| Battery Type: Chemistry of the battery cells, usually Lithium-ion or AGM. | Lithium-Ion |
|---|---|
| Capacity (Wh): Max capacity of the battery in watt-hours, e.g. a 100 watt lightbulb running on a 400 watt-hour battery would last 4 hours (in theory). | 716 |
| Capacity (Ah): An amp-hour is the amount of amperage the battery can provide for exactly one hour, e.g. if you run a device that pulls 20 amps for 1 hour that is 20 amp-hours. | 28.4 |
| Lifecycle: The number of charge and discharge cycles a battery can complete before performance will start to degrade. | 2,500+ Cycles to 80% Original Capacity |
| Recharge Time AC Adaptor: How long it takes to fully recharge using an AC Adaptor. | 4 - 4.5 |
| Output AC: The maximum output the battery can provide through the AC output plug. | 120V/20A AC Outlets, 800W |
| Output USB-A: The maximum output the battery can provide through the USB-A plug. | 5V/3A |
| Output USB-C: The maximum output the battery can provide through the USB-C plug. | 100W Max. |
| Output Car Adaptor: The maximum output the battery can provide through the car adaptor. | 12V/10A |
| Weight: How much the unit weighs. | 21.4lb (9.7 kg) |
| Dimensions: The dimensions of the unit. | 12.6 x 8.5 x 8.7 in (32 x 21.6 x 22.1cm) |
| Operating Temp Range: The temperature range in which the battery will best perform. | 14-104? (-20-40?) |
| Warranty: How long is the manufacturers advertised warranty | 24 |
EB70S
The EB70S is the most powerful solar panel charger in the world with a peak output of 70W and an average power of 50W.
The EB70S contains 3 built-in smart charging ports: 2 x 5V/2A (10W) and 1 x 5V/1A (5W). With this combination, you’re able to charge up to 3 devices simultaneously! This feature makes it ideal for families who are always on the go!
- NEVER RUN OUT OF POWER – The EB70S is the most powerful solar panel charger in the world with a peak output of 70W and an average power of 50W. It can be used to charge your cell phone, tablet, camera, or other devices that use USB charging.
- A MUST-HAVE CAMPING PARTNER – With this combination, you’re able to charge up to 3 devices simultaneously! This feature makes it ideal for families who are always on the go! You’ll never have to worry about running out of power again!
- EASY PORTABILITY – The EB70S contains 2 built-in handles which allow you to pick up and carry it around easily.
Specifications
A solar panel that is designed to produce the maximum amount of power possible given the amount of sunlight that is available.
Cell efficiency is a solar panel that is designed to be more efficient at converting sunlight into electricity. The higher the cell efficiency, the more electricity the panel can produce.
The power voltage in a solar panel is the amount of voltage that the panel produces when it is exposed to sunlight. The power voltage will vary depending on the type of solar panel and the amount of sunlight that the panel is exposed to.
Power current is the current that flows through a solar panel when it is exposed to sunlight. The current is used to generate electricity.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
Open circuit voltage is the voltage across the terminals of a solar cell when no current is flowing. The open-circuit voltage of a solar cell increases as the intensity of sunlight increases.
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