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Electrical equipment
What problems does this product solve?

Electrical equipment includes any machine powered by electricity. They usually consists of an enclosure, a variety of electrical components, and often a power switch. Examples of these include:
Major appliance
Microcontroller
Power tool
Small appliances
More specifically, often electrical equipment refers only to components part of the electrical distribution system such as:
Electric switchboards
Distribution boards
Circuit breakers and disconnects
Electricity meter
Transformers
Electrical room
Electrical Equipment in Hazardous Areas
Grounding kit
Hydro Electric Projects
    Grid stations
    Receiving stations
    Transformers
Nuclear Power Plants
Power Transformer
Distribution Transformer
Double Ratio Distribution Transformer
ACSR Conductor
(11 KV) C&R panel sets
Transfer Oil
(Steel Tubular) Poles
(PCC) Poles
(11 KV XLPE) Cable
Cablen(LT PVC 1.1 K.V)
Control Cable 2.5mm2
Other Hardware
Energy meters(Static 1Ø and 3Ø)

Power Transformer
Distribution Transformer
Double Ratio Distribution Transformer
ACSR Conductor
C&R Panel
VCB
Transfer Oil
(Steel Tubular) Poles
(PCC) Poles
MTR
(11 KV XLPE) Cable
120 MM 2 3 CORE
Cablen(LT PVC 1.1 K.V)
630mm2 single core
Control Cable 2.5mm2
11 KV Disc fitting 45 KN T&C
11 KV Disc Insulators 45 KN T&C
11 KV Disc Insulators 45 KN B&S
11 KV Guy Insulators
11 KV Pin Insulators
9 KV LA'S(10 KA) Line Type
60 KV LA'S
33 KV isolators without E/B
LT SHACKLE INSULATORS
Single tenision fittings for panther
Single tenision fittings for Zebra
Single suspension fittings for Zebra
Single suspension fittings for twin Zebra
Single tension fittings for Moose
Single suspension fittings for Moose
Single tension fittings for twin Moose
Single suspension fittings for Zebra with arcking horns
Single tension fittings for Panther with arcking horns
Single tension fittings for twin Zebra
Double tension fittings for panther with arcking horns
PG Clamps Zebra to Zebra cond.
PG Clamps for single moose
P I Clamps for Zebra
P I Clamps for Moose
P I Clamps for twin Moose
P T clamps for Zebra
T clamps for Twin Moose to single Zebra
T clamps for Twin Moose to single Moose
T clamps for Twin Moose Moose
T clamps for Twin Zebra to single Zebra
T-clamps for panther
T clamps for Zebra to Zebra
T clamps assembly for earth wire
Mid span compression joint for earth wire
T clamps for twin Moose to twin Moose
Suspension clamps for earth wire
Mid span compression joint for panther
Mid span compression joint for Zebra
Repair sleeves for panther
Repair sleeves for Zebra
30 Volt DC.Distribution Board
L T AC Distribution Board
Energy meters(Static 1Ø and 3Ø)
5-30 amps Single phase
10-60 Amps three phase
20-80 Amps three phase
10-40 Amps 3-phase.
Hand Held Device (M R I)
Power transmission line materials.
From points of generation to points of demand. Switchgear METERING PROTECTION LIGHTING CONSUMER LUMINARIES Wire & Cables
Generators
Electrical Circuits
Direct Current vs. Alternating Current
BATTERIES and FLASHLIGHTS
Batteries - Flashlight - Lanterns - Streamlight Flashlight
BOXES and TROUGHS
Boxes - Troughs - Weatherproof Box & Cover
CENTRAL CLEANING
Central System Accessories - Nutone Connector - Nutone Replacement Bag -
CONDUIT and CONDUIT FITTINGS

*Note: 10' conduit cannot be shipped via UPS, Fedex or USPS. All conduit order must be shipped via Freight Truck (i.e. Roadway, RedStar). Customers placing orders with conduit will be contacted via phone and or email with the adjusted shipping cost. Conduit - Conduit Fittings - Explosion Proof - Nipples - Pvc - Wiremold - CONTROLS and TIMERS

