Grid Tied Solar System

Grid Tied Solar System

What is the Grid Tied Solar System?

Grid-tied solar systems produce energy, transmitting this power to your utility company’s electrical power grid. Essentially, this implies the utility company will be paying out you to generate electricity for them, because the power you have produced counts against the energy your property or company utilizes.

Your own solar panels may generate DC (Direct Current) electrical energy. This kind of electrical energy will be run through an inverter to generate Alternating current (Alternating Current) energy. This electricity is then run into your Alternating current electrical power panel, which feeds energy to your utility companies power grid. In case your solar energy array generated sufficient electrical power, your utility meter would certainly begin to run backward!

Grid Tied Solar System components

solar panels You will need solar panels to get the solar energy and transform this to DC power. The quantity and type of solar panels will probably determine the amount of power you’ll be able to generate, as will your current geographic position.

Combiner Box This box collects each of the Solar Panel connections.

DC Breaker Box Your array’s breaker safely shuts your solar power system on the moment’s notice, permitting risk-free maintenance, repair, and inspection.

Grid Tied Inverter Inverters get Direct Current power and transform it to household (Alternating current) power.

Grid Disconnect A grid disconnect allows you to stop the flow of electricity between your solar power system and your electrical system. This provides for the safe maintenance of electrical and utility systems.

