Industry News
Industry News
Apr. 16, 2025
Low voltage switchgear is an essential element in electrical distribution systems, ensuring the safe, efficient, and reliable delivery of electric power. It plays a crucial role in protecting electrical circuits and equipment from overloads, short circuits, and other electrical faults.
Read on to discover everything you need to know about low voltage switchgear—including its definition, key components, functions, and the benefits it offers.
To understand low voltage switchgear, it's important to first recognize its overall role in electrical systems. Switchgear is designed to enhance safety and prevent equipment damage caused by short circuits, overloads, or other electrical faults. It is generally categorized into three main types:
- Low Voltage (LV)
- Medium Voltage (MV)
- High Voltage (HV)
Low voltage switchgear is primarily used in industrial and commercial environments, suitable for both indoor and outdoor installations. It is rated for systems up to 1000V, with common voltage levels including 208V, 240V, 480V, and 600V.
This type of switchgear integrates multiple components that work together to protect electrical circuits, support safe maintenance, and ensure reliable power distribution. Typical applications include air conditioning units, heating systems, motors, compressors, and lighting networks, among others.
Low voltage switchgear systems rely on a variety of components to ensure the safe and efficient distribution of electrical power. These components include:
- Low voltage circuit breakers
- Switches
- Offload electrical isolators
- HRC (High Rupturing Capacity) fuses
- Miniature circuit breakers (MCBs)
- Earth leakage circuit breakers (ELCBs)
- Molded case circuit breakers (MCCBs)
- Additional protective accessories as needed
LV switchgear is typically installed within low voltage distribution boards, which are organized into three main sections: the incomer, sub-incomer, and feeder sections.
- Incomer: This is where the incoming electrical power enters the system. It connects to the incomer busbar and houses the main switching devices. These primary switches are designed to handle abnormal currents for short periods, providing time for downstream protection devices to operate.
- Sub-Incomer: Positioned downstream of the incomer, the sub-incomer draws power from the main busbar and supplies it to the feeder bus.
- Feeders: These connect to the feeder bus and distribute electricity to various loads. Each feeder serves a specific purpose, such as:
- Motor loads
- Industrial machinery
- Air conditioning systems
- Lighting circuits
- And more
The choice of protective switchgear components depends on the type of feeder and the load it supports. Regardless of the load type, all feeders are generally protected by switched fuse units to ensure safety and reliability.
The core function of low voltage (LV) switchgear is to protect electrical systems from mechanical and thermal stress caused by short circuit currents. Without proper protection, excessive currents can lead to serious damage, equipment failure, and safety hazards.
Building on the three main components outlined earlier—incomer, sub-incomer, and feeders—each plays a vital role in ensuring system protection:
The incomer is designed to withstand high fault currents for short durations, giving downstream devices time to respond. It can interrupt the system’s maximum fault current, but this typically requires an interlocking mechanism with downstream protection devices.
Air circuit breakers (ACBs) are often used in this position due to their simplicity, high current ratings, effective performance, and strong fault withstand capacity.
The sub-incomer provides a balance between system economy and protection. It supplies power to smaller network sections, requiring fewer interlocks while maintaining safety. It efficiently distributes power downstream without compromising fault handling capability.
The function of each feeder depends on its specific application:
- Motor Feeders: These need protection from overloads, short circuits, and excessive current during locked rotor conditions or single phasing.
- Industrial Machinery Load Feeders: These typically protect equipment like ovens or electroplating baths using molded case circuit breakers (MCCBs) and switch fuse units.
- Lighting Load Feeders: Similar in protection to industrial machinery feeders but with added earth leakage protection to minimize the risk of fire and electric shock caused by current leakage.
In all cases, LV switchgear plays a pivotal role in maintaining electrical safety, system reliability, and operational continuity across various types of electrical loads.
ELECTRICAL PROTECTION AGAINST | ISOLATION | CONTROL |
Overload currents | Isolation clearly indicated by an authorized fail-proof mechanical indicator | Functional switching |
Short-circuit currents | Isolation indicated by an authorized fail-proof mechanical indicator | Emergency switching |
Insulation failure | Emergency stopping | |
A gap or interposed insulating barrier between the open contacts is visible | A gap or interposed insulating barrier between the open contacts is clearly visible |
Low voltage switchgear is widely used across various industries and facilities, including:
- Power stations
- Transformer stations
- Automotive industry
- Infrastructure projects
- Machine construction
- Chemical and petrochemical sectors
- Pharmaceutical industry
- Oil and gas industry
- Pulp and paper industry
- Cement industry
- Mining industry and steel mills
- Waste disposal facilities
- Water management systems
- Steel and metal industry
- Glass manufacturing
- Industrial plant construction
- Data centres
- And many more
One of the primary advantages of low voltage switchgear is its ability to prevent electrical faults and reduce the risk of accidents, ensuring a safer working environment.
It supports the stable and efficient operation of electrical systems, minimizing downtime and improving overall productivity.
By protecting equipment from electrical damage and reducing maintenance needs, low voltage switchgear contributes to significant long-term savings.
What Is the Difference Between Switchgear and Switchboards?
Switchgear and switchboards can be configured in numerous ways, each offering features the other may lack. This makes it difficult to directly compare their costs based solely on size and function. However, in general, switchboards are often a more cost-effective option. This is primarily due to the larger size and greater material requirements of switchgear, which typically includes compartmentalized sections. Even when accounting for added functionality and control wiring, switchboards usually remain the less expensive choice.
Is Low-Voltage Switchgear Easy to Use?
As a switchgear manufacturer, we design custom systems tailored to the specific needs of a building or application, typically installed in controlled environments like plants or switch rooms.
While some systems are straightforward, others can be quite complex. We strongly recommend training before operating any low-voltage switchgear, as errors can lead to costly damage or serious safety hazards. Only qualified, trained, and certified personnel should handle live switchgear, and appropriate personal protective equipment (PPE) must always be used during operation to ensure safety.