Timers that switch electrical devices on and off are useful for automatic control of lamps, heaters, humidifiers, and other equipment Motion Sensor - Timers - DIMMERS and FAN CONTROLS

fan controls and dimmers to set any rooms style Dimmer - Fan Speed Control - DISTRIBUTION EQUIPMENT

Circuit Breakers - Meter Sockets - Motor Controls - Panels And Loadcenters - Safety Switches - Sub Meter - Emergency Lighting Emergency Light - Emergency Light Accessory - Emergency Light Battery - Exit Sign - Exit Sign Accessory
FANS AND HEATERS

Ceiling Fan Accessories - Ceiling Fans - Exhaust Fans - Fans, Commercial - Heaters - Thermostats -
FUSES
Batteries, fuel cells and solar cells all produce something called direct current (DC). Electrical Ground

ALARM, SIGNALING, INTERCOM, and DETECTORS

Bells & Chimes - Buttons - Fire Alarm - Intercom - Smoke & Co Detectors - Box Cover Units - Cartridge Fuse Frnr Or Dlnr - Cartridge Fuse Frsr Or Dlsr - Cartridge Fuse Ktk Type - Cartridge Fuse Low Peak - Cartridge Fuse Sc Type - Cartridge Fusetron Fnm - Cartridge Fusetron Fnq - Fuse Block - Fuse Clip Clamp - More Categories HOME AUTOMATION , TELEPHONE, & VIDEO

Hai Omni - Home Automation - Life Safety - Power Line Carrier - Structured Wiring - Telephone - Video - LIGHT BULBS

Changer - Compact Fluorescent - Decorative Light Bulbs - Fluorescent Lamps - Halogen - Hid - Incandescent - Miniature - Octron - LIGHTING FIXTURES

Ballast - Bath And Vanity Lighting - Chandelier Lighting - Close To Ceiling - Closeout Lighting - Commercial Lighting - Decorative Elements - Floor Lamp - Fluorescent Lighting - Hall And Foyer Lighting - More Categories LUGS, BUGS and FASTENERS

Bugs - Lugs - Terminal - New PLATES

Accessory - Architectural - Blank Up Plate - Emergency, Oil & Gas Burner - General Construction Finishes - Lexan And Plastic - Outlet Box Covers - Plate Screw - SCREWS, NUTS, & BOLTS

Anchor - Anchor Bolts - Anchor Kit - Assortment Of Plate Screws - Bolt Rod - Drop-In - Drywall Screw - Eye Bolt - Flat Head Machine Screw - Hex Cap Screw - More Categories STAPLES, STRAPS and TAPE

Caddy - Staples - Straps - Tape - Wirenut - TOOLS and MISC

Drill Bits - Hand Tools - Hardware - Knock Out Punch - Power Tools - Reference Book - Safety Equipment - Saw - Testers - Tool Carriers - More Categories TRANSFORMER

1 Ph Dry Type Transformer - 3 Ph Dry Type Transformer - Bell - Buck Boost - Chime - Line Voltage - Low Voltage - WIRE and CABLE

*Note: Because of the volatile Copper & Aluminum market, prices can change without notice from the website. Shipping charges for orders exceeding 1000' or 100 lbs. will be adjusted. You will be contacted with the correct shipping charges before order is shipped. Cord - Wire - WIRING DEVICES

Cord Connector - Household Wiring Device - Plugs & Caps - Receptacle - Socket - Surge Suppressor - Switch - Taps - Twist Lock Devices - ALARM, SIGNALING, INTERCOM, and DETECTORS

Bells & Chimes - Buttons - Fire Alarm - Intercom - Smoke & Co Detectors - BATTERIES and FLASHLIGHTS

Batteries - Flashlight - Lanterns - Streamlight Flashlight - BOXES and TROUGHS

Boxes - Troughs - Weatherproof Box & Cover - CENTRAL CLEANING

Central System Accessories - Nutone Connector - Nutone Replacement Bag - CONDUIT and CONDUIT FITTINGS

*Note: 10' conduit cannot be shipped via UPS, Fedex or USPS. All conduit order must be shipped via Freight Truck (i.e. Roadway, RedStar). Customers placing orders with conduit will be contacted via phone and or email with the adjusted shipping cost. Conduit - Conduit Fittings - Explosion Proof - Nipples - Pvc - Wiremold - CONTROLS and TIMERS

