CANDYSIGN发布AI小电拼Mirror:FluxAI自由流让多口充电进入「功率复用」时代
TL;DR · AI Summary
CANDYSIGN发布AI小电拼Mirror,搭载FluxAI自由流算法,实现功率实时回收与动态再分配,让多口充电进入「功率复用」时代。
Key Takeaways
- AI小电拼Mirror搭载FluxAI自由流算法,实现功率实时回收与动态再分配。
- FluxAI自由流算法将整台充电器视为共享功率池,功率根据需求实时流动。
- AI小电拼Mirror支持4×140W盲插,单一USB-C接口最高140W输出,提供长时间稳定供电能力。
Outline
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CANDYSIGN发布AI小电拼Mirror,搭载FluxAI自由流算法,实现功率实时回收与动态再分配。
Treats the entire charger as a shared power pool, with power flowing according to demand.
Supports 4x140W blind plug-in, with a single USB-C port capable of up to 140W output, providing long-term stable power supply.
Upgrades free-flow scheduling from an algorithm to a real-time scheduler, supporting high-performance cruising, multi-device state switching, and stable power supply under long-term high loads.
AI小电拼Mirror is no longer just about who has the highest wattage, but about solving the more common issues of the multi-device era: when there are laptops, phones, tablets, headphones, handheld devices
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- AI小电拼Mirror
- FluxAI自由流算法
- 将整台充电器视为共享功率池
- 功率根据需求实时流动
- 产品特性
- 支持4×140W盲插
- 单一USB-C接口最高140W输出
- 提供长时间稳定供电能力
- CanOS 2.0
- 将自由流调度从算法升级为实时调度器
- 支持高能巡航、多设备状态切换与长时间高负载下的稳定供电
- 产品定义
- 不再只是在比谁的瓦数更大
- 解决多设备时代更常见的问题
Highlights
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FluxAI自由流算法将整台充电器视为共享功率池,功率根据需求实时流动。
CANDYSIGN AI Small Electric Puzzle Mirror released by CandyFactory. As the new flagship product in the AI Small Electric Puzzle series, Mirror continues the 4C five-port design, with all four USB-C ports supporting up to 140W output. Through FluxAI Free Flow® algorithm, it realizes real-time power recovery and dynamic power distribution in multi-device scenarios.
The core experience of AI Small Electric Puzzle Mirror can be summarized as '160F > 250': 160W full load power, plus FluxAI Free Flow® full-time dynamic scheduling capability, in real desktop usage, it is more effective than simply stacking high-rated power.
Here, ']' is not a comparison of physical total power, but a comparison of power utilization. After multi-port charging enters the real usage scenario, the factors that determine the experience are not only the parameter size, but also the port scheduling, power recovery, changes in device load, and the system's ability to reuse idle power.
**The Pain Points of Traditional High-Power Chargers: Power Often Occupies「空」**
In traditional multi-port chargers, power allocation is often completed based on a fixed table. A port allocated to 100W does not mean that the connected device will consume 100W all the time.
Take MacBook as an example, it may be plugged into a 100W port, but in light office use, the actual power consumption is only 20W. The remaining 80W, in traditional fixed allocation logic, cannot be flexibly released and is still locked in this port. Meanwhile, if other devices enter the fast charging phase, they may not get enough power.
This is also the reason why many high-rated power chargers have a less smooth experience in multi-device scenarios: the total power looks high, but the port power is fixed. Users need to re分配 power every time they insert a device; when inserting another device, they need to turn off all devices and rehandshake. Power has not truly flowed.
**FluxAI Free Flow: Turn the Whole Charger into a Shared Power Pool**
AI Small Electric Puzzle Mirror equipped with FluxAI Free Flow® algorithm, changes the fixed division logic.
Free Flow treats the whole charger as a shared power pool. Who needs it, power flows to who; when the device's power consumption decreases, idle power will be recycled by the system; when the phone starts fast charging, the system will dynamically replenish. The whole process happens in real-time and remains continuously connected.
The key mechanism of FluxAI Free Flow can be summarized as: real-time monitoring, instantaneous recycling, dynamic re-allocation. It no longer lets a port occupy fixed power for a long time, but lets all power flow like water among devices.
This means that even if AI Small Electric Puzzle Mirror connects to low-power products like Lightning accessories, it will not occupy a high-power channel for a long time. Idle power will return to the system pool and be reallocated to devices that truly need it.
**160F > 250: From Paper Power to Effective Power**
'160F > 250' emphasizes not that 160W is greater than 250W in physical terms, but that in most real desktop scenarios, a system with high utilization, dynamic scheduling, and no power occupation is often more important than simply stacking higher rated parameters.
