"Venergia Electrotech Pvt Limited, established in 2018, specializes in panel manufacturing, industrial automation, engineering support, and electrical contracting. Under the guidance of Director Vivek Patil, we deliver tailored solutions with a focus on excellence and customer satisfaction."
Call Us Any Time:
+91 7028644710Email Us:
vivek@v-energia.co.inWorking Time:
Mon - Sun: 09:00 - 05:00
A PLC (Programmable Logic Controller) control panel is a device used in industrial automation to control machinery and processes. It typically contains a PLC unit, input/output modules, power supplies, communication modules, and other components necessary for monitoring and controlling equipment. PLC control panels are programmed to execute specific tasks based on input signals from sensors and user-defined logic, and they play a crucial role in automating various industrial processes.
TECHNICAL SPECIFICATIONS IP Rating: IP55 Material: Mild Steel Frequency Range: 50-60 Hz Voltage: 415 V Mounting Type: Panel Finish: Coated
The Power Control Center (PCC) panel serves as a centralized hub for distributing electrical power within industrial and commercial facilities. Enclosed in a sturdy and robust housing, typically constructed from mild steel, this panel ensures the safe and efficient management of power distribution networks. With its high-quality components and meticulous engineering, the PCC panel is designed to handle varying load demands while maintaining optimal operational performance.
TECHNICAL SPECIFICATIONS Rated Insulator Voltage : 660 Volts Rated Operator Voltage : 415V_+ 10%
The Automatic Power Factor Control (APFC) panel is a critical component in electrical systems, designed to automatically monitor and adjust the power factor of the system to ensure optimal efficiency. Housed within a durable enclosure, typically constructed from mild steel, this panel incorporates advanced control logic and components to regulate reactive power
and maintain a desired power factor. Equipped with capacitors, contactors, and a sophisticated APFC relay, this panel continuously analyzes the power factor of the system and activates or deactivates capacitors as needed to achieve and maintain the desired power factor level. With its ability to improve power quality, reduce energy consumption, and minimize penalties from utility companies, the APFC panel is essential for optimizing the performance and efficiency of electrical systems in industrial, commercial, and residential applications.
TECHNICAL SPECIFICATIONS 45 KVAR Power Factor Panel use as incomer 3P 36 KA Schneider MCCB, 12 Stage HD Capacitors. Schneider Contactor for capacitor Contact. 16 SWG CRCA Sheet for Enclosure, BCH RG3-T 12 Step APFC Relay.
A Distribution Board, also known as a breaker panel or electrical panel, is a pivotal component in electrical systems, responsible for distributing power from the main supply to various circuits throughout a building or facility. Encased within a sturdy housing, typically constructed from metal or plastic, distribution boards serve as the central hub for organizing and protecting electrical wiring, circuit breakers, and other protective devices. They provide essential safety features such as overload and short-circuit protection, ensuring the integrity of the electrical system and safeguarding against electrical hazards. Distribution boards come in diverse
configurations to accommodate different voltage levels, circuit capacities, and installation requirements, catering to the needs of residential, commercial, and industrial applications. As a critical element in electrical infrastructure, distribution boards play a fundamental role in delivering reliable and efficient electrical power distribution within a facility.
TECHNICAL SPECIFICATIONS:24, 36, 48, 60, 72 and 84 pole options Fully welded construction full-width removable gland plate 2 finishes: Grey RAL 7035 and Orange RAL2000 Chassis: 250A, 25 kA/0.1s withstand capacity Option for 400A chassis and split chassis distribution boards available upon request.
A Motor Control Center (MCC) panel is a central component in industrial electrical systems, specifically designed to control and monitor electric motors. Enclosed within a robust housing, typically constructed from metal, MCC panels house various motor control devices such as motor starters, contactors, overload relays, and circuit breakers. These panels provide a centralized location for organizing and protecting electrical components, facilitating the operation and maintenance of motor-driven equipment. MCC panels are engineered to provide reliable and efficient control of motors, offering features such as variable speed drives, soft starters, and communication interfaces for seamless integration with automation systems. They play a crucial role in industrial automation, ensuring the safe and efficient operation of machinery and processes
across diverse industries including manufacturing, utilities, and infrastructure. As a cornerstone of industrial electrical infrastructure, MCC panels contribute to improved productivity, reduced downtime, and enhanced safety in industrial facilities.
TECHNICAL SPECIFICATIONS Rated Insulator Voltage : 660 Volt Rated Operator Voltage : 415V+ -10% RATED IMPULSE Withstand voltage : 8-KV Rated Current : 400A, 630A, 800A, 1000A, 1250A, 1600A, 2000A, 3000A Fault level : 50KA for 1 Sec, 42KA for 1 sec, 35KA for 1 sec Ambient Temp : 50 Degree C Temp. Rise : 35 Degree C over ambient Busbar Support : SMC/FRP Degree of protection : IP-54.
An Instrumentation Panel is a specialized control panel used in industrial settings to monitor and control various processes through instrumentation and control devices. Enclosed within a sturdy housing, typically made of metal, instrumentation panels house instruments such as sensors, transmitters, displays, and controllers. These panels serve as the central interface for operators to monitor process variables such as temperature, pressure, flow, and level, and to control equipment and processes accordingly. Instrumentation panels are designed to provide accurate and reliable measurement and control capabilities, ensuring the efficient operation of industrial processes while maintaining safety and compliance with regulatory standards.
