Product Ranges
Oil Type[distribution and power]
Oil Type Distribution Transformer
The Oil Type Distribution Transformer is designed for efficient power distribution with enhanced reliability and performance. Key features include:
- High Efficiency: Utilizes mineral oil for effective cooling and insulation, ensuring high efficiency and minimal power loss.
- Robust Design: Built with rugged components to withstand harsh environmental conditions and ensure long operational life.
- Wide Voltage Range: Suitable for a wide range of voltage levels, making it adaptable to various power distribution needs.
- Advanced Protection: Equipped with protection circuits to prevent overloading, short circuits, and overheating.
- Compact and Versatile: Available in both indoor and outdoor designs, suitable for various installation environments.
- Compliance: Meets industry standards such as IS 1180 (Part 1): 2014, ensuring quality and reliability.
Applications:
- Power distribution networks
- Industrial plants
- Commercial buildings
- Residential areas
Dry Type[distribution and power]
Dry Type Distribution Transformer
The Dry Type Distribution Transformer offers a safe and environmentally friendly solution for power distribution. Key features include:
- High Safety: Uses solid insulation materials, eliminating the risk of oil leaks and fire hazards.
- Low Maintenance: Virtually maintenance-free with no need for oil replacement or cooling systems.
- Compact Design: Space-saving design suitable for indoor installations and areas with space constraints.
- Environmental Benefits: Reduces environmental impact by eliminating the use of oil and minimizing fire risks.
- Compliance: Meets industry standards such as IEC 60076 and ISO 9001, ensuring quality and reliability.
Applications:
- Hospitals and healthcare facilities
- Data centers
- Educational institutions
- Residential areas
AVR (Automatic Voltage Regulator)
AVR (Automatic Voltage Regulator)
AVR (Automatic Voltage Regulator) technology is widely used across various industries due to its ability to maintain stable voltage levels and protect equipment from electrical fluctuations.
Features:
- Voltage Stabilization: AVRs maintain a consistent output voltage level, even when the input voltage fluctuates.
- Overvoltage Protection: They protect connected equipment from high voltage spikes.
- Undervoltage Protection: They ensure that equipment doesn’t receive voltage below a certain threshold.
- Surge Protection: AVRs can absorb voltage surges and prevent them from damaging connected devices.
- Frequency Regulation: Some advanced AVRs can also maintain a stable frequency output.
- Phase Correction: They can correct phase imbalances in three-phase power supplies.
- Efficient Power Conversion: High efficiency in converting power, minimizing energy loss.
- Remote Monitoring: Modern AVRs often come with remote monitoring and control capabilities.
- Energy Efficiency: By maintaining a stable voltage, AVRs help in reducing energy losses and improving the efficiency of transformers.
- Industrial Automation: In industrial settings, AVRs with transformers ensure that machinery and equipment receive a steady voltage, preventing disruptions and damage.
- Telecommunications: They are crucial in maintaining stable voltage for communication equipment, reducing downtime and maintaining network reliability
Applications:
- Consumer Electronics: Used to protect home appliances, televisions, and computers from voltage fluctuations.
- Telecommunications: Ensures stable power for communication equipment, reducing downtime and maintaining network reliability.
- Healthcare: Critical in medical facilities to protect sensitive equipment like MRI machines, CT scanners, and other diagnostic devices.
- Industrial Automation: Used in manufacturing plants to safeguard machinery and ensure smooth operations.
- Power Generation: Employed in power plants to regulate voltage levels before distribution.
- Data Centers: Essential in data centers to maintain consistent power supply and protect servers from voltage variations.
- Agricultural Equipment: Used to protect pumps, irrigation systems, and other farm machinery.
- Transportation: Employed in railway systems and other transportation networks to ensure stable power for signaling and communication systems.
Current Transformer [Oil Type & Cast Resin Type]
Current Transformer (CT)
The Current Transformer (CT) is a type of instrument transformer designed to reduce high current levels to a lower, safer level for measurement and monitoring purposes. Key features include:
- High Accuracy: Provides precise current measurement with minimal error.
- Isolation: Ensures electrical isolation between the high voltage primary circuit and the low voltage secondary circuit.
- Safety: Reduces high currents to a manageable level, minimizing the risk of electrical shock.
- Versatility: Suitable for a wide range of applications, including power distribution, metering, and protection systems.
- Compact Design: Available in various sizes and configurations to fit different installation requirements.
- Durability: Built with robust materials to withstand harsh environmental conditions and ensure long operational life.
