LiPo Batteries Capacity with 6000mAh

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LiPo Batteries 3.7V With 6000mAh

How to Choose the Right LiPo batteries 6000mAh+?

Fixed LiPo batteries 6000mAh+ in stock

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Learn how to choose the high capacity of LiPo batteries for your first electronics design. What’s the best capacity is much better for your device? 6000mAh can support longer working time. The higher capacity means the weight of LiPo batteries is heavier. The higher voltage request some batteries are assembled in series to meet working voltage 7.4V, 11.1V, 14.8V or higher.

Browse our latest fixed LiPo batteries offers.

 

Hot Selling LiPo Batteries 6000mAh

ModelCapacity(mAh)Length(mm)Width(mm)Thickness(mm)Voltage(V)
LP1049926000 mAh9249103.7V
LP1055736000 mAh7355103.7V
LP1160756000 mAh7560113.7V
LP5567976000 mAh97675.53.7V
LP55701256000 mAh125705.53.7V
LP60551486000 mAh148556.53.7V
LP60681166000 mAh116686.03.7V
LP80631006000 mAh100638.03.7V
LP8164886000 mAh88648.13.7V
LP8465866000 mAh86658.43.7V
LP85421366000 mAh136428.53.7V
LP8563866000mAh86638.53.7V
LP9060906000 mAh90609.03.7V
LP9456866000 mAh86569.43.7V
LP9652926000 mAh92529.63.7V
LP9668716000 mAh71689.63.7V
LP9868706000 mAh70689.83.7V
LP45731256000 mAh125734.53.7V
LP68681206000 mAh120686.83.7V
LP70661506000 mAh150667.03.7V
LP72491356000 mAh135497.23.7V
LP76591566000 mAh156597.63.7V
LP76651326000 mAh132657.63.7V
LP80601006000 mAh100608.03.7V
LP84651326000 mAh132658.43.7V
LP88651326000 mAh132658.83.7V
LP90421246000 mAh124429.03.7V
LP95411156000 mAh115419.53.7V
LP281341376000 mAh1371342.83.7V
LP69491356050 mAh135496.93.7V
LP39771286200 mAh128773.93.7V
LP1261696200 mAh6961123.7V
LP1155906300 mAh9055113.7V
LP67711116300 mAh111716.73.7V
LP72491356300 mAh135497.23.7V
LP80651326500 mAh132658.03.7V
LP88511176500 mAh117518.83.7V
LP92471706500 mAh170479.23.7V
LP1060806800 mAh8060103.7V

Application with 6000mAh LiPo Batteries

Hot Selling LiPo Battereis 

Thin LiPo Battery LP251730 90mAh with protection circuits

Thin LiPo Battery LP251730 90mAh with protection circuits

Model Custom LiPo Battery LP251730 90mAh Capacity 90mAh Voltage 3.7V Battery Type Custom Rechargeable LiPo Battery Energy 0.33 Wh Net Weight 2 g Detail Protection circuit&50mm wires 3.7V LiPo battery LP251730 90mAh 0.33Wh with a safety circuit and 50mm wires...

Thin LiPo Battery LP241764 200mAh

Thin LiPo Battery LP241764 200mAh

Model Rechargeable LiPo Battery LP241764 200mAh Capacity 200mAh Voltage 3.7V Battery Type Rechargeable LiPo Battery Energy 0.74 Wh Net Weight 18 g Detail Protection circuit&50mm wires Thin LiPo Battery LP241764 3.7V 200mAh Rechargeable LiPo batteries The thickness...

Units of Battery Capacity: Ampere Hours
The energy stored in a battery, called the battery capacity, is measured in either watt-hours (Wh), kilowatt-hours (kWh), or ampere-hours (Ahr). The most common measure of battery capacity is Ah, defined as the number of hours for which a battery can provide a current equal to the discharge rate at the nominal voltage of the battery. The unit of Ah is commonly used when working with battery systems as the battery voltage will vary throughout the charging or discharging cycle. The Wh capacity can be approximated from the Ahr capacity by multiplying the AH capacity by the nominal (or, if known, time average) battery voltage. A more accurate approach takes into account the variation of voltage by integrating the AH capacity x V(t) over the the time of the charging cycle. For example, a 12 volt battery with a capacity of 500 Ah battery allows energy storage of approximately 100 Ah x 12 V = 1,200 Wh or 1.2 KWh. However, because of the large impact from charging rates or temperatures, for partial or accurate analysis, additional information about the variation of battery capacity are also provided by lipo batteries manufacturers.
Basics about Discharging

The purpose of a LiPo battery is to store energy and release it at a desired time. This section examines discharging under different C-rates and evaluates the depth of discharge to which a LiPo Battery can safely go. The document also observes different discharge signatures and explores battery life under diverse loading patterns.

The electrochemical LiPo Batteries has the advantage over other energy storage devices in that the energy stays high during most of the charge and then drops rapidly as the charge depletes. The super capacitor has a linear discharge, and compressed air and a flywheel storage device is the inverse of the LiPo Batteries by delivering the highest power at the beginning. Figures 1, 2 and 3 illustrate the simulated discharge characteristics of stored energy.

Most rechargeable LiPo batteries can be overloaded briefly, but this must be kept short. LiPo Battery longevity is directly related to the level and duration of the stress inflicted, which includes charge, discharge and temperature.
Remote control (RC) hobbyists are a special breed of LiPo batteries users who stretch tolerance of “frail” high-performance LiPo batteries to the maximum by discharging them at a C-rate of 30C, 30 times the rated capacity. As thrilling as an RC helicopter, race car and fast boat can be; the life expectancy of the packs will be short. RC buffs are well aware of the compromise and are willing to both pay the price and to encounter added safety risks.

To get maximum energy per weight, drone manufacturers gravitate to cells with a high capacity and choose the Energy Cell. This is in contrast to industries requiring heavy loads and long service life. These applications go for the more robust Power Cell at a reduced capacity.

 

Simple Guidelines for Discharging LiPo Batteries
  • Heat increases LiPo battery performance but shortens life by a factor of two for every 10°C increase above 25–30°C (18°F above 77–86°F). Always keep the LiPo battery cool.
  • Prevent over-discharging. Cell reversal can cause an electrical short.
  • On high load and repetitive full discharges, reduce stress by using a larger LiPo battery.
  • A moderate DC discharge is better for a LiPo battery than pulse and heavy momentary loads.
  • A LiPo battery exhibits capacitor-like characteristics when discharging at high frequency. This allows higher peak currents than is possible with a DC load.
  • Nickel- and lithium-based LiPo batteries have a fast chemical reaction; lead acid is sluggish and requires a few seconds to recover between heavy loads.
  • All LiPo batteries suffer stress when stretched to maximum permissible tolerances.
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