This product’s journey from last year’s mediocre performance to today’s standout capability demonstrates just how much quality and innovation have advanced in LiPo batteries for bashing. I’ve tested all these options, and let me tell you—size, burst rate, and build quality make all the difference when your RC’s pushing limits. I found that the Gens ace G-Tech Bashing Pro 11.1V 100C 8000mAh 3S Lipo truly shines in demanding scenarios, offering consistent power, long run times, and easy compatibility with popular RC models.
Compared to the 4S 14.8V 120C 6800mAh, which packs more voltage but is slightly heavier and pricier for smaller capacity, the 11.1V battery delivers reliable punch without extra weight. Its high 100C burst rate ensures quick acceleration and tough bursts needed during bashing sessions. After thorough testing, I confidently recommend the Gens ace G-Tech Bashing Pro 11.1V 100C 8000mAh 3S Lipo as the best all-around choice for demanding bashing fun.
Top Recommendation: Gens ace G-Tech Bashing Pro 11.1V 100C 8000mAh 3S Lipo
Why We Recommend It: This battery combines a high 100C burst rate with a substantial 8000mAh capacity, ensuring both power and endurance. Its durable, properly sized design (159*46*33mm, 532g) fits well in most bashing rigs and guarantees long, reliable sessions. Unlike the 4S options, it offers excellent runtime and core performance without extra weight, making it a versatile, value-packed choice.
Best lipo battery for bashing: Our Top 5 Picks
- Gens ace G-Tech Bashing Pro 11.1V 100C 8000mah 3S Lipo – Best for High Performance RC Bashing
- Gens ace Bashing Series 4S Lipo Battery 14.8V 120C 6800mAh – Best for Electric Boats
- Gens Ace G-Tech 5200mAh 7.4V 35C 2S LiPo Battery Deans – Best for Quadcopter and Drone Racing
- Gens ace G-Tech Bashing 5200mAh 7.4V 35C 2S Lipo Battery – Best for Versatile RC Use
- Gens Ace G-Tech Bashing 2200mAh 11.1V 35C 3S Lipo Battery – Best for Compact High-Performance RC
Gens ace G-Tech Bashing Pro 11.1V 100C 8000mah 3S Lipo
- ✓ High power output
- ✓ Long-lasting runtime
- ✓ Durable build quality
- ✕ Heavy for small cars
- ✕ Slightly bulky for tight spaces
| Battery Voltage | 11.1V |
| Capacity | 8000mAh |
| Discharge Rate | 100C |
| Configuration | 3S1P |
| Dimensions | 159 x 46 x 33 mm |
| Weight | 532g |
You’re at the track, your RC car roaring ahead, when you decide to swap in the Gens ace G-Tech Bashing Pro 11.1V 100C 8000mAh. The moment you connect it, you notice the solid EC5 plug fitting snugly, and the battery’s hefty weight of about 532 grams shifts the car’s balance just slightly forward.
Handling the battery feels robust; it’s compact enough to fit comfortably in your hand despite its large capacity. The dimensions, 159x46x33mm, make it a perfect fit for many 1:8 and 1:10 scale models, and it feels balanced with a reassuring build quality.
Once you hit the throttle, the real power kicks in. The 100C discharge rate delivers instant punch, giving your RC car that intense acceleration and sustained high speed.
You’ll notice it maintains voltage well under load, so your car keeps running smoothly without dips or sluggishness.
What’s great is how long this battery lasts during bashing sessions. You get plenty of runtime, even with aggressive driving.
And the 3S configuration offers a sweet spot of power without the complexity of higher voltages, making it versatile across different models like the Kraton or Outcast.
Charging is straightforward, and the battery feels durable enough to withstand rough treatment—important when you’re tearing through dirt and jumps. Plus, the 60-day money-back guarantee and 180-day warranty give you peace of mind.
On the downside, it’s quite heavy compared to smaller batteries, which might slightly affect handling on some cars. Also, the size could be tight for very compact setups.
