A humanoid robot is a type of robot designed to resemble and mimic human form and behavior. These robots are equipped with sensors, cameras, and AI algorithms, enabling them to interact with their environment and perform tasks similar to humans. Main applications of humanoid robots include healthcare, customer service, education, and manufacturing. Development trends in humanoid robots focus on improving their mobility, dexterity, and cognitive abilities, making them more autonomous, adaptable, and capable of complex interactions.
The demand for humanoid robot batteries is growing rapidly as these robots become more advanced and widespread across various industries. As humanoid robots are expected to perform complex tasks and operate for extended periods, their power needs are increasing. This creates a high demand for batteries that are lightweight, energy-dense, and capable of supporting continuous operation while maintaining safety and efficiency.
The development of batteries for humanoid robots presents several significant challenges. One of the primary issues is balancing energy density with safety, as robots require compact, lightweight batteries that can store enough energy to power complex movements and sensors for extended periods. However, increasing energy density often raises safety concerns, such as overheating or the risk of fire. Another challenge is achieving fast recharge times while maintaining a long cycle life, which is crucial for the robot's operational efficiency. Additionally, the need for batteries that can operate across a wide range of temperatures and under various environmental conditions adds complexity to the design process. The integration of batteries into the robot's structure without compromising its agility and weight distribution further complicates development efforts.
Grepow offers advanced semi-solid NMC batteries with an energy density of up to 350Wh/kg, providing a balance between high energy capacity and lightweight design, which is essential for humanoid robots that require significant power without adding extra weight. Additionally, our fast-charging batteries support a charge rate of up to 7C, enabling rapid energy replenishment to minimize downtime during operations. We also provides high-discharge rate batteries with up to 50C discharge capabilities, ensuring that humanoid robots can perform critical, energy-intensive tasks effortlessly. These features make Grepow’s lithium-ion batteries well-suited for the diverse and demanding applications of humanoid robots across various industries.
350Wh/Kg High Energy Density Battery
High Discharge Rate Battery
Fast Charging Battery
Grepow NMC 811 semi-solid state battery uses a stacked-sheet pouch cell process, the NMC (Ni-Mn-Co) cathode composition with 80% nickel, 10% manganese, and 10% cobalt. This recipe technology is to significantly break the energy density of existing lipo batteries, which the highest energy density is 350Wh per kg. The capacity Retention can stay more than 80% after 1000 cycles and the dynamic voltage imbalance is less than 100 mV.
Model No | Fully Charged Voltage | Discharge Rate | Capacity | Energy Density | Weight(g) | Thickness(mm) | Width(mm) | Length(mm) |
GRPB048102 | 4.2V | 5C | 9300mAh | 294.1Wh/kg | 117.0±5.0 | 10.7±0.3 | 47.5±1.0 | 103.0±1.0 |
GRP7865125 | 4.2V | 5C | 10600mAh | 290.52Wh/kg | 135.0±3.0 | 7.5±0.3 | 64.0±1.0 | 124.0±1.0 |
GRP8265125 | 4.2V | 5C | 11200mAh | 296Wh/kg | 140.0±5.0 | 7.9±0.3 | 64.0±1.0 | 124.0±1.0 |
GRPA864159 | 4.2V | 5C | 18500mAh | 295.04Wh/kg | 232.0±5.0 | 10.5±0.3 | 64.0±1.0 | 159.0±1.0 |
GRP8990190 | 4.2V | 5C | 25800mAh | 296.46Wh/kg | 322.0±10.0 | 8.6±0.3 | 90.0±1.0 | 190.0±1.0 |
GRPA588188 | 4.2V | 5C | 30000mAh | 290.58Wh/kg | 382.0±10.0 | 10.2±0.3 | 87.5±1.0 | 188.0±1.0 |
GRPA790190 | 4.2V | 5C | 32000mAh | 299.75Wh/kg | 395.0±10.0 | 10.4±0.3 | 90.0±1.0 | 190.0±1.0 |
GRP92C0200 | 4.2V | 5C | 39000mAh | 300Wh/kg | 481.0±10.0 | 8.9±0.3 | 119.0±1.0 | 200.0±1.0 |
GRPA4C0189 | 4.2V | 5C | 44000mAh | 320.47Wh/kg | 508.0±10.0 | 10.1±0.3 | 119.5±1.0 | 190.0±1.0 |
Grepow can provide high-rate batteries with a discharge rate of up to 50C by combining advanced electrode materials, such as high-conductivity carbon, with a multi-layered electrode design that maximizes surface area for efficient energy transfer, while minimizing internal resistance and employing sophisticated thermal management techniques to prevent overheating, ensuring that the batteries deliver rapid, consistent power output to meet the demanding, high-performance needs of humanoid robots in dynamic environments.
