CJ:Enterprise code
M:Moulded case circuit breaker
1:Design No
□:Rated current of frame
□:Breaking capacity characteristic code/S denotes standard type (S can be omitted)H denotes higher type
Note: There are four types of neutral pole (N pole) for four phases product.The neutral pole of type A is not equipped with over-current tripping element, its always switched on, and it is not switched on or off together with other three poles.
The neutral pole of type B is not equipped with over-current tripping element, and it’s switched on or off together with other three poles(the neutral pole is switched on before being switched off)The neutral pole of type C is equipped with over-current tripping element, and it’s switched on or off together with other three poles(the neutral pole is switched on before being switched off) The neutral pole of type D is equipped with over-current tripping element, it’s always switched on and is not switched on or off together with other three poles.
| Accessory name | Electronic release | Compound release | ||||||
| Auxiliary contact,under voltage release,alam contact | 287 | 378 | ||||||
| Two auxiliary contact sets,alarm contact | 268 | 368 | ||||||
| Shunt release, alarm contact, auxiliary contact | 238 | 348 | ||||||
| Under voltage release,alarm contact | 248 | 338 | ||||||
| Auxiliary contact alarm contact | 228 | 328 | ||||||
| Shunt release alarm contact | 218 | 318 | ||||||
| Auxiliary contact under-voltage release | 270 | 370 | ||||||
| Two auxiliary contact sets | 260 | 360 | ||||||
| Shunt release under-voltage release | 250 | 350 | ||||||
| Shunt release auxiliary contact | 240 | 340 | ||||||
| Under-voltage release | 230 | 330 | ||||||
| Auxiliary contact | 220 | 320 | ||||||
| Shunt release | 210 | 310 | ||||||
| Alarm contact | 208 | 308 | ||||||
| No accessory | 200 | 300 | ||||||
| 1 Rated value of circuit breakers | ||||||||
| Model | Imax (A) | Specifications (A) | Rated Operation Voltage(V) | Rated Insulation Voltage(V) | Icu (kA) | Ics (kA) | Number of Poles (P) | Arcing Distance (mm) |
| CJMM1-63S | 63 | 6,10,16,20 25,32,40, 50,63 | 400 | 500 | 10* | 5* | 3 | ≤50 |
| CJMM1-63H | 63 | 400 | 500 | 15* | 10* | 3,4 | ||
| CJMM1-100S | 100 | 16,20,25,32 40,50,63, 80,100 | 690 | 800 | 35/10 | 22/5 | 3 | ≤50 |
| CJMM1-100H | 100 | 400 | 800 | 50 | 35 | 2,3,4 | ||
| CJMM1-225S | 225 | 100,125, 160,180, 200,225 | 690 | 800 | 35/10 | 25/5 | 3 | ≤50 |
| CJMM1-225H | 225 | 400 | 800 | 50 | 35 | 2,3,4 | ||
| CJMM1-400S | 400 | 225,250, 315,350, 400 | 690 | 800 | 50/15 | 35/8 | 3,4 | ≤100 |
| CJMM1-400H | 400 | 400 | 800 | 65 | 35 | 3 | ||
| CJMM1-630S | 630 | 400,500, 630 | 690 | 800 | 50/15 | 35/8 | 3,4 | ≤100 |
| CJMM1-630H | 630 | 400 | 800 | 65 | 45 | 3 | ||
| Note: When the test parameters for the 400V, 6A without heating release | ||||||||
The application of MCCB has completely changed the way of circuit protection. MCCB refers to plastic case circuit breaker, which is widely used in various industries for its excellent performance and reliability. This article will explore the different applications of MCCBs and how they can have a significant impact on electrical safety.
MCCBs are widely used in industrial environments where circuit protection is critical. These circuit breakers are designed to handle high currents and provide reliable protection against overloads, short circuits, and other electrical faults. One of the main advantages of MCCBs is their ability to automatically interrupt the flow of electricity in the event of a fault, thus preventing any potential dangers such as fire or damage to expensive equipment.
In commercial buildings, MCCBs are used to protect circuits that power lighting systems, HVAC systems, and other critical equipment. These circuit breakers ensure that in the event of a fault, the affected portion of the circuit is disconnected without interrupting power to the rest of the building. This ability to selectively isolate faulty circuits saves time and prevents unnecessary downtime throughout the facility.
Another important application of MCCB is in the field of renewable energy. As the demand for green energy continues to increase, molded case circuit breakers play an important role in protecting the electrical systems of solar power plants and wind turbines. These circuit breakers ensure that the electricity generated is safely transferred to the grid without causing any damage to equipment or personnel.
Due to their sturdy construction and reliable performance, molded case circuit breakers are also widely used in the oil and gas industry. MCCB is responsible for circuit protection in a variety of applications including offshore platforms, refineries and pipeline installations. These circuit breakers are designed to withstand extreme environmental conditions, ensuring the continued safe operation of critical electrical systems.
MCCB has also entered the residential field to provide efficient and reliable solutions for home circuit protection. As the number of appliances and systems within a home increases, so does the risk of electrical failure. MCCB protects residential circuits from overloads and short circuits, giving homeowners peace of mind and increasing electrical safety.
Additionally, MCCBs are widely used in data centers to protect critical equipment and systems that support information technology infrastructure. These circuit breakers are critical to preventing data loss due to electrical faults, ensuring uninterrupted operations, and protecting valuable information stored in servers and other network equipment.
In summary, molded case circuit breakers are used in various industries and sectors, making them an important part of circuit protection. Their ability to handle high currents, interrupt current flow during faults, and rugged construction make them a popular choice for ensuring electrical safety. Whether in industrial settings, commercial buildings, renewable energy installations, oil and gas facilities, residences or data centers, MCCB has proven to be a reliable and efficient solution. As technology continues to advance, the application and importance of molded case circuit breakers will only grow, further enhancing electrical protection and safety in various fields.