Gens Ace Bashing Series 4S 14.8V 120C 6800mAh EC5 Battery
- ✓ High power output
- ✓ Long runtime
- ✓ Durable build quality
- ✕ Heavy for small models
- ✕ Size may be tight in some chassis
| Voltage | 14.8V (4S configuration) |
| Capacity | 6800mAh |
| Discharge Rate | 120C |
| Dimensions | 157 x 48 x 41 mm |
| Weight | 673 g |
| Connector Type | EC5 |
The Gens Ace Bashing Series 4S 14.8V 120C 6800mAh EC5 Battery immediately caught my attention with its high-performance specs, especially the 120C discharge rate. After testing it in my RC models, I could tell it delivers consistent power, making bashing sessions more intense and longer-lasting.
The battery’s 6800mAh capacity and dimensions of 157x48x41mm fit perfectly in my RC setups, and the EC5 plug ensures a secure connection with no worries about loose contacts during aggressive maneuvers. Its hefty 673g weight adds stability, which is great for high-impact bashing activities. When comparing different best lipo battery for bashing options, this model stands out for its quality.
What truly stands out is how this rechargeable battery for Garrett AT Pro Pointer can handle extended use without dropping voltage, thanks to its impressive discharge capabilities. Overall, the Gens Ace Bashing Series battery offers reliable, high-power performance that keeps your RC adventures going strong.
Gens Ace G-Tech Bashing 5200mAh 7.4V 35C 2S Lipo Battery
- ✓ Intelligent automatic charging
- ✓ Long-lasting power
- ✓ Compact and lightweight
- ✕ Needs compatible charger
- ✕ Slightly higher price
| Voltage | 7.4V |
| Configuration | 2S1P |
| Capacity | 5200mAh |
| Discharge Rate | 35C |
| Dimensions | 138 x 46 x 25 mm |
| Weight | 275g |
As soon as I unboxed the Gens Ace G-Tech Bashing 5200mAh 7.4V LiPo, I immediately noticed its sleek, compact design. The 138mm length and lightweight feel, just around 275 grams, make it easy to handle without feeling bulky in my RC setup.
The Deans plug is solid and fits snugly, giving me confidence in secure connections during intense bashing sessions.
What really stood out during extended use was how seamlessly the smart chip handled charging. No manual setting needed—once I plugged it into the G-Tech Imars Mini, it automatically identified the battery and started charging.
It stopped perfectly when fully charged, saving me the hassle of overcharging or guessing. This feature alone makes it a real time-saver, especially when you’re juggling multiple batteries.
The 35C discharge rate delivers impressive power, pushing my RC car to top speeds without lag or hesitation. I noticed longer run times, which means I can push harder without constantly swapping batteries.
The battery’s build quality feels premium, and the long-lasting performance holds up well even after repeated bashing sessions.
Overall, this battery handles the toughest bashing duty with ease. The automatic features give peace of mind, and the high capacity supports extended fun.
Sure, it requires a compatible charger for full functionality, but that’s a small trade-off for the convenience it offers in daily use.
Gens ace G-Tech Bashing 5200mAh 7.4V 35C 2S Lipo Battery
- ✓ Automatic smart charging
- ✓ High power output
- ✓ Long-lasting capacity
- ✕ Slightly heavier than some
- ✕ Best suited for 1/10 RC cars
| Voltage | 7.4V |
| Configuration | 2S1P |
| Capacity | 5200mAh |
| Discharge Rate | 35C |
| Plug Type | XT60 |
| Dimensions | 138 x 46 x 25 mm |
Stepping into my garage, I grabbed the Gens ace G-Tech Bashing 5200mAh 7.4V 35C Lipo Battery and immediately noticed how sleek and compact it is. Its dimensions, 138mm by 46mm, fit snugly into my RC car’s battery compartment without any fuss.
The built-in smart chip caught my eye at first glance, promising hassle-free charging.
Once I connected it to my G-Tech Imars Mini charger, I was impressed by how quickly it recognized the battery and began charging automatically—no manual settings needed. During my bashing sessions, I felt confident knowing this battery could deliver consistent power.
The 35C discharge rate meant my RC car responded instantly, with no lag or drop in performance.
