The Renogy 400W Complete Kit for Workshop/Shed features high-efficiency PERC solar panels with 22% efficiency, alongside a 3.8kWh storage system compatible with three battery types. Its 4-stage charging algorithm enhances battery longevity, while the 3000W pure sine wave inverter delivers stable AC power. Complete with all necessary accessories for immediate installation, this kit offers an efficient and reliable energy solution for workshops and sheds.
| PRODUCT HIGHLIGHTS |
| 400W Complete Kit for Workshop/Sheds |
Transform your DIY workspace with solar power in one go. |
| What Makes a Great Solar Panel |
With 100% EL-tested Grade A+ solar cells and PERC technology, this 100-watt solar panel can deliver an excellent cell efficiency of 22% and a prolonged lifespan. |
| Advanced Battery Charging |
Renogy Maximum Power Point Tracking technology with a high tracking efficiency of up to 99% and peak conversion efficiency of 98%. It is the best charging solution even in cloudy environments where the maximum power point of the solar panels will fluctuate all day. |
| AGM Batteries & 3000W Pure Sine Wave Power |
The 3000W Pure Sine Wave Inverter and the 12v 100Ah AGM Batteries combine to produce grid-like power for sensitive appliances and ensure stable performance. |
| Core Series Batteries & 3000W Pure Sine Wave Power |
The latest 12V 100Ah Core Series LiFePO4 Battery comes with a positive capacity tolerance of up to 6%, providing extra power beyond their rated capacity. Best of all, it can discharge at 300A for 10s to initiate power tools and other heavy loads. |
| Winter-Ready Solar |
Low iron tempered glass and rugged aluminum frame combine to brave snow load up to 5400 Pa and high winds up to 2400 Pa in challenging weather. |
| Safer Battery Charging |
While maximizing solar harvest, the Renogy Rover 40A MPPT Solar Charge Controller actively monitors voltage & current to safeguard your batteries and system from hazards. |
| Charging with Precision |
The included external temperature sensor helps the Rover 40A Solar Charge Controller track the battery's temperature all year round, avoiding under-charging in cold climates down to -40°F, and overcharging in blazing weather up to 149°F. |
400W Complete Kit W/ Three 12V 100Ah AGM Batteries
| 2*2 Pieces of 100W Monocrystalline Solar Panel |
| 1*40A MPPT Solar Charge Controller |
| 3*12V 100Ah Deep Cycle AGM Battery |
| 1*3000W 12V Pure Sine Wave Inverter |
| 4*4 Set of Solar Panel Mounting Z Bracket |
| 3*Solar Y Branch Connectors MMF+FFM Pair |
| 1*20FT 10AWG Solar Panel to Charge Controller Adaptor Kit |
| 1*8FT 10AWG Battery to Charge Controller Tray Cables |
| 4*16In 4AWG Copper Battery Interconnect Cable for 5/16 in Lugs |
| 1*2FT 8AWG ANL Fuse Cable with Double Ring Terminals for 3/8 in Lugs |
| 1*40A ANL Fuse Set w/ Fuse |
| 8*12Inch 1AWG Copper Battery Interconnect Cable for 3/8Inch Lugs |
| 1*20A Solar Connector Waterproof In-Line Fuse Holder w/ Fuse |
| 1*Battery Inverter Cables for 3/8 in Lugs |
| 1*500A Battery Monitor With Shunt |
400W Complete Kit W/ Three 12V 100Ah Core Series Lithium Batteries
| 2*2 Pieces of 100W Monocrystalline Solar Panel |
| 1*40A MPPT Solar Charge Controller |
| 3*12V 100Ah Core Series Deep Cycle Lithium Battery |
| 1*3000W 12V Pure Sine Wave Inverter |
| 4*4 Set of Solar Panel Mounting Z Bracket |
| 3*Solar Y Branch Connectors MMF+FFM Pair |
| 1*20FT 10AWG Solar Panel to Charge Controller Adaptor Kit |
| 1*8FT 10AWG Battery to Charge Controller Tray Cables |
| 4*16In 4AWG Copper Battery Interconnect Cable for 5/16 in Lugs |
| 1*2FT 8AWG ANL Fuse Cable with Double Ring Terminals for 3/8 in Lugs |
| 1*40A ANL Fuse Set w/ Fuse |
| 1*20A Solar Connector Waterproof In-Line Fuse Holder w/ Fuse |
| 1*Battery Inverter Cables for 3/8 in Lugs |
| 1*500A Battery Monitor With Shunt |
400W Complete Kit W/ Three 12V 100Ah Self-heated Lithium Batteries
| 2*2 Pieces of 100W Monocrystalline Solar Panel |
| 1*40A MPPT Solar Charge Controller |
| 3*12V 100Ah Smart Lithium Battery w/ Self-Heating Function |
| 1*Monitoring Screen for Smart Lithium Battery Series |
| 1*3000W 12V Pure Sine Wave Inverter |
| 4*4 Set of Solar Panel Mounting Z Bracket |
| 3*Solar Y Branch Connectors MMF+FFM Pair |
| 1*20FT 10AWG Solar Panel to Charge Controller Adaptor Kit |
| 1*8FT 10AWG Battery to Charge Controller Tray Cables |
| 4*16In 4AWG Copper Battery Interconnect Cable for 5/16 in Lugs |
| 1*2FT 8AWG ANL Fuse Cable with Double Ring Terminals for 3/8 in Lugs |
| 1*40A ANL Fuse Set w/ Fuse |
| 1*20A Solar Connector Waterproof In-Line Fuse Holder w/ Fuse |
| 1*Renogy ONE Core |
| 1*Battery Inverter Cables for 3/8 in Lugs |
| 1*500A Battery Monitor With Shunt |
12V 100Ah AGM Battery
12V 100Ah Core Series Battery
12V 100Ah Self-Heated Battery
What do I need to complete my off-grid solar power system?
