Your plant needs protection from lightning and surges We have protection systems that are future-proof Let’s connect. Electronics IEC/ EN 61643-11:2012 Protection and safety are important considerations for you The new VPU Series protects and secures your application sustainably Protect your investments The risk to buildings or plants from lightning or power surges is considerable and should never be underestimated, as testified to by the damage statistics published by insurance companies. This is why you should always protect your investment with the latest technology that complies with the most up-to-date specifications. The costs of taking protective measures against lightning and power surges are only a fraction of what the costs of damage could be without them. No unnecessary drop-out times The shut down of a manufacturing plant because of the failure of a controller or the collapse of industrial data transmission systems can have very serious consequences. There is the considerable expense of the disruption caused by the interruption or repair work, in addition to the drop-out time. The safety of personnel also comes into play in processing plants. Weidmuller's products comply with the guidelines and core recommendations in place for lightning and surge protection ensuring that the likelihood of such incidents are reduced to a minimum. 2 Long-term safety planning Choose the most up-to-date technology today and ensure even better safety levels. The VPU Series products for lightning and surge protection already comply with the most recent IEC/EN 61643-11 standard and give you cost savings through increased stability in your planning process and enabling you to provide the highest possible protection for your systems, property and equipment. Minimise iteration cycles and re-designs Re-designs and planning iterations are costly, slow and can conceal a host of uncertainties. Every scheduling modification costs time, money and safety. By the early inclusion of our state-of-the-art, standard-compliant products, you will save on rescheduling and alterations. You can be safe in the knowledge that by deploying our new VPU Series, particularly for longer-term projects, you are making the right decision. EN 50539-11:2012 Specification and basic parameters 7. Budgeting 1. Structure plan 6. Assessment of risk 2. Project organisation 5. Implementation and calendar management EN 61643-11:2012 3. Resource planning 4. Effort determination IEC 61643-11:2011 3 You are looking for safety solutions for your application We can provide you with an end-to-end protection concept Solutions for photovoltaic plants These products, which have been specially designed for the DC side of a plant, have been tested in accordance with EN 50539:2012 •• VPU Type I – Optimal solution for when separation distances cannot be maintained. •• VPU Type II – General DC surge protection solutions for photovoltaic plants 4 Solutions for wind turbine plants Lightning and surge protection solutions for wind turbine plants •• VPU Type I – To protect the plant from direct lightning strikes, the 25 kA devices are the perfect solution for feeding-in •• VPU Type II – The VPU II 750V/25 kA products are highly recommended for generator protection in the control pod area Solutions for plant and building infrastructures Systematic lightning and surge protection solutions for complex building infrastructures •• VPU Type I – These leakage current-free devices are the ideal protection for deployment upstream of the meter •• VPU Type II – A complete product portfolio for all network types (TN-C network, TN-S network, TN-C-S network, TT network, IT network) •• VPU