The real desktop state is usually dynamic: laptops may be in light office use, phones may be间歇性 fast charging, iPads may be playing videos, and headphones may only need a small current to supplement. Rarely do users encounter a situation where four devices are fully loaded and running 24/7.
The value of Free Flow lies in letting power follow demand changes. It does not treat ports as fixed parking spaces, but treats power as resources that can be dynamically scheduled. Users do not need to repeatedly think about which port to plug where, nor do they need to remember complex port sequences to avoid power loss.
This is also the core difference between AI Small Electric Puzzle Mirror and traditional multi-port chargers: it is not just about rated power, but about effective power.
**High-Efficiency Cruise: Make Continuous Output the Foundation of Productivity**
AI Small Electric Puzzle Mirror supports 4x140W blind plug-in, with a single USB-C port supporting up to 140W output, and dual pen electric mode can achieve 2x80W. Paired with Oxie牛架, it can unlock full 160W full-speed cruise.
Mirror is aimed at hackathons, long-term 4K/8K rendering, AI inference, etc., providing long-term stable power supply capabilities. This capability is called 'High-Efficiency Cruise': it追求的是不是 short-term peak power, but to maintain full power supply as much as possible in real usage environments, reducing temperature, allocation strategies, or multi-port competition-induced performance fluctuations.
In this scenario, the significance of Free Flow will be magnified. In long-term work flows, device loads will constantly change: laptops rendering will increase power consumption, tasks will end and power consumption will decrease; when phones enter the fast charging phase, they will quickly request power, and then gradually decrease. FluxAI Free Flow will continue to recycle and replenish in these changes, providing a smoother power supply experience for the entire desktop equipment.
**From「Power Allocation」to「Resource Scheduling」
Free Flow is more like a real-time resource scheduling system.
Its logic is similar to modern systems' dynamic bandwidth, variable frequency air conditioning, and multi-device resource pools: resources are no longer statically divided, but flow according to demand in real-time. Similar to modern 2.0T power systems relying on turbines, electric control, and energy scheduling to achieve higher efficiency on real roads; Free Flow achieves higher utilization of every watt of electricity in real desktop scenarios through power pools and real-time recycling and reuse.
For users, this transformation brings a very direct result: no need to remember power tables, no need to sort ports in order, no need to repeatedly balance between multiple devices. After plugging in devices, the system is responsible for directing power to where it is needed most.
**CanOS 2.0: Free Flow Evolves from Algorithm to Real-time Scheduler**
AI Small Electric Puzzle Mirror is based on SDC (Software-Defined Charger, software-defined charger) architecture, equipped with CanOS 2.0如意 system.
CanOS 2.0 upgrades the Free Flow scheduling from an algorithm to a real-time scheduler, supporting high-efficiency cruise, multi-device state switching, and stable power supply under long-term high load. It also brings display system reconstruction, protocol firmware sustainable updates, end-cloud configuration synchronization, control and protocol communication reconstruction, as well as support for MCP and OpenClaw AI agents.
This means that Mirror's charging capabilities are not entirely determined by fixed rules at the time of production. Through SDC architecture, CanOS 2.0, FluxAI Free Flow, and full模OTA, AI Small Electric Puzzle Mirror is more like a personal power supply system that can be continuously updated.
**A More Resourceful Desktop Energy Device**
AI Small Electric Puzzle Mirror is still a charger: it supports Xiaomi's 120W Swift Charge private protocol, is compatible with PPS, PD3.1, UFCS, AVS, etc. protocols; it has a 0.5-inch ingBar amber screen, equipped with Wingie butterfly架 and Oxie牛架, and continues to adopt the拆卸式 home旅双栖 design.
▲ Wingie butterfly架
▲ Oxie牛架
But Free Flow has taken it one step further in terms of product definition. Mirror is no longer just about who has the biggest power container, but about creating a more resourceful energy system that can direct every watt of electricity to where it is needed most.
In this sense, AI Small Electric Puzzle Mirror's focus is not on making the charger a larger power container, but on making it a more resourceful energy system that can direct power to where it is needed most.
**About CANDYSIGN**
CANDYSIGN is a brand that focuses on extreme aesthetics and flexible multi-electric energy products. Adhering to the philosophy of "good products are like sugar", CANDYSIGN integrates technology, art, and fashion, serving creators, developers, and multi-device productivity users, continuously exploring new forms of digital electric energy products.
Learn more: https://thecandysign.com/