⎯⎯ Solar PV and Battery Protection
DC MCB for Solar PV and Battery Systems
The VIOX DC MCB range on this page is built around three real product families: VOB3-63DC, VOB6-63DC, and VOB2-125DC. Together they cover compact and higher-current direct current protection needs for solar PV strings, combiner boxes, battery systems, telecom power, and industrial DC distribution, with polarity-free wiring, 1P to 4P configurations, and voltage classes up to DC1200V.
250V-1200V
Typical DC Classes
1P-4P
Pole Formats
63A+125A
Current Platforms
⎯⎯ DC Miniature Circuit Breaker
Three Real Models for Different DC Jobs
VOB3-63DC
Up to DC1000V and 10kA
VOB6-63DC
Up to DC1200V
VOB2-125DC
Up to 125A high current
DIN Sín
Panel and combiner integration
- Solar PV Protection
- Battery and DC Systems
- 1P to 4P Direction
- 125V to 1000V DC
- DIN sínre szerelés
⎯⎯ Áttekintés
What Is a DC MCB?
Direct Current Interruption
DC breakers are selected for circuits where current does not naturally cross zero as it does in AC applications, so the product rating and DC arc handling are critical.
PV and Battery Protection
DC MCB products are widely used on the DC side of solar power systems, battery strings, energy storage cabinets, and related low-voltage direct current assemblies.
Voltage and Pole Matching
DC MCB selection usually starts with system voltage, then moves to current rating, number of poles, and wiring requirements so the breaker fits the actual installation safely and clearly.
⎯⎯ Termékválaszték
Core DC MCB Categories
Model Family
- Current : 1A - 63A
- Voltage : Up to DC1000V
- Breaking: 10kA (6kA optional)
Model Family
- Current: 1A - 63A
- Voltage : Up to DC1200V
- Frame : 63A
Model Family
- Current: 32A - 125A
- Voltage : Up to DC1000V
- Frame : 125A
⎯⎯ Műszaki adatok
DC MCB Technical Direction
DC MCB selection is usually confirmed by system voltage, current rating, pole structure, short-circuit level, installation layout, and the actual application environment. These points help match the breaker to solar, battery, telecom, and other direct current systems more accurately.
| Tétel | Tipikus lefedettség |
|---|---|
| Terméktípus | DC miniature circuit breaker for direct current protection |
| Tipikus áramtartomány | Common project requests from 6A to 63A |
| Pólus opciók | 1P / 2P / 4P |
| Typical Voltage Classes | 125V / 250V / 500V / 1000V DC |
| Szerelés | DIN rail installation in cabinets and combiner boxes |
| Védelem Hatálya | Overload and short-circuit protection in DC circuits |
| Alkalmazási illeszkedés | Solar PV, battery systems, telecom power, DC panels |
| Wiring Review | Model marking and system polarity should be matched clearly |
| System Focus | Voltage class first, then current and pole logic |
| Common Standards Direction | DC-rated breaker selection by target market and application |
Konfigurációs kiemelések
The right DC MCB is normally chosen by confirming the DC system voltage first, then checking the current rating, number of poles, installation environment, and whether the breaker will be used in a solar PV, battery, or general DC distribution application.
Voltage Class First
The DC voltage class is usually the first checkpoint in breaker selection.
Pole Structure Match
1P, 2P, and 4P choices are reviewed against the real circuit layout.
PV and Battery Fit
Solar and storage projects often need clearer DC application matching.
DIN Rail Integration
The breaker should fit the panel, combiner box, or cabinet structure cleanly.
⎯⎯ Alkalmazások
Alkalmazási területek
Napelemes kombinátor dobozok
Used for PV string-side overload and short-circuit protection in solar combiner box and rooftop photovoltaic installations.
Battery Energy Storage
Suitable for battery-related DC branch circuits, battery cabinets, and energy storage layouts requiring compact breaker protection.
Telecom DC Power
Fits telecom power cabinets, backup systems, and DC control circuits where direct current distribution needs compact modular protection.
Industrial DC Panels
Applied in control cabinets, automation enclosures, and dedicated DC distribution panels that require DIN rail breaker integration.
⎯⎯ Kiválasztási fókusz
How to Select the Right DC MCB
Match the DC Voltage Class First
Start with the actual system voltage. In direct current applications, the breaker voltage class is the first condition that needs to match the circuit design.
Choose the Right Pole Configuration
1P, 2P, and 4P options are used for different circuit structures. The correct pole arrangement depends on the system layout, isolation requirement, and wiring method.
Check the Application Environment
Solar PV strings, combiner boxes, battery systems, and telecom DC cabinets all place different demands on the breaker, so the application should be confirmed early in selection.
Confirm the RFQ Details Clearly
For faster quotation, confirm the system voltage, rated current, pole requirement, quantity, and application so the correct DC MCB configuration can be matched quickly.
⎯⎯ GYIK
Gyakran Ismételt Kérdések
What is a DC MCB used for
What DC MCB pole formats are commonly used?
Common DC MCB configurations include 1P, 2P, and 4P formats. The right pole arrangement depends on system voltage, isolation logic, circuit design, and the wiring method required by the application.
How is a DC MCB different from a standard AC MCB?
A DC MCB is designed for direct current interruption, where the arc behavior is different from AC circuits. DC applications require product ratings, pole combinations, and wiring rules that match the target DC voltage and the actual system layout.
Where are DC MCB products commonly installed?
DC MCB products are commonly installed in solar combiner boxes, PV inverter DC sides, battery energy storage systems, telecom DC power cabinets, charging-related DC circuits, and industrial control assemblies that use direct current protection.
What information should be sent for a DC MCB quotation?
For a DC MCB quotation, it is useful to send the system voltage, rated current, number of poles, application, wiring requirement, target market, and quantity. This helps confirm the right DC voltage class and breaker configuration.
⎯⎯ Árajánlat kérése
Discuss the Right DC MCB Configuration
- DC voltage class confirmation
- 1P, 2P, or 4P structure review
- Solar or battery application matching
