Type 2 Surge Protective Devices.
Type 1:
Permanently connected Surge Protective Device. Protects against external and internal surges. May be installed inside or outside the home.
Type 2:
Permanently connected Surge Protective Device installed in, or next to, breaker box. Protects again internal or external surges.
Type 3:
Extra protection. Point-of-use Surge Protective Device. Must be used in conjunction with Type 1 or Type 2 SPD to meet 2020 code requirements.
Use Type 1, 2, and 3 SPDs for the best level of protection.
Max Continuous Operating Voltage | Ucpv | 500VDC | 600VDC | 1000VDC | 1500VDC | ||||||
Nominal Discharge Current | In | 20kA | 20kA | 20kA | 20kA | ||||||
Max Discharge Current | lmax | 40kA | 40 kA | 40kA | 40kA | ||||||
Protection level | Up | 2.8kV | 3.0kV | 3.5kV | 5.5 kV | ||||||
Rated shortcircuit current | IscCI | 100A | |||||||||
lcpv | 0.2 mA | ||||||||||
Connection mode | paralle | ||||||||||
Response Time | tA | 25ns | |||||||||
Back up fuse | LT-SSD40 | ||||||||||
Remotecommunication | With | ||||||||||
Remote communication connection | 1411:NO,1112:NC | ||||||||||
Remote contact rated current | 220V/0.5A | ||||||||||
Associated disconnectors | |||||||||||
Thermal disconnector | internal | ||||||||||
Fuses | Fuses type gG100A | ||||||||||
ground fault breaker | None | ||||||||||
Mechnical characteristics | |||||||||||
Connection | By screw terminals:6-35mm | ||||||||||
Terminal Screw Torque | 2.5 Nm | ||||||||||
RecommendedCable cross Section | ≥16mm² | ||||||||||
Insertwire length | 15mm | ||||||||||
Mounting | DIN rail 35mm (EN60715) | ||||||||||
Degree of Protection | IP20 | ||||||||||
Housing | PBT | ||||||||||
Flame retardant grade | UL94 V0 | ||||||||||
Operating temperature | -40ºC~+70ºC | ||||||||||
Operatingrelative humidity | 5%-95% | ||||||||||
Working atmospheric pressure | 70kPa~106kPa | ||||||||||
Connection | By screw terminals:6-35mm |
Selection of SPD:
For a power distribution system, the main characteristics used to define the lightning protection system and select a SPD to protect an electrical installation in a building are:
The other characteristics for selection of a SPD are predefined for an electrical installation.
This sub-section Design of the electrical installation protection system describes in greater detail the criteria for selection of the protection system according to the characteristics of the installation, the equipment to be protected and the environment.
Connection of SPD:
Connections of a SPD to the loads should be as short as possible in order to reduce the value of the voltage protection level (installed Up) on the terminals of the protected equipment.
The total length of SPD connections to the network and the earth terminal block should not exceed 50 cm.
SPD in plastic enclosure SPD in metal enclosure
RED: Replace