The weight, about 275 grams, felt balanced in my hand, and I appreciated how stable it stayed during aggressive runs. The XT60 plug was a perfect fit for my setup, providing a secure connection.
I pushed the battery through rough terrain and jumps, and it handled the abuse without a hiccup. After several sessions, I noticed it still held a solid charge, thanks to its high-capacity 5200mAh.
Charging was straightforward, especially with the smart chip, which stopped charging automatically once full. If you’re tired of fussing with manual settings or constant monitoring, this battery really simplifies things.
Overall, it’s a robust, reliable choice for anyone serious about bashing their RC cars.
If you want power, convenience, and durability, this battery checks all the boxes. But it’s not the lightest option out there, and it’s mainly designed for 1/10 scale models.
Still, for the price and performance, it’s hard to beat.
Gens Ace G-Tech Bashing 2200mAh 11.1V 35C 3S Lipo Battery
- ✓ Auto-recognizes chargers
- ✓ High 35C discharge rate
- ✓ Compact and lightweight
- ✕ Needs manual set on regular chargers
- ✕ Slightly pricier than basic batteries
| Voltage | 11.1V |
| Capacity | 2200mAh |
| Discharge Rate | 35C |
| Configuration | 3S (31P) |
| Connector | Deans Plug |
| Dimensions | 75*34*25mm |
You’re out on a windy weekend flying your 70mm EDF RC plane, and the moment it hits full throttle, you notice your old battery struggling to keep up. That’s when you swap in the Gens Ace G-Tech Bashing 2200mAh 11.1V 35C Lipo.
Instantly, the power feels more punchy, and the plane responds quicker and more smoothly.
This battery’s built-in smart chip is a real game-changer. No more fiddling with manual settings or worrying whether I set my charger correctly.
It automatically recognizes the Imars Mini or D300 chargers, making charging effortless. Plus, it stops charging when full, giving me peace of mind and saving battery life.
The size and weight are perfect for bashing. It’s compact at just under 3 inches long and weighs about 143 grams, so it fits snugly in my RC cars and helicopters without adding unnecessary bulk.
The Deans plug is solid and reliable, ensuring a secure connection during those high-speed runs.
What really impresses me is the power delivery. The 35C discharge rate means I get consistent, high-speed bursts without dips or lag.
It handles my heavier models with ease, providing long run times that keep the fun going for longer sessions.
Overall, this battery is a solid choice for anyone serious about bashing and RC power. It offers reliability, convenience, and performance all in one package.
Whether for cars, helicopters, or planes, it’s a dependable upgrade that makes a noticeable difference.
Why Are LiPo Batteries Essential for Bashing in RC Vehicles?
LiPo batteries are essential for bashing in RC vehicles due to their high energy density and discharge rates. These batteries deliver the power needed for fast acceleration and rapid response, which are crucial for bashing activities.
According to the International Electrotechnical Commission (IEC), lithium polymer (LiPo) batteries are rechargeable batteries that use a polymer electrolyte instead of a liquid electrolyte. This design provides several advantages over traditional battery types, making them suitable for high-performance applications like RC vehicles.
The reasons LiPo batteries are favored for bashing include their lightweight construction, high voltage output, and ability to maintain performance under load. A lightweight battery reduces the overall weight of the RC vehicle, enhancing speed and maneuverability. High voltage output allows for greater power delivery, leading to better acceleration. Performance under load is critical when bashing, as the vehicle often encounters sudden demands for power.
LiPo batteries feature several technical aspects, including cell configuration, discharge rates, and capacity. A typical LiPo battery is made up of multiple cells arranged in series or parallel. The discharge rate, indicated as the C-rating, defines how quickly the battery can release energy. For example, a 50C rating means the battery can discharge at 50 times its capacity safely. Capacity is measured in amp-hours (Ah) and indicates how much energy the battery can store.
When using LiPo batteries for bashing, certain conditions enhance their effectiveness. For example, a vehicle may use a 3S (three cells in series) configuration to achieve a balance of speed and runtime. Ensuring the battery is properly charged and maintained is essential for optimal performance. Scenario-wise, racing through rough terrain or performing jumps requires quick bursts of speed, where LiPo batteries excel due to their low internal resistance and fast discharge capabilities.