Ⅰ: Solar Panel Monocrystalline TUV UL CE ICE Approved

Model No	Max Power(W)	Solar Cell	Number of Solar Cell	Dimension(mm)	Max Current(A)	Max Voltage(V)	Short Circuit Current(A)	Open Circuit Voltage(A)	Weight (kg)
SSA155W-36M	155W	5″ 125	6×12	1580x808x40	4.47A	34.7V	4.78A	43.77V	15
SSA160W-36M	160W	5″ 125	6×12	1580x808x40	4.53A	35.28V	4.85A	43.84V	15
SSA165W-36M	165W	5″ 125	6×12	1580x808x40	4.6A	35.85V	4.92A	43.99V	15
SSA170W-36M	170W	5″ 125	6×12	1580x808x40	4.64A	36.57V	4.97A	44.13V	15
SSA175W-36M	175W	5″ 125	6×12	1580x808x40	4.70A	37.29V	5.02A	44.28V	15
SSA180W-36M	180W	5″ 125	6×12	1580x808x40	4.77A	37.75V	5.1A	44.71V	15
SSA185W-36M	185W	5″ 125	6×12	1580x808x40	4.87A	38.02V	5.21A	45V	15
SSA190W-36M	190W	5″ 125	6×12	1580x808x40	4.98A	38.16V	5.33A	44.93V	15
SSA195W-36M	195W	5″ 125	6×12	1580x808x40	5.09A	38.3V	5.45A	45V	15
SSA195W-40M	195W	5″ 125	8X10	1304X1056X40	4.7A	41.44V	5.03A	49.2V	16.3
SSA200W-40M	200W	5″ 125	8X10	1304X1056X40	4.77A	41.95V	5.1A	49.68V	16.3
SSA205W-40M	205W	5″ 125	8X10	1304X1056X40	4.85A	42.24V	5.19A	49.84V	16.3
SSA210W-40M	210W	5″ 125	8X10	1304X1056X40	4.93A	42.56V	5.28A	50V	16.3
SSA200W-48M	200W	5″ 125	8X12	1600X1056X40	4.43A	45.63V	4.68A	57.6V	19.5
SSA205W-48M	205W	5″ 125	8X12	1600X1056X40	4.49A	46.27V	4.74A	58.36V	19.5
SSA210W-48M	210W	5″ 125	8X12	1600X1056X40	4.5A	46.65V	4.81A	58.41V	19.5
SSA215W-48M	215W	5″ 125	8X12	1600X1056X40	4.55A	47.23V	4.87A	58.51V	19.5
SSA220W-48M	220W	5″ 125	8X12	1600X1056X40	4.6A	47.8V	4.92A	58.65V	19.5
SSA225W-48M	225W	5″ 125	8X12	1600X1056X40	4.61A	48.76V	4.93A	58.84V	19.5
SSA230W-48M	230W	5″ 125	8X12	1600X1056X40	4.67A	49.15V	5A	58.94V	19.5
SSA235W-48M	235W	5″ 125	8X12	1600X1056X40	4.72A	49.72V	5.05A	59.04V	19.5
SSA240W-48M	240W	5″ 125	8X12	1600X1056X40	4.77A	50.3V	5.1A	59.61V	19.5
SSA245W-48M	245W	5″ 125	8X12	1600X1056X40	4.84A	50.54V	5.18A	59.76V	19.5
SSA250W-48M	250W	5″ 125	8X12	1600X1056X40	4.92A	50.78V	5.26A	59.9V	19.5
SSA255W-48M	255W	5″ 125	8X12	1600X1056X40	5A	50.98V	5.35A	59.95V	19.5
SSA260W-48M	260W	5″ 125	8X12	1600X1056X40	5.07A	51.25V	5.43A	60.09V	19.5
SSA190W-27MD	190W	6″ 156	6X9	1485X990X40	7.24A	26.23V	7.75A	32.86V	17
SSA195W-27MD	195W	6″ 156	6X9	1485X990X40	7.34A	26.56V	7.86A	32.91V	17
SSA200W-27MD	200W	6″ 156	6X9	1485X990X40	7.43A	26.9V	7.96A	33V	17
SSA205W-27MD	205W	6″ 156	6X9	1485X990X40	7.5A	27.34V	8.02A	33.08V	17
SSA210W-27MD	210W	6″ 156	6X9	1485X990X40	7.58A	27.69V	8.11A	33.16V	17
SSA215W-27MD	215W	6″ 156	6X9	1485X990X40	7.65A	28.12V	8.18A	33.39V	17
SSA220W-27MD	22W	6″ 156	6X9	1485X990X40	7.77A	28.32V	8.31A	33.55V	17
SSA225W-27MD	225W	6″ 156	6X9	1485X990X40	7.9A	28.49V	8.45A	33.63V	17
SSA220W-30MD	220W	6″ 156	6X10	1640X990X40	7.4A	29.74V	7.92A	36.62V	18.6
SSA225W-30MD	225W	6″ 156	6X10	1640X990X40	7.46A	30.17V	7.98A	36.71V	18.6
SSA230W-30MD	230W	6″ 156	6X10	1640X990X40	7.53A	30.53V	8.06A	36.79V	18.6
SSA235W-30MD	235W	6″ 156	6X10	1640X990X40	7.6A	30.94V	8.13A	36.88V	18.6
SSA240W-30MD	240W	6″ 156	6X10	1640X990X40	7.66A	31.32V	8.2A	37.2V	18.6
SSA245W-30MD	245W	6″ 156	6X10	1640X990X40	7.78A	31.49V	8.32A	37.28V	18.6
SSA250W-30MD	250W	6″ 156	6X10	1640X990X40	7.9A	31.65V	8.45A	37.37V	18.6
SSA250W-36MD	250W	6″ 156	6X12	1960X990X46	7.19A	34.78V	7.69A	43.78V	22.4
SSA260W-36MD	260W	6″ 156	6X12	1960X990X46	7.33A	35.48V	7.84A	43.88V	22.4
SSA270W-36MD	270W	6″ 156	6X12	1960X990X46	7.46A	36.22V	7.98A	44.05V	22.4
SSA275W-36MD	275W	6″ 156	6X12	1960X990X46	7.52A	36.57V	8.05A	44.13V	22.4
SSA280W-36MD	280W	6″ 156	6X12	1960X990X46	7.58A	36.94V	8.11A	44.24V	22.4
SSA290W-36MD	290W	6″ 156	6X12	1960X990X46	7.72A	37.55V	8.26A	44.6V	22.4
SSA300W-36MD	300W	6″ 156	6X12	1960X990X46	7.92A	37.87V	8.48A	44.78V	22.4