Type III – These provide superior protection for all critical terminal equipment 5 The highest level of lightning and surge protection for plants VPU lightning and surge protection series, types I, II and III for power networks As well as the increase in specification limits, the introduction of IEC/EN 61643-11 in 2012 places a high degree of significance to all-round, reliable, surge protection. Our answer to these new requirements is the new VPU lightning and surge protection series. Based on combined varistor-gas discharge tube technology, this highly advanced product series already fulfils the impending international standards, and therefore is already in a position to provide your facilities with the greatest degree of protection. Not only will you be protecting your plant, but also your planning processes. Conformity with standards for at least 5 years means that you can minimise your planning iteration steps and the redesigns associated with these. Our products have intelligent features to help installers during installation and also for maintenance specialists when servicing the lightning and surge protection systems. Indeed, our VPU Series provides a long-lasting, safe and forward-looking lightning and surge protection solution for your plant. See for yourself. Faster to assemble The optimised mounting rail clip enables easy and quick assembly and removal, without the need for tools. Best overview The large, centred status window provides highly visible information on the status of the protective function. 6 EN 50539-11:2012 IEC 61643-11:2011 EN 61643-11:2012 Flexible positioning in the control cabinet According to IEC 62305, the line path from the surge protection module to the PE connection may only be 50 cm. The fact that you can rotate the base through 180° means that you have the highest degree of flexibility during installation, without impacting on overall visibility. Securely locked in position The arrester can be heard and felt locking into the base. This enables it to comply with the exacting requirements on vibration resistance set by wind turbine plant manufacturers. Rapid status messaging The remote signaling contact with Push In connection can be quickly connected and provides reliable information regarding the status of the protective function. 7 You have many requirements regarding lightning and surge protection Our product portfolio fulfils them all Type I Lightning and surge protection Our VPU Type I products offer surge protection using varistor-gas discharge technology. Equipped with a leakage current power of 12.5 kA und 25 kA (10/350 µs), the products are suitable for use both upstream and downstream of the meter. Upstream of the meter A special feature of the VPU I LCF (Leakage Current Free) products is their freedom from leakage current and are therefore primarily suitable for installation upstream of the meter. The products protect low voltage consumers and electronic devices against direct lightning strikes and lightning coupling. Downstream from the meter VPU I 12.5 kA (10/350 µs) products are designed for use downstream from the meter. The whole portfolio of VPU Type I products complies with IEC 6164311:2012. The pluggable, self-monitoring devices, approved for use with all network configurations, are available as 1, 2, 3 or 4-pin versions, with or without remote signaling contact. In addition, all products are approved both as Type I and Type II. 8 Type II Surge protection VPU Type II surge protection products enable you to protect low-voltage consumer installations and your electronic devices against surges that can occur as a result of atmospheric discharges (thunderstorms) or