Hydraulic magnetic Circuit Breaker
The BSB hydraulic magnetic circuit breaker series has a history of nearly 30 years. Each series is renowned for its performance and reliability, offering a wide range of configuration options. Many of these series feature advanced functions and cutting-edge designs to meet the demands of today’s leading applications.
Features
- Maintains 100% rated current at all times regardless of ambient temperature changes
- Always trips at 125% or 130% of rated current, depending on product specifications, regardless of ambient temperature
- Resets immediately after tripping
- Capable of withstanding any rated current
- Wide range of time delays
Product Series
Hydraulic-magnetic circuit breaker
B1 Series
Voltage Rating: DC65V, DC80V, AC250V
Current Rating: 1A – 40A (DC80V), 1A – 30A (AC250V)
Poles: 1 pole, 2 poles
Breaking Capacity: 1000A/UL1077, DC65V, DC80V
Mounting type: Snap-in
Certificates: CQC, TÜV, UL1077
Hydraulic-magnetic circuit breaker
B2 Series
Voltage Rating: DC65V, DC80V, AC127V, AC250V, AC415V
Current Rating: 1A – 63A
Poles: 1 pole, 2 pole, 3 pole, 4 pole
Breaking Capacity: 5000A/UL489, 6000A/TUV
Mounting type: Bolt-on
Certificates: CQC, VDE, TÜV, UL1077, UL489
Hydraulic-magnetic circuit breaker
B2H Series
Voltage Rating: AC120/240V, AC240V, AC250V, AC415V
Current Rating: 1A – 63A
Poles: 1 pole, 2 pole, 3 pole
Breaking Capacity: 10KA/UL489
Mounting type: Bolt-on
Certificates: CQC, TÜV, UL498
Hydraulic-magnetic circuit breaker
B3 Series
Voltage Rating: DC65V, DC80V, AC127V,AC120/240V, AC250V, AC240/415V, AC277/480V
Current Rating: 1A – 300A (DC), 1A – 200A (AC)
Poles: 1 pole, 2 pole, 3 pole
Breaking Capacity: 10kA
Mounting type: Bolt-on
Certificates: CQC, TÜV, UL1077, UL489, UL489A
Hydraulic-magnetic circuit breaker
B3C Series
Voltage Rating: AC120/240V, AC250V, AC400V
Current Rating: 1A – 32A
Poles: 1 pole, 2 pole
Breaking Capacity: 5000A/UL489, 10KA/TUV
Mounting type: Bolt-on
Certificates: CQC, TÜV, UL489
Hydraulic-magnetic circuit breaker
B3D Series
Voltage Rating: AC120/240V, AC250V, AC400V
Current Rating: 1A – 32A
Poles: 1 pole, 2 pole
Breaking Capacity: 5000A/UL489, 10KA/TUV
Mounting type: Bolt-on
Certificates: CQC, TÜV, UL489
Hydraulic-magnetic circuit breaker
B3E Series
Voltage Rating: DC80V, DC125V, AC240V, AC250V, AC415V
Current Rating: 1A – 63A (AC), 1A – 200A (DC)
Poles: 1 pole, 2 pole, 3 pole, 4 pole
Breaking Capacity: 10KA/UL489
Mounting type: DIN Rail
Certificates: CQC, TÜV, UL489
Hydraulic-magnetic circuit breaker
B3H Series
Voltage Rating: 240V, 277V
Current Rating: 1A – 32A
Poles: 1 pole, 2 pole
Breaking Capacity: 22K (2P, 120/240V), 10KA
Mounting type: Screw
Certificates: CQC, TÜV, UL489
Hydraulic-magnetic circuit breaker
B3R Series
Voltage Rating: 240V, 277V, 480V
Current Rating: 1A – 125A
Poles: 1 pole, 2 pole, 3 pole
Breaking Capacity: 10kA
Mounting type: Bolt-on
Certificates: CQC, TÜV, UL489
Hydraulic-magnetic circuit breaker
B3S Series
Voltage Rating: AC120V, AC240V
Current Rating: 1A – 125A (AC)
Poles: 1 pole, 2 pole, 3 pole
Breaking Capacity: 22KA/UL489
Mounting type: Plug-in
Certificates: CQC, UL489
Hydraulic-magnetic circuit breaker
BG5 Series
Voltage Rating: DC80V, AC230V, AC400/415V
Current Rating: 1A – 63A
Poles: 1 pole, 2 pole, 3 pole, 4 pole
Breaking Capacity: 6000A/TÜV
Mounting type: Bolt-on, Plug-in
Certificates: CQC, TÜV
Overload protector
BC5 Series
Voltage Rating: 125/250VAC, 32VDC, 65VDC
Current Rating: 3A – 25A, 5A – 50A
Poles: 1 pole
Breaking Capacity: 1000A
Mounting type: Bolt-on
Certificates: CQC, TÜV, UL1077
Principles of BSB Hydraulic Circuit Breaker
Normal Overload Operation
When the current is below the rated value of the circuit breaker, the magnetic flux in the solenoid is insufficient to pull the core towards the pole piece due to the pressure of the spring.
When an overload occurs, meaning the current exceeds the rated value of the circuit breaker, the magnetic flux in the solenoid generates enough pull on the core to start moving it towards the pole piece. During this movement, the hydraulic fluid regulates the speed of the core, creating a controlled time delay that is inversely proportional to the magnitude of the current. The purpose of this time delay is that if the overload is brief, such as during motor startup, the core will return to its resting position once the overload disappears.
If the overload persists, the core will reach the pole piece after a time delay corresponding to the current, at which point the magnetic circuit’s reluctance will significantly decrease, allowing the armature to be attracted to the pole face with sufficient force to collapse the latching mechanism, causing the circuit breaker to trip.
The contacts separate, the current stops flowing, and the core returns to its resting position.
Short circuit operation
In the case of high overload values or short circuits, the magnetic flux generated by the coil is sufficient to attract the armature to the pole face. Even if the core does not move, the circuit breaker will trip. This is the instantaneous trip region in the characteristics of the circuit breaker.
Unlike thermal circuit breakers, the trip point of hydraulic magnetic circuit breakers is not affected by ambient temperature. After tripping, the circuit breaker can be immediately reset because no cooling time is required.
Due to the nature of its working principle, any desired time/current characteristic can be obtained.