Timers that switch electrical devices on and off are useful for automatic control of lamps, heaters, humidifiers, and other equipment Motion Sensor - Timers - DIMMERS and FAN CONTROLS

fan controls and dimmers to set any rooms style Dimmer - Fan Speed Control - DISTRIBUTION EQUIPMENT

Circuit Breakers - Meter Sockets - Motor Controls - Panels And Loadcenters - Safety Switches - Sub Meter - Emergency Lighting Emergency Light - Emergency Light Accessory - Emergency Light Battery - Exit Sign - Exit Sign Accessory - FANS AND HEATERS

Ceiling Fan Accessories - Ceiling Fans - Exhaust Fans - Fans, Commercial - Heaters - Thermostats - FUSES

Box Cover Units - Cartridge Fuse Frnr Or Dlnr - Cartridge Fuse Frsr Or Dlsr - Cartridge Fuse Ktk Type - Cartridge Fuse Low Peak - Cartridge Fuse Sc Type - Cartridge Fusetron Fnm - Cartridge Fusetron Fnq - Fuse Block - Fuse Clip Clamp - More Categories HOME AUTOMATION , TELEPHONE, & VIDEO

Hai Omni - Home Automation - Life Safety - Power Line Carrier - Structured Wiring - Telephone - Video - LIGHT BULBS

Changer - Compact Fluorescent - Decorative Light Bulbs - Fluorescent Lamps - Halogen - Hid - Incandescent - Miniature - Octron - LIGHTING FIXTURES

Ballast - Bath And Vanity Lighting - Chandelier Lighting - Close To Ceiling - Closeout Lighting - Commercial Lighting - Decorative Elements - Floor Lamp - Fluorescent Lighting - Hall And Foyer Lighting - More Categories LUGS, BUGS and FASTENERS

Bugs - Lugs - Terminal - New PLATES

Accessory - Architectural - Blank Up Plate - Emergency, Oil & Gas Burner - General Construction Finishes - Lexan And Plastic - Outlet Box Covers - Plate Screw - SCREWS, NUTS, & BOLTS

Anchor - Anchor Bolts - Anchor Kit - Assortment Of Plate Screws - Bolt Rod - Drop-In - Drywall Screw - Eye Bolt - Flat Head Machine Screw - Hex Cap Screw - More Categories STAPLES, STRAPS and TAPE

Caddy - Staples - Straps - Tape - Wirenut - TOOLS and MISC

Drill Bits - Hand Tools - Hardware - Knock Out Punch - Power Tools - Reference Book - Safety Equipment - Saw - Testers - Tool Carriers - More Categories TRANSFORMER

1 Ph Dry Type Transformer - 3 Ph Dry Type Transformer - Bell - Buck Boost - Chime - Line Voltage - Low Voltage - WIRE and CABLE

*Note: Because of the volatile Copper & Aluminum market, prices can change without notice from the website. Shipping charges for orders exceeding 1000' or 100 lbs. will be adjusted. You will be contacted with the correct shipping charges before order is shipped. Cord - Wire - WIRING DEVICES

Cord Connector - Household Wiring Device - Plugs & Caps - Receptacle - Socket - Surge Suppressor - Switch - Taps - Twist Lock Devices -
Electricity powers our world and our bodies. Harnessing its energy is both the domain of imagined sorcery and humdrum, everyday life -- from Emperor Palpatine toasting Luke Skywalker, to the simple act of ejecting the "Star Wars" disc from your PC. Despite our familiarity with its effects, many people fail to understand exactly what electricity is. When put to the question, even acclaimed inventor Thomas Edison merely defined it as "a mode of motion" and a "system of vibrations." ­To­ward the end of the 19th­ century, scien­ce­ was barreling along at an impressive pace. Automobiles and aircraft were on the verge of changing the way the world mov­ed, and electric power was st­eadily making its way into more and more homes. Yet even scientists of the day still viewed electricity as something vaguely mystical. It wasn't until 1897 that scientists discovered the existence of electrons -- and this is where electricity starts.

Matter, as you probably know, is composed of atoms. Break something down to small enough pieces and you wind up with a nucleus orbited by one or more electrons, each with a negative charge. In many materials, the electrons are tightly bound to the atoms. Wood, glass, plastic, ceramic, air, cotton -- these are all examples of materials in which electrons stick with their atoms. Because the electrons don't move, these materials can't conduct electricity very well, if at all. These materials are electrical insulators.

