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Laser welding reaches new heights! Raycus Fiber Optics, together with Hangshun HK32MCU, unleashes a new revolution in handheld lasers.
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Hangshun Chip
Origin:
Hangshun Chip
2025.12.05
I. Strong Alliance: Raycus Fiber Joins Forces with Hangshun HK32MCU Together, we’ll forge new paths for market breakthroughs.
In new energy vehicles, 3C In the wave of upgrading electronic manufacturing, handheld laser welding machines—with their flexible and efficient advantages—are gradually replacing traditional welding equipment and becoming the market’s new favorite. However, issues such as reliance on imported core control chips and persistently high costs continue to hinder the industry’s development. At this critical juncture, Wuhan Raycus Fiber Laser Technologies Co., Ltd.—a leading domestic player in the laser sector—has joined forces with a nationally recognized specialized, sophisticated, and innovative enterprise. “ Little Giant ” Enterprise Hangshun Chips has reached a deep-level collaboration, which will... HK32MCU Integrate the core control system of the handheld laser welding machine, in order to... “ Laser Strength Technology + Domestic chip core ” The combination of strategies has achieved a market breakthrough, setting a new benchmark for domestic cooperation in the industry.
II. Precise Empowerment: Hangshun HK32MCU Activating New Momentum in the Ruike Fiber Optic Market Competition
In the current context of increasingly fierce competition in the laser equipment market, “ Performance upgrade ” With “ Cost optimization ” The dual demands are often difficult to balance, while Hangshun... HK32MCU Its inclusion has provided Rayko Fiber Optics with the core key to overcoming this challenge, enabling comprehensive empowerment—from technology to market.
From the perspective of market responsiveness, Hangshun Chip’s localized R&D and supply-chain advantages have enabled Rayko Fiber Optics to completely break free from the constraints imposed by fluctuations in international chip supply cycles. Hangshun HK32MCU Stable supply capabilities and rapid customization services make Rayko Fiber's production planning more flexible, enabling it to respond quickly to customers' urgent order demands. Especially in fields such as welding for the new energy industry, timely delivery has become a key factor in earning customer trust.
In terms of cost control, Hangshun HK32MCU By optimizing the domestically produced architecture and leveraging economies of scale, we have effectively reduced the procurement costs of core components without compromising performance. In addition, HK32MCU Be equipped with PIN TO PIN Compatible with imported chip characteristics, Rayko fiber optics can achieve replacement without modifying the hardware design, shortening the R&D cycle and significantly enhancing the cost-performance ratio of end products—perfectly aligning with the needs of the mid-range market. “ Cost-effective ” The core demand for the product has opened up broader industry application opportunities for Raycus Fiber.
More importantly, Hangshun. HK32MCU Its domestic production attributes, together with Raycus Fiber Optics. “ Leading domestic laser technology to the world ” The vision of both parties aligns perfectly. The collaborative initiative not only meets the policy-driven demand in the industrial sector for domestically produced core components, but also enhances the product’s self-reliance and controllability through joint technological breakthroughs, enabling Rayko Fiber Optics to gain stronger market access advantages in highly safety-critical industries such as new energy and manufacturing.
III. Overview of the Plan: Rebuilding the Performance Benchmark for Handheld Laser Welding Machines Through Core Control Reconstruction
The handheld laser welding machine solution jointly launched by Raycus Fiber and Hangshun features Hangshun. HK32MCU As the core control hub, it deeply integrates Raycus’s independently developed small- and medium-power fiber laser modules with precise control algorithms, thereby establishing— “ Core control + Power drive + Human-computer interaction ” Its highly efficient architecture is suitable for welding a variety of metal materials, including aluminum, copper, and stainless steel, and is applicable to components for new-energy vehicles, stainless steel kitchenware, and hardware products. 3C Multiple application scenarios, including electronics.
The hardware architecture of the scheme is based on HK32MCU At its core, this chip is equipped with high performance. ARM Kernel, high clock speed, built-in floating-point unit ( FPU ), capable of rapidly processing complex control algorithms such as laser power modulation and welding trajectory compensation, as well as real-time data; the chip integrates multi-channel advanced timers and 12 High precision ADC The module enables precise sampling and control of key parameters such as laser power, welding temperature, and spot position, with sampling errors kept within. ±0.1% Within this range, welding defects caused by power fluctuations can be effectively avoided.
