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Mapping and Surveying UAV Drone energy solution

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Mapping drones have become the primary tool for modern geospatial data acquisition, comprehensively replacing traditional manual surveying methods. Compared to conventional approaches, drones significantly reduce operational costs and adapt effortlessly to complex, dynamic terrains. With operating altitudes spanning 50m to 1,000m, they flexibly meet aerial surveying needs across diverse scenarios.
Leveraging high maneuverability and rapid deployment capabilities, these drones are widely deployed in:
● Geohazard monitoring
● Mining geological analysis
● Land-use planning
● Engineering construction surveying
● Data acquisition in high-risk zones
Even in hazardous environments—including mountainous terrain, canyons, and landslide zones—drones execute surveying missions safely and efficiently, delivering more precise and efficient mapping solutions for the industry.

CHARACTERISTICS OF Mapping and Surveying UAV Battery

● High Energy Density (Long Endurance)
Enables extended single-flight duration, reducing return-to-base and battery swap frequency to support large-area aerial surveying missions.
● Stable Continuous Discharge (Stable Output)
Maintains consistent flight speed and attitude stability to enhance image overlap rate and surveying data accuracy.
● Lightweight Design
Reduces overall aircraft weight while improving endurance efficiency, ideal for drones carrying high-precision cameras or LiDAR systems.
● Superior Temperature Adaptability (Wide Temperature Range)
Maintains stable capacity and power output in high-altitude, low-temperature mountainous regions or hot environments.
● High Safety (Safety and Reliability)
Incorporates overcharge/over-discharge protection, short-circuit prevention, and temperature safeguards to mitigate risks like swelling, sudden power loss, and overheating – protecting valuable surveying equipment.
● Rapid Charging Capability (Fast Charging)
Minimizes ground standby time to increase daily operational efficiency for multi-sortie missions.
● Low Self-Discharge Rate
Ensures immediate deployment readiness even after prolonged storage periods.
● Customizable Parameters (Customizable Specs)
Offers configurable voltage, capacity, dimensions and connectors to achieve optimal compatibility with various surveying drone models.

Recommended solutions

overview

The requirements for surveying UAV batteries are significantly higher than those for ordinary aerial photography drones, demanding high energy densitystable dischargesafety/reliability, and multi-environment adaptability. Based on diverse flight modes and payload needs of surveying missions, we classify battery solutions into three categories: 

1. Semi-solid state batteries: Offer excellent safety and ultra-long endurance (ideal for long-range surveying, fixed-wing, and VTOL models). 

2. High-energy density LiPo: Achieve an optimal balance between endurance and weight (mainstream choice for multirotor surveying UAVs). 

3. High-voltage LiHV: Feature a higher voltage platform and stronger power output (suitable for heavy-payload or high-altitude mountain missions requiring high-power stability). These solutions cover different scenarios, providing comprehensive power support for surveying UAVs in efficiency, stability, and safety.

High-Discharge LiPo Battery Solution

Suitability: Multirotor surveying UAVs requiring moderate-to-high endurance and medium payloads. 

Recommended Specifications:

Voltage: 6S~12S

Capacity: 6,000~22,000 mAh 

Discharge Rate: 15C~30C

Features: Longer endurance than traditional LiPo, lighter weight, and a balanced performance between power and duration.

Model
Capacity
Voltage
Discharge Rate
Energy
Charge Cut-off Voltage
Discharge Cut-off Voltage
Weight
Dimensions
(T*W*L mm)
ENP120006S25-HCR
12000mAh
6S 22.8V
25C
266.4Wh
25.2V
21.6V
1608.6g(±15g)
53*74*180
ENP120008S25-HCR
12000mAh
8S 29.6V
25C
355.2Wh
33.6V
28.8V
2145g(±15g)
69*74*180
ENP1200012S25-HCR
12000mAh
12S 44.4V
25C
532.8Wh
50.4V
43.2V
3217.2g(±15g)
104*74*180
ENP160006S25-HCR
16000mAh
6S 22.8V
25C
355.2Wh
25.2V
21.6V
2076.6g(±15g)
71*74*180
ENP160008S25-HCR
16000mAh
8S 29.6V
25C
473.6Wh
33.6V
28.8V
2768.8g(±15g)
94*74*180
ENP1600012S25-HCR
16000mAh
12S 44.4V
25C
710.4Wh
50.4V
43.2V
4153.2g(±15g)
140*74*180
ENP220006S25-HCR
22000mAh
6S 22.8V
25C
488.4Wh
25.2V
21.6V
2560g(±15g)
64*90*200
ENP220008S25-HCR
22000mAh
8S 29.6V
25C
651.2Wh
33.6V
28.8V
3413.3g(±15g)
88.4*90*200
ENP2200012S25-HCR
22000mAh
12S 44.4V
25C
976.8Wh
50.4V
43.2V
5120g(±15g)
131.6*90*200

Semi-Solid State Battery Solution

Suitability: Long-endurance, light-payload missions (combines high energy density with superior safety). 

