MAC 1 INDUSTIRES  PRESENTE OUR NEW  LED  BULBS
MR16, GX5.3 Base, CREE 3 watt LED, DC/AC12V, 50°/70°/100° lens						LED STRIP ULTRA BRIGHT
2/6. Cree 3*1watt LED Bulbs
MR16, CREE 3×1 Watt LED, GX5.3 Base, DC/AC12V, 30° or 60° lens						LED LIGHT BULBS IN 6 COLORS
	3/6. Edison 3*1watt LED Bulbs
MR16, GX5.3 Base, DC/AC12V, 30° or 60° lens						LED SPOT DOWN LIGHT
4/6.Edison 5watt LED Bulbs
5/6. Edison 10watt LED Bulbs						LED SUPER BRIGHT 750 WATTS
E27 Edison Screw Base, Input Voltage 85~250VAC, 50°/70°/100° lens						SOPT LIGHT 850 WATTS
6/6. Edison 10watt LED Bulbs
E27 Edison Screw Base, 7×1Watt Edison Power LED, Input Voltage 85~250VAC, 30° or 60° lens							LED SHELVING
LED FLURESCENT TUBE FROM 24" TO 48" TO 60"TO 96"

Solar cells

Solar cell is a single unit that can convert sunlight into electricity. Multiple solar cells connected in parallel and/or series form a solar module. Multiple solar modules connected in parallel and/or series form a solar array. Solar panel is the general term referring to any unit that converts sunlight into electricity.
Photovoltaic (PV or solar) cells are made of semiconducting material which directly convert sunlight into electricity. The simplest system of photovoltaic cells power small devices such as watches and calculators. More complex systems can light houses and provide power to the electrical grid.
Crystalline silicon (c-Si) is the leading commercial material for solar panels, and is used in several forms: mono crystalline, polycrystalline, ribbon, sheet, and thin-layer silicon.

How do Solar Panels work?
When light is absorbed by a semiconductor such as silicon, the electrons within the material increases in energy. This increase in energy causes the electrons to move within the material. However, there must be charge carriers in order for the electrons to move in a preferred direction to generate an electrical current. Charge carriers are created by doping the semiconductor, or purposefully adding small amounts of impurities to change the material's electrical properties.
Silicon is an element with four valence electrons. This means that when a silicon atom bonds with other silicon atoms, they complete their valence shells by sharing all four electrons. Doping silicon involves adding small amounts of a material with three valence electrons or a material with five valence electrons. By adding a small amount of aluminum, for example, an atom with three valence electrons, covalent bonding of the aluminum to silicon creates 'holes'. A 'hole' is the absence of an electron where there would normally be one if there was no impurity bonded to silicon, resulting in a p (positive) -type silicon semiconductor. Adding a small amount of an atom with five valence electrons, such as antimony, causes an opposite effect. Once antimony is bonded to other silicon atoms, there will be an extra electron that is loosely bound to antimony, resulting in an n (negative) -type silicon semiconductor. Introduction of a voltage to either type of semiconductor causes current to move in a preferred direction. A solar panel uses a layer of p-type silicon and a layer of n-type silicon. This way, when light is absorbed and the electrons in the n-type layer increases in energy, the electrons will be able to travel from the n-type layer to the 'holes' in the p-type layer. This electrical current is what allows solar panel technology to convert light energy into electricity.
Production techniques of solar cells include the Czochralski process, float-zone method, and thin film deposition. The removal of surface impurities and defects in the silicon is of critical importance, and is addressed with techniques such as surface passivation and guttering.

Any questions? Inquire with MAC1 INDUSTRIES CORP
The following map and chart show the average daily solar insulation levels across the United States, including Alaska and Hawaii. Simply locate your town or city (approximate location) on the map, match the color of the map to the chart below, and determine what your typical peak solar hours are. Essentially, the figures denote the solar hours (time of optimum solar exposure) for your area, which can then be used to determine how much energy can be generated by a solar panel or collector in at your location - an essential tool in sizing and rating a solar panel system for you.

Ideally, you would like your Solar Insulation Levels to be as high as possible, but this is, of course, not up to you. However, solar systems (both PV and Thermal) have good success in levels as low as 2 to 3, such as New York State.

MAC1 is one of the world's largest vertically-integrated producers and suppliers of solar energy products. Our American solar division is headquartered in New York , with regional sales affiliates in the Americas and Europe, our North American solar products subsidiary, serves thousands of customers in both the developed and developing worlds.

Around the globe people are enjoying a better lifestyle because of solar electric systems provided by MAC1. These systems make it possible for families to light their homes and utilize a telephone or experience a broadcast program for the first time. Solar electric solutions provided by MAC1 enable people to drink clean, uncontaminated water where sources were unsanitary, hard to access, or nonexistent. Systems designed and integrated by MAC1 allow industry to expand their capabilities beyond the constraints of the traditional electric grid.

Wind Turbine System

 Mac 1 Industries Corp extensive background in development of heavy electrical equipment has contributed to the development of the Hyosung wind turbine system. Hyosung's core competence in development and production of gearboxes, generators, power control systems and other equipment has resulted in the world class, reliable wind turbine.

With these innovative wind turbine systems, Hyosung guarantees customer satisfaction worldwide.

Competence

Strong reability

• High level of availability, reliability and capability adopting Hyosung's proven gearbox
      and generator technology
• Maximized turbine lifespan based on reliable structural design
•    Continued focus on reliability and safety including two independently
      operated braking systems

Excellent power production

• Independent electrical pitch drive system for minimum blade fatigue
• Highly efficient double fed induction generator and control system allowing for optimized operating efficiency
• Variable speed power regulation for maximum productivity

Consumer fucosed services

• Access-friendly design improving ease of maintenance
• SCADA system allowing for real time monitoring and control from remote locations
• Professional and prompt maintenance service resulting in world class reliability

Product