switching operations (transients). Equipped to handle discharge currents of 40 kA, the products come in 75 V, 150 V, 280 V, 400 V, 600 V and 750 V (25 kA) versions, each with or without remote signalling contact. The whole portfolio of VPU Type II products complies with IEC 61643-11:2012 and is approved for Types II and III. Type III surge protection for terminal devices The surge protection for terminal devices provided by VPU Type III products and VPU SO LD products enables you to protect consumer installations and your electronic terminal devices against surges. The products cover all mainstream voltages in the energy sector (12 V, 24 V, 48 V, 120 V, and 230 V) and are also equipped with a remote signaling contact. The entire portfolio of VPU Type III and VPU SO LD products complies with the current IEC 61643-11:2012. Lightning and surge protection for DC photovoltaic plants Surge protection Types I and II for photovoltaic plants provides a complete product portfolio of surge protection devices to secure the DC voltage side. Type I devices are available as 600 or 1000 V DC versions, Type II devices are available as 600, 1000, 1200, and 1500 V DC versions. All products are available either with or without remote signaling contact. The entire product portfolio of lightning and overvoltage protection devices for photovoltaic plants complies with the current photovoltaic standard EN 50539-11:2012. 9 You would like to learn more about lightning protection zones Let us give you a short overview A lightning protection system is composed of both external and internal lightning protection. The air terminals or ”lightning rods“, the conductors to the ground, and the specially installed ground rods offer external lightning protection. The internal lightning protection consists of a bonding network and lightning and overvoltage protection devices. Lightning protection systems protect people from injury and protect facilities from fire and electrical damage. In order to classify which parts of your building or facility will benefit by or require protection, IEC 62305 Parts 1–4 stipulate that a risk assessment must be conducted on the facility to be protected. This risk assessment will indicate a protection class, I through IV, (formerly called a lightning protection class) for the lightning protection equipment. The equipment is classified according to the strength of the pulsating current and refers only to a current of 10/350 µs or category I of IEC 61643-11:2012. Protection class I assumes a pulsating current of 200 kA. This is the worst case scenario in the event of a direct lightning strike to the external lightning protection equipment. This protection class covers buildings such as petrochemical facilities (external area), explosives storage facilities etc. Protection class II assumes that lightning strikes the external lightning protection equipment with a pulsating current of 150 kA. Example applications for this protection class include parts of hospitals, depots and telecommunications towers. Protection classes III and IV are thrown together because they both assume that lightning strikes the external lightning protection equipment at a pulsating current of 100 kA. Approximately 80 % of all applications fall under these protection classes. To determine the dimensions of the protection devices, the electric current is assumed to be split, half going into the earth along the ground rods and half being fed to the conductive elements in the electrical installation. Consequently, it is assumed that lightning strikes a facility that falls under protection class I with a pulsating current of 200 kA (X) and 