High Quality Rigid GaAs Solar Wing Solar Panel Module Spacecraft UAV Balloon Use with PERC HJT N-Type IBC Solar Cell Types

Name: High Quality Rigid GaAs Solar Wing Solar Panel Module Spacecraft UAV Balloon Use with PERC HJT N-Type IBC Solar Cell Types
Brand: Techgroup multinational surgical
SKU: 11000022861010_1
Price: 1050.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

High-Efficiency Energy Conversion: Equipped with GaAs (Gallium Arsenide) and advanced silicon-based solar cells (PERC, HJT, N-Type, IBC), these modules convert sunlight into electrical energy with 21% efficiency, optimized for extreme environments like space and high altitudes.
Robust Space-Grade Design: Reinforced metal frames and durable mounting systems ensure structural integrity under radiation, temperature fluctuations, and micrometeoroid impacts, making them ideal for aerospace applications.

Key features

1. Material Technology

With gallium arsenide (GaAs) solar cells and reinforced metal frames, achieve 21% efficiency while withstanding extreme space conditions. ~20% more efficient than traditional silicon-based panels in low-light environments.

2. Performance Parameters

With power outputs up to 720W and 21% efficiency, deliver high energy generation even in low-light space environments. ~30% higher power output compared to standard terrestrial panels.

3. Scenario Solutions

Engineered for spacecraft and UAV applications, withstand radiation, temperature extremes, and micrometeoroid impacts. Twice as durable in radiation exposure as ground-based solar modules.

4. Design Flexibility

With modular deployable mounting systems, easily integrate into satellite structures for optimal energy capture. 30% lighter than conventional rigid panels for enhanced payload efficiency.

5. Advanced Cell Technologies

With PERC, HJT, and IBC cell technologies, optimize energy conversion and reduce energy loss. ~15% lower energy loss compared to conventional cells.

Product details

The High Quality Rigid GaAs Solar Wing Solar Panel Module is engineered for aerospace applications, offering robust power generation in extreme environments. Designed with high-efficiency GaAs, PERC, HJT, and N-Type IBC solar cells, it delivers reliable energy output for spacecraft, UAVs, and high-altitude balloons. Its rigid structure and reinforced metal frames ensure durability against radiation, temperature fluctuations, and micrometeoroids.

Technical specifications

Feature	Specification	Application Scenario
Cell Type	GaAs, PERC, HJT, N-Type, IBC	Spacecraft power systems, UAVs
Panel Efficiency	21% (up to 24% in Pro models)	Low-light environments, orbital missions
Power Output	150W-720W (customizable ranges)	Balloon deployments, satellite arrays
Design Type	Rigid, double glass, all-black	Structural stability in space
Durability	MIL-STD-1540 radiation resistance	Long-term space missions
Mounting System	Deployable hinges, reinforced edges	Satellite deployment and retraction

Customization guide

Adjustable parameters include power output range (150W-720W), cell type (GaAs for high efficiency, HJT for low-light performance), and design configuration (rigid for structural integrity, flexible for compact storage). Customize to meet mission-specific needs like weight constraints or energy density requirements.

Get inspired

Power your next aerospace mission with solar panels built to endure the harshest conditions. Whether launching a satellite, powering a UAV, or extending balloon flight durations, our modules combine cutting-edge GaAs technology with aerospace-grade durability.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Power Output	540W-600W	630W-720W	720W+
Efficiency	21%	22.5%	24%
Weight	Standard	15% lighter	30% lighter*
Radiation Resistance	MIL-STD-1540	Enhanced	Premium (30% higher)

Supplier's note

Technical Breakthroughs:
- GaAs Cells: Achieve 24% efficiency (30% higher than industry standard silicon cells), enabling power generation in low-light orbital environments.
- Rigid Design: Reinforced edges and double-glass construction reduce weight by 30% while maintaining structural integrity for launch stresses.
- Customizable Power Ranges: Modular configurations (e.g., 150W-720W) adapt to mission-specific energy demands.
Version Selection Guide:
- Base Model: Ideal for UAVs and balloons requiring 540W-600W with standard radiation resistance.
- Advanced Model: Choose for satellites needing 630W-720W and enhanced durability in high-radiation orbits.
- Pro Model: Opt for deep-space missions demanding 720W+ output and 30% lighter weight for payload optimization.

Example: With the Pro Model’s 24% efficiency and 30% lighter weight, you can power a satellite array with 20% more energy per kilogram than traditional models, extending mission lifespans.

Frequently asked questions

Which rigid GaAs solar panel model suits UAVs and spacecraft applications?
How do I maintain solar panels for satellites or high-altitude balloons?
What are the advantages of GaAs vs. silicon solar cells for space missions?
Can these solar panels be customized for specific power needs?
Are these solar panels certified for space radiation and temperature extremes?
What’s the difference between rigid and flexible solar panels for aerospace use?
Do these solar panels support bifacial or PERC/HJT technologies?
How do these solar panels compare to all-black or half-cell options for spacecraft?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Rigid GaAs Solar Panels	Spacecraft, satellites	GaAs cells (21% efficiency), 540W–600W (ISO 60904-2), rigid aluminum frame	▲ ▲ Highest power density (540W–600W) for space missions (e.g., Mars rovers)	Heavy (2.5 kg/m²) and costly ($/W) due to GaAs technology
Flexible Solar Panels	UAVs, high-altitude balloons	Polyimide substrate (20% efficiency), 250W–300W, foldable design (ASTM D543)	Lightweight (0.8 kg/m²) and adaptable to curved surfaces	Lower efficiency vs rigid panels; limited lifespan in extreme UV environments
Bifacial Solar Panels	Dual-light exposure applications	Bifacial glass (22% front/18% rear efficiency), 540W–600W, double-glass build	15% power boost from rear light capture (ideal for orbital deployment)	Requires reflective surfaces; complex mounting systems add cost
HJT (Heterojunction) Panels	High-efficiency missions	HJT tech (22.5% efficiency), 540W–600W, low-temperature coefficient (IEC 61215)	▲ ▲▲ 12% less power loss in high temps vs standard silicon panels	Fragile glass substrate; manufacturing cost 30% higher than PERC panels
PERC Solar Panels	UAVs needing high power output	PERC cells (21.5% efficiency), 540W–600W, anti-reflective coating (ASTM G173)	10% higher output than standard monocrystalline panels in direct sunlight	Moderate efficiency drop in partial shade; requires frequent cleaning
N-Type TopCon Panels	Long-duration space missions	N-Type TOPCon cells (22% efficiency), 540W–600W, low-light performance (IEC 61829)	▲ ▲ 20% slower degradation rate in radiation-heavy environments	Higher initial cost; less proven in extreme thermal cycling (vs monocrystalline)