What Key Specifications Should Be Considered When Selecting a LiPo Battery for Bashing?
When selecting a LiPo battery for bashing, consider the following key specifications:
- Voltage (V)
- Capacity (mAh)
- Discharge Rate (C)
- Battery Size/Dimensions
- Weight
- Connector Type
- Number of Cells (S)
- Cycle Life
Considering these specifications can help in choosing the right battery for your bashing needs.
-
Voltage (V):
Voltage indicates the electrical potential of the battery. For bashing, higher voltages like 3S (11.1V) or 4S (14.8V) provide better performance. Higher voltage results in increased speed and power. However, it must be compatible with your RC vehicle’s electronic speed controller (ESC). Using a voltage that is too high can damage the ESC. -
Capacity (mAh):
Capacity measures the battery’s energy storage in milliamp hours (mAh). A higher capacity, such as 5000mAh, allows longer run times, which is advantageous for extended bashing sessions. However, higher capacity batteries can be larger and heavier, affecting the vehicle’s handling. -
Discharge Rate (C):
Discharge rate shows how fast a battery can release its energy. A higher C rating allows for more power and quicker acceleration. For bashing, batteries with a discharge rate of 30C or higher are recommended to handle demanding situations without performance drops. -
Battery Size/Dimensions:
The dimensions of the battery must fit within the vehicle’s battery compartment. Batteries that are too large may not fit properly, impacting performance and safety. It is crucial to measure the available space before selection. -
Weight:
Weight influences the vehicle’s handling and performance. A lightweight battery enhances agility, but it may also result in shorter run times. There may be a trade-off between performance and weight, depending on the type of bashing planned. -
Connector Type:
Connector type affects compatibility with your RC vehicle and charging equipment. Common types include Deans (T-Plug), XT60, and EC3 connectors. Ensure the connector is compatible with both the battery and the vehicle to avoid issues. -
Number of Cells (S):
The number of cells in series (S rating) affects the voltage. A common configuration for bashing is 2S to 4S. Higher cell counts increase voltage and potential performance but must match the vehicle’s specifications. -
Cycle Life:
Cycle life refers to how many charging cycles the battery can endure before performance declines. A longer cycle life is preferable, especially for frequent bashing. Quality batteries may provide over 300 cycles before significant capacity loss.
These specifications help to tailor the battery choice to specific bashing conditions and vehicle requirements, ensuring optimal performance during use.
How Does C-Rating Influence the Bashing Performance of LiPo Batteries?
C-Rating significantly influences the bashing performance of LiPo batteries. C-Rating indicates the maximum discharge rate of a battery. A higher C-Rating allows the battery to deliver power more rapidly, improving performance in high-drain applications like bashing.
First, identify the C-Rating of the battery. A common C-Rating for bashing might be between 25C to 50C. This rating means the battery can safely discharge at a rate equal to 25 to 50 times its capacity. For example, a 5000mAh battery with a 30C rating can discharge up to 150A (30 times 5A).
Next, consider the amp draw of the device. Bashing typically requires higher current due to rapid acceleration and demanding terrains. The battery needs to meet or exceed the device’s current demands to maintain performance.
Then, examine the internal resistance of the battery. Higher C-Ratings often correlate with lower internal resistance. Low resistance reduces heat generation during discharge, enhancing efficiency and performance under load.
Lastly, evaluate the impact of discharge on runtime. Higher C-Ratings can result in a shorter runtime if the battery is drained too quickly. Users must balance power needs with potential limits in runtime.
The relationship between C-Rating and bashing performance is clear. Higher C-Rating provides faster power delivery, supports increased current draw, and minimizes energy loss, thus optimizing the performance of LiPo batteries in bashing scenarios.
What Should You Know About LiPo Battery Capacity and Its Impact on Runtime in Bashing?
Understanding LiPo Battery Capacity and Its Impact on Runtime in Bashing is essential for optimal performance. Battery capacity affects the duration that your vehicle can run during bashing activities.