A solar panel has to be connected to a charge controller to regulate current, and a battery to store the electrical power. You will need adapter kit cables to wire the solar panel(s) and charge controller, and tray cables connecting the charge controller to a deep-cycle battery. You will also need an inverter to convert DC power to AC power to power AC home appliances.
What do I need to complete my off-grid solar power system?
A solar panel has to be connected to a charge controller to regulate current, and a battery to store the electrical power. You will need adapter kit cable to wire the solar panel(s) and charge controller, and tray cables connecting the charge controller to a deep-cycle battery.
What does off-grid and on-grid mean?
On-grid simply means solar power equipment (array or solar panel) is connected to the electrical grid, while off-grid refers to systems that are not connected to the grid and therefore store the generated power for later use. Off-grid systems are not affected by the grid blackouts.
Why is my solar panel under producing?
The output performance of solar panels is dependent on multiple factors. These include sunlight intensity, temperature, and weather conditions. Indirect sunlight, rising temperatures, cloudiness, and dust and dirt build-up can reduce the output of your solar panel.
How should I connect multiple solar panels for my system? Should I use a series or parallel configuration?
How you choose to connect multiple solar panels depends both on the size of your off-grid solar system ad your power needs.
Connecting solar panels in a series increases the voltage of the system, leaving the system current output the same as a single panel. The total amount of voltage of a series connected array can be measured by multiplying the voltage output of a single panel by the number of panels. Or if you have panels of different voltages you add the voltage of each panel to get the total voltage of the array.
Connecting solar panels in parallel increases the current of the array and maintains the voltage output of a single panel. The total current of a solar array connected in parallel can be measured by multiplying the current of a single panel by the number of panels. Make sure the open circuit voltage of the connected panels does not exceed the maximum DC input voltage of the power station of controller.
How many solar panels do I need?
The best way to estimate how many solar panels you need is to understand and define the power load of a battery system. Power is measured in watts, and capacity in watt-hours (multiplying power output in watts by the required runtime of power loads. Then, multiplied by a safety factor of 1.5-2). So, we advise you to size your battery bank first based on the minimum required capacity and decide how many panels or how much power input is needed accordingly.
Can I add more solar panels to the Rover 40A and expand my system power output?
Yes, you can add more solar panels in series/parallel to increase the power output. The Rover 40A solar charge controller has a maximum PV input current of 40A, maximum PV input voltage of 100VDC, and maximum input solar power of 520W at 12V or 1040W at 24V. You are limited by the maximum input voltage and current the charge controller can handle. Building a system operating at around 90% of the rated voltage and current is safer to ensure tolerance for any system overvoltage or overcurrent.
Will this solar kit power my AC home appliances?
In order to determine what size solar kit is appropriate, you must first define the total load to be expected of the solar power system. Most manufacturers will publish a specification sheet of the AC unit online and will include a nameplate sticker on the body of your AC home appliances. Both can be used to determine the actual power rating of the AC. BTU is a common measuring unit for energy in AC and water heater products, however we are interested in the energy rate, or simply power.
Power will be listed in units of Watts, and can be used to determine the total load resulting from running the intended AC unit. Multiply the power rating recorded in watts by the total number of hours of operation intended, to obtain the total watt-hours. Divide the total watt-hours by the peak sun hours in the location of installation, and multiply by a safety factor of 1.5-2, to obtain the total number of watts your panels should produce to power the air conditioner load. The total power load can be divided by the power output of one panel to obtain the number of panels needed.
When do I need an inverter?
If you intend to use this solar power kit as a power supply for home appliances (e.g. coffee maker, TV, etc.), then you will need an inverter to convert the output voltage from a 12 VDC system to a 120V AC output socket. Renogy offers a variety of inverter products to suit your unique system and meet your power demand.
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