Solar panel Polycrystalline TUV UL CE ICE Approved

Model No	Max Power(W)	Solar Cell	Number of Solar Cell	Dimension(mm)	Max Current(A)	Max Voltage(V)	Short Circuit Current(A)	Open Circuit Voltage(A)	Weight (kg)
SSB155W-24P	155W	6″ 156	6X8	1330X990X40	6.78A	22.85V	7.26A	28.85V	16.4
SSB160W-24P	160W	6″ 156	6X8	1330X990X40	6.86A	23.32V	7.34A	28.89V	16.4
SSB165W-24P	165W	6″ 156	6X8	1330X990X40	6.98A	23.61V	7.47A	28.94V	16.4
SSB170W-24P	170W	6″ 156	6X8	1330X990X40	7.08A	24V	7.57A	28.99V	16.4
SSB175W-24P	175W	6″ 156	6X8	1330X990X40	7.29A	24V	7.8A	28.99V	16.4
SSB180W-24P	180W	6″ 156	6X8	1330X990X40	7.44A	24.19V	7.96A	29.09V	16.4
SSB185W-24P	185W	6″ 156	6X8	1330X990X40	7.61A	24.29V	8.15A	29.13V	16.4
SSB190W-24P	190W	6″ 156	6X8	1330X990X40	7.76A	24.48V	8.3A	29.23V	16.4
SSB180W-27P	180W	6″ 156	6X9	1485X990X40	6.85A	26.24V	7.33A	32.5V	17
SSB185W-27P	185W	6″ 156	6X9	1485X990X40	6.96A	26.56V	7.45A	32.56V	17
SSB190W-27P	190W	6″ 156	6X9	1485X990X40	7.15A	26.56V	7.65A	32.56V	17
SSB195W-27P	195W	6″ 156	6X9	1485X990X40	7.22A	27V	7.72A	32.62V	17
SSB200W-27P	200W	6″ 156	6X9	1485X990X40	7.38A	27.11V	7.89A	32.67V	17
SSB205W-27P	205W	6″ 156	6X9	1485X990X40	7.5A	27.32V	8.02A	32.77V	17
SSB200W-30P	200W	6″ 156	6X10	1640X990X40	6.85A	29.16V	7.33A	36.12V	18.6
SSB205W-30P	205W	6″ 156	6X10	1640X990X40	6.94A	29.52V	7.43A	36.18V	18.6
SSB210W-30P	210W	6″ 156	6X10	1640X990X40	7.11A	29.52V	7.61A	36.18V	18.6
SSB215W-30P	215W	6″ 156	6X10	1640X990X40	7.16A	30V	7.66A	36.24V	18.6
SSB220W-30P	220W	6″ 156	6X10	1640X990X40	7.31A	30.12V	7.81A	36.3V	18.6
SSB225W-30P	225W	6″ 156	6X10	1640X990X40	7.46A	30.18V	7.97A	36.33V	18.6
SSB230W-30P	230W	6″ 156	6X10	1640X990X40	7.58A	30.36V	8.11A	36.42V	18.6
SSB235W-30P	235W	6″ 156	6X10	1640X990X40	7.68A	30.6V	8.22A	36.54V	18.6
SSB240W-30P	240W	6″ 156	6X10	1640X990X40	7.81A	30.72V	8.36A	36.6V	18.6
SSB230W-33P	230W	6″ 156	6X11	1800X990X40	7.08A	32.47V	7.57A	39.79V	20.6
SSB235W-33P	235W	6″ 156	6X11	1800X990X40	7.12A	33V	7.69A	39.86V	20.6
SSB240W-33P	240W	6″ 156	6X11	1800X990X40	7.27A	33V	7.78A	39.86V	20.6
SSB245W-33P	245W	6″ 156	6X11	1800X990X40	7.39A	33.13V	7.91A	39.93V	20.6
SSB240W-36P	240W	6″ 156	6X12	1960X990X46	6.89A	34.85V	7.37A	43.23V	22.5
SSB245W-36P	245W	6″ 156	6X12	1960X990X46	7A	34.99V	7.49A	43.34V	22.5
SSB250W-36P	250W	6″ 156	6X12	1960X990X46	7.05A	35.42V	7.55A	43.41V	22.5
SSB255W-36P	255W	6″ 156	6X12	1960X990X46	7.08A	36V	7.57A	43.48V	22.5
SSB260W-36P	260W	6″ 156	6X12	1960X990X46	7.22A	36V	7.72A	43.48V	22.5
SSB265W-36P	265W	6″ 156	6X12	1960X990X46	7.32A	36.2V	7.32A	44.02V	22.5
SSB270W-36P	270W	6″ 156	6X12	1960X990X46	7.42A	36.4V	7.94A	44.17V	22.5
SSB275W-36P	275W	6″ 156	6X12	1960X990X46	7.49A	36.72V	8.01A	44.24V	22.5
SSB280W-36P	280W	6″ 156	6X12	1960X990X46	7.57A	36.98V	8.1A	44.31V	22.5
SSB290W-36P	290W	6″ 156	6X12	1960X990X46	7.86A	36.89V	8.41A	43.99A	22.5
SSB300W-36P	300W	6″ 156	6X12	1960X990X46	7.86A	36.89V	8.41A	43.99A	22.5