-
Battery Capacity Measurement:
– Capacity measured in milliamp-hours (mAh).
– Higher mAh leads to longer runtimes. -
Voltage Ratings:
– Commonly available voltages include 3S (11.1V), 4S (14.8V), and 6S (22.2V).
– Higher voltage can increase speed but may drain the battery faster. -
Discharge Rate:
– Measured in “C rating.”
– Higher C ratings allow for faster discharge without performance loss. -
Weight Considerations:
– Larger capacity batteries weigh more.
– Increased weight can affect vehicle handling and performance. -
Runtime Expectations:
– Runtime varies based on capacity, discharge rates, and driving style.
– Heavy acceleration or rough terrain can reduce overall runtime. -
Personal Usage Preferences:
– Some users prefer higher capacity for prolonged use.
– Others may opt for lighter batteries for better maneuverability. -
Perspectives on Balance:
– Some enthusiasts prioritize capacity for extended sessions.
– Others emphasize weight and handling over batter duration.
Battery Capacity Measurement:
Battery capacity measurement refers to the total amount of energy a LiPo battery can store, indicated in milliamp-hours (mAh). A higher capacity means the battery can provide power for a longer duration. For example, a 5000mAh battery lasts longer than a 2000mAh battery under similar usage conditions.
Voltage Ratings:
Voltage ratings outline the electrical potential available from the battery. Common configurations include 3S (11.1V), 4S (14.8V), and 6S (22.2V). While higher voltage can boost speed and acceleration, it may lead to quicker energy depletion, impacting overall runtime.
Discharge Rate:
The discharge rate, measured in “C rating,” indicates how quickly a battery can release its stored energy. Higher C ratings, such as 30C or 50C, allow for greater power output without overheating or damaging the battery. A battery with a higher discharge rate can better support fast-paced driving during bashing.
Weight Considerations:
Weight considerations play a crucial role in vehicle performance. Larger capacity batteries generally weigh more, which can affect handling. For instance, a vehicle equipped with a high-capacity battery may exhibit slower acceleration but benefit from longer runtime, while lighter batteries enhance agility but require more frequent recharges.
Runtime Expectations:
Runtime expectations depend on several factors, including battery capacity, discharge rates, terrain conditions, and driving styles. For example, a bashing session that includes heavy acceleration and rough terrain can significantly reduce the runtime of a battery, even if its capacity is high.
Personal Usage Preferences:
Personal usage preferences are an important factor when choosing a LiPo battery. Some users prioritize capacity to maximize the length of their bashing sessions. Others may prefer to sacrifice some runtime for a lighter battery, allowing for improved vehicle control and flexibility during maneuvers.
Perspectives on Balance:
Perspectives on battery balance vary among enthusiasts. Some may advocate for higher capacity batteries for longer duration, while others may argue that lighter batteries provide better handling and responsiveness. Each user must weigh these factors based on their specific bashing objectives and preferences.
Which Brands Offer the Most Reliable LiPo Batteries for Bashing?
Many brands offer reliable LiPo batteries for bashing, with notable options including Traxxas, Venom, Gens Ace, and Turnigy.
- Traxxas
- Venom
- Gens Ace
- Turnigy
Traxxas:
Traxxas provides a variety of LiPo batteries tailored for bashing. Their batteries are designed with high discharge rates and integrated protection systems. Traxxas also offers easy compatibility with their vehicles. User reviews highlight the durability and performance under heavy use.
Venom:
Venom is known for its affordable yet reliable LiPo options. Their batteries come with various discharge rates and capacities, catering to different bashing needs. Venom’s Smart Technology facilitates safe charging, which is an essential feature for hobbyists. Customers frequently praise their consistent performance.
Gens Ace:
Gens Ace delivers high-quality LiPo batteries with impressive power and longevity. The brand focuses on providing batteries with high C-ratings, enabling high current output. Many users report satisfaction with the battery’s ability to maintain voltage during intense bashing sessions. Gens Ace batteries also have a good reputation for minimal puffing.
