Commercial and industrial energy storage
์ƒ์—…์šฉ ๋ฐ ์‚ฐ์—…์šฉ ์—๋„ˆ์ง€ ์Šคํ† ๋ฆฌ์ง€
Herewin Home Energy Storage Battery
ํ™ˆ ์—๋„ˆ์ง€ ์Šคํ† ๋ฆฌ์ง€
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๋“œ๋ก 
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ํ†ต์‹  ๋ฐฑ์—… ์ „์›
Low-Speed Electric Vehicles
์ €์† ์ „๊ธฐ ์ž๋™์ฐจ
Compact RV Travel
RV ํŒŒ์›Œ
forklift
์ง€๊ฒŒ์ฐจ
Lead To Lithium Conversion
๋ฆฌํŠฌ ์ „ํ™˜์œผ๋กœ ๋ฆฌ๋“œ

High Energy Density UAV Battery

Herewin high energy density UAV batteries use advanced semi-solid NMC pouch cell technology to deliver more usable energy with less battery weight. With cell-level energy density platforms from 320 Wh/kg to 400 Wh/kg, these lightweight UAV batteries help extend flight endurance, improve payload efficiency and increase overall aircraft performance.

Designed for mapping, inspection, surveillance, logistics, VTOL and other endurance-focused UAV missions, each battery pack can be customized according to voltage, average current, peak current, battery compartment, weight limit and target flight time.

ยท 320โ€“400 Wh/kg cell-level energy density platforms
ยท Lightweight battery design for longer UAV flight time
ยท Improved payload-to-battery weight ratio
ยท Stable discharge performance for endurance-focused missions
ยท Multiple voltage and capacity configurations
ยท Custom dimensions, connector, enclosure and BMS available

high energy density UAV battery
Herewin 18S1P 66.6V 31000mAh Semi-Solid UAV Battery | 320Wh/kg

ยท 320Wh/kg high energy density for extended flight time
ยท Semi-solid NMC-based energy platform for high-voltage UAV integration
ยท 18S1P 66.6V 31000mAh LiHV platform with 6900g pack weight
ยท 10C discharge for stable cruising and endurance-focused drone output
ยท Cycle life โ‰ฅ500 with operating temperature range of -20~60โ„ƒ

Herewin 14S1P 53.2V 33000mAh Semi-Solid UAV Battery | 350Wh/kg

ยท 350Wh/kg high energy density for extended flight time
ยท Semi-solid NMC-based energy platform for high-voltage UAV integration
ยท 14S1P 53.2V 33000mAh LiHV platform with 5520g pack weight
ยท 10C discharge for stable cruising and endurance-focused drone output
ยท Cycle life โ‰ฅ100 with operating temperature range of -20~60โ„ƒ

6S1P 22.2V 22000mAh Semi-Solid UAV Battery | 320Wh/kg

ยท 320Wh/kg high energy density for extended flight time
ยท Semi-solid NMC-based energy platform for lightweight UAV integration
ยท 6S1P 22.2V 22000mAh platform with only 1720g pack weight
ยท 10C discharge for stable cruising and endurance-focused drone output
ยท Cycle life โ‰ฅ500 with operating temperature range of -20~60โ„ƒ

18S1P 68.4V 33000mAh Semi-Solid UAV Battery | 350Wh/kg
12S1P 43.8V 39000mAh Semi-Solid UAV Battery | 400Wh/kg

ยท 400Wh/kg ultra-high energy density for extended flight time
ยท Semi-solid NMC-based energy platform for lightweight UAV integration
ยท 12S1P 43.8V 39000mAh LiHV platform with only 4800g pack weight
ยท 8C discharge for stable cruising and endurance-focused drone output
ยท Cycle life โ‰ฅ400 with operating temperature range of -20~60โ„ƒ

Herewin 18S1P 65.7V 45000mAh Semi-Solid UAV Battery | 400Wh/kg

ยท 400Wh/kg ultra-high energy density for lighter heavy-duty UAV integration
ยท 18S1P 65.7V high-voltage platform for heavy payload and lifting drone systems
ยท 45000mAh large-capacity reserve with stable 8C discharge output
ยท Net weight only 8400g for better payload-to-battery efficiency
ยท Cycle life โ‰ฅ400 with operating temperature range of -20~60โ„ƒ

Herewin 14S1P 51.1V 45000mAh Semi-Solid UAV Battery | 400Wh/kg

ยท 400Wh/kg ultra-high energy density for lighter heavy-duty UAV integration
ยท Semi-solid NMC-based energy platform for advanced drone power systems
ยท 14S1P 51.1V 45000mAh platform with only 6500g pack weight
ยท 5C discharge for stable loaded UAV output
ยท Cycle life โ‰ฅ400 with operating temperature range of -20~60โ„ƒ