Ⅱ : Grid Tied Inverter

Model No	Max. PV power	Max. DC voltage	MPPT voltage range	Max. efficiency	Dimensions (mm) (W / H / D)	Weight(kg)
SolarRiver1100TL	1100W	550 Vdc	120～500	96.60%	285X385X145	16
SolarRiver1600TL	1600W	550 Vdc	180～426	96.80%	285X385X145	16
SolarRiver1700TL	1700W	550 Vdc	180～500	96.80%	332X450X161	17.1
SolarRiver2300TL	2300W	550 Vdc	200～500	96.80%	332X450X161	17.5
SolarRiver3000TL	3000W	550 Vdc	210～500	97%	332X450X161	17.9
SolarRiver3300TL	3000W	550 Vdc	200～500	97.40%	329X443X180	18.9
SolarRiver4400TL	4400W	550 Vdc	200～500	97.60%	329X443X180	19.2
SolarRiver5200TL	5200W	550 Vdc	200～500	97.60%	329X443X180	19.4
SolarLake10000TL	10000W	1000 Vdc	320～800	97.90%	520X756X230	50
SolarLake12000TL	12000W	1000 Vdc	320～800	97.90%	520X756X230	50
SolarLake15000TL	15000W	1000 Vdc	320～800	98.00%	520X756X230	50
SolarLake17000TL	17000W	1000 Vdc	320～800	98.00%	520X756X230	50

Ⅲ :Root Solar panel Mounting

Specification:

• Design Wind Load: 55m/s or 200km/hour
• Design Snow Load: 1.5kn/m2
• Steel structure: Anodized Aluminum + Stainless Steel
• reference standard: AS/NZ 1170.2
• Installation site:Pitch root
• Guarantee: Ten years guarantee on parts

1.We use L-feet for tin roof and hook for tile-roof to connect the rack structure with the rafters of the roof.
2.At the installation site we do not require welding, and even have no need to drill a hole, just using the electrical locks and wrenches and other simple tools to complete the installation. This simplify the traditional installation procedure, we will manage to preassemble the screws and nuts before shipment to reduce on-site installation procedures and labor intensity. Eliminate the differences in degree of on-site professional installation and degree of impact on the quality of the roof support system.
3.Utilization of the anodized aluminum, stainless steel, anti-aging UV process to ensure the longer life span of our solar technology and solar tracking.

Grid Tied Solar System Project

Grid Tied Solar System FAQs:

How Do Gird Tied Solar System Work?
What is the advantage of grid Tied Solar System?
How to Wire Grid Tied Solar System?
How to Size Grid Tied Solar System?
Question of 3kW Grid Tied Solar System

Grid Tied Solar System Installation

Tags: Grid Tied Solar System, Solar Air Conditioner, Solar Panel

Wind Turbine Generator

Wind Turbine Generator

How do Wind Turbine Work?

Wind is a form of solar energy. Winds are caused by the uneven heating of the atmosphere by the sun, the irregularities of the Photo of a string of large, three-bladed wind turbines next to an old barn on a farm.Many wind farms have sprung up in the Midwest in recent years, generating power for utilities. Farmers benefit by receiving land lease payments from wind energy project developers.

earth’s surface, and rotation of the earth. Wind flow patterns are modified by the earth’s terrain, bodies of water, and vegetation. Humans use this wind flow, or motion energy, for many purposes: sailing, flying a kite, and even generating electricity.

The terms wind energy or wind power describe the process by which the wind is used to generate mechanical power or electricity. Wind turbines convert the kinetic energy in the wind into mechanical power. This mechanical power can be used for specific tasks (such as grinding grain or pumping water) or a generator can convert this mechanical power into electricity.

So how do wind turbines make electricity? Simply stated, a wind turbine works the opposite of a fan. Instead of using electricity to make wind, like a fan, wind turbines use wind to make electricity. The wind turns the blades, which spin a shaft, which connects to a generator and makes electricity. Take a look inside a wind turbine to see the various parts. View the wind turbine animation to see how a wind turbine works.

This aerial view of a wind power plant shows how a group of wind turbines can make electricity for the utility grid. The electricity is sent through transmission and distribution lines to homes, businesses, schools, and so on.

horizontal-axis wind turbine and vertical-axis wind turbine:

Horizontal axis wind turbine(HAWT) Vertical axis wind turbine(VAWT)

Modern wind turbines fall into two basic groups: the horizontal-axis variety, as shown in the photo, and the vertical-axis design, like the eggbeater-style Darrieus model, named after its French inventor.

Horizontal-axis wind turbines typically either have two or three blades. These three-bladed wind turbines are operated “upwind,” with the blades facing into the wind.