Applications:
- Power distribution networks
- Metering and billing systems
- Protection relays
- Industrial automation systems
Potential Transformer [Oil Type & Cast Resin Type]
Potential Transformer (PT)
The Potential Transformer (PT), also known as a Voltage Transformer (VT), is designed to reduce high voltage levels to a lower, safer level for measurement and monitoring purposes. Key features include:
- High Accuracy: Provides precise voltage measurement with minimal error.
- Isolation: Ensures electrical isolation between the high voltage primary circuit and the low voltage secondary circuit.
- Safety: Reduces high voltages to a manageable level, minimizing the risk of electrical shock.
- Versatility: Suitable for a wide range of applications, including power distribution, metering, and protection systems.
- Compact Design: Available in various sizes and configurations to fit different installation requirements.
- Durability: Built with robust materials to withstand harsh environmental conditions and ensure long operational life.
Applications:
- Power distribution networks
- Metering and billing systems
- Protection relays
- Industrial automation systems
Ni-Cad Battery [1.2V]
Ni-Cad Battery [1.2V]
The Ni-Cad Battery (Nickel-Cadmium Battery) is a reliable and rechargeable battery with a nominal voltage of 1.2V. It is widely used in various applications due to its durability and performance. Key features include:
- High Reliability: Withstands overcharge, deep discharge, and accidental reverse charge.
- Long Float Life: Typically lasts 20-25 years.
- Low Maintenance: Requires minimal upkeep and has a long shelf life.
- Quick Charge Capability: Can be quickly recharged.
- High Discharge Rate: Suitable for applications requiring high power output.
- Temperature Resilience: Operates effectively in a wide temperature range from -4°F to 131°F (storage: -22°F to 113°F).
- Environmentally Friendly: Made from materials that are less harmful to the environment.
Applications:
- Emergency lighting
- Alarm/security systems
- Backup power devices
- Power tools
- Medical devices
- Cordless phones
- RC models
This Ni-Cad Battery is an excellent choice for devices that require a dependable and long-lasting power source.
VLRA Battery [2V & 12 V]
VLRA Battery (Valve-Regulated Lead-Acid Battery)
The VLRA Battery is a high-performance, maintenance-free lead-acid battery designed for a variety of applications. Key features include:
- Maintenance-Free: No need for water refilling or regular maintenance.
- High Reliability: Designed for long float service life with minimal self-discharge.
- Safety: Equipped with a safety valve to release excess gas generated during overcharge, ensuring safe operation.
- Versatility: Can be installed and operated in any position without risk of electrolyte leakage.
- Long Life: Typically lasts 3-5 years in standby service and can handle 260 or more cycles at 100% discharge in cycle service.
- Compact and Lightweight: Easy to handle and install, making it suitable for various applications.
- High Performance: Efficient discharge characteristics and low internal resistance, ideal for both cycle and standby use.
Applications:
- Emergency lighting systems
- Fire alarms and security systems
- Standby power for communications equipment
- Power tools and lawn equipment
- Portable electronic devices
- Solar energy storage systems
The VLRA Battery is an excellent choice for applications requiring reliable, long-lasting power with minimal maintenance.
Li-Ion [3.6V]
Li-Ion Battery [3.6V]
The Li-Ion (Lithium-Ion) Battery [3.6V] is a highly efficient and reliable rechargeable battery, ideal for a wide range of applications. Key features include:
- High Energy Density: Provides more energy per unit of weight, making it suitable for compact and lightweight applications.
- Long Cycle Life: Capable of enduring many charge and discharge cycles with minimal capacity loss.
- Low Self-Discharge Rate: Retains charge for extended periods when not in use, ensuring readiness whenever needed.
- Fast Charging Capability: Can be quickly recharged, minimizing downtime.
- Consistent Voltage Output: Delivers a stable voltage throughout the discharge cycle, ensuring consistent performance.
- Safety: Incorporates advanced safety features such as protection circuits to prevent overcharging, overheating, and short circuits.
- Environmentally Friendly: Contains no heavy metals and is recyclable, making it a greener energy storage solution.
Applications:
- Consumer electronics (smartphones, tablets, laptops)
- Portable power tools
- Electric vehicles (EVs)
- Renewable energy storage systems
- Medical devices
- Drones and RC models
The Li-Ion [3.6V] Battery is a superior choice for applications requiring high energy density, long cycle life, and reliable performance.