12S1P 43.8V 45000mAh Semi-Solid UAV Battery | 400Wh/kg

ยท 400Wh/kg ultra-high energy density for lighter heavy-payload UAV integration
ยท Semi-solid NMC-based energy platform for advanced drone power systems
ยท 12S1P 43.8V 45000mAh platform with only 5500g pack weight
ยท 8C discharge for stable loaded UAV output
ยท Cycle life โ‰ฅ400 with operating temperature range of -20~60โ„ƒ

์ œํ’ˆ ์นดํ…Œ๊ณ ๋ฆฌ
๋ฌด๋ฃŒ ๊ฒฌ์  ๋ฐ›๊ธฐ
๋ฌธ์˜ ์–‘์‹ ๋ฐ๋ชจ(#3)

High Energy Density UAV Battery Applications

Fixed-Wing Long-Endurance UAVs
Fixed-Wing Long-Endurance UAVs

Lightweight battery solutions provide higher total mission energy for fixed-wing and hybrid UAVs operating over long distances.

Drone-Express-Logistics
Logistics Delivery Drone

Lightweight design increases payload capacity per trip and reduces overall operating costs.

heavy-lift-drone-768x513
Heavy-Lift Industrial Drone

For 100โ€“200kg heavy-lift drones, Herewin batteries deliver longer flight time, stable high-power output and faster turnaround for cargo transport and industrial UAV missions.

emergency-firefighting-drones-768x432
Emergency Rescue Drone

Semi-solid-state batteries provide extended endurance and high payload capacityโ€”ideal for long-range rescue missions and safe personnel transport.

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VTOL Aircraft

High-specific-energy batteries support vertical takeoff, transition, cruise, and landing while reducing total battery mass.

high-altitude-reconnaissance-drone-768x512
๊ณ ๊ณ ๋„ ์ •์ฐฐ ๋“œ๋ก 

์ดˆ๊ณ ์—๋„ˆ์ง€ ๋ฐ€๋„ ๋ฐฐํ„ฐ๋ฆฌ๋ฅผ ์‚ฌ์šฉํ•˜๋ฉด ๋†’์€ ๊ณ ๋„์—์„œ 48์‹œ๊ฐ„ ์ด์ƒ ์—ฐ์† ๊ฐ์‹œ ์ž„๋ฌด๋ฅผ ์ˆ˜ํ–‰ํ•  ์ˆ˜ ์žˆ์Šต๋‹ˆ๋‹ค.

Find the Right High Energy Density Battery for Your UAV

Share your UAV voltage, average current, peak current, target flight time, maximum battery weight, battery compartment dimensions, connector, and estimated quantity. Our engineering team will evaluate a suitable cell and battery pack configuration.

ees-propose-requests
์š”์ฒญ ์ œ์•ˆ
customized-solution
๋งž์ถคํ˜• ์†”๋ฃจ์…˜
end-to-end-controlled-production-testing
์—”๋“œํˆฌ์—”๋“œ ์ œ์–ด ์ƒ์‚ฐ ๋ฐ ํ…Œ์ŠคํŠธ
warehouse-and-shipped-out
์ฐฝ๊ณ  ์ž…๊ณ  ๋ฐ ๋ฐฐ์†ก

High Energy Density UAV Battery Manufacturing

Herewin integrates pouch cell manufacturing, cell grading, battery pack design, BMS development, pack assembly, testing, and final quality control.

For high energy density UAV batteries, production control focuses on cell capacity consistency, internal resistance matching, voltage matching, welding quality, current-path design, insulation, structural reinforcement, thermal behavior, and pack-level electrical protection.

Each customized project is evaluated according to the aircraftโ€™s real operating data, including voltage platform, average current, peak current, flight profile, target endurance, battery weight, installation space, and communication requirements.

๋‹ค์–‘ํ•œ ํŒจํ„ด์˜ ๊ณ ๊ฐ์„ ์œ„ํ•œ ๋‹ค์–‘ํ•œ ์„œ๋น„์Šค

์˜คํ”„๋ผ์ธ ๊ณ ๊ฐ์šฉ

์œ ์—ฐํ•œ ๋ฐฐ์†ก ์‹œ๊ฐ„

์•ˆ์ •์ ์ธ ๋ฐฐ์†ก ์ผ์ • ๋ฐ ์ฐฝ๊ณ  ์ง€์›.