Ⅰ: Horizontal axis wind turbine 300W to 30KW

Model No	Rated Power	Peak Power	Work Voltage	Application
Angel 200W	200W	300Watt	12V/24V	Hybrid Wind Solar System
Angel 300W	300W	450Watt	12V/24V	Hybrid Wind Solar System
Angel 400W	400W	500Watt	12V/24V	Hybrid Wind Solar System
Skywing-M300	300W	400Watt	12V/24V	Wind Turbine System
Skywing-S300	300W	400Watt	24V/48V	Hybrid Wind Solar System
Skywing-S400	400W	500Watt	24V/48V	Hybrid Wind Solar System
Skywing-S600	600W	800Watt	24V/48V	Hybrid Wind Solar System
FD3.0-1000	1000W	1500Watt	24V/48V	Wind Turbine System
FD3.6-2000	2000W	3000Watt	120V	Wind Turbine System
FD4.0-3000	3000W	4000Watt	120V	Wind Turbine System
FD6.4-5000	5000W	6000Watt	240V	Wind Turbine System
FD8.0-10000	10000W	12500Watt	240V	Wind Turbine System
FD10.0-20000	20000W	25000Watt	240V	Wind Turbine System
FD12.0-30000	30000W	36000Watt	240V	Wind Turbine System

Ⅱ: Vertical axis wind turbine 300W to 5KW

Model No	Rated Power	Peak Power	Blade Quantity	Blade Size	Work Voltage
VAWT-300W	300W	350W	5pcs	1.12m	24V
VAWT-500W	500W	550W	7pcs	1.12m	24V
VAWT-1000W	1000W	1.5KW	5pcs	1.65m	24V/48V
VAWT-2000W	2000W	2.5KW	7pcs	1.65m	48V/96V
VAWT-3000W	3000W	4.5KW	9pcs	1.83m	220V
VAWT-5000W	5000W	6.5KW	9pcs	1.83m	220V

Wind Turbine Project:

Wind Turbine Installation Manual:

300W AEOLUS Wind Turbine Generator User Manual
Skywing M300 wind turbine installation instruction manual
Skywing S Series 300W wind turbine installation instruction manual
Skywing S Series 400W wind turbine installation instruction manual
FD-series wind turbine installation instruction manual
E Series 1KW 2KW 3KW wind turbine installation instruction manual
E Series 5KW wind turbine installation instruction manual
GLB50KW wind turbine installation instruction manual

Wind Turbine FAQs:

How to Install the Wind Turbine?
How to DIY Wind Turbine?
How to maintenance Wind Turbine?
Aeolus Wind Turbine, Aeolus Wind Generator
Frequently question of Wind Turbine Generator

Tags: Solar Air Conditioner, Solar Panel, Wind Generator, Wind Turbine, Windmill

Solar Panel Mounting

Solar Panel Mounting

For home solar arrays, we generally recommend mounting solar panels at the top of a sturdy pole. This is called a pole top mount. They are easy to install. They keep the panels off the ground and out of harm’s way but are easy to adjust and to reach for snow removal. Yes, when the snow stops falling and the sun comes back out, you want to be able to sweep the snow off those panels. So think about where you place them, how far they are from the house, and how high up they are.

A pole top mount can be either fixed, which means it holds the panel stationary, or it can move, or track, with the sun. A solar panel mount that allows the panel to move with the sun is called a tracker. Fixed Racks can include Ground Mounting, Roof Mounting, Pole-Side Mounting, Boat/RV Mounts, as well as Pole Top Mounting. All trackers are mounted on poles, and so are technically pole top mounts.

The pole of a pole top mount must be anchored in the ground by digging a hole and filling it with concrete. The size of hole in diameter is usually 18 inches to 2 feet (18 inches plus the diameter of the pole). The depth of the hole must be 1/2 of the height of the pole above ground. If the pole will be 7 feet above ground, you have to dig a 3 1/2 foot hole.

The placement of your solar panels, whatever kind of mounting system you are using, can make a huge difference in the amount of electricity you are able to produce. Be very careful not to place your panels in an area that is shaded by trees or buildings or any other object. Note carefully that the shadow made by your house moves at least 22 feet farther to the south in the winter. If you place your panels within that distance, you’ll be very disappointed during those short winter days.

We have three types solar panel mounting:

Pitch Roof mounting look neat, but are hard to reach to adjust the angle. Will you want to walk across your roof several times a year to adjust the angle? Does it snow often? Will you have to walk across a slippery roof to sweep snow off the panels? Is the slope of the roof you want to use good for optimum solar panel efficiency or will you need tilt legs to face your panels more perpendicular to the sun?

Pole Mounting are designed to hold 1 to 4 modules and are mounted to the pole with either hose clamps or U-bolts (not provided). The racks accommodate different sized poles and are adjustable for optimal sun angle from 15 to 65 degrees in 10-degree increments. Pole size is determined by the number of modules to be mounted.

Ground Mounting are probably the easiest way to mount solar panels. This mount resembles an A-frame. It safest to attach this structure to a cement slab so that it may be secured in place. Ground mounts are designed to handle from 1 to 8 solar modules. Ground mounts can be used to attach solar panels to the ground, to a roof and or to a vertical surface. Some ground mounts have tiltable, or adjustable legs; others are fixed. Optional adjustable tilt legs are available for several of the styles of panels Wholesale Solar sells.

