In various low-voltage, high-current application scenarios such as DC-DC converters, motor drives, power tools, battery management systems, and server power supplies, ROHM's RQ3E180GNTB, with its low on-resistance and high current capability, has long been a significant choice for engineers worldwide during design selection. However, against the backdrop of intensified global supply chain disruptions and frequent international trade frictions in the post-pandemic era, this imported component has gradually exposed numerous pain points: unstable lead times, procurement costs susceptible to exchange rate fluctuations, and lagging technical support responses. These issues severely constrain downstream companies' production schedules and cost control. Given this industry demand, domestic substitution has transitioned from an "option" to a "necessity," becoming a critical path for enterprises to ensure supply chain security, reduce costs, enhance efficiency, and improve core competitiveness. VBsemi, with years of deep cultivation in the power semiconductor field, has launched the VBQF1303 N-channel power MOSFET based on its independent R&D capabilities. This product precisely对标es the RQ3E180GNTB, offering core advantages of parameter upgrades, technological parity, and full package compatibility. It can serve as a direct replacement without any modifications to the original circuit, providing a more stable, cost-effective, and locally attuned high-quality solution for various low-voltage electronic systems.
Comprehensive Parameter Surpassing, Ample Performance Redundancy, Adapting to More Demanding Conditions. Tailored as a domestic alternative to the RQ3E180GNTB, the VBQF1303 achieves across-the-board, leapfrog improvements in key electrical parameters, offering more robust performance guarantees for high-current applications: Firstly, the continuous drain current is increased to 60A, significantly surpassing the original model's 18A—a 233% enhancement in current-carrying capability. This enables effortless adaptation to higher power-level circuit designs, whether upgrading existing equipment to high-power versions or improving system operational stability at the same power level. Secondly, the on-state resistance is as low as 3.9mΩ (@10V gate drive), superior to the RQ3E180GNTB's 4.3mΩ. This further reduces conduction losses, directly contributing to improved overall machine efficiency. Particularly in high-frequency switching applications, it can significantly reduce heat generation, lowering the design pressure and energy costs of cooling systems. Thirdly, the drain-source voltage remains at 30V, matching the original, while the gate-source voltage supports ±20V, offering stronger gate ESD and noise immunity, effectively preventing unintended turn-on in complex electromagnetic environments. The 1.7V gate threshold voltage design balances driving convenience and switching reliability, perfectly matching mainstream driver ICs on the market without requiring additional adjustments to the drive circuit, further lowering the barrier to substitution.
Enhanced with Advanced Trench Technology, Reliability and Stability Inherited and Upgraded. The core advantage of the RQ3E180GNTB lies in its low on-resistance and high efficiency. The VBQF1303 employs the industry-leading Trench gate process, building upon the excellent switching characteristics of the original model while optimizing device reliability across multiple dimensions. The device undergoes rigorous testing before leaving the factory, exhibiting excellent performance in high-current handling and thermal management. Through optimized intrinsic capacitance structure design, it not only reduces charge/discharge losses during switching but also elevates dv/dt tolerance, perfectly matching the application scenarios of the RQ3E180GNTB. Even under harsh conditions like high-frequency switching and fast transients, it maintains stable operation and can be directly replaced without modifying the circuit topology. Furthermore, the VBQF1303 features a wide operating temperature range, capable of adapting to various complex working conditions such as industrial environments and automotive applications. Having passed long-term reliability verification, its failure rate is far below the industry average, providing solid assurance for long-term, uninterrupted equipment operation—especially suitable for critical fields with reliability requirements like automotive electronics, industrial control, and consumer power systems.
Fully Compatible Package, Enabling "Virtually Cost-Free, Risk-Free, and Immediate" Replacement. For downstream enterprises, a core concern regarding domestic substitution is the R&D investment and time costs involved in the replacement process. The VBQF1303 fundamentally addresses this pain point through its package design. The device uses a DFN8(3X3) package, which is completely identical to the RQ3E180GNTB's DFN8(3X3) package in terms of pinout, pin spacing, package dimensions, and thermal pad structure. Engineers need not make any modifications to the original PCB layout or adjust the thermal system design, achieving a "plug-and-play" convenient replacement. The advantages brought by this high degree of compatibility are evident: on one hand, it significantly reduces the time cost of substitution verification, eliminating the need for R&D teams to invest in circuit redesign, simulation, and testing—sample validation can typically be completed within 1-2 days. On the other hand, it avoids increased production costs from PCB revisions and mold adjustments while ensuring the original product's structural dimensions remain unchanged, eliminating the need for re-certification and外观 design. This effectively shortens the supply chain cycle, helping enterprises quickly achieve the substitution and upgrade of imported components and seize market opportunities.
Local Strength Assurance, Dual Peace of Mind for Supply Chain Security and Technical Support. Compared to the unstable supply chain of imported components affected by multiple factors like international logistics, trade policies, and exchange rate fluctuations, VBsemi leverages China's well-established semiconductor industry chain layout, with modern production bases and R&D centers in Jiangsu, Guangdong, and other locations. This enables full-process independent R&D and stable mass production of the VBQF1303. Currently, the standard lead time for this model is compressed to within weeks, with emergency orders enabling rapid delivery. This effectively mitigates various risks such as international supply chain volatility, tariff barriers, and geopolitics, providing solid assurance for the smooth progress of enterprise production plans. Simultaneously, as a local brand, VBsemi boasts a professional technical support team offering "one-on-one" customized services: not only providing comprehensive technical documentation, including detailed substitution验证 reports, device datasheets, thermal design guides, and application circuit references, but also offering targeted selection advice and circuit optimization solutions based on specific customer application scenarios. For any technical issues arising during the substitution process, the technical team can provide rapid response within 24 hours, assisting with on-site or remote resolution. This彻底addresses the pain points of slow technical support response and high communication costs associated with imported components, making the substitution process smoother and more worry-free.
From DC-DC converters and motor drives to power tools and battery management systems; from server power supplies and consumer electronics to automotive applications and new energy devices, the VBQF1303, with its core advantages of "superior parameters, more stable performance, package compatibility, controllable supply, and attentive service," has become the preferred solution for domestic substitution of the RQ3E180GNTB. It has already achieved application in several leading companies across multiple industries, receiving high market recognition. Choosing the VBQF1303 is not merely a simple component replacement; it is a crucial step for enterprises in upgrading supply chain security, optimizing production costs, and enhancing product competitiveness—requiring no assumption of R&D modification risks while enjoying superior performance, more stable supply, and more convenient technical support.