๋†’์€ ๋น„์šฉ ํšจ์œจ์„ฑ

์ „์ฒด ๊ฐ€์น˜๋ฅผ ๊ทน๋Œ€ํ™”ํ•˜๋Š” ๊ฒฝ์Ÿ๋ ฅ ์žˆ๋Š” ๊ฐ€๊ฒฉ.

๋‹ค์–‘ํ•œ ์ œํ’ˆ ์„ ํƒ

๋ชจ๋“  ์‹œ์žฅ ๋ถ€๋ฌธ์„ ์ถฉ์กฑํ•˜๋Š” ๋‹ค์–‘ํ•œ ์˜ต์…˜.

์˜จ๋ผ์ธ ๊ณ ๊ฐ์šฉ

๋‚ฎ์€ MOQ

ํ˜ผํ•ฉ ์ œํ’ˆ ์˜ต์…˜์œผ๋กœ ์œ ์—ฐํ•œ MOQ.

์‚ฌ์šฉ์ž ์ง€์ • ๋กœ๊ณ 

์†Œ๊ทœ๋ชจ ๋ฐฐ์น˜๋ฅผ ์œ„ํ•œ ๋งž์ถคํ˜• ๋กœ๊ณ  ์‚ฌ์šฉ์ž ์ง€์ •.

์›์Šคํ†ฑ ๋งˆ์ผ€ํŒ… ํŒจํ‚ค์ง€

๊ณ ํ’ˆ์งˆ ์ด๋ฏธ์ง€, ๋™์˜์ƒ์„ ์ œ๊ณตํ•˜์—ฌ ํŒ๋งค ์ˆ˜์ต์„ ๋†’์ผ ์ˆ˜ ์žˆ์Šต๋‹ˆ๋‹ค.

๋ธŒ๋žœ๋“œ ๊ณ ๊ฐ์šฉ

์ง€์—ญ ๋…์  ๊ถŒํ•œ

ํ—ค๋ฆฌ์œˆ์˜ ๋ชจ๋“  ๋ฆฌ์†Œ์Šค ๋ฐ ๊ธฐ๋Šฅ ์ œ๊ณต

R&D Resources

Custom sample within 7 days with R&D capabilities.

๋น ๋ฅธ ๋ฐฐ์†ก

ํšจ์œจ์ ์ธ ์ƒ์‚ฐ์œผ๋กœ ์ตœ๋‹จ 25์ผ ์ด๋‚ด์— ๋ฐฐ์†กํ•ฉ๋‹ˆ๋‹ค.

step1๏ผšunpacking
1๋‹จ๊ณ„: ํฌ์žฅ ํ’€๊ธฐ

ํฌ์žฅ์„ ๊ฐœ๋ด‰ํ•˜๊ณ  ์ž๋ฃŒ๋ฅผ ๋ถ„๋ฅ˜ํ•ฉ๋‹ˆ๋‹ค.

step2๏ผšcell-visual-inspection
2๋‹จ๊ณ„: ์„ธํฌ ์œก์•ˆ ๊ฒ€์‚ฌ

๊ทธ๋ฃนํ™”๋œ ์…€์˜ ๊ฒฐํ•จ์— ๋Œ€ํ•œ ์ „์ฒด ๊ฒ€์‚ฌ: ๋ˆ„์ถœ, ๊ธํž˜, ์ฐŒ๊ทธ๋Ÿฌ์ง, ํŽ‘ํฌ, ๋ถ€๊ธฐ, ๋ถ€์ ์ ˆํ•œ ํผ ์ •๋ ฌ(ํƒญ ๋…ธ์ถœ ๋˜๋Š” ํ•˜๋‹จ ํผ ๋ˆ„๋ฝ).

step3๏ผšvoltageresistance-testing
3๋‹จ๊ณ„: ์ „์••/์ €ํ•ญ ํ…Œ์ŠคํŠธ

์…€ ์ „์••๊ณผ ๋‚ด๋ถ€ ์ €ํ•ญ์„ ์ธก์ •ํ•˜๊ณ , ํŽธ์ฐจ๊ฐ€ ๊ณผ๋„ํ•œ ์…€์„ ์„ ๋ณ„ํ•˜๊ณ  ๊ท ํ˜•์„ ์žฌ์กฐ์ •ํ•ฉ๋‹ˆ๋‹ค.

step4๏ผštab-cutting
4๋‹จ๊ณ„: ํƒญ ์ž๋ฅด๊ธฐ

ํƒญ ์ ˆ๋‹จ๊ธฐ๋ฅผ ์‚ฌ์šฉํ•˜์—ฌ ์ „๊ทน ํƒญ์„ ์‚ฌ์–‘์— ๋งž๊ฒŒ ๋‹ค๋“ฌ์Šต๋‹ˆ๋‹ค.