In the late 19th century, electricity truly had a noble or even divine reputation -- to the extent that members of the scientific community protested the idea of the electric chair as a degradation of both electricity and the scientific breakthroughs that made electrocuting a criminal possible. What might these critics have thought of such modern marvels as the battery-powered blackhead remover or the dance-floor horror known as the electric slide?

­Most metals, however, have electrons that can detach from their atoms and zip around. These are called free electrons. The loose electrons make it easy for electricity to flow through these materials, so they're known as electrical conductors. They conduct electricity. The moving electrons transmit electrical energy from one point to another.

Generators

If you've ever moved paper clips around with a magnet or killed time arranging metal shavings into a beard on a "Wooly Willy" toy, then you've dabbled in the basic principles behind even the most complicated electric generators. The magnetic field responsible for lining up all those little bits of metal into a proper Mohawk haircut is due to the movement of electrons. Move a magnet toward a paper clip and you'll force the electrons in the clip to move. Similarly, if you allow electrons to move through a metal wire, a magnetic field will form around the wire.



There is a definite link between the phenomena of electricity and magnetism. A generator is simply a device that moves a magnet near a wire to create a steady flow of electrons. The action that forces this movement varies greatly, ranging from hand cranks and steam engines to nuclear fission, but the principle remains the same.

Nineteenth-century British physicist and chemist Michael Faraday paved the way for our modern electricity-driven world. The famed inventor created the first electric generator, called the dynamo, as well as the first electric motor. To learn more about the technology involved, read How Electric Motors Work and How Electromagnets Work.

One simple way to think about a generator is to imagine it acting like a pump pushing water through a pipe. Only instead of pushing water, a generator uses a magnet to push electrons along. This is a slight oversimplification, but it paints a helpful picture of the properties at work in a generator. A water pump moves a certain number of water molecules and applies a certain amount of pressure to them. In the same way, the magnet in a generator pushes a certain number of electrons along and applies a certain amount of "pressure" to the electrons.

In an electrical circuit, the number of electrons in motion is called the amperage or current, and it's measured in amps. The "pressure" pushing the electrons along is called the voltage and is measured in volts. For instance, a generator spinning at 1,000 rotations per minute might produce 1 amp at 6 volts. The 1 amp is the number of electrons moving (1 amp physically means that 6.24 x 1018­ ­electrons move through a wire every second), and the voltage is the amount of pressure behind those electrons.

Electrical Circuits

­When you load a battery into an electronic device, you're not simply unleashing the electricity and sending it to do a task. Negatively charged electrons wish to travel to the positive portion of the battery -- and if they have to rev up your personal electric shaver along the way to get there, they'll do it. On a very simple level, it's much like water flowing down a stream and being forced to turn a water wheel to get from point A to point B.

Whether you are using a battery, a fuel cell or a solar cell to produce electricity, three things are always the same:

1. The source of electricity must have two terminals: a positive terminal and a negative terminal.
2. The source of electricity (whether it is a generator, battery or something else) will want to push electrons out of its negative terminal at a certain voltage. For example, one AA battery typically wants to push electrons out at 1.5 volts.
3. The electrons will need to flow from the negative terminal to the positive terminal through a copper wire or some other conductor. When there is a path that goes from the negative to the positive terminal, you have a circuit, and electrons can flow through the wire.

You can attach any type of load, such as a lightbulb or motor, in the middle of the circuit. The source of electricity will power the load, and the load will perform whatever task it's designed to carry out, from spinning a shaft to generating light.

Electrical circuits can get quite complex, but basically you always have the source of electricity (such as a battery), a load and two wires to carry electricity between the two. Electrons move from the source, through the load and back to the source.

­Moving electrons have energy. As the electrons move from one point to another, they can do work. In an incandescent lightbulb, for example, the energy of the electrons is used to create heat, and the heat in turn creates light. In an electric motor, the energy in the electrons creates a magnetic field, and this field can interact with other magnets (through magnetic attraction and repulsion) to create motion. Each electrical appliance harnesses the energy of electrons in some way to create a useful side effect.

