We are your partner in creating highly competitive products.
We specialize in at-home devices for skincare, body slimming, and haircare. Supported by 300+ patents and 600+ global certifications (CE, NMPA, FDA, RoHS), we offer all-in-one solutions that encompass product planning, industrial design, tooling development, structural engineering, electrical layout, custom packaging design, and seamless mass production.
Our products are exported worldwide, targeting premium markets in Japan, South Korea, Europe, and the United States. Trusted by international clients, we have established long-term manufacturing partnerships with multiple Fortune 500 companies, driving performance and technological innovation in the beauty tech industry.
EARTS develops clinical-grade, high-performance beauty electronics utilizing cutting-edge transdermal delivery, electromagnetic energy, and phototherapy technologies.
With over 17 years of specialized manufacturing experience, we offer highly flexible customization workflows, regulatory alignment, and premium components sourcing to fast-track your product to market.
EARTS acts as your custom manufacturer, modifying aesthetic components, custom colors, silk-screen logos, and outer packagings on our field-proven and certified hardware baselines, saving you development costs.
Custom Casing Materials
Tailored Colors
Logo Application
Custom Packaging
Utilize our expert R&D engineering team to design custom electronics, programmed PCB controllers, industrial molds, thermal control pathways, and proprietary firmware tailored to your specific clinical concept.
Concept & R&D Innovation
Sample Testing & Verification
Tooling & Mass Production
The global aesthetic device landscape is undergoing a significant paradigm shift. As clinical medical technology converges with consumer home-use convenience, the demand for non-invasive skin repair and anti-aging machines has surged. Distributing or launching a skin repair device line requires a deep understanding of core technologies, supply chain capabilities, and strict global compliance pathways. This whitepaper analyzes why leading international brands rely on Chinese advanced manufacturing ecosystems for their medical beauty portfolios.
China (particularly the Guangdong tech cluster) is the global epicentre for high-precision electronics manufacturing. Sourcing from a mature partner like EARTS offers critical advantages:
An optimized supply chain prevents production bottlenecks, assuring uninterrupted supply lines for major global distributors.
| Capability | Performance Standard |
|---|---|
| R&D Turnaround | Concept to Sample in 45 Days |
| Regulatory Compliance | CE, FDA, RoHS, NMPA |
| Quality Control | 100% In-line Functional Inspection |
To capture market share, modern skin repair devices must integrate multi-modality functions that target specific layers of the dermis and epidermis. Pure single-wavelength or single-function units are rapidly losing market traction. Current technologies driving clinical efficacy include:
| Technology Module | Primary Biological Action | Target Skincare Indication | Typical Consumer Application |
|---|---|---|---|
| Bipolar Radio Frequency | Volumetric deep tissue heating (55°C-65°C internally) | Collagen degradation, skin laxity, deep wrinkles | Facial tightening, jawline lifting and sculpting |
| Microcurrent / EMS | Cellular ATP stimulation, facial muscle contractions | Facial sag, loss of elasticity, fluid retention | Micro-lifting, contouring, lymphatic drainage |
| Photodynamic LED (Red/Blue) | Photobiomodulation of mitochondria, cytochrome C oxidase | Inflammation, vascular redness, acne propionibacterium | Acne clearance, post-treatment skin barrier healing |
| Ultrasonic Cavitation | High-frequency acoustic vibrations (3MHz - 5MHz) | Comedones, cellular buildup, sebum congestion | Deep skin scrubbing, pore extraction |
From commercial medical spas to high-volume retail cosmetic channels, skin repair machines are customized according to distinct commercial settings:
Establishing a beauty tech product line involves multiple operational phases. EARTS streamlines these steps with a dedicated engineering and compliance framework.
Comprehensive needs analysis, regulatory path evaluation, NDA signing, and full product demonstrations to align engineering parameters.
Functional modification, proprietary tooling, customized industrial design, custom PCBA programming, and personalized brand packaging.
Sample delivery within 3 days for standard models, testing, customer feedback loop, and small-scale pilot runs to validate engineering.
Customs declaration support, trackable global shipping, warranty repairs, replacement parts availability, and regular quality reviews.
To maintain our technical edge and secure immediate feedback from industry professionals, EARTS regularly showcases new clinical beauty device designs at prominent international trade shows. We routinely participate in major global beauty events including Cosmoprof Bologna, Cosmoprof Asia (Hong Kong), Beautyworld Middle East (Dubai), and local medical-aesthetic expos across Europe and the United States.
By physical interaction and on-site testing, we validate our hardware ergonomics, display interface responsiveness, and technical configurations with aesthetic practitioners and global procurement agents alike.














Essential information regarding engineering, customized orders, regulatory compliance, and factory capabilities.
For standard OEM requests (silk-screen logo and packaging customization), our typical MOQ starts at 500 to 1,000 units, depending on the specific model. For deep ODM services involving custom injection tooling, custom PCBA design, or structural changes, the MOQ generally starts at 2,000 to 3,000 units to offset development costs.
Yes. Our factory operates under strict ISO 13485 quality management systems for medical devices. Our products have secured CE, RoHS, and NMPA certifications. Additionally, we actively cooperate with our global customers to clear FDA 510(k) applications and CE MDR pathways for clinical import compliance.
Upon finalizing technical parameters, the initial industrial design and 3D mockups take about 10–14 days. Once the concept is approved, PCB schematics engineering and rapid functional prototype fabrication take 15–20 days. Tooling development takes 30–45 days, followed by trial pilot production run (100–500 units) to ensure mechanical, thermal, and functional consistency.
Safety is our primary engineering focus. All radio frequency and thermal energy devices are designed with built-in NTC thermistors. These monitor skin-surface contact temperatures up to 200 times per second, automatically shutting off or reducing output when temperatures exceed safe skin thresholds (e.g., 42.5°C). We also design skin contact sensors that prevent emission unless the treatment head is fully applied.
We strictly utilize biocompatible materials such as SUS 316 surgical-grade stainless steel, aerospace-grade titanium, and medical-grade platinum plating. For silicone components, we source food-grade and medical-grade silicones that meet FDA biocompatibility standards, eliminating risk of skin irritation or allergic reactions.
We offer a 1-year comprehensive warranty on all electrical components and structural assemblies. For our high-volume distribution partners, we also provide a 1%-2% allocation of spare replacement units or key electronic boards free of charge, along with detailed video training modules for local service technicians.