Model No | Fully Charged Voltage | Discharge Rate | Capacity | Energy Density | Weight(g) | Thickness(mm) | Width(mm) | Length(mm) |
GRP4468088 | 4.35V | 40C | 2000mAh | 161.70Wh/kg | 47.0±2.0 | 4.2±0.2 | 67±1.0 | 87.5±1.0 |
GRP92C0245 | 4.35V | 35C | 30000mAh | 200Wh/kg | 570.0±10.0 | 8.9±0.3 | 119.5±1.0 | 245.0±1.0 |
GRPB8E6197 | 4.35V | 35C | 41000mAh | 197.47Wh/kg | 789.0±10.0 | 12.5±0.3 | 145.5±1.0 | 197.0±1.0 |
GRPA9A6232 | 4.35V | 35C | 30000mAh | 198.26Wh/kg | 575.0±10.0 | 10.6±0.3 | 105.5±1.0 | 232.0±1.0 |
GRP7134096 | 4.4V | 30C | 2400mAh | 196.60Wh/kg | 47.0±2.0 | 6.8±0.3 | 33.5±1.0 | 96.5±1.0 |
GRP9342124 | 4.4V | 30C | 5400mAh | 203.82Wh/kg | 102.0±3.0 | 9.0±0.3 | 41.5±1.0 | 125±1.0 |
GRPA8A6232 | 4.35V | 30C | 30000mAh | 208.79Wh/kg | 546.0±10.0 | 10.5±0.3 | 105.5±1.0 | 232.0±1.0 |
GRP6472150 | 4.35V | 30C | 7000mAh | 192.75Wh/kg | 138.0±5.0 | 6.2±0.2 | 71.5±1.0 | 149.0±1.0 |
GRP7743143 | 4.35V | 30C | 5000mAh | 197.92Wh/kg | 96.0±3.0 | 7.4±0.3 | 42±1.0 | 143.5±1.0 |
GRP9482218 | 4.35V | 30C | 20000mAh | 206.52Wh/kg | 368.0±10.0 | 9.1±0.3 | 81.0±1.0 | 217.5±1.0 |
Grepow can provide fast charging with a charging rate of up to 7C by utilizing advanced materials, optimized electrode design, and efficient thermal management, ensuring rapid energy intake without compromising the battery's performance or lifespan. This capability is particularly beneficial for humanoid robots, as it minimizes downtime, allowing for more continuous operation and quicker deployment in critical tasks. With fast-charging batteries, humanoid robots can quickly recharge during brief breaks or between tasks, significantly enhancing their operational efficiency and productivity.
Model No | Fully Charged Voltage | C Rate | Capacity | Energy Density | Weight(g) | Thickness(mm) | Width(mm) | Length(mm) |
GRP6548078 | 4.4V | 5C | 3400mAh | 261.8Wh/kg | 50.0±2.0 | 6.2±0.3 | 47±1.0 | 77.5±1.0 |
GRP9241100 | 4.4V | 5C | 5600mAh | 266.2Wh/kg | 81.0±2.0 | 8.9±0.3 | 40.5±1.0 | 99.5±1.0 |
GRPB142104 | 4.4V | 5C | 7100mAh | 268.0Wh/kg | 102.0±3.0 | 10.7±0.3 | 41±1.0 | 103±1.0 |
GRPB048102 | 4.4V | 5C | 8200mAh | 267.5Wh/kg | 118.0±3.0 | 10.7±0.3 | 47±1.0 | 103±1.0 |
GRP9743150 | 4.4V | 5C | 9750mAh | 270.1Wh/kg | 139.0±3.0 | 9.4±0.3 | 42.5±1.0 | 149.5±1.0 |
GRPA665120 | 4.4V | 5C | 12300mAh | 263.1Wh/kg | 180.0±5.0 | 10.3±0.3 | 64.5±1.0 | 120±1.0 |
GRP9790190 | 4.4V | 5C | 24300mAh | 262.1Wh/kg | 357.0±10.0 | 9.3±0.3 | 89.5±1.0 | 189.5±1.0 |
GRPA495210 | 4.4V | 5C | 31500mAh | 262.5Wh/kg | 462.0±10.0 | 10.1±0.3 | 94.5±1.0 | 209.5±1.0 |
GRPB9A3217 | 4.4V | 5C | 41000mAh | 275.0Wh/kg | 574.0±10.0 | 11.6±0.3 | 103.0±1.0 | 217.0±1.0 |