50 % of this, or 100 kA (Y1), would be directly conducted into the ground. The other half (Y2) would flow into the electrical installation or power supply. Depending on the number of power supply conductors, this electricity would be distributed evenly across all of them (simplified presentation). A network with 4 conductors means that 25 kA would be channelled to each in a protection class I facility. Now, the lightning protection is actually divided into diverse lightning protection zones (LPZ), so that the protection system works efficiently. This division into lightning protection zones is done in layers from the outside in. Zone 0 is outside the building and is itself split into Zones 0A and 0B. The latter, Zone 0B, is located within the area covered by the lightning protection equipment. Zone 1 is, in general, found inside the building or facility. Zone 2 encompasses protected rooms, such as utility or service rooms. The final zone is Zone 3, which encompasses any devices to be protected. Protective measures in the form of lightning and overvoltage protection are always installed at the boundaries between zones when possible. Lightning and surge protection level X 100 % Energy networks Y2 50% Foundation with earthing system Y1 50% Earth resistance LPL I LPL II LPL III/IV X = 200 kA X = 150 kA X = 100 kA Y1 = 100 kA Y1 = 75 kA Y1 = 50 kA Y2 F1= 100 kA Y2 = 75 kA Y1 = 50 kA L1 L2 L3 N PE F2 a c 10 b Concept of lightning protection zones Lightning and surge protection devices Blitzschutzzonenkonzept on the zone boundaries Boundary between Zone 0 and Zone 1: When external lightning protection is installed, the standards prescribe Type I lightning and overvoltage protection at the Blitzstromableiter building entrance. LPZ 0A LPZ 0BB Boundary between Zone 1 and Zone 2: LPZ 1 LPZ 2 LPZ 3 Type II overvoltage protection is installed here. UV Überspannungsableiter Boundary between Zone 2 and Zone 3: HV This is where the so called overvoltage protection for end devices is installed. SPD an den Zonenübergängen Lightning protection device Surge protection device 11 Where will the VPU Series be installed in your power network? An overview of the most common network configurations Network configurations are individually defined by energy supply companies (ESCs). This means that the network configuration for the building in question will have to be individually determined or requested for each country, region and application and the lightning and surge protection designed after that. The most common network configuration is the TN-S network. TN-S systems Neutral conductor and protective earth conductor are separated throughout the network. Position 1 LPL Type Order No. I/II VPU I 3+1 LCF 280 V/25 kA 1351780000 III/IV 2 3 VPU I 3+1 LCF 280 V/12,5 kA 1352020000 VPU II 3+1 280 V/40 kA 1352650000 VPU II 4 280/40 kA 1352680000 VPU III R 230 V/6 KV AC/DC 1351650000 Main distribution board L1 L2 L3 N PE F1 F3 Sub distribution board Terminal/consumer L1 L2 L3 N PE RCD F2 PAS 1 F5 F4 PAS 2 3 TN-C-S-System (“modern earthing”) Neutral conductor, PEN conductor and equipotential bonding system are connected once at the main distribution board or after the incoming supply to the building. Therefore, a TN-C system becomes a TN-S system (TN-C-S system) from this point onwards. Position 1 2 3 12 LPL Type Order No. I/II VPU I 3 LCF 280 V/25 kA 1351690000 III/IV VPU I 3 LCF 280V/12,5 kA 1352090000 VPU II 3+1 280 V/40 kA 1352650000 VPU II 4 280/40 kA 1352680000 VPU III R 230 V/6 KV AC/DC 1351650000 Main distribution board L1 L2 L3 PEN F1 F3 Sub distribution board Terminal/consumer L1 L2 L3 N PE RCD F2 1 PAS F5 F4 2 PAS 3 TN-C-System (”classic