Resistance is one of the three basic units in electricity. The glowing filament in an incandescent lightbulb allows us to view resistance in action.

­As mentioned earlier, the number of electrons in motion in a circuit is called the current, and it's measured in amps. The "pressure" pushing the electrons along is called the voltage and is measured in volts. If you live in the United States, the power outlets in the wall of your house or apartment deliver 120 volts each.

If you know the amps and volts involved, you can determine the amount of electricity consumed, which we measure in watts. Imagine that you plug a space heater into a wall outlet. You measure the amount of current flowing from the wall outlet to the heater, and it comes out to 10 amps. That means that it is a 1,200-watt heater. If you multiply the volts by the amps, you get the watts. In this case, 120 volts multiplied by 10 amps equals 1,200 watts. This holds true for any electrical appliance. If you plug in a light and it draws half an amp, it's a 60-watt lightbulb.

Let's say that you turn on the space heater and then look at the power meter outside. The meter's purpose is to measure the amount of electricity flowing into your house so that the power company can bill you for it. Let's assume -- we know it's unlikely -- that nothing else in the house is on, so the meter is measuring only the electricity used by the space heater.

Your space heater is using 1.2 kilowatts (1,200 watts). If you leave the space heater on for one hour, you will use 1.2 kilowatt-hours of power. If your power company charges you 10 cents per kilowatt-hour, then the power company will charge you 12 cents for every hour that you leave your space heater on.

Now let's add one more factor to current and voltage: resistance, which is measured in ohms. We can extend the water analogy to understand resistance, too. The voltage is equivalent to the water pressure, the current is equivalent to the flow rate and the resistance is like the pipe size.

A basic electrical engineering equation spells out how the three terms relate. Current is equal to the voltage divided by the resistance. It's written like this:

I = V/r

where I stands for current, V is voltage and r symbolizes resistance.

Let's say you have a tank of pressurized water connected to a hose that you're using to water the garden. If you increase the pressure in the tank, more water comes out of the hose, right? The same is true of an electrical system: Increasing the voltage will result in greater current flow.

Now say you increase the diameter of the hose and all of the tank's fittings. This adjustment would also make more water come out of the hose. This is like decreasing the resistance in an electrical system, which increases the current flow.

When you look at a normal incandescent lightbulb, you can see this water analogy in action. The filament of a lightbulb is an extremely thin wire. This thin wire resists the flow of electrons. You can calculate the resistance of the wire with the resistance equation.

Let's say you have a 120-watt lightbulb plugged into a wall socket. The voltage is 120 volts, and a 120-watt bulb has 1 amp flowing through it. You can calculate the resistance of the filament by rearranging the equation:

r = V/I.

So the resistance is 120 ohms. If it is a 60-watt bulb, the resistance is 240 ohms.

­Beyond these core electrical concepts, there i­s a practical distinction between the two varieties of current. Some current is direct, and some current is alternating -- and this is a very important distinction.

Direct Current vs. Alternating Current

­Batteries, fuel cells and solar cells all produce something called direct current (DC). The positive and negative terminals of a battery are always, respectively, positive ­and negative. Current always flows in the same direction between those two terminals.

The power that comes from a power plant, on the other hand, is called alternating current (AC). The direction of the current reverses, or alternates, 60 times per second (in the U.S.) or 50 times per second (in Europe, for example). The power that is available at a wall socket in the United States is 120-volt, 60-cycle AC power.

The big advantage that alternating current provides for the power grid is the fact that it is relatively easy to change the voltage of the power, using a device called a transformer. Power companies save a great deal of money this way, using very high voltages to transmit power over long distances.

How does this work? Well, let's say that you have a power plant that can produce 1 million watts of power. One way to transmit that power would be to send 1 million amps at 1 volt. Another way to transmit it would be to send 1 amp at 1 million volts. Sending 1 amp requires only a thin wire, and not much of the power is lost to heat during transmission. Sending 1 million amps would require a huge wire.

Tesla, Topsy and Edison

A bitter rivalry between electricity-savvy inventors may sound fictional, but the tension between Thomas Edison and Nikola Tesla was real. Tesla championed alternating current, while Edison insisted that it was too dangerous. The only casualties in this "war of currents" were the animals Edison publicly electrocuted with Tesla's high voltage system to prove his point. The early victims were dogs and cats, but Edison eventually electrocuted an elephant named Topsy [source: Ruddick].

