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Product Name | Expected Price | Dispatch Time | Discount |
---|---|---|---|
L&T [ Lauritz Knudsen ] CM97757OOOO 3 Pole Molded Case Circuit Breaker MCCB (Rated Current 63 A) | ₹1,899.00 | 9 days | 12.11% OFF |
L&T [ Lauritz Knudsen ] CM98402OORO 3 Pole Molded Case Circuit Breaker MCCB (Rated Current 320-400 A) | ₹17,999.00 | 17 days | 11.77% OFF |
ABB 1SDA066720R1 3 Pole Molded Case Circuit Breaker MCCB (Rated Current 125 A) | ₹4,599.00 | 7 days | 52.3% OFF |
L&T [ Lauritz Knudsen ] 320-400A DN3B-400D 3 Pole MCCB with Thermal Magnetic Release CM98401OOROOG | ₹19,999.00 | 3 days | 41.35% OFF |
Havells 3 Pole 100 A Fixed Thermal & Fixed Magnetic Moulded Case Circuit Breakers, IHLGST0100# | ₹1,999.00 | 24 hrs | 30.57% OFF |
Schneider LV525333 250A 36kA Thermal Magnetic Trip 3 Pole Molded Case Circuit Breaker MCCB | ₹16,999.00 | 6 days | 39.68% OFF |
Havells 4 Pole 125 A Fixed Thermal & Fixed Magnetic Moulded Case Circuit Breakers, IHLGSF0125# | ₹4,299.00 | 3 days | 13.87% OFF |
L&T [ Lauritz Knudsen ] DY250U1 200 Amp 4 Pole 10 kA MCCB (CM98196OONO) | ₹6,999.00 | 24 hrs | 29.16% OFF |
Schneider EZC400H3400N 3 Pole Circuit Breaker MCCB 400A | ₹20,999.00 | 6 days | 26.16% OFF |
A molded case circuit breaker is an electrical protection device that protects an electrical circuit from overcurrent, short circuit, and other electrical faults. MCCBs are commonly used in commercial and industrial applications, such as power distribution systems, motor control centres, and panelboards.
MCCBs consist of a molded case that contains the electrical contacts, current-carrying parts, and the trip unit, which is responsible for sensing and interrupting the current flow in case of a fault. The trip unit can be thermal, magnetic, or a combination of both and is designed to trip the circuit breaker when the current exceeds a certain threshold.
If you know about the product, then Schnider molded circuit breaker is one of the best-selling products to shop for your work requirement.
Molded case circuit breakers are widely used in electrical distribution systems to protect against overcurrents, short circuits, and ground faults. Some of the benefits of using MCCBs are:
1. Protection: MCCBs provide reliable protection against overcurrents, short circuits, and ground faults, which helps to prevent damage to electrical equipment, minimize downtime, and reduce the risk of electrical hazards.
2. Flexibility: MCCBs are available in a wide range of sizes and trip curves, which allows them to be customised for specific applications and load types. They can be easily adjusted to provide the desired level of protection for the equipment being used.
3. Durability: MCCBs are designed to withstand high levels of stress and abuse, making them suitable for use in harsh industrial environments. They are built with durable materials and can withstand mechanical shock, vibration, and temperature fluctuations.
4. Ease of installation: MCCBs are easy to install and maintain, which reduces installation time and costs. They can be easily integrated into existing electrical systems, and replacement parts are readily available.
5. Cost-effective: MCCBs offer a cost-effective circuit protection solution compared to other circuit breakers. They are typically less expensive than other circuit breakers, and their long service life helps reduce maintenance costs.
Overall, Schnider electric molded circuit breakers offer reliable, flexible, and cost-effective protection for electrical distribution systems, making them popular for industrial, commercial, and residential applications.
Molded case circuit breakers (MCCBs) are a type of electrical protection device that are commonly used in low-voltage electrical systems. They are designed to protect electrical circuits and equipment from overloads, short circuits, and other faults.
There are several types of molded case circuit breakers, including:
1. Thermal Magnetic MCCBs - These are the most common MCCBs that combine thermal and magnetic protection mechanisms. They use a bimetallic strip to sense thermal overloads and an electromagnet to sense short-circuit currents.
2. Electronic MCCBs - These use solid-state electronics to provide protection and are often used in more complex systems requiring faster tripping times. They also provide additional features like adjustable trip settings, diagnostics, and communication capabilities.
3. Hydraulic-Magnetic MCCBs use a hydraulic mechanism to provide overcurrent protection and a magnetic mechanism to provide short circuit protection. They are often used in harsh environments where vibration and shock may cause false trips.
4. Compact MCCBs - These are smaller and more compact than standard MCCBs and are designed for use in limited space applications. They typically have lower current ratings and fewer features than standard MCCBs.
5. High-Current MCCBs - These are designed for use in applications with high currents, such as in large motors or generators. They typically have current ratings of several thousand amps, and may use special materials and designs to handle the high currents and temperatures.
Overall, the choice of MCCB type will depend on the specific application requirements, such as the level of protection required, the size and complexity of the system, and the environmental conditions. You can shop for ac circuit breakers or automatic circuit breakers at affordable prices.
MCCB stands for Molded Case Circuit Breaker, and it is an important component in electrical distribution systems that helps protect equipment and personnel from electrical faults. Here are some pointers to keep in mind when purchasing MCCBs:
1. Current rating: Choose an MCCB with a current rating that matches the current requirements of your electrical system.
2. Breaking capacity: Ensure that the MCCB has a breaking capacity higher than the maximum fault current that could occur in your electrical system. This ensures that the MCCB can safely interrupt the current in case of a fault.
3. Trip characteristics: MCCBs have different trip characteristics, such as thermal, magnetic, or electronic. Choose the trip characteristic that is appropriate for your application.
4. Selectivity: Consider the selectivity of the MCCB, which is the ability of the MCCB to isolate only the faulty circuit in case of a fault, without tripping other circuits. This can help minimise downtime and damage to equipment.
5. Quality and reliability: Look for MCCBs from reputable manufacturers with a proven track record of producing high-quality and reliable products.
6. Accessories: Consider any additional accessories that may be required, such as shunt trips, under voltage releases, or auxiliary contacts.
7. Compliance: Ensure that the MCCB complies with the relevant international standards, such as IEC or UL.
8. Cost: Consider the cost of the MCCB, but do not compromise on quality or safety for cost savings.
With these pointers in mind, you can select the appropriate MCCB for your electrical accessories and ensure safe and reliable operation.