earthing“) Neutral conductor and protective earth conductor functions are combined throughout the network in a single conductor, the PEN conductor (4-conductor-system). Position Type Order No. I/II VPU I 3 LCF 280 V/25 kA 1351690000 III/IV VPU I 3 280 V/12,5 kA 1352200000 2 VPU II 3 280 V/40 kA 1352700000 3 VPU III R 230 V/6 KV AC/DC 1351650000 1 LPL Main distribution board L1 L2 L3 PEN F1 F3 Sub distribution board Terminal/consumer L1 L2 L3 PEN RCD F2 F5 F4 PAS PAS 1 2 3 TT systems One point is earthed directly (operational earth). The exposed conductive parts of the electrical installation are connected to earth lines separate from the operational earth. Position Type Order No. I/II VPU I 3+1 LCF 280 V/25 kA 1351780000 III/IV VPU I 3+1 LCF 280 V/12,5 kA 1352020000 2 VPU II 3+1 280 V/40 kA 1352650000 3 VPU III R 230 V/6 KV AC/DC 1351650000 1 LPL Main distribution board L1 L2 L3 N F1 Sub distribution board Terminal/consumer F3 L1 L2 L3 N PE RCD F2 F5 F4 PAS 1 2 PAS 3 IT systems There is no direct connection between active conductors and earthed parts. The exposed conductive parts of the electrical installation are earthed. Main distribution board L1 L2 L3 F1 Sub distribution board Terminal/consumer F4 L1 L2 L3 PE F2 Position 1 LPL Type Order No. I/II VPU I 3+1 LCF 280 V/25 kA 1351780000 VPU I 3+1 LCF 280 V/12,5 kA 1352020000 2 VPU II 3+1 280 V/40 kA 1352650000 3 VPU III R 230 V/6 KV AC/DC 1351650000 III/IV F3 F6 F5 Z< 1 PAS 2 PAS 3 13 Order overview to help you find your way Complete product portfolio of the new VPU Series VPU Type I Continuous voltage /Discharge (Imax) RSC* Network form Order No. Type I Arrester – Leakage current free – 50 kA Network form Order No. 280 V AC / 12,5 kA with 1-phase + N 1352050000 VPU I 1 LCF 280V/50KA 280 V AC / 50 kA without 1-phase 1351250000 VPU I 3 LCF 280V/12,5KA 280 V AC / 12,5 kA without TN-C 1352090000 VPU I 1 R LCF 280V/50KA 280 V AC / 50 kA with 1-phase 1351230000 VPU I 3R LCF 280V/12,5KA 280 V AC / 12,5 kA with TN-C 1352100000 VPU I 1 LCF 400V/50KA 400 V AC / 50 kA without 1-phase 1351300000 VPU I 3+1 LCF280V/12,5KA 280 V AC / 12,5 kA without TN-S, TT, IT 1352020000 VPU I 1 R LCF 400V/50KA 400 V AC / 50 kA with 1-phase 1351280000 VPU I 3+1R LCF280V12,5KA 280 V AC / 12,5 kA with TN-S, TT, IT 1352030000 VPU I 0 LCF 280V/12,5KA 280 V AC / 12,5 kA Spare arrester Type I Arrester – Leakage current free – 35 kA 1352000000 VPU I 1 LCF 280V/35KA 280 V AC / 35 kA without 1-phase 1351350000 Type I Arrester – 12,5 kA / 280 V VPU I 1 R LCF 280V/35KA 280 V AC / 35 kA with 1-phase 1351330000 VPU I 1 280V/12,5KA 280 V AC / 12,5 kA without 1-phase 1352130000 VPU I 1 LCF 400V/35KA 400 V AC / 35 kA without 1-phase 1351400000 VPU I 1 R 280V/12,5KA 280 V AC / 12,5 kA with 1-phase 1352140000 VPU I 1 R LCF 400V/35KA 400 V AC / 35 kA with 1-phase 1351380000 VPU I 1+1 280V/12,5KA 280 V AC / 12,5 kA without 1-phase + N 1352250000 VPU I 1+1R 280V12,5KA 280 V AC / 12,5 kA with 1-phase + N 1352270000 Type I Arrester – Leakage current free – 25 kA / 280 V VPU I 1 LCF 280V/25KA 280 V AC / 25 kA without 1-phase 1351590000 VPU I 2 280V/12,5KA 280 V AC / 12,5 kA without 1-phase 1352150000 VPU I 1 R LCF 280V/25KA 280 V AC / 25 kA with 1-phase 1351570000 VPU I 2 R 280V/12,5KA 280 V AC / 12,5 kA with 1-phase 1352170000 VPU I 1+1 LCF 280V/25KA 280 V AC / 25 kA without 1-phase + N 1351750000 VPU I 3 280V/12,5KA 280 V AC / 12,5 kA without TN-C 1352200000 VPU I 1+1R LCF280V/25KA 280 V AC / 25 kA with 1-phase + N 1351740000 VPU I 3 R 280V/12,5KA 280 V AC / 12,5 kA with TN-C 1352220000 VPU I 2 LCF 280V/25KA 280 V AC / 25 kA without 1-phase 1351640000 VPU I 3+1 280V/12,5KA 280 V AC / 12,5 kA without