Ⅰ: Pitch roof solar mounting

Rooftop solar mounting system apply for all kinds of pitch roof of any building. Solar panel can fastened onto the top flute of our patented solar mounting rail. L-feet connects with the bottom of the rail, which mounted firmly to the roof. Install flashing over a layer of shingles to insure water resistance. A single wrench is enough for the installation procedures. Detailed installation manual ensure an easy and smooth installation.

Specification:

• Design Wind Load: 55m/s or 200km/hour
• Design Snow Load: 1.5kn/m2
• Steel structure: Anodized Aluminum + Stainless Steel
• reference standard: AS/NZ 1170.2
• Installation site:Pitch root
• Guarantee: Ten years guarantee on parts

1.We use L-feet for tin roof and hook for tile-roof to connect the rack structure with the rafters of the roof.
2.At the installation site we do not require welding, and even have no need to drill a hole, just using the electrical locks and wrenches and other simple tools to complete the installation. This simplify the traditional installation procedure, we will manage to preassemble the screws and nuts before shipment to reduce on-site installation procedures and labor intensity. Eliminate the differences in degree of on-site professional installation and degree of impact on the quality of the roof support system.
3.Utilization of the anodized aluminum, stainless steel, anti-aging UV process to ensure the longer life span of our solar technology and solar tracking.

Ⅱ: Ground Solar Panel Mounting:

Ground Solar Panel Mounting is suitable for flat roofs of various structures or for the ground. One end of the cross-beam is connected firmly with the ground structure by base bracket and hex-bolts and the another end is connected to the support leg forming a stable and strong tripod structure. The connecting foot is made up of stainless steel to enhance the load bearing capacity. Stainless steel itself has a good physical and chemical mechanical performance, service life can reach more than 30 years.

Specification:

Design Wind Load：55m/s or 200km/hour
Design Snow Load：1.5kn/m2
Steel structure：Anodized Aluminum + Stainless Steel
Reference standard：AS/NZ 1170.2
Installation site:Flat roop or Ground
Guarantee: Ten years guarantee on parts

Ⅲ : Pole Solar Panel Mounting

Pole system is designed for up to 1.5kw panel mounting system, with the wind load up to 200km/h. This panel mounting system is suited for large photovoltaic system installation in all wind zones. This solar mounting system can adjust the tilt angle according to the requirement of the installation place. There is no need to welding in the complete installation process. According to our manual instruction, you can install the solar modules easily, quickly, securely and cost efficiently.

Specification:

Design Wind Load：55m/s
Design Snow Load：1.5kn/m2
Steel structure：Hot dipped galvanized steel + Anodized Aluminum
Reference standard：AS/NZ 1170.2
Tracker type：Fixed
Tilt angle：0°— 60°
Guarantee：Ten years guarantee on parts

1. Convenient and quick installation. The use of bolted connections eliminates drilling and welding process automatically reducing the operating time.

2. Mounting rack structure uses hot dip galvanized steel parts which gives a good external appearance(silvery white) and also has good corrosion resistance.Under natural conditions, it can be used for 20-30 years.

3. Batteries components are made up of aluminum alloy treated with anode oxidation process which makes the appearance of smooth and bright. Since this material is same as panel frame, it can decrease metal corrosion phenomena mutually.

4 Holding component( bolts ,screws) are made of stainless steel bolts, stainless steel itself has a good physical and chemical mechanical properties, its service life span can reach more than 30 years.

Solar Panel Mounting FAQs:

Dual axis solar tracker, Solar Panel Tracker System
Pole Top Solar Panel Mounting System
Ground Solar Panel Mounting System
Flat roof Solar Panel Mounting
Pitched Roof Racking Solar Panel Mounting System Installation Manual

Tags: Solar Air Conditioner, Solar Panel, Solar Panel Mounting

Solar Charge Controller

Solar Charge Controller

We offer high quality and cheap price PWM Solar Charge Controller and MPPT Solar Charge Controller. There has JUTA, EP and Cinco series Solar Charge Controller.Such As, CMP12, CM3024Z, CM5024Z, MPPT-10,MPPT-20, MPPT-30, EP solar controller LandStar, SeaStar and ViewStar, And Tracker MPPT Solar Controller.all above types solar controller are widely sell over 50 countries.

How do the Solar Charge Controller Work?