step5๏ผštin-application
5๋‹จ๊ณ„: ์ฃผ์„ ์ ์šฉ

์ดˆ์ŒํŒŒ ์šฉ์ ‘๊ธฐ๋กœ ํƒญ์„ ์šฉ์ ‘ํ•˜๊ณ  ํ‰ํ‰ํ•˜๊ฒŒ ์ •๋ ฌ๋˜๋„๋ก ๋‹ค๋“ฌ์Šต๋‹ˆ๋‹ค.

step6๏ผštab-trimming
6๋‹จ๊ณ„: ํƒญ ํŠธ๋ฆฌ๋ฐ

ํƒญ์„ ์šฉ์ ‘ ์ง€์ ๊ณผ ๊ฐ™์€ ๋†’์ด๋กœ ์ž๋ฅด๊ณ  ํผ ํŒจ๋”ฉ ์œ„์— ํ‰ํ‰ํ•˜๊ฒŒ ๋ˆ„๋ฆ…๋‹ˆ๋‹ค.

step7๏ผšwire-soldering
7๋‹จ๊ณ„: ์™€์ด์–ด ๋‚ฉ๋•œ

์ „๊ธฐ ๋‹ค๋ฆฌ๋ฏธ๋ฅผ ์‚ฌ์šฉํ•˜์—ฌ ์ „์„ ์„ ๋‚ฉ๋•œํ•ฉ๋‹ˆ๋‹ค.

step8๏ผšinsert-insulation
8๋‹จ๊ณ„: ๋‹จ์—ด์žฌ ์‚ฝ์ž…

๋‹จ์—ด์„ ์œ„ํ•ด ํฌ๋ž˜ํ”„ํŠธ์ง€๋ฅผ ๊น”๊ณ  ๊ณ ์˜จ ์ ‘์ฐฉ ํ…Œ์ดํ”„๋กœ ๋ฎ์Šต๋‹ˆ๋‹ค.

step9๏ผšcasing-assembly
9๋‹จ๊ณ„: ์ผ€์ด์Šค ์กฐ๋ฆฝ

์–ด์…ˆ๋ธ”๋ฆฌ ์‚ฌ์–‘์— ๋”ฐ๋ผ ๋ฐฐํ„ฐ๋ฆฌ ๋ชจ๋“ˆ์„ ์ผ€์ด์Šค์— ์„ค์น˜ํ•˜๊ณ  ๋ฐฐ์„ ์„ ์—ฐ๊ฒฐํ•ฉ๋‹ˆ๋‹ค.

step10๏ผšchargedischarge-test
10๋‹จ๊ณ„: ์ถฉ์ „/๋ฐฉ์ „ ํ…Œ์ŠคํŠธ

๋ชจ๋“ˆ์„ ์ถฉ์ „๊ธฐ์— ์—ฐ๊ฒฐํ•˜๊ณ , ํ‘œ์ค€ ์ „์•• ๋ชจ๋“œ๋กœ ์ „ํ™˜ํ•˜๊ณ , ์™„์† ์ถฉ์ „์„ ํ™œ์„ฑํ™”ํ•˜๊ณ , ์ถฉ์ „์„ ์‹œ์ž‘ํ•ฉ๋‹ˆ๋‹ค.

step11๏ผšsealing
11๋‹จ๊ณ„๏ผš๋ด‰์ธ

๋‚˜์‚ฌ ๊ตฌ๋ฉ์— ์‹ค๋ž€ํŠธ๋ฅผ ๋ฐ”๋ฅด๊ณ  ํ™ˆ์ด ํŒŒ์ธ ์‹ค๋ฆฌ์ฝ˜ ํ”Œ๋Ÿฌ๊ทธ๋ฅผ ์„ค์น˜ํ•œ ํ›„ ์ง€์ •๋œ ์ง€์ ์—์„œ ๋ฐ€๋ด‰์„ ๊ฐ•ํ™”ํ•ฉ๋‹ˆ๋‹ค.

step12๏ผšfinal-functional-test
12๋‹จ๊ณ„: ์ตœ์ข… ๊ธฐ๋Šฅ ํ…Œ์ŠคํŠธ

ํ†ต์‹ , ์ถœ๋ ฅ ์ „์••, ์˜จ๋„ ๊ฐ์ง€, ๋ฐฉ์ „ ๊ณก์„  ๋ฐ ๋ˆ„์ถœ์„ ํ™•์ธํ•ฉ๋‹ˆ๋‹ค.