Recommended Specifications:

Voltage: 6S~12S (22.2V~44.4V)

Capacity: 8,000~30,000 mAh

Discharge Rate: 5C~15C

Typical Applications: Fixed-wing surveying UAVs, VTOL surveying aircraft, and long-duration oblique photography missions.

Model
Capacity
Voltage
Discharge Rate
Energy Density
Dimensions
(T*W*L mm±5%)
Weight(g±5%)
ENP160006S10-HCS
16000mAh
6S 22.2V
10C
280Wh/kg
125.5*74*180
1440
ENP1600012S10-HCS
16000mAh
12S 44.4V
10C
280Wh/kg
125.5*74*180
2730
ENP170006S10-HCS
17000mAh
6S 22.2V
10C
280Wh/kg
125.5*74*180
1500
ENP1700012S10-HCS
17000mAh
12S 44.4V
10C
280Wh/kg
125.5*74*180
2850
ENP220006S10-HCS
22000mAh
6S 22.2V
10C
280Wh/kg
146.5*74*180
1915
ENP2200012S10-HCS
22000mAh
12S 44.4V
10C
280Wh/kg
125.5*74*180
3680
ENP250006S10-HCS
25000mAh
6S 22.2V
10C
280Wh/kg
82.5*107*240
2390
ENP2500012S10-HCS
25000mAh
12S 44.4V
10C
280Wh/kg
82.5*107*240
4630
ENP270006S10-HCS
27000mAh
6S 22.2V
10C
280Wh/kg
139.5*89*200
2340
ENP2700012S10-HCS
27000mAh
12S 44.4V
10C
280Wh/kg
139.5*89*200
4530
ENP300006S10-HCS
30000mAh
6S 22.2V
10C
280Wh/kg
131.5*89*200
2580
ENP3000012S10-HCS
30000mAh
12S 44.4V
10C
280Wh/kg
131.5*89*200
5020

High-Voltage / High-Energy LiPo (LiHV) Solution

Suitability: Aircraft models needing higher voltage platforms, enhanced power, and improved endurance. 

Recommended Specifications:

Voltage: 6S~12S (LiHV nominal voltage: 4.35V/Cell)

Capacity: 1,100~40,000 mAh 

Discharge Rate: 20C~40C

Features: Higher voltage platform, more stable output, and excellent performance in high-power multirotor models.

Model
Capacity
Voltage
Discharge Rate
Energy
Charge Cut-off Voltage
Discharge Cut-off Voltage
Weight
Dimensions
(T*W*L mm)
ENP160006S25-HV
16000mAh
6S 22.8V
25C
364.8Wh
26.1V
22.2V
1810g(±15g)
60.8*74*180
ENP160008S25-HV
16000mAh
8S 30.4V
25C
486.4Wh
34.8V
29.6V
2413.3g(±15g)
80.4*74*180
ENP1600012S25-HV
16000mAh
12S 45.6V
25C
729.6Wh
52.2V
44.4V
3619.8g(±15g)
119.6*74*180
ENP220006S25-HV
22000mAh
6S 22.8V
25C
501.6Wh
26.1V
22.2V
2450g(±15g)
60.8*90*200
ENP220008S25-HV
22000mAh
8S 30.4V
25C
668.8Wh
34.8V
29.6V
3266.6g(±15g)
80.4*90*200
ENP2200012S25-HV
22000mAh
12S 45.6V
25C
1003.2Wh
52.2V
44.4V
4900g(±15g)
80.4*90*200
ENP250006S25-HV
25000mAh
6S 22.8V
25C
570Wh
26.1V
22.2V
2526g(±15g)
66.8*90*200
ENP250008S25-HV
25000mAh
8S 30.4V
25C
760Wh
34.8V
29.6V
3368g(±15g)
72.6*90*200
ENP2500012S25-HV
25000mAh
12S 45.6V
25C
1140Wh
52.2V
44.4V
5059g(±15g)
146*90*200

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