TN-S, TT, IT 1352230000 VPU I 2 R LCF 280V/25KA 280 V AC / 25 kA with 1-phase 1351620000 VPU I 3+1R 280V/12,5KA 280 V AC / 12,5 kA with TN-S, TT, IT 1352240000 VPU I 3 LCF 280V/25KA 280 V AC / 25 kA without TN-C 1351690000 VPU I 4 280V/12,5KA 280 V AC / 12,5 kA without TN-S 1352180000 VPU I 3 R LCF 280V/25KA 280 V AC / 25 kA with TN-C 1351670000 VPU I 4 R 280V/12,5KA 280 V AC / 12,5 kA with TN-S 1352190000 VPU I 4 LCF 280V/25KA 280 V AC / 25 kA without TN-S 1351730000 VPU I 0 280V/12,5KA 280 V AC / 12,5 kA Spare arrester VPU I 4 R LCF 280V/25KA 280 V AC / 25 kA with TN-S 1351720000 Type I Arrester – 12,5 kA / 400 V VPU I 3+1 LCF 280V25KA 280 V AC / 25 kA without TN-S, TT, IT 1351780000 VPU I 1 400V/12,5KA 400 V AC / 12,5 kA without 1-phase 1352290000 VPU I 3+1R LCF280V/25KA 280 V AC / 25 kA with TN-S, TT, IT 1351770000 VPU I 1 R 400V/12,5KA 400 V AC / 12,5 kA with 1-phase 1352300000 VPU I 0 LCF 280V/25KA 280 V AC / 25 kA Spare arrester 1351540000 VPU I 1+1 400V/12,5KA 400 V AC / 12,5 kA without 1-phase + N 1352320000 VPU I 1+1 R 400V12,5KA 400 V AC / 12,5 kA with 1-phase + N 1352330000 Type I Arrester – Leakage current free – 25 kA / 400 V 1352120000 VPU I 1 400V/25KA 400 V AC / 25 kA without 1-phase 1351820000 VPU I 3 400V/12,5KA 400 V AC / 12,5 kA without TN-C 1352340000 VPU I 1 R 400V/25KA 400 V AC / 25 kA with 1-phase 1351800000 VPU I 3 R 400V/12,5KA 400 V AC / 12,5 kA with TN-C 1352350000 VPU I 1+1 400V/25KA 400 V AC / 25 kA without 1-phase + N 1351840000 VPU I 3+1 400V/12,5KA 400 V AC / 12,5 kA without TN-S, TT, IT 1352370000 VPU I 1+1R 400V/25KA 400 V AC / 25 kA with 1-phase + N 1351830000 VPU I 3+1 R 400V/12,5KA 400 V AC / 12,5 kA with TN-S, TT, IT 1352380000 VPU I 3 400V/25KA 400 V AC / 25 kA without TN-C 1351870000 VPU I 0 400V/12,5KA 400 V AC / 12,5 kA Spare arrester VPU I 3 R 400V/25KA 400 V AC / 25 kA with TN-C 1351850000 VPU I 3+1 400V25KA 400 V AC / 25 kA without TN-S, TT, IT 1351890000 VPU Type II Continuous voltage /Discharge (Imax) VPU I 3+1R 400V/25KA 400 V AC / 25 kA with TN-S, TT, IT 1351880000 Type II Arrester – 75 V VPU I 0 400V/25KA 400 V AC / 25 kA Spare arrester 1351790000 VPU II 1 75V/40KA VPU II 2 75V/40KA Type I Arrester – N-PE – 50 kA 1352280000 RSC* Network form Order No. 75 V AC / 40 kA without 1-phase 1352390000 75 V AC / 40 kA without 1-phase 1352430000 VPU I 1 N-PE 260V50KA 260 V AC / 50 kA N-PE discharger N-PE 1351900000 VPU II 1 R 75V/40KA 75 V AC / 40 kA with 1-phase 1352420000 VPU I 1 N-PE 260V100KA 260 V AC / 100 kA N-PE discharger N-PE 1351920000 VPU II 2 R 75V/40KA 75 V AC / 40 kA with 1-phase 1352440000 VPU I 0 N-PE 260V50KA 260 V AC / 50 kA Spare arrester 1351930000 VPU II 0 75V/40KA 75 V AC / 40 kA Spare arrester VPU I 0 N-PE 260V100KA 260 V AC / 100 kA Spare arrester 1351940000 Type II Arrester – 150 V VPU I 1 N-PE 440V50KA 440 V AC / 50 kA N-PE discharger N-PE 1351950000 VPU II 1 150V/40KA 150 V AC / 40 kA without 1-phase 1352470000 VPU I 1 N-PE 440V100KA 440 V AC / 100 kA N-PE discharger N-PE 1351970000 VPU II 2 150V/40KA 150 V AC / 40 kA without 1-phase 1352490000 VPU I 0 N-PE 440V50KA 440 V AC / 50 kA Spare arrester 1351980000 VPU II 3 150V/40KA 150 V AC / 40 kA without TN-C 1352520000 VPU I 0 N-PE 440V100KA 440 V AC / 100 kA Spare arrester 1351990000 VPU II 4 150V/40KA 150 V AC / 40 kA without TN-S 1352540000 VPU II 1 R 150V/40KA 150 V AC / 40 kA with 1-phase 1352480000 Type I Arrester – Leakage current free – 12,5 kA 1350530000 VPU I 1 LCF 280V/12,5KA 280 V AC / 12,5 kA without 1-phase 1352070000 VPU II 2 R 150V/40KA 150 V AC / 40 kA with 1-phase 1352500000 VPU I 1R LCF280V/12,5KA 280 V AC / 12,5 kA with 1-phase 1352080000 VPU II 3 R 150V/40KA 150 V AC / 40 kA