A Solar charge controller, or solar regulator is similar to the voltage regulator in your car. It regulates the voltage and current coming from the solar panels going to the battery. Most “12 volt” panels put out about 16 to 20 volts, so if there is no regulation the batteries will be damaged from overcharging. Most batteries need around 14 to 14.5 volts to get fully charged.

Not always, but usually. Generally, there is no need for a Solar charge Controller with the small maintenance, or trickle charge panels, such as the 1 to 5 watt solar panels. A rough rule is that if the panel puts out about 2 watts or less for each 50 battery amp-hours, then you don’t need one.

For example, a standard flooded golf car battery is around 210 amp-hours. So to keep up a series pair of them (12 volts) just for maintenance or storage, you would want a panel that is around 4.2 watts. The popular 5 watt panels are close enough, and will not need a controller. If you are maintaining AGM deep cycle batteries, such as the Concorde Sun Xtender then you can use a smaller 2 to 2 watt panel.

What is the different from PWM and MPPT Solar Charge Controller?

• PWM Solar Charge Controller:

Quite a few charge controls have a “PWM” mode. PWM stands for Pulse Width Modulation. PWM is often used as one method of float charging. Instead of a steady output from the controller, it sends out a series of short charging pulses to the battery – a very rapid “on-off” switch. The controller constantly checks the state of the battery to determine how fast to send pulses, and how long (wide) the pulses will be. In a fully charged battery with no load, it may just “tick” every few seconds and send a short pulse to the battery. In a discharged battery, the pulses would be very long and almost continuous, or the controller may go into “full on” mode. The controller checks the state of charge on the battery between pulses and adjusts itself each time.

• MPPT Solar Charge Controller:

MPPT solar charge controller schematic
A maximum power point tracker (or MPPT) is a high efficiency DC to DC converter which functions as an optimal electrical load for a photovoltaic (PV) cell, most commonly for a solar panel or array, and converts the power to a voltage or current level which is more suitable to whatever load the system is designed to drive.

The most basic solar charge controller simply monitors the battery voltage and opens the circuit, stopping the charging, when the battery voltage rises to a certain level. Older charge controllers used a mechanical relay to open or close the circuit, stopping or starting power going to the batteries.

More modern charge controllers use pulse width modulation (PWM) to slowly lower the amount of power applied to the batteries as the batteries get closer and closer to fully charged. This type of controller allows the batteries to be more fully charged with less stress on the battery, extending battery life. It can also keep batteries in a fully charged state (called “float”) indefinitely. PWM is more complex, but doesn’t have any mechanical connections to break.

The most recent and best type of solar charge controller is called maximum power point tracking or MPPT. MPPT solar controllers are basically able to convert excess voltage into amperage. This has advantages in a couple of different areas.

Most solar power systems use 12 volt batteries, like you find in cars. (Some use other voltages and the same advantages apply to these systems as well.) Solar panels can deliver far more voltage than is required to charge the batteries. By, in essence, converting the excess voltage into amps, the charge voltage can be kept at an optimal level while the time required to fully charge the batteries is reduced. This allows the solar power system to operate optimally at all times.

Another area that is enhanced by an MPPT charge controller is power loss. Lower voltage in the wires running from the solar panels to the charge controller results in higher energy loss in the wires than higher voltage. With a PWM charge controller used with 12v batteries, the voltage from the solar panel to the charge controller typically has to be 18v. Using an MPPT controller allows much higher voltages in the wires from the panels to the solar charge controller. The MPPT controller then converts the excess voltage into additional amps. By running higher voltage in the wires from the solar panels to the charge controller, power loss in the wires is reduced significantly.

MPPT charge controllers are more expensive that PWM charge controllers, but the advantages are worth the cost. If you can afford it, you should definitely use an MPPT solar charge controller.

The final function of modern solar charge controllers is preventing reverse-current flow. At night, when solar panels aren’t generating electricity, electricity can actually flow backwards from the batteries through the solar panels, draining the batteries. You’ve worked hard all day using solar power to charge the batteries, you don’t want to waste all that power! The charge controller can detect when no energy is coming from the solar panels and open the circuit, disconnecting the solar panels from the batteries and stopping reverse current flow.

