Engineered to international standards for safety, durability, and multi-protocol charging capability.
How the integration of USB infrastructure into high-voltage power networks is redefining building safety and workstation optimization.
The global industrial landscape is experiencing a paradigm shift. Traditional power delivery strips are no longer sufficient in workspaces saturated with high-performance laptops, mobile devices, and sensitive test equipment. As modern work environments transit from standard AC outlets to complex smart ecosystems, factories, hospitals, schools, and enterprise offices demand advanced Custom OEM Power Strips with integrated USB charging systems.
According to global market intelligence, the demand for smart power distribution configurations is expanding at a CAGR of 7.8% annually. Industrial networks require robust thermal mitigation, lightning surge resistance, and safety protocols that protect heavy equipment while supplying consistent, low-voltage DC power to support peripheral operations. Customization at the factory level has transitioned from an optional service to a critical business requirement.
OEM factories and exporters offer customized layouts (such as US NEMA, UK BS1363, EU Schuko, AU/NZ AS/NZS 3112) integrated with high-efficiency Power Delivery (PD) GaN chipsets, minimizing installation overhead and device footprints globally.
Harnessing Gallium Nitride (GaN) engineering, smart IC power allocation, and heavy-duty safety architectures.
By leveraging Gallium Nitride (GaN) rather than conventional silicon chips, our devices maintain up to 95% thermal transfer efficiency. This results in reduced heat generation, compact designs, and safe operations at high wattages.
Our integrated circuit boards feature intelligent microprocessors that dynamically negotiate power output. When multiple Type-C and USB-A ports are used simultaneously, currents are adjusted in real-time to match device ratings.
Engineered with auto-shutoff overload breakers, flame-retardant PC polymer shell materials (up to V-0 rating), and high-joule metal oxide varistor (MOV) surge protection to insulate sensitive hardware from voltage spikes.
Whether deployment is targeted at automated testing laboratories, commercial grade office suites, high-density server rack surrounds, or hotel hospitality units, our OEM customization processes allow for tailor-made cable lengths, plug orientation modifications, dual-stage EMI filtration, and bespoke bracket configurations for mounting.
Guangdong Laisen Electronic Technology Co., Ltd. — Over 40 Years of Electronic Component Manufacturing Mastery.
Founded in 1983 in Dongguan City, Guangdong Laisen Electronic Technology Co., Ltd. (historically referenced as Laisen) has grown from a specialized facility into an international manufacturing force. Spanning a modern campus of approximately 20,000 square meters and housing two state-of-the-art workshop buildings, we support a dedicated workforce of over 700 employees.
Laisen specializes in the research, development, and mass manufacturing of all kinds of USB chargers, switching power supplies, Power Delivery chargers, open frame power adapters, and MFi certified cables. Adopting fully automated assembly lines, our factories achieve a staggering monthly output of about 1 million various types of power adapters.
Over the past 30 years, Laisen has obtained both ISO9001 and ISO14001 management system certifications. Reflecting our uncompromising focus on quality, our products carry top-tier safety marks worldwide including K-mark, UL, cUL, FCC, GS, BS, CE, SAA, RCM, PSE, and CCC. Currently, 90% of our products are exported directly to the United States, Europe, Australia, South America, Southeast Asia, Japan, and other global regions.
Guangdong Laisen Electronic Technology Co., Ltd. Production Campus
To ensure reliability at every turn, Laisen oversees every phase of design and fabrication under strict quality controls.
1. IQC
2. Plug-in
3. Wave-soldering
4. Check The Board
5. ATS
6. Laser Carving
7. Assemble
8. Functional Test
9. Aging Test
10. ATE
11. Packing
12. Complete Line
Our production floors feature advanced dispensing machines, SMT machines, reflow soldering stations, fully automatic vertical/horizontal AI plug-in lines, wave soldering systems, computer-guided testing stations, high/low temperature testing environments, and RoHS testing hardware to secure strict compliance.
Navigating global grid specifications and certification parameters for hassle-free custom cross-border logistics.
Standard plugs: NEMA 5-15P Polarized
Voltages: 120V AC, 60Hz
Certifications: UL498, UL1363, UL1449 (surge protector standard), FCC Part 15 Class B compliance. Focuses heavily on high-energy surge protection (joule ratings) and fire-retardant enclosures.
Standard plugs: CEE 7/7 (Schuko), BS1363 (UK)
Voltages: 230V AC, 50Hz
Certifications: CE, GS (Geprüfte Sicherheit), RoHS, WEEE. Requires child-safety shutters on outlets, high-temperature resistance tests, and low standby power consumption to meet eco-design directives.
Standard plugs: AS/NZS 3112, PSE, CCC
Voltages: 220V - 240V AC
Certifications: SAA, RCM (Australia/NZ), PSE (Japan), CCC (China). Focuses on lightning protection, pin insulation, and tracking resistance of internal copper busbars.
When sourcing custom power strips, dealing directly with Laisen eliminates intermediary markups, ensures consistency in components, and speeds up certifications. Since we handle the tooling, PCB design, SMT placement, testing, and shipping internally, we can custom-configure the ratio of USB-C (PD 3.0/3.1) and USB-A ports to meet specific target market needs.
Tailored configurations optimized for specific sector deployments, maximizing safety and infrastructure lifetimes.
Modern classrooms and open offices rely on clean cable management and immediate high-power access for mobile devices.
Solution: Desk-mountable clamp power strips with 45W/65W dual USB-C Power Delivery ports, preventing desk clutter and removing the need for bulky laptop chargers.
Hotels and lounges require robust, user-friendly power points that accommodate diverse plug types and charging speeds.
Solution: Universal socket configurations equipped with smart-IC USB charging ports, complete with internal safety shutters and anti-tamper housings.
Precision labs and assembly lines operate under high EMI and risk damage from voltage fluctuations.
Solution: Heavy-duty aluminum alloy housings with up to 3600 Joules of surge suppression, high-current circuit breakers, and integrated EMI/RFI noise filtration.
Technical insights and logistical details regarding custom OEM power strip manufacturing.
A: For customized housings, localized plug configurations, or custom colors, the MOQ generally starts at 1,000 units. For modifications involving customized packaging, branding, and special cable lengths, standard MOQs run from 1,000 to 2,000 pieces depending on the product series.
A: Yes. Our engineering team can develop custom PCB boards supporting Qualcomm Quick Charge 3.0/4.0+, USB Power Delivery (PD) 3.0/3.1 (up to 100W+ per port), and PPS protocols. Our automated SMT lines and vertical/horizontal AI plug-in machines handle assembly with high precision.
A: Our Quality Assurance system follows ISO9001 and ISO14001 guidelines. Production starts with IQC component verification, followed by AOI board inspection, SMT checks, functional testers, safety assessments on the automated aging line, and final ATE evaluation before packing. All products can be certified to target region safety marks (UL, GS, CE, SAA, PSE, CCC).
A: Absolutely. We use premium polycarbonate (PC) and ABS/PC blends that meet the UL 94 V-0 flame-retardant standard. This means the material will self-extinguish within 10 seconds of ignition, preventing fire hazards in industrial or residential environments.
A: Yes. We work with leading international testing laboratories (like TÜV, SGS, Intertek, and UL) to certify custom products. We can assist in filing for UL/cUL, CE, FCC, or PSE certifications for your specific product variants.
A: GaN components operate at higher voltages and switch faster than traditional silicon chips, losing less energy to heat. This allows us to pack high-wattage charging ports (e.g., 65W or 100W) into tight power strip spaces without overheating the unit.
Browse our selection of heavy-duty charging adapters, car adapters, and high-frequency sync cables.