At the software level, Raycus Fiber Optics will leverage its more than ten years of accumulated experience in laser control with... HK32MCU The hardware features have been deeply adapted, and the optimized control algorithm can dynamically adjust the laser output strategy based on parameters such as material type and thickness, making the welding process more stable. Meanwhile, the solution relies on... HK32MCU Rich UART 、 SPI 、 CAN The communication interface enables seamless integration with the laser generator, temperature sensor, and display screen, supporting real-time display, storage, and retrieval of welding parameters. It also features an encrypted storage function to protect core welding parameters and prevent technological leaks.
IV. Core Advantages: Building Differentiated Competitiveness Through Four Key Dimensions
Compared to similar solutions on the market, Rayko Fiber and Hangshun HK32MCU The jointly developed handheld laser welding machine solution has established unique advantages across four key dimensions—performance, reliability, cost, and compatibility—making it the preferred choice for industrial users.
(1) Precise and efficient, enhancing welding quality. The proposal has been approved. HK32MCU Combined with Raycus’s optimized laser control algorithm and its high-speed computing capabilities, and complemented by Raycus Laser’s high beam quality, this system achieves microsecond-level precise control of laser power, resulting in minimal spatter during welding and uniformly beautiful weld bead formation. Meanwhile, the system’s high-speed data processing capability enables faster welding speeds compared to conventional equipment, significantly boosting production efficiency.
(2) Industry-grade reliability, suitable for complex environments. Hangshun HK32MCU After undergoing rigorous industrial-grade reliability testing, the operating temperature range covers... -40℃ To 105℃ , with excellent electromagnetic interference resistance ( EMC ) Performance that enables adaptation to harsh environments such as high- and low-temperature workshops and outdoor operations; combined with Ruike Fiber’s hardware protection circuit design, this solution provides comprehensive four-fold protection against overcurrent, overvoltage, overheating, and abnormal optical power. The equipment’s mean time between failures significantly exceeds the industry average.
(3) Flexible adaptation to meet customized needs. HK32MCU The series offers a wide range of pin package and peripheral configuration options. Based on the specific needs of different industries, Rayko Fiber can quickly adjust parameters such as communication interfaces, control accuracy, and power ranges to provide customers with personalized customization services. For the stringent requirements of battery pack welding in new-energy vehicles, the system can enhance temperature monitoring and power compensation algorithms. For small-batch, customized manufacturing scenarios, the human-machine interaction interface is optimized to improve operational convenience.
(4) Self-reliant and controllable, ensuring supply chain security. The core control chip of the scheme HK32MCU Achieved 100% With domestically developed design and production, Raycus Fiber’s laser control algorithms and hardware designs also boast independent intellectual property rights, completely freeing us from reliance on imported chips. Against the backdrop of increasingly volatile global supply chains, Hangshun can provide stable... MCU Supply—providing a solid guarantee for the bulk delivery of Raycus Fiber Optics while also complying with national standards. “ Strengthening the industrial foundation ” Strategic orientation.
From technological synergy to mutually beneficial market outcomes, the collaboration between Rayko Fiber Optics and Hangshun not only sets a benchmark for upstream-downstream linkage within China’s domestic industrial chain, but also underscores the determination of national enterprises to achieve breakthroughs in core technology fields. In the future, as the cooperation between the two sides continues to deepen, equipped with Hangshun... HK32MCU The Raycus handheld laser welding machine will be implemented and applied in more industrial scenarios, thereby... “ High performance, high reliability, and cost-effectiveness ” Its core strengths will propel China’s laser manufacturing industry toward a stage of higher-quality development.
Hangshun Chip’s main product portfolio includes over 300 models across 29 major families of 32-bit MCUs—ranging from industrial, commercial, and automotive-grade to general-purpose, application-specific, and custom-designed—based on cores such as ARM Cortex-M0, M3, M4, and RISC-V. Below is a selection of specific product families:
HK32F005 family (the world’s smallest 32-bit MCU with an area of just 1 mm², challenging the lax standards of industry veteran TI)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 48 MHz.
Storage capacity: Maximum Flash is 32 KB, and maximum SRAM is 4 KB.
Segmented market: Suitable for a variety of application scenarios, such as smart homes, consumer electronics, wearable devices, and more.
HK32L010 family (a low-power monster, offering high cost-effectiveness and high stability—truly unmatched in the MCU world)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 48 MHz.
Storage capacity: Maximum Flash memory is 64 KB, and maximum SRAM is 4 KB.
Segmented market: Suitable for ultra-low-power applications such as simple wearable devices and environmental monitoring sensor terminals.