AC UPS
AC UPS (Uninterruptible Power Supply)
The AC UPS is a reliable and efficient device designed to provide immediate backup power during a main power failure. Key features include:
- Immediate Power Supply: Delivers instant power to connected devices during a power outage, ensuring continuous operation.
- High Efficiency: Utilizes advanced technology to achieve high efficiency with minimal power loss.
- Pure Sine Wave Output: Provides clean and stable power, suitable for sensitive electronic devices.
- Wide Input Range: Operates on a wide input voltage range (85-265VAC, 50Hz), making it adaptable to various power sources.
- Protection Features: Equipped with undervoltage, overvoltage, overload, and short circuit protection to ensure safe operation.
- Compact Design: Ultra-compact and lightweight, making it easy to install and integrate into various systems.
- User-Friendly Interface: Features an LCD display and keypad for easy setup and monitoring of charging parameters.
- Soft Start: Incorporates a soft start feature to reduce inrush current and extend the life of the UPS.
- EMI/RMI Filter: Includes onboard EMI/RMI filter to minimize electromagnetic interference and radio frequency interference.
- Over Temperature Shutdown: Protects against overheating with an automatic shutdown feature.
- Adjustable Output Voltage: Some models offer adjustable output voltage (+/- 10%) for flexibility in different applications.
Applications:
- Computers and servers
- Telecommunication equipment
- Medical devices
- Security systems
- Industrial equipment
- Renewable energy storage systems
The AC UPS is an ideal solution for applications requiring reliable, efficient, and safe backup power.
Thyristor Based Battery Charger [DC UPS]
Thyristor-Based Battery Charger
The Thyristor-Based Battery Charger is a robust and efficient device designed to convert AC input into controlled DC output for charging batteries. Key features include:
- High Efficiency: Utilizes phase control technology to achieve high efficiency with minimal power loss.
- Low Ripple Factor: Ensures smooth DC output with minimal ripple, providing stable charging performance.
- Reliability: Built with rugged components to withstand demanding environmental conditions and ensure long operational life.
- Versatility: Suitable for a wide range of battery types, including VRLA, Ni-Cd, Lead-Acid, Gel, and Li-Ion batteries.
- Advanced Control: Equipped with Digital Signal Processor (DSP) based control for precise voltage and current regulation.
- Safety Features: Includes protection circuits to prevent overcharging, overheating, and short circuits, ensuring safe operation.
- User-Friendly Interface: Features an LCD display and keypad for easy setup and monitoring of charging parameters.
- Wide Input Range: Operates on single-phase or three-phase AC input, making it adaptable to various power sources.
Applications:
- Power plants
- Process plants
- Telecommunication systems
- Emergency lighting and security systems
- Renewable energy storage systems
The Thyristor-Based Battery Charger is an ideal solution for applications requiring reliable, efficient, and safe battery charging.
SMPS Based Battery Charger [DC UPS]
SMPS-Based Battery Charger
The SMPS-Based Battery Charger is a highly efficient and reliable device designed to charge batteries using Switch-Mode Power Supply (SMPS) technology. Key features include:
- High Efficiency: Utilizes SMPS technology to achieve high efficiency with minimal power loss.
- Precise Control: Offers precise Constant Current (CC) and Constant Voltage (CV) control for smooth and efficient charging.
- Wide Input Range: Operates on a wide input voltage range (85-265VAC, 50Hz), making it adaptable to various power sources.
- Protection Features: Equipped with undervoltage, overvoltage, overload, and short circuit protection to ensure safe operation.
- Low Ripple & Noise: Provides stable DC output with minimal ripple and noise, ensuring consistent charging performance.
- Compact Design: Ultra-compact and lightweight, making it easy to install and integrate into various systems.
- Industrial Grade Components: Built with high-quality components to withstand demanding environmental conditions and ensure long operational life.
- User-Friendly Interface: Features an LCD display and keypad for easy setup and monitoring of charging parameters.
- Soft Start: Incorporates a soft start feature to reduce inrush current and extend the life of the charger.
- EMI/RMI Filter: Includes onboard EMI/RMI filter to minimize electromagnetic interference and radio frequency interference.
- Over Temperature Shutdown: Protects against overheating with an automatic shutdown feature.
- Adjustable Output Voltage: Some models offer adjustable output voltage (+/- 10%) for flexibility in different applications.
Applications:
- Power plants
- Process plants
- Telecommunication systems
- Emergency lighting and security systems
- Renewable energy storage systems
- Automotive batteries
- Portable electronic devices
The SMPS-Based Battery Charger is an ideal solution for applications requiring reliable, efficient, and safe battery charging.