Product Description
Genasun GV-Boost 8A MPPT Solar Boost Charge Controller Waterproof GVB-8-Li-42.6V-WP (12S LiFePO4)
Overview
The industry's most efficient boost controllers. These controllers boost lower-voltage solar panels up to charge 36V or 48V nominal batteries.
- 8A 42.6V 325W
- 99% Peak Efficiency
Waterproof - In-Line Fuse
- IP68
- 5-Year Warranty
- CE, FCC and RoHS compliant
Get your money’s worth with Genasun.
A true problem-solver, the unique GVB-8-WP charge controller with MPPT allows a lower-voltage solar panel to charge higher-voltage batteries. Want to charge a 24V battery with a 48-cell solar panel? No problem. A 48V battery from a 12V panel? We’ve got you covered. With 99% peak efficiency, they are the industry’s most efficient voltage-boosting controllers. True MPPT delivers consistent performance, unlike the “Nominal MPPT” of competitors. The advanced electronics inside the controller are encased in a proprietary potting compound making them ideal for golf-cart, marine, and vehicle applications
Running circles around the Competition
You have a limited amount of space on the roof of your golf cart. Advanced electronics in the GVB-8-WP controller extract more usable power from your panel than any other controller. These solar charge controllers are fully waterproof, which makes them ideal for golf carts and other applications where the controller will be exposed to moisture.
Boosting Panel Voltage Saves Money
Most solar charge controllers move power from a higher voltage panel to a lower voltage battery bank. The GVB-series controllers, in contrast, pump electricity up hill. These golf cart solar charge controllers will take almost any solar panel and boost the voltage to charge a 36V or 48V battery pack. Because these controllers feature true MPPT, no configuration is necessary; the controller will automatically adapt to your panel. Larger panels are cheaper per Watt than smaller panels, so using one large panel and a boost controller results in a significantly lower system cost than smaller panels in series with a conventional charge controller, not to mention simpler wiring and installation.
Features
LED Indicator
The built-in LED will quickly tell you that you've installed the controller correctly. Simple to read, it will also let you know when the battery is charging from solar power, and when the battery has reached full charge.
No Fans. No Relays.
Fans get clogged with dust and dirt. Relays eventually stop switching. Genasun controllers use advanced electrical design that obsoletes these parts. With fewer moving parts to wear out, Genasun controllers outlast the competition.
Warranty & Support
The GVB-8-WP (Boost) Waterproof solar charge controllers carry a 5-year warranty on materials and workmanship. Genasun’s warranty does not cover damage due to abuse or operation beyond the rated specifications.
Specifications
For Lead-Acid Batteries
Specifications |
---|
Battery Type: |
Maximum Recommended Panel Power:1 |
Rated Panel (Input) Current:1 |
Max Recommended Panel Vmp: |
Max Input (Panel) Voltage: |
Recommended Max Panel Voc at STC: |
Input Voltage Range: |
Minimum Input (Panel) Voltage for Charging: |
Maximum Input Short Circuit Current:1,2 |
Maximum Input Current:3 |
Nominal Battery Voltage |
Minimum Battery Voltage for Operation: |
Trickle Charge to Recover Dead (0V) Battery: |
Operating Temperature: |
Max Full Power Operating Ambient:4 |
Charge Profile: |
Bulk Voltage: |
Absorption Voltage: |
Absorption Time: |
Float Voltage: |
Re-Absorb (Re-Bulk):5 |
Battery Temperature Compensation (referred to 25°C): |
Electrical Efficiency: |
Standby Consumption: |
MPPT Tracking Speed: |
Connection: |
Weight: |
Dimensions: |
Environmental Protection: |
Warranty: |
Certifications: |
2: Panel Isc. Max input power and maximum input voltage requirements must also be respected.
3: Max current that the controller could draw from an unlimited source. This specification is not intended for determining PV input.
4: Max ambient temperature for full operating power.
5: If the battery voltage drops below this point, the controller will attempt to run an absorption cycle. Otherwise, it will charge to the float voltage.
For Lithium Batteries
Specifications |
---|
Battery Type: |
Max Recommended Panel Power:1 |
Rated Panel (Input) Current:1 |
Max Recommended Panel Vmp: |
Max Input (Panel) Voltage: |
Recommended Max Panel Voc at STC: |
Input Voltage Range: |
Minimum Input (Panel) Voltage for Charging: |
Max Input Short Circuit Current:1,2 |
Maximum Input Current:3 |
Minimum Battery Voltage for Operation: |
Trickle Charge to Recover Dead (0V) Battery: |
Operating Temperature: |
Maximum Full Power Ambient:4 |
Charge Profile: |
CV Voltage: |
Battery Temperature Compensation: |
Electrical Efficiency: |
Standby Consumption: |
MPPT Tracking Speed: |
Connection: |
Weight: |
Dimensions: |
Environmental Protection: |
Warranty: |
Certifications: |
2: Panel Isc. Max input power and maximum input voltage requirements must also be respected.
3: Max current that the controller could draw from an unlimited source. This specification is not intended for determining PV input.
4: Max ambient temperature for full operating power