HK32F407/405/417/415 family (thanks to process innovations and outstanding performance, it truly stands as a performance monster in the fields of industrial control and smart applications).
Kernel and Main Frequency: Based on the ARM Cortex-M4F kernel, with a main frequency of up to 168 MHz.
Storage capacity: The maximum Flash memory is 1 MB, and the maximum SRAM is 256 KB.
Segmented Markets: Applicable to scenarios including industrial automation, high-end medical devices, industrial control, power equipment, energy storage, photovoltaic inverters, charging guns, battery management systems (BMS), display screens, access control and intercom systems, cooking appliances, floor-scrubbing robots, floor-washing machines, printers, stage lighting, and more.
The HK32F103A family—boasting a high-performance 120MHz main frequency and exceptional precision—truly deserves the title of “performance-to-price ratio king” in the MCU world, empowering the era of IoT.
Kernel and Main Frequency: Based on the ARM Cortex-M3 kernel, with a maximum main frequency of 120 MHz.
Storage capacity: Maximum Flash memory is 512 KB, and maximum SRAM is 97 KB.
Segmented Markets: Applicable to scenarios including industrial automation, high-end medical devices, industrial control, power equipment, energy storage, photovoltaic inverters, charging guns, battery management systems (BMS), display screens, access control and intercom systems, cooking appliances, floor-scrubbing robots, floor-washing machines, printers, stage lighting, and more.
HK32F04AA/030A family (a performance monster boasting abundant peripheral resources and high cost-effectiveness—truly a versatile contender in the MCU world)
Kernel Clock frequency: Based on the ARM Cortex-M0 core, with a maximum clock frequency of 96 MHz.
Storage capacity: Maximum Flash memory is 128 KB, and maximum SRAM is 10 KB.
Segmented markets: Applicable to fields such as IoT, smart homes, industrial applications, healthcare, and home appliances.
HK32C030 Family (Setting a New Benchmark for MCUs with its High-Performance Core, Rich Peripheral Resources, and Cost-Effectiveness)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 64 MHz.
Storage capacity: Maximum Flash memory is 64 KB, and maximum SRAM is 10 KB.
Niche markets: Suitable for consumer electronics such as coffee makers, smart locks, LED control and dimming, and more.
HK32F0301MC family (a performance monster with abundant peripherals, truly a legend in terms of cost-effectiveness)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 48 MHz.
Storage capacity: Maximum Flash is 16 KB, and maximum SRAM is 4 KB.
Segmented market: Suitable for a variety of application scenarios, such as smart homes, industrial control, consumer electronics, and more.
HK32F0301MA family (super-powered peripherals, blazing performance, and excellent cost-effectiveness—truly a master in the MCU world)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 48 MHz.
Storage capacity: Maximum Flash is 32 KB, and maximum SRAM is 4 KB.
Segmented market: Suitable for a variety of application scenarios, such as smart homes, industrial control, consumer electronics, and more.
HK32L08X family (an ultra-low-power monster with abundant peripherals, truly the king of ultra-low power for IoT and metering applications)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 48 MHz.
Storage capacity: Maximum Flash memory is 128 KB, and maximum SRAM is 20 KB.
Segmented markets: Suitable for ultra-low-power applications such as metering devices, environmental monitoring sensor nodes, industrial ranging, in-vehicle multimedia systems, and handheld medical devices—examples include water meters and gas meters.
HK32A040 family (automotive-grade quality, high performance, and rich peripherals—truly the king of cost-effectiveness for body domain and cockpit domain MCUs)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 96 MHz.
Storage capacity: Maximum Flash memory is 128 KB, and maximum SRAM is 10 KB.
Segmented market: Suitable for automotive electronic control systems such as the body domain and cabin domain.
HK32AUTO39A family (a monster with ultra-high reliability and massive storage performance, truly the all-around king in the automotive-grade MCU world)
Kernel and Main Frequency: Based on the ARM Cortex-M3 kernel, with a maximum main frequency of 120 MHz.
Storage capacity: Maximum Flash memory is 512 KB, and maximum SRAM is 96 KB.
Segmented market: Suitable for automotive electronic control systems such as the body domain and cabin domain.
HK32R78 family (high integration, low power consumption, high performance—truly a powerhouse in the home appliance MCU arena)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 64 MHz.
Storage capacity: Maximum Flash memory is 64 KB, and maximum SRAM is 10 KB.