with TN-C 1352530000 VPU I 1+1 LCF280V/12,5KA 280 V AC / 12,5 kA without 1-phase + N 1352040000 VPU II 4 R 150V/40KA 150 V AC / 40 kA with TN-S 1352550000 * Remote signalling contact 14 RSC* VPU I 1+1R LCF280V12,5KA VPU Type I Continuous voltage /Discharge (Imax) VPU Type II Continuous voltage /Discharge (Imax) RSC* VPU II 0 150V/40KA Spare arrester 150 V AC / 40 kA Network form Order No. 1352450000 Type II Arrester – 280 V VPU Type II Continuous voltage /Discharge (Imax) RSC* Network form Order No. VPU II 3+1 750V / 25KA 750 V AC / 25 kA without TN-S, TT, IT 1351140000 VPU II 4 750V / 25KA 750 V AC / 25 kA without TN-S 1351120000 VPU II 1 280V/40KA 280 V AC / 40 kA without 1-phase 1352580000 VPU II 1 R 750V / 25KA 750 V AC / 25 kA with 1-phase 1351050000 VPU II 1+1 280V/40KA 280 V AC / 40 kA without 1-phase + N 1352630000 VPU II 2 R 750V / 25KA 750 V AC / 25 kA with 1-phase 1351080000 VPU II 2 280V/40KA 280 V AC / 40 kA without 1-phase 1352600000 VPU II 3 R 750V / 25KA 750 V AC / 25 kA with TN-C 1351100000 VPU II 3 280V/40KA 280 V AC / 40 kA without TN-C 1352700000 VPU II 3+1 R 750V/25KA 750 V AC / 25 kA with TN-S, TT, IT 1351150000 VPU II 3+1 280V/40KA 280 V AC / 40 kA without TN-S, TT, IT 1352650000 VPU II 4 R 750V / 25KA 750 V AC / 25 kA with TN-S 1351130000 VPU II 4 280V/40KA 280 V AC / 40 kA without TN-S 1352680000 VPU II 0 750V / 25KA 750 V AC / 25 kA Spare arrester VPU II 1 R 280V/40KA 280 V AC / 40 kA with 1-phase 1352590000 Type II Arrester – N-PE VPU II 1+1 R 280V/40KA 280 V AC / 40 kA with 1-phase + N 1352640000 VPU II 1 N-PE 260V/40KA 260 V AC / 40 kA without VPU II 2 R 280V/40KA 280 V AC / 40 kA with 1-phase 1352620000 VPU II 0 N-PE 260V/40KA 260 V AC / 40 kA Spare arrester VPU II 3 R 280V/40KA 280 V AC / 40 kA with TN-C 1352720000 VPU II 3+1 R 280V/40KA 280 V AC / 40 kA with TN-S, TT, IT 1352670000 VPU Type III VPU II 4 R 280V/40KA 280 V AC / 40 kA with TN-S 1352690000 Type III Arrester – 12 to 230 V VPU II 0 280V/40KA 280 V AC / 40 kA Spare arrester 1352570000 VPU III R 12V/4KV AC/DC VPU III R 24V/4KV AC/DC Type II Arrester – Leakage current free – 280 V 1351030000 N-PE 1351170000 1351180000 RSC* Network form Order No. 12 V with 1-phase + N 1351550000 24 V with 1-phase + N 1351580000 Cont. voltage /Discharge (Imax) VPU II 1 LCF 280V/40KA 280 V AC / 40 kA without 1-phase 1352740000 VPU III R 48V/4KV AC/DC 48 V with 1-phase + N 1351600000 VPU II 3 LCF 280V/40KA 280 V AC / 40 kA without TN-C 1352790000 VPU III R 120V/6KVAC/DC 120 V with 1-phase + N 1351630000 VPU II 4 LCF 280V/40KA 280 V AC / 40 kA without TN-S 1352770000 VPU III R 230V/6KVAC 230 V with 1-phase + N 1351650000 VPU II 1 R LCF280V/40KA 280 V AC / 40 kA with 1-phase 1352750000 Type III – In-wall outlet protection VPU II 3 R LCF280V/40KA 280 V AC / 40 kA with TN-C 1352800000 VPU III SO LD 230 V AC with LED 1-phase + N 1351680000 VPU II 4 R LCF280V/40KA 280 V AC / 40 kA with TN-S 1352780000 VPU II 0 LCF 280V/40KA 280 V AC / 40 kA Spare arrester 230 V AC with LED and audible signal 1-phase + N 1351700000 VPU II 1 400V/40KA 400 V AC / 40 kA without 1-phase 1352830000 VPU PV Type I and II Cont. volt. /Discharge (Imax) RSC* Network form Order No. VPU II 2 400V/40KA 400 V AC / 40 kA without 1-phase 1352850000 Type I Arrester – Photovoltaic – 600 to 1000 V DC VPU II 3 400V/40KA 400 V AC / 40 kA without TN-C 1352880000 VPU I 2+0 PV 600VDC 600 V DC without Photovoltaic 1351520000 VPU II 4 400V/40KA 400 V AC / 40 kA without TN-S 1352900000 VPU I 2+0R PV 600V DC 600 V DC with Photovoltaic 1351490000 VPU II 1 R 400V/40KA 400 V AC / 40 kA with 1-phase 1352840000 VPU I 2+0 PV 1000VDC 1000 V DC without Photovoltaic 1351470000 VPU II 2 R 400V/40KA 400 