Ⅰ: JUTA Series Solar Charge Controller

Model No	Max Load Current	Output Volatge	Work Model	Application	Other Information
CMP 3A	1A or 3A	6V or 12V	PWM	Solar Lamp	Light and timer Sensor
CMP 6A	6A	12V 24V Auto Switch	PWM	Solar System
CMP 10A	10A	12V 24V Auto Switch	PWM	Solar System
CMP 12A	12A	12V 24V Auto Switch	PWM	Solar System
CM3024Z	30A	12V 24V Auto or 48V	PWM	Solar System	LCD
CM5024Z	50A	12V 24V Auto or 48V	PWM	Solar System	LCD
MPPT-05	5A	12V or 24V	MPPT	Solar Lamp	Light and timer Sensor
MPPT-10	10A	12V or 24V or 48V	MPPT	Solar System	LCD
MPPT-20	20A	12V or 24V or 48V	MPPT	Solar System	LCD
MPPT-30	30A	24V	MPPT	Solar System	LCD

Ⅱ : EP Series Solar Charge Controller

Model No	Max Load Current	Output Volatge	Work Model	Application	Other Information
EPRC10-ST	5A,10A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor
EPRC10-MF	10A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor,Waterproof
EPIP20-2L	15A,20A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor,Two Load
EPIP20-DB	10A,20A	12V 24V Auto Switch	PWM	Solar Lamp	Light,timer,Dual Battery,Meter
EPHC10-ST	5A,10A	12V 24V Auto Switch	PWM	Solar System
EPIP20-H	15A,20A	12V 24V Auto Switch	PWM	Solar System
EPIP30	20A,30A	12V 24V Auto Switch	PWM	Solar System	LCD display
EPIP602	30A,40A,50A,60A	12V 24V, 24V 48V Auto	PWM	Solar System	LCD display
EPIP603	30A,40A,50A,60A	12V 24V, 24V 48V Auto	PWM	Solar System	LCD display
IPS48	100A,200A	48V	PWM	Solar System	LCD display

NEW EP Series Solar Charge Controller

Model No	Max Load Current	Output Volatge	Work Model	Application	Other Information
Tracer 10A	10A	12V 24V Auto Switch	MPPT	Solar System	1206 60V/1210 100V/1215 150V
Tracer 20A	20A	12V 24V Auto Switch	MPPT	Solar System	1206 60V/1210 100V/1215 150V
Tracer 40A	40A	12V 24V Auto Switch	MPPT	Solar System	1206 60V/1210 100V/1215 150V
LS0524	5A	12V 24V Auto Switch	PWM	Solar System
LS1024	10A	12V 24V Auto Switch	PWM	Solar System
LS1524	15A	12V 24V Auto Switch	PWM	Solar System
LS2024	20A	12V 24V Auto Switch	PWM	Solar System
LS0524R	5A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor
LS1024R	10A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor
LS1524R	15A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor
LS2024R	20A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor
LS1024RD	10A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor,dual Load
LS1524RD	15A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor,dual Load
LS2024RD	20A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor,dual Load
LS1024RP	10A	12V 24V Auto Switch	PWM	Solar Lamp	Light,Timer Sensor,Waterproof
LS1524RP	15A	12V 24V Auto Switch	PWM	Solar Lamp	Light,Timer Sensor,Waterproof
LS2024RP	20A	12V 24V Auto Switch	PWM	Solar Lamp	Light,Timer Sensor,Waterproof
LS1024RPD	10A	12V 24V Auto Switch	PWM	Solar Lamp	Light,Timer,Waterproof,Dual Load
LS1524RPD	15A	12V 24V Auto Switch	PWM	Solar Lamp	Light,Timer,Waterproof,Dual Load
LS2024RPD	20A	12V 24V Auto Switch	PWM	Solar Lamp	Light,Timer,Waterproof,Dual Load
LS1024S	10A	12V 24V Auto Switch	PWM	Solar System	Surface mounting
LS1524S	15A	12V 24V Auto Switch	PWM	Solar System	Surface mounting
LS2024S	20A	12V 24V Auto Switch	PWM	Solar System	Surface mounting
SS1024	10A	12V 24V Auto Switch	PWM	Solar System	Aluminum case,Moisture Proof
SS1524	15A	12V 24V Auto Switch	PWM	Solar System	Aluminum case,Moisture Proof
SS2024	20A	12V 24V Auto Switch	PWM	Solar System	Aluminum case,Moisture Proof
SS1024R	10A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor,Moisture Proof
SS1524R	15A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor,Moisture Proof
SS2024R	20A	12V 24V Auto Switch	PWM	Solar Lamp	Light and Timer Sensor,Moisture Proof
VS-24V	10A-60A	12V 24V Auto Switch	PWM	Solar System	LCD Display
VS-48V	10A-60A	12V 24V 36V 48V Auto	PWM	Solar System	LCD Display

Solar Charge Controller FAQs:

What is Solar Charge Controller?
What is MPPT Solar Controller?
What Advantage of MPPT solar controller?
JUTA MPPT Solar Controller
How MPPT Solar Controller Work?

Tags: MPPT Solar Controller, Solar Air Conditioner, Solar Charge Controller, Solar Controller, Solar Regulator