Segmented Markets: Suitable for home appliances such as air conditioners, refrigerators, washing machines, range hoods, coffee makers, smart locks, LED control and dimming systems, and more.
HK32C005 Family (boasting functional safety certification, a high-performance, cost-effective powerhouse—the king of smart control in the consumer market)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 64 MHz.
Storage capacity: Maximum Flash memory is 64 KB, and maximum SRAM is 10 KB.
Segmented markets: Applicable to fields such as IoT, smart homes, industrial applications, healthcare, and home appliances.
HK32C105 Family (outstanding cost-performance ratio, highly compatible with multiple packages, IEC60730 certified, a performance powerhouse for the home appliance market)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 64 MHz.
Storage capacity: Maximum Flash memory is 64 KB, and maximum SRAM is 10 KB.
Segmented markets: Applicable to fields such as IoT, smart homes, industrial applications, healthcare, and home appliances.
HK32C207 family (combining functional safety with powerful performance, truly a game-changer in the field of intelligent control)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 64 MHz.
Storage capacity: Maximum Flash memory is 64 KB, and maximum SRAM is 10 KB.
Segmented markets: Applicable to fields such as IoT, smart homes, industrial applications, healthcare, and home appliances.
HK32M050 family (high integration, low power consumption, flexible packaging—performance powerhouse in the motor control field)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 64 MHz.
Storage capacity: Maximum Flash is 16 KB, and maximum SRAM is 4 KB.
Segmented Markets: Suitable for motor control applications such as water pumps, power tools, fan applications, high-speed motors, and electric mobility.
HK32M060 family (high integration, high precision, high performance, and a self-developed motor acceleration unit for more efficient motor control)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 48 MHz.
Storage capacity: Maximum Flash memory is 64 KB, and maximum SRAM is 8 KB.
Segmented Markets: Suitable for motor control applications such as water pumps, power tools, fan applications, high-speed motors, and electric mobility.
HK32M070 Family (a monster of high precision, high efficiency, and cost performance—the ultimate powerhouse in motor control performance)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 64 MHz.
Storage capacity: Maximum Flash is 32 KB, and maximum SRAM is 4 KB.
Segmented Markets: Suitable for motor control applications such as water pumps, power tools, fan applications, high-speed motors, and electric mobility.
HK32EC021 Family (Low Power, High Integration, Intelligent Control—A Monster in E-cigarette Control Performance)
Kernel and Main Frequency: Based on the ARM Cortex-M0 kernel, with a maximum main frequency of 48 MHz.
Storage capacity: Maximum Flash is 32 KB, and maximum SRAM is 4 KB.
Niche market: Suitable for the e-cigarette market.
HK16P053 Family (Less than 0.018 per chip! Ahsen’s dark horse MCU reaches the pinnacle of the world)
Kernel and clock frequency: 8-bit microcontroller with a maximum clock frequency of 16 MHz.
Storage capacity: Flash is 1 KB, and SRAM is 64 × 8 bits.
Segmented markets: Suitable for applications such as small home appliances, toys, smoke detectors, infrared remote controls, sensors, electronic tags, and consumer electronics.
HK16P071 Family (Legendary Rebirth, Dark Horse Returns, New Pinnacle of MCUs)
Kernel and clock frequency: 8-bit microcontroller with a maximum clock frequency of 16 MHz.
Storage capacity: Flash is 2 KB, and SRAM is 128 x 8 bits.
Segmented Markets: Suitable for applications including wearable devices, consumer electronics, sensors, IoT, small household appliances, toys, infrared remote controls, LED beads, electronic scales, and more.
HK24Cxx EEPROM (Storing New Legends—Hangshun EEPROM Sets the Industry Ablaze)
Capacity: Full coverage from 2K to 512K.
Operating voltage and temperature: 1.8–5.5V, -40–85℃.
Segmented market: Suitable for critical data storage in power-off protection data control devices, diagnostic instruments, consumer electronics, and electronic tag data storage, among others.
HK25Qxx NOR Flash (Reliable storage, ultimate performance—Hangshun NOR Flash sets the industry benchmark)
Capacity: Full coverage from 1M to 128M.
Operating voltage and temperature: 2.3–5.5V, -40–85℃.
Segmented markets: Applicable to wearable devices, PC motherboards, set-top boxes, routers, sensor nodes, electronic cigarettes, smart speakers, smart door locks, 5G base stations, and more.
Key words:
HK32MCU,Hangshun Chip,Rayko Fiber Optics
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