VRH Lightning Protection offers a comprehensive range of advanced earthing solutions designed to provide optimal protection against lightning strikes and electrical faults. Our products are engineered to ensure reliable electrical conductivity, enhance safety, and comply with international standards.
Automatic power transfer solution.
AMF (Automatic Mains Failure) Panels are intelligent control systems that automatically manage the transition between grid (mains) power and generator power during a power failure. When a mains failure is detected, the AMF panel sends a signal to start the generator and transfers the load seamlessly, ensuring continuous power supply.
Once mains power is restored, the AMF panel switches the load back to the mains and shuts down the generator automatically. VRH AMF panels are built using high-quality components and designed for reliability, safety, and efficiency. They are widely used in hospitals, data centers, industrial plants, and commercial buildings where uninterrupted power is critical.
| Panel Type | Automatic Mains Failure (AMF) Panel |
|---|---|
| Operating Voltage | 415V AC, 3 Phase, 50 Hz |
| Generator Capacity Support | 5 kVA to 1000 kVA and above |
| Controller | Microprocessor-based AMF controller with digital display |
| Enclosure Type | Powder-coated CRCA steel, IP42/IP55 (indoor/outdoor) |
| Switching Mechanism | Contactor / MCCB / ACB based (as per load) |
| Monitoring | Voltage, frequency, phase failure, load current |
| Protections | Overload, short circuit, under/over voltage, phase reversal |
| Standards | IS 8623, IEC 61439, IP55 (for outdoor type) |
| Applications | Hospitals, data centers, commercial buildings, telecom sites, industries |
Low-voltage power distribution.
LT (Low Tension) Panels are electrical distribution boards used to control, protect, and isolate electrical equipment in low-voltage power systems. These panels play a crucial role in distributing power efficiently from transformers or generators to various loads such as machinery, lighting, HVAC systems, and utilities.
Manufactured using high-grade CRCA steel and top-quality switchgear components, VRH LT Panels are designed for long-lasting performance and complete safety. Custom-built to meet specific project requirements, these panels are widely used in commercial buildings, factories, power plants, and infrastructure projects.
| Panel Type | Low Tension (LT) Distribution Panel |
|---|---|
| Operating Voltage | 415V AC, 3 Phase, 50 Hz |
| Rated Current | Up to 6300A (customizable) |
| Construction | Compartmentalized, sheet steel enclosure |
| Busbar | High-conductivity aluminum/copper, heat-shrink insulated |
| Switchgear | MCCB, ACB, contactors, relays, meters (as per requirement) |
| Protection | Overload, short circuit, earth fault, phase reversal |
| Enclosure Protection | IP42 / IP54 / IP55 (indoor/outdoor use) |
| Standards | IS 8623, IEC 61439-1 & 2 |
| Applications | Factories, commercial buildings, utilities, substations, malls, hospitals |
Safe AC power distribution.
ACDB (AC Distribution Box) is an essential component in solar power systems and electrical installations, designed to safely manage and distribute AC output from inverters to various connected loads. It ensures streamlined and protected power distribution through properly rated MCBs, MCCBs, surge protection devices, and isolators.
At VRH, our ACDBs are custom-built using high-quality components housed in durable enclosures that are suitable for both indoor and outdoor environments. These boxes offer enhanced safety, reduce wiring complexity, and comply with relevant electrical standards, making them ideal for residential, commercial, and industrial applications.
| Input | AC output from inverter (1-phase or 3-phase) |
|---|---|
| Output | Multiple AC circuits to loads or grid interface |
| Rated Voltage | 230V / 415V AC, 50Hz |
| Current Rating | Up to 630A (customizable) |
| Protection Devices | MCB, MCCB, SPD, ELCB, Isolator |
| Enclosure | Powder-coated CRCA / Polycarbonate / FRP |
| Ingress Protection | IP54 / IP65 (based on installation site) |
| Standards | IS 8623, IEC 61439 |
| Applications | Solar plants, commercial buildings, residential complexes, industries |
Reliable Power Distribution.
DCDB (Direct Current Distribution Board) is a crucial component in solar photovoltaic (PV) systems, designed to manage and distribute DC power from the solar panels to the inverter. It provides a centralized point for the integration of various protective devices, such as fuses, surge protection devices (SPDs), and circuit breakers, ensuring safe and efficient power flow.
DCDBs are engineered to handle different voltage levels and current capacities, making them suitable for residential, commercial, and industrial solar installations. The enclosure is typically weatherproof and durable, enabling outdoor and rooftop applications. With high reliability and ease of maintenance, DCDBs enhance system performance and safety compliance.
| Input Voltage | 12V / 24V / 48V / 1000V DC (configurable) |
|---|---|
| Number of Inputs | 2 to 16 (fused input strings) |
| Number of Outputs | 1 or more (configurable) |
| Protection Devices | MCBs, Fuses, Surge Protection Devices (SPD) |
| Enclosure Type | Polycarbonate or Metal |
| Ingress Protection Rating | IP65 / IP66 |
| Cable Entry | Gland / MC4 connectors |
| Mounting Type | Wall-mounted / Pole-mounted |
| Operating Temperature | -10°C to +55°C |
| Compliance Standards | IEC 61439-1 & IEC 60364 |
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Protects Against Voltage Surges.
LSPU (Lightning Surge Protection Unit) is a safety device engineered to protect electrical and electronic equipment from transient overvoltages caused by lightning strikes or switching operations. It works by diverting the excess surge energy away from sensitive loads and grounding it safely, thereby preventing potential damage to connected systems.
LSPUs are commonly installed in solar PV systems, telecom infrastructure, industrial panels, and building power distribution systems. Their robust construction and high discharge capacity make them ideal for use in outdoor and high-risk environments. These units comply with international safety standards and are essential for improving system reliability and extending the lifespan of electrical assets.
| Type | Type I / Type II / Type III (based on application) |
|---|---|
| Nominal Discharge Current (In) | 5kA to 20kA (8/20μs) |
| Maximum Discharge Current (Imax) | 40kA to 100kA (8/20μs) |
| Voltage Rating | 600V / 1000V DC or 230V / 415V AC (customizable) |
| Response Time | <1 nanosecond |
| Mounting Type | DIN Rail Mounted |
| Enclosure Type | Polycarbonate / Metal (IP20 to IP65) |
| Indication | Visual fault indicator / remote signaling contact (optional) |
| Compliance Standards | IEC 61643-11 / IS/IEC 62305 |
Our technical team can design tailor-made earthing systems for any application or environment.
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