The demand for electrical systems in various industries has led to the development of numerous safety standards and regulations. One such distinction is made between the terms ELV and SELV. While they may sound similar, there are significant differences between these two classifications.
ELV - Extra-Low Voltage
ELV stands for Extra-Low Voltage and refers to electrical systems that operate with a voltage below a specific predefined threshold. This limit varies across regions and industries but is typically set at 50 or 120 volts AC or 60 or 150 volts DC. The primary purpose of ELV systems is to mitigate electrical shock hazards and minimize potential risks to humans and animals. ELV systems are commonly found in residential, commercial, and light industrial applications.
SELV - Separated Extra-Low Voltage
SELV, on the other hand, stands for Separated Extra-Low Voltage. It is a type of electrical system specifically designed to ensure an even higher level of safety. Compared to ELV systems, SELV systems provide an additional layer of protection against electric shock by separating the voltage source from earth ground. SELV systems typically have stricter constraints and more stringent requirements for insulation, grounding, and separation of circuitry. These systems are often used in environments where there is an increased risk of electrical hazards, such as wet areas or locations with flammable materials.
Differences in Safety Requirements
One of the key differences between ELV and SELV lies in the safety requirements for each classification. ELV systems must implement measures to protect against direct contact with live parts, such as enclosures, insulation, or grounding. However, since the voltage remains lower than typical power distribution voltages, the safety measures are less strict compared to SELV systems. In SELV systems, the separation between the voltage source and earth ground becomes crucial as it eliminates the possibility of electric shock. This requires additional insulation and isolation techniques.
Applications and Limitations
ELV systems are commonly used in everyday applications such as lighting fixtures, domestic appliances, and low-power electronic devices. Their lower safety requirements make them more cost-effective and easier to implement. On the other hand, SELV systems find their applications in critical environments where electrical hazards need to be minimized, such as medical equipment, hazardous locations, or industrial machinery. The higher safety levels offered by SELV systems come at a higher cost and require more complex designs. It is important to consider the specific requirements and risks involved when deciding between ELV and SELV for various applications.