V AC / 40 kA with 1-phase 1352870000 VPU I 2+0R PV 1000V DC 1000 V DC with Photovoltaic 1351430000 VPU II 3 R 400V/40KA 400 V AC / 40 kA with TN-C 1352890000 Type II Arrester – Photovoltaic 600 to 1.500 V DC VPU II 4 R 400V/40KA 400 V AC / 40 kA with TN-S 1352920000 VPU II 2 PV 600VDC 600 V DC without Photovoltaic 1351340000 VPU II 0 400V/40KA 400 V AC / 40 kA Spare arrester 1352820000 VPU II 2 R PV 600V DC 600 V DC with Photovoltaic 1351370000 VPU II 0 PV 600VDC 600 V DC Spare arrester 1352730000 VPU III SO LD+A Type II Arrester – 400 V Type II Arrester – 600 V 1351320000 VPU II 1 600V/25KA 600 V AC / 25 kA without 1-phase 1352940000 VPU II 2 PV 1000VDC 1.000 V DC without Photovoltaic 1351220000 VPU II 2 600V/25KA 600 V AC / 25 kA without 1-phase 1352970000 VPU II 2 R PV 1000V DC 1.000 V DC with Photovoltaic 1351240000 VPU II 3 600V/25KA 600 V AC / 25 kA without TN-C 1352990000 VPU II 0 PV 1000VDC 1.000 V DC Spare arrester VPU II 4 600V/25KA 600 V AC / 25 kA without TN-S 1353020000 VPU II 3 PV 1000VDC 1.000 V DC without Photovoltaic 1351270000 VPU II 1 R 600V/25KA 600 V AC / 25 kA with 1-phase 1352950000 VPU II 3 R PV 1000V DC 1.000 V DC with Photovoltaic 1351290000 VPU II 2 R 600V/25KA 600 V AC / 25 kA with 1-phase 1352980000 VPU II 0 PV Y 1000VDC 1.000 V DC Spare arrester VPU II 3 R 600V/25KA 600 V AC / 25 kA with TN-C 1353000000 VPU II 3 PV 1200VDC 1.200 V DC without Photovoltaic 1351420000 VPU II 4 R 600V/25KA 600 V AC / 25 kA with TN-S 1351020000 VPU II 3 R PV 1200V DC 1.200 V DC with Photovoltaic 1351440000 VPU II 0 600V/25KA 600 V AC / 25 kA Spare arrester 1352930000 VPU II 0 PV 1200VDC 1.200 V DC Spare arrester VPU II 3 PV 1500VDC 1.500 V DC without Photovoltaic 1351500000 Photovoltaic 1351530000 Type II Arrester – 750 V VPU II 1 750V / 25KA 750 V AC / 25 kA without 1-phase 1351040000 VPU II 3 R PV 1500V DC 1.500 V DC with VPU II 2 750V / 25KA 750 V AC / 25 kA without 1-phase 1351070000 VPU II 0 PV 1500VDC 1.500 V DC Spare arrester VPU II 3 750V / 25KA 750 V AC / 25 kA without TN-C 1351090000 1351190000 1375440000 1351390000 1351480000 15 Fax reply +49 5231 14-292083 I would like to have more information about lightning and surge protection (Please select your request): Please send me the latest lightning and surge protection catalogue Please present me the latest product group* I’m interested on a personal consultation* Newsletter by e-mail E-mail address * Please contact me: by phone Sender: Company Department Ms / Mr Street Zip code / City Phone E-mail via E-mail Further information is available here: The latest catalogue – lightning and surge protection – you can get on our website www.weidmueller.com in the download section A direct and quick access to our online catalogue can be found www.weidmuller.com. Here you will find detailed information about our products and be able to enter your order requests. Further information about our VPU product series and current tender documents for downloading are available at www.weidmueller.com/VPU Weidmüller – Partner in Industrial Connectivity. As experienced experts we support our customers and partners around the world with products, solutions and services in the industrial environment of power, signal and data. We are at home in their industries and markets and know the technological challenges of tomorrow. We are therefore continuously developing innovative, sustainable and useful solutions for their individual needs. Together we set standards in Industrial Connectivity. Weidmüller Interface GmbH & Co. KG Klingenbergstraße 16 32758 Detmold, Germany Phone +49 5231 14-0 Fax +49 5231 14-292083 [email protected] www.weidmueller.com 1403780000/09/2012/SMMD