Enclosure Material: Typically constructed from mild steel, stainless steel, or aluminum for durability and corrosion resistance. IP Rating: Designed to meet specific Ingress Protection standards, such as IP65 or IP66, ensuring protection against dust and water ingress.Instrumentation Compatibility: Support for various types of instruments including sensors, transmitters, indicators, and controllers. Safety Features: Incorporation of safety features such as overcurrent protection, short-circuit protection, and grounding to ensure safe operation. Environmental Conditions: Operating temperature range, humidity levels, and other environmental factors the panel can withstand. Size and Dimensions: Physical dimensions of the panel including height, width, and depth to ensure compatibility with the installation site.
DG Synchronization Panels are essential components in power management systems, particularly in facilities where multiple diesel generators (DGs) are utilized. These panels ensure the synchronized operation of multiple DG sets with the main electrical grid or with each other. Enclosed within a sturdy housing, typically made of metal, DG synchronization panels house
sophisticated control devices and instrumentation to regulate the output of individual generators and synchronize them with the grid or with each other.Overall, DG Synchronization Panels play a crucial role in ensuring reliable and efficient operation of power generation systems, enabling seamless integration of DG sets with the main grid and ensuring uninterrupted power supply in critical applications.
TECHNICAL SPECIFICATIONS:Frequency: 50 / 60 Hz Rated Voltage: 220 / 230 / 380 / 400 V.
A Hydraulic Control Panel is a specialized system used to control and regulate hydraulic power units (HPUs) in various industrial applications. Enclosed within a durable housing, typically made of metal or stainless steel, hydraulic control panels house a range of components including hydraulic
pumps, valves, actuators, and sensors. These panels serve as the central interface for operators to monitor and control hydraulic systems, enabling precise manipulation of hydraulic pressure, flow, and direction to drive machinery and equipment.
TECHNICAL SPECIFICATIONS: Degree of Protection : IP 55 Usage/Application : Elevator Control Systems etc Operating Voltage : 415 V Power : 3.8 kW Panel Type : Hybrid Control Panel Phase : 3 Phase Frequency : 50 Hz
A Flameproof Motor Control Center (MCC) Control Panel is a specialized electrical enclosure designed to house motor control components in hazardous environments where there is a risk of flammable gases, vapors, or dust igniting. Enclosed within a robust and explosion-proof housing, typically constructed from heavy-duty materials such as cast aluminum or stainless steel, Flameproof MCC Control Panels provide a safe and reliable solution for controlling motors and electrical equipment in hazardous locations
.
TECHNICAL SPECIFICATIONS:Gas Group: IIA /IIB and IIC Zone Protection: Zone 1 and Zone 2 IP Protection: IP65/66 Cable Entry: As per customer specification. Size and type like NPT/METRIC/BSP/ET or Equivalent Size. Rated Voltage: 250V AC 50/60 Hz. MOC: SS304,SS316,SS316L Brass Nickel Plated Aluminium Alloy (LM6) Mounting: Different for a different type of fitting.
A Flameproof Variable Frequency Drive (VFD) Panel is a specialized electrical enclosure designed to house variable frequency drives and associated control components in hazardous environments where there is a risk of flammable gases, vapors, or dust igniting. Enclosed within a robust and explosion-proof housing, typically constructed from heavy-duty materials such as cast aluminum or stainless steel, Flameproof VFD Panels provide a safe and reliable solution for controlling the speed and torque of electric motors in hazardous locations.
TECHNICAL SPECIFICATIONS:Gas Group: IIA /IIB and IIC Zone Protection: Zone 1 and Zone 2 IP Protection: IP65/66 Range: suitable up to 15HP VFD, 400A Switch Fuse Unit (SFU). Sizes: 480(H)X480(W)X175(D) 480(H)X480(W)X280(D) 480(H)X480(W)X300(D) Cable Entry: As per customer specification. Size and type like NPT/METRIC/BSP/ET or Equivalent Size.
A Solar ACDB (Alternating Current Distribution Box) or DCDB (Direct Current Distribution Box) Panel is an essential component in solar photovoltaic (PV) systems, designed to safely distribute electrical power generated by solar panels. The ACDB distributes alternating current (AC) power produced by inverters, while the DCDB distributes direct current (DC) power generated by solar panels. These panels are crucial for managing the flow of electricity between solar panels, inverters, batteries (if present), and the grid or load.
TECHNICAL SPECIFICATIONS:Enclosure Material: Constructed from durable and weather-resistant materials such as powder-coated steel or aluminum to withstand outdoor conditions. IP Rating: Designed to meet specific Ingress Protection standards, such as IP65 or IP66, ensuring protection against dust and water ingress. ACDB Components: Monitoring Devices:Enable monitoring of AC voltage, current, and frequency. DCDB Components: DC Circuit Breakers: Provide overcurrent protection for DC circuits and allow for isolation during maintenance. Surge Protection Devices (SPDs): Protect against voltage spikes and surges in DC circuits. Monitoring and Control: Monitoring Devices: Provide real-time monitoring of DC voltage, current, and power output from solar panels. Communication Interfaces: Support communication protocols such as Modbus or Ethernet/IP for data exchange with other systems and remote monitoring. Safety Features: Proper Labeling: Clearly label all components and circuits for easy identification and troubleshooting. Lockable Enclosure: Ensure the enclosure can be securely locked to prevent unauthorized access.