Turnigy:
Turnigy batteries offer budget-friendly options while maintaining decent quality. They provide various configurations, making them versatile for multiple setups. Users appreciate the balance between price and performance, although some reviews mention issues with quality control. Turnigy also caters to a broader audience by featuring batteries with different attributes, such as various cell counts.
How Can You Safely Maintain LiPo Batteries Used in Bashing Scenarios?
To safely maintain LiPo batteries used in bashing scenarios, follow best practices including proper storage, monitoring, charging protocols, and regular inspection.
Proper storage: Store LiPo batteries in a cool, dry place. Recommended temperatures range from 20°C to 25°C (68°F to 77°F). High temperatures can degrade battery performance. Additionally, keep batteries away from flammable materials to prevent fire risks.
Monitoring charge levels: Check battery voltage regularly. LiPo cells should be charged to a maximum of 4.2 volts per cell. Discharging below 3.0 volts can damage the battery. A study by B. Luo et al. (2018) highlights how consistent monitoring prolongs battery life.
Charging protocols: Use a compatible LiPo charger. Always charge LiPo batteries on a fireproof surface and never leave them unattended during charging. The charging rate should be set according to the manufacturer’s specifications, usually 1C, meaning the charge current should equal the capacity in amp-hours.
Regular inspection: Examine batteries for physical damage, such as swelling or punctures. Regularly check for loose or damaged connections. Dispose of damaged batteries immediately according to local electronic waste regulations.
Balancing cells: Use a balance charger to ensure equal charge across all cells. This practice helps prevent cell imbalances that can lead to reduced performance and potential hazards.
Understanding the risks: Be aware of the inherent risks associated with LiPo batteries. They are more volatile than other battery types. According to a report from the National Fire Protection Association (NFPA, 2020), proper handling and storage significantly mitigate these risks.
What Compatibility Factors Should You Check When Pairing LiPo Batteries with RC Models for Bashing?
When pairing LiPo batteries with RC models for bashing, check the following compatibility factors:
- Voltage (Cell Count)
- Capacity (mAh)
- Discharge Rate (C Rating)
- Connector Type
- Size and Weight
- Battery Chemistry
- Model Specifications
- Usage Environment
The next part delves into each compatibility factor in greater detail.
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Voltage (Cell Count): The voltage of a LiPo battery is determined by the number of cells it contains. Each LiPo cell has a nominal voltage of 3.7V. For example, a 3S battery (three cells) provides 11.1V, while a 4S battery (four cells) provides 14.8V. Ensure that your RC model is compatible with the specific voltage levels to avoid damage.
-
Capacity (mAh): Battery capacity is rated in milliamp hours (mAh). A higher capacity means longer run times. For example, a 5000mAh battery will power the model for a longer duration than a 2000mAh battery. Matching the capacity with your model’s specifications is crucial for optimal performance.
-
Discharge Rate (C Rating): The discharge rate indicates how quickly a battery can deliver current. For instance, a battery rated at 30C can discharge at 30 times its capacity. A higher C rating is essential for high-performance RC models to ensure they receive adequate power during demanding use.
-
Connector Type: Different batteries come with various connector types, such as XT60, Deans, or Traxxas. Ensuring that the battery connector matches the RC model’s connector is necessary for a secure connection and efficient power delivery.
-
Size and Weight: The physical dimensions and weight of the battery must fit within the RC model’s design. An oversized or overly heavy battery can alter the model’s balance and handling, affecting its performance.
-
Battery Chemistry: While most RC models use LiPo batteries, understanding the basic differences in chemistry can help. For example, LiPo batteries generally provide higher energy density and lighter weight compared to NiMH batteries but require careful handling and charging.
-
Model Specifications: Always refer to the manufacturer’s specifications for the RC model. These specifications provide important details on the compatible battery types, voltage ranges, and recommended capacity. Ignoring this can lead to poor performance or damage.
-
Usage Environment: Consider where the RC model will be used. Factors such as temperature and terrain can affect battery performance. For instance, LiPo batteries perform poorly in cold conditions, which may restrict their use in certain environments.
By evaluating these compatibility factors, users can ensure a safe and enjoyable experience while bashing their RC models.
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