Containerised Switchroom

MVLV Power Solutions recently completed the design, install and commissioning of a sea container Switchroom for one of it clients.

Our MSERIES MCC is perfect for this application and meeting the AS/NZS standards.

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Things you MUST verify when designing low voltage switchgear

Low voltage switchgear

Low voltage switchgear and distribution boards form the link between the equipment for the generation (generators), transmission (cables, overhead lines) and transformation (transformers) of electrical energy on the one hand and the consumers, e.g. motors, solenoid valves, devices for heating, lighting, air conditioning, and the information technology on the other hand.

For alternating voltage, the rated voltage is 1,000 V max., for direct voltage it is 1,500 V max.

NOTE // In the IEC/VDE standards, the term “power switchgear and controlgear, PSC assembly” is used.

Like medium voltage switchgear, low voltage switchgear is also less often installed with individual panel design on site, but delivered as factory assembled, type-tested switchgear. For design verification, testing is to be accomplished successfully in compliance with IEC 61439-1 (VDE 0660-600-1) and IEC 61439-2 (VDE 0660-600-2).

Generally, the mounting designs for switchgear equipment can be selected dependent on the usage. Switchgear design usually involve some of these //

Mounting designs for SIVACON S8 low voltage switchgear
Mounting designs for SIVACON S8 low voltage switchgear

 

Test verification under arcing fault conditions in accordance with IEC / TR 61641 (VDE 0660-500, Addendum 2) ensures maximum safety of persons. Protective measures such as high-quality insulation of live parts (for example busbars), uniform and easy handling, integrated operator fault protection, and reliable switchgear dimensioning prevent arcing faults and hence personal injuries.

The main components of the switchgear are: busbars, switching devices, secondary structures, protective equipment, measuring and counting instruments.

The essential selection criteria according to which low voltage switchgear and distribution boards are designed are the following //

Rated currents

  • Rated current Ir of the busbars
  • Rated current Ir of the feed-in
  • Rated current Ir of the branch circuits
  • Rated short-time current Icw of the busbars
  • Rated peak short circuit current Ipk of the busbars

 

Degree of protection and type of installation

  • Degree of protection in accordance with IEC 60529 (VDE 470-1)
  • Protection against electric shock (safety class) inaccordance with standard IEC 60364-4-41 (DIN VDE 0100-410)
  • Enclosure material
  • Type of installation (on the wall, stand-alone)
  • Number of front operating panels

 

Type of device installation

  • Fixed installation
  • Plug-in design
  • Withdrawable unit design
  • Snap-on fixing on mounting rail

 

Usage

  • Main switchgear or main distribution board
  • Sub-distribution board
  • Line distribution board
  • Motor, installation, industry distributor
  • Light or power distributor
  • Reactive power compensation unit
  • Control unit

Depending on the type of power distribution, a differentiation is made between point-to-point distribution boards and line distribution boards. In point-to-point distribution boards, the electric power is distributed radially from a spatially limited system (see Figure 1).

Schematic diagram of a point-to-point distribution board
Figure 1 – Schematic diagram of a point-to-point distribution board

Whereas in line distribution boards – today mostly busbar trunking systems – the individual power tappings take place via spatially separated equipment and the power is transmitted to these tap-off units by means of encapsulated busbars (see Figure 2).

Schematic diagram of a line distribution board
Figure 2 – Schematic diagram of a line distribution board

 

In point-to-point distribution boards, one transformer per busbar section supplies the main switchgear. The downstream motor distributors, control units, distributors for lighting, heating, air conditioning, workshops, etc. – that is, those fed by the main switchgear in turn – are referred to as sub-distribution boards.

The combination of a main switchgear with feed-in transformer is referred to as transformer load centre substation.

Due to its compactness it provides a secure and economic option of distributed power supply in compliance with the factory-assembled stations described in IEC 62271-202 (VDE 0671-202).

Left: Simple and safe operation of the withdrawable units behind closed doors; Right: The mechanical coding of the withdrawable unit prevents any confusion of withdrawable units of the same size.
Left: Simple and safe operation of the withdrawable units behind closed doors; Right: The mechanical coding of the withdrawable unit prevents any confusion of withdrawable units of the same size.

 

When planning low voltage switchgear, the prerequisite for efficient dimensioning is the knowledge of the local conditions, the switching duty, and the demands on availability.

For power distribution systems in functional buildings, no large switching frequencies have to be considered and no major extensions are to be expected. Therefore, performance-optimised technology with high component density can be used. In these cases, mainly fuse-protected equipment in fixed-mounted design is used.

In a power distribution system or motor control centre for a production plant, however, replaceability and reliability of supply are the most important criteria in order to keep downtimes as short as possible.

A vital basis here is deploying withdrawable unit systems both in circuit breaker protected and in fuse protected design.

 

Forms of internal separation

A multi-purpose low voltage switchgear installation is characterized by numerous combination possibilities of different mounting designs within one panel and variable forms of internal separation. The forms described in IEC 61439-2 (VDE 0660-600-2) are listed in Table below.

Forms of internal compartmentalisation of power switchgear assemblies
Forms of internal compartmentalisation of power switchgear assemblies

Siemens SIVACON S8 General Plant Design

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MSeries LV switchboard

The MSeries LV switchboard has been fully type tested to the latest AS/NZS standards and is designed as a compact switchboard for motor control and power distribution, the withdrawable modules makes it easy for its customers to modify when required.

MVLV for the month of October and November of offering prizes to anyone who leads to the sale of this great product. Conditions apply

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Electrical Engineering & Drafting Services

Is your business in need of extra help, MVLV Power Solutions can help with electrical design and drafting services for your next project wether it be feasibility, project support or project completion. Our engineering team is fully qualified with years of experience.
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