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We also provide service in cable laying services. We offer install, testing and commissioning of HT & LT cables in trenches, trays and pipes.

Cable laying services in industrial complexes, or over large distances, they are staffed by our expert technicians and engineers who perform cable preparation, jointing, termination, testing, commissioning, maintenance and troubleshooting tasks.

Cable laying services differ in terms of capabilities like may require cable laying services for low voltage (LV), medium voltage (MV) or higher voltage (HV) cables up to 33 KV.

Some of the features of our Main LT Panel include:

Main Features

• Design and conceptualization based on Client design and specifications
• Preparation of bill of quantities, tendering
• Preparation of detailed drawings, site set out
• Sourcing of material from different well-known vendors
• Evaluation and submission of progress report
• Execution of planting schemes
• Total commissioning as per the request of our esteemed client
• As per client request, we do testing of Panels, repairing and replacing the panels which are not in good condition

LT Panel is an electrical distribution board that receives power from generator or transformer and distributes the same to various electronic devices and distribution boards. Such panels are used in industries both for internal and external use and, therefore, they are quite rugged to withstand different climatic conditions.

Our LT panels are designed to work with low electricity consumption that makes them cost effective


Sai Automation System manufacture PDB residences, these panels are used for dividing main electric power feeds into the various circuits. The power distribution panels can be availed with MCCB / SFU / MCB fully equipped with all necessary safety precautions. Our power distribution panels are applicable for Residential buildings, Industrial buildings, Hotels, Stadiums, Airports, etc.

• Residential buildings
• All Industrial buildings
• Airport
• Stadiums
• Outdoor fabrication centers

An AMF control panel (Automatic Mains Failure control panel) is the ideal choice in cases where you have to control a generator that is connected to the Mains in a standby configuration. The AMF control panel is fitted with an AMF controller that manages, in a fully automatic way, the connection assignment of the LOAD to MAINS or GENERATOR avoiding connection MAINS to GENERATOR. The panel includes miscellaneous equipment: battery charger, electronic circuit boards, power relays, and terminal blocks. The AMF controller is conveniently tasked with driving the power circuit breakers. The size of the circuit breaker capacity and wires defines the required power rating of the panel.

Some features of AMF panels are: • Provides continuous monitoring of three-phase
• Voltage/current/frequency of mains & DG
• As well as battery voltage of DG
• Available in different models
• Automatic shutdown during DG fault
• Fault indication via LED/LCD
• Configurable solid-state output

[1] POWER SUPPLY CONNECTION. The AMF controller is supplied by the battery of the engine. The controller can work in the range 6 up to 36VDC. The AMF controller is very well protected against spikes generated by switching heavy inductive load during the start and stop sequences of the engine.
[2] RS485 SERIAL INTERFACE CONNECTION. The controller supports the MODBUS protocol that will allow you to control and monitor the generator from a remote location.
[3] CANBUS SERIAL INTERFACE & CONFIGURABLE INPUTS. The BeK3 controller is a very flexible controller able to operate with any kind of engine.
[4] GENERATOR VOLTAGE & MAINS VOLTAGE CONNECTIONS. The controller works in a 3-phase configuration up to 600Vac permanently. Protection fuses are required to protect the cables. Controller inputs feature high impedance (about 2 Mega Ohm).
[5] REAR COVER GROUND CONNECTIONS. The controller is protected by a special steel cover. This protects the controller from electromagnetic fields generated by switching the MAINS & GENERATOR circuit breakers.
[6] CURRENT TRANSFORMER CONNECTIONS. In order to protect all systems from overload, these transformers provide current measurements to the AMF controller.
[7] CONFIGURABLE OUTPUT CONNECTIONS. Allows the controller to configure outputs via programmable options. There are more than 80 options for each programmable output.

1. Reduced line loss – A close coordination between the substation equipment, distribution feeders, and associated equipment is necessary to increase system reliability. Volt/VAR control is addressed through expert algorithms which monitors and controls substation voltage devices in coordination with down-line voltage devices to reduce line loss and increase line throughout.
2. Power quality – Mitigation equipment is essential to maintain power quality over distribution feeders. The substation RTU in conjunction with power monitoring equipment on the feeder’s monitors detects and corrects power-related problems before they occur, providing a greater level of customer satisfaction.
4. Energy cost reduction – Real-time monitoring of power usage throughout the distribution feeder provides data allowing the end-user to track his energy consumption patterns, allocate usage and assign accountability to first-line supervisors and daily operating personnel to reduce overall costs
5. Improved reliability – On the qualitative side, improved reliability adds perceived value for the customer and reduces the number of complaints. Distribution automation features that provide interruption and customer service-related benefits include load shedding and other automatic control functions.
6. L.T. Control Panels are used for Power distribution.
7. Domestic-LT: for most individual residential connections.
8. Commercial-LT: for small shops and offices. Also for hotels, guest houses, theaters, etc.
9. Industrial-LT: for very small manufacturing units (like bakery, stone cutting, poha mills, etc).


HT Panel is like LT Panel except that it is used for high tension cables.

LT panels are responsible for distributing the power to various sub LT panels by receiving it from the transformer. These are rated for 430 V, 3-phase, 50Hz, three or four wire system.

It is a floor mounted free standing unit and it is totally closed and extensible type. Its design includes all provisions for safety of operation as well as for maintenance personnel.

• Energy-efficient design
• Flawless finish
• Long-serving life


• The reduced financial risk of over-or under-building
• Reduced project cost-of-capital over time due to better alignment of incremental demand and supply
• Lower local impacts of smaller units may qualify for streamlined permitting
• Significantly reduced exposure to technology obsolescence
• Local job creation for manufacturing, technician installers/operators
• Higher local, small-business development and taxes vs. overseas manufacturing
• Lower unit-cost, automated manufacturing processes shared with other mass-production enterprises (i.e., automotive industry)
• Shorter lead times reduce the risk of exposure to changes in the regulatory climate.
• Reduced exposure to interest-rate fluctuations