step13๏ผšfinal-visual-check
13๋‹จ๊ณ„: ์ตœ์ข… ์œก์•ˆ ํ™•์ธ

๊ธํž˜, ์ ‘์ฐฉ์ œ ์ž”์—ฌ๋ฌผ, ๋ฒ—๊ฒจ์ง„ ๋‚˜์‚ฌ๊ฐ€ ์žˆ๋Š”์ง€ ๊ฒ€์‚ฌํ•˜๊ณ  ๋ผ๋ฒจ์ด ์ž˜ ์ฝํžˆ๊ฑฐ๋‚˜ ์†์ƒ๋˜์ง€ ์•Š์•˜๋Š”์ง€ ํ™•์ธํ•ฉ๋‹ˆ๋‹ค.

step14๏ผšpackaging
14๋‹จ๊ณ„๏ผšํฌ์žฅ

์œ ๋‹›์— ๋ผ๋ฒจ์„ ๋ถ™์ด๊ณ , ํผ ์•ˆ๊ฐ ์ƒ์ž์— ๋„ฃ๊ณ , ๊ฑด์กฐ์ œ๊ฐ€ ๋“  PE ๋ฐฑ์— ๋ฐ€๋ด‰ํ•œ ๋‹ค์Œ ์ƒ๋‹จ ํผ ํŒจ๋”ฉ์œผ๋กœ ๊ณ ์ •ํ•ฉ๋‹ˆ๋‹ค.

step15๏ผšshipping
15๋‹จ๊ณ„: ๋ฐฐ์†ก

๋ฐ•์Šค ์Šน์ธ ์œ ๋‹› ๋ฐ ๋ฐœ์†ก.

์ž์„ธํžˆ ์•Œ์•„๋ณด๊ธฐ

Developing a new UAV or upgrading an existing battery system? Send us the current battery specification and actual flight data. Herewin can evaluate whether the project should prioritize higher energy density, lower battery weight, longer endurance, higher payload, or a customized voltage platform.

๊ณต์ • ๋ฐ ์ธ์ฆ

์ธ์ฆ์€ ํ—ค๋ฆฌ์œˆ์˜ ๊ฐ€์žฅ ํฐ ๊ฐ•์ ์ž…๋‹ˆ๋‹ค.
๋ชจ๋“  ์‹œ์žฅ์˜ ์š”๊ตฌ ์‚ฌํ•ญ์„ ์ถฉ์กฑํ•˜๋ฉฐ, ์†Œ์Šค ๊ณต์žฅ์€ ํ’ˆ์งˆ์„ ๋ณด์žฅํ•˜๊ธฐ ์œ„ํ•ด ์™„์ „ํžˆ ์ธ์ฆ๋˜์—ˆ์Šต๋‹ˆ๋‹ค.

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Need Longer Flight Time Without Adding Battery Weight?

Increasing battery capacity alone may also increase aircraft weight and power consumption. Our engineers evaluate specific energy, battery weight, discharge performance, voltage sag, thermal behavior, and propulsion-system compatibility together to identify a more effective UAV battery solution.

๊ด€๋ จ ์นดํ…Œ๊ณ ๋ฆฌ

Herewin lipo battery cell
Herewin LFP Battery
Herewin Semi-Solid Drone Battery
Herewin Semi-Solid LFP Battery_
Herewin Off-grid Power

์ž์ฃผ ๋ฌป๋Š” ์งˆ๋ฌธ

What is a high energy density UAV battery?

A high energy density UAV battery stores more energy per unit of weight or volume than a conventional drone battery. Higher specific energy can help extend flight endurance, reduce battery mass, or increase available payload.

How is energy density measured for UAV batteries?

Gravimetric energy density is normally measured in watt-hours per kilogram, or Wh/kg. It can refer either to the cell level or the complete battery pack level. Pack-level energy density is lower because the enclosure, cable, connector, BMS, insulation, and structural components add weight.

What energy density can Herewin UAV batteries provide?

Herewin currently provides cell-level energy density platforms ranging from approximately 320 Wh/kg to 400 Wh/kg, depending on the cell technology and product configuration. The final pack-level energy density must be calculated according to the enclosure, BMS, connector, cable, and structural design.

๊ด€๋ จ ๋ธ”๋กœ๊ทธ

Industrial drone battery on compliance test bench with checklist and Class 9 label
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In 2026, SAR drone battery advancements with semi-solid technology ensure mission reliability, offering high energy density and thermal stability.

๋ฌธ์˜ํ•˜๊ธฐ

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๋ฌธ์˜ ์–‘์‹ ๋ฐ๋ชจ(#3)
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