­So power companies convert alternating current to very high voltages for transmission (such as 1 million volts), then drop it back down to lower voltages for distribution (such as 1,000 volts), and finally down to 120 volts inside the house for safety. As you might imagine, it's a lot harder to kill someone with 120 volts than with 1 million volts (and most electrical deaths are prevented altogether today using GFCI outlets). To learn more, read How Power Grids Work.

Electrical Ground

Power-distribution systems connect into the ground many times. Note the wire trailing down the side of the utility pole in this photo.

­When the subject of electricity comes up, you will often hear about electrical grounding, or just ground. For example, an electrical generator will say, "Be sure to attach to an earth ground before using," or an appliance might warn, "Do not use without an appropriate ground."

It turns out that the power company uses the Earth as one of the wires in the power system. The planet is a good conductor, and it's huge, so it makes a handy return path for electrons. "Ground" in the power-distribution grid is literally the ground that's all around you when you are walking outside. It is the dirt, rocks, groundwater and so on.

If you look at a utility pole, you'll probably be able to spot a bare wire coming down the side of the pole. This connects the aerial ground wire directly to ground. Every utility pole on the planet has a bare wire like this. If you ever watch the power company install a new pole, you will see that the end of that bare wire is stapled in a coil to the base of the pole. That coil is in direct contact with the earth once the pole is installed, and is buried 6 to 10 feet (2 to 3 meters) underground. If you examine a pole carefully, you will see that the ground wire running between poles are attached to this direct connection to ground.

Similarly, near the power meter in your house or apartment there is a 6-foot (2-meter) long copper rod driven into the ground. The ground plugs and all the neutral plugs of every outlet in your house connect to this rod. Our article How Power Grids Work also talks about this.

Hydro Electric Projects
    Grid stations
    Receiving stations
    Transformers
Nuclear Power Plants
Power transmission line materials.
From points of generation to points of demand. Switchgear

Automatic Transfer –AtyS
Range 125A to 3200A
A Compact Secure Transfer System
A Simple, Adaptable Control Module
Flexible Upgradeability

RESYS M and P – type A and B differential Relays
Protection of the installation against earth fault
Protection of the equipment and machinery
Preventive monitoring
Complete range of accessories including toroid

Universal Switches- SIRCO M and MV
Range 16A to 160A Onload break Switch
A versatile Switching concept
Modular Presentation for your Modular application
Front, Side, Toggle operation with 3/4/6/8 poles

Modular Automatic Transfer Switch –ATyS M
Range 63A to 160A on load ATS
Control & Switching integrated ATS solution
Fast Electrical Transfer Operation
A dedicated interface, to control, measurement, metering

METERING

Energy Management System
Panel Mounted Meters
Electronic Energy Meters
Meter Cover Boxes

PROTECTION

Fuse Base & Holder
ISI marked
Conforms to IEC : 269
Rating : 20 A, 32A, 63A, 125A
Choice of Front or Busbar Connection

Distribution Systems Single Door
Distribution Systems in 4 to 16 ways
Aesthetically designed
Fitted with DIN channel, Bus Bar, NL Bar, Earth Bar, Inter connecting cables with copper thimble
Can be mounted on surface / flush

Distribution Systems Double Door
User friendly, Aesthetically designed, available in EX & DX series Distribution Systems in 4 to 16 ways
Bus Bar rating up to 200 Amp
Fitted with DIN channel, Bus Bar,NL Bar,Earth Bar, Inter connecting cables with copper thimble
Complete range of DB's with Double punched knockout to facilitate different size cable glands

Consumer Units Single and Double Door
Aesthetically designed Single phase & Three phase distribution systems
Painted with the latest powder coating technology for long lasting surface finish

MCB
RCD
MCCB
Distribution Systems

LIGHTING
Retrofit

Regular Retrofit (T4)
Compact lamp with inbuilt electronic control gear
Single ended with B22d and E27 bases.
Available in colors 6500, 4000 & 27000K
Ideal replacement for normal GLS bulbs

Non Retrofit

SU/T4

Single ended 2 Pin G23 base with integrated starter
Single ended 4 Pin 2G7 base.
Available in colors 6500, 4000 & 27000K.
Range in 5W, 7W, 9W & 11W

DU/T4

Single ended 2 Pin G-24d-1, G-24d-2 & G-24d-3 bases with integrated starter
Single ended 4 Pin G-24q base
Available in colors 6500, 4000 & 27000K
Range in 10W, 13W, 18W & 26W

SU/T5

Single ended 4 Pin 2G11 base
Available in colors 6500, 4000 & 27000K
Range in 18W& 36W
Applicable to dimmer operation

spiral

Spiral Retrofit (T4)
Compact lamp with inbuilt electronic control gear
Excellent light distribution
Single ended with B22d and E27 bases
Available in colors 6500, 4000 & 27000K

Mini

Mini Retrofit (T3)
Super compact lamp with inbuilt electronic control gear
Single ended with B22d, E27 and E14 bases
Available in colors 6500, 4000 & 27000K
Ideal replacement for normal GLS bulbs

CONSUMER LUMINARIES

DDC

Wall / Surface mounting.
CRCA Sheet powder coated housing.
Crinkle finish acrylic cover.
Open construction copper ballast.

CTC

Wall / Surface mounting.
CRCA sheet powder coated housing.
Engineering Plastic end caps.
Acrylic cover.

DDE

Wall / Surface mounting.
CRCA Sheet powder coated housing.
Crinkle finish acrylic cover.
Flicker free instant start electronic operation.

CTE

Wall / Surface mounting.
CRCA sheet powder coated housing.
Engineering Plastic end caps.
Acrylic cover.
Wire & Cables

Co-axial Cables
    Solid / Stranded bare annealed electrolytic grade copper
    PE foam and solid
    Copper ABC / ATC Wire braiding / aluminum taping / foiling
    Specially formulated PVC
    RG and UR series BS : 2316 / MIL-C-17
Domestic Wires
    Range : Available in FR / FRLS / HR / ZHFR insulation
    Conforms to IS 694/1990
    Electrolytic grade over 100% pure copper
    Bunching of copper in uniform lay & diameter
    High insulation Resistance
    Double insulation with ultra thin Layer Download
Submersible Cables
    Stranded bare annealed electrolytic grade copper
    Specially formulated FR PVC
    Range : 1.0 to 95.0 Sq. mm three core flat conductor.
    Bunching of copper in uniform lay & diameter
    Round submersible cable can be specially asked for
    Conforms to IS 694/1990 Download
Telephone Cables
    Bare / tinned annealed copper Conductor
    PVC / HR PVC / PE Insulated
    Individual / Overall Shielded with aluminium / Melinex Tape
    0.4 / 0.5 / 0.6 / 0.7 / 0.8 / 0.9 mm dia conductors available up to 50 pairs.
    ITD Specification S / WS 113 B, 113 C & 114 B

Manufacturing Units
Branch Offices in ______
Authorised Dealers
Workforce

manufacturers and exporters of LT switchgears, CFL lamps, .5 and .85, and wires and cables.

manufactured on load changeover switches, isolators, bye pass switches, MCCBs, MCBs, ELCBs, MCB distribution system, rotary switches, fusegear, energy metering solutions/energy management systems

What is the difference between a generator and a transformer?
What are the various types of generators?
Generator and turbine: Is there a difference?
What are the different types of turbines?
What are the various capacities of transformers?
How many total generators are there?
How many total transformers are there?
What is the capacity?
How much load can they bear?
Who are the manufacturers?
What is their mailing address?
What is the location of a repair facility?
What are the minimum requirements to build a dam?
How is a dam built?
How long will it take to build a dam?
What are different types of turbines?
What is a hydroelectric turbine?
How much space is required to install a hydroelectric turbine?
What are the most important components of a hydroelectric turbine?
What type of hydroelectric turbine is required for the proposed dam?
What is the location of the proposed dam?
How is it constructed?
What is the maximum capacity available in the world?
Where is it?
What is the maximum capacity available in this region?
What are the most important components of a generator?
What are the most important components of a transformer?
How is each component manufactured?
What materials are used to manufacture each component?
What is the difference between a grid station and a receiving station?