Technology Wireless Charging Qi2

Qi2 Wireless Charger OEM: Factory Sourcing & Technology Guide

Apr 8, 2026 8 min read Snowy May

For procurement managers and brands sourcing wireless chargers from China: the global wireless charging market reached $18.4 billion in 2026 (CAGR 24.2% toward $83.8B by 2033 — Fortune Business Insights). Qi2.2 (25W) is the fastest-growing segment at 38% CAGR. WOWOHCOOL — a WPC member since 2013 — manufactures 21+ Qi2-certified charger models across 3 product lines (desktop pads, 3-in-1 stations, magnetic car mounts) with MOQ 500, CE/FCC/WPC certification, and custom branding. This guide covers the technology behind the products we build daily — electromagnetic induction, Qi2 MPP alignment, thermal management, and what to look for when selecting an OEM partner.

This guide covers everything B2B buyers need to know about wireless power technology—from electromagnetic induction principles to Qi2 Magnetic Power Profile, thermal management, and how we implement these technologies across our product lines.

At WOWOHCOOL, we've been perfecting wireless power technology since 2013. Our Shenzhen facility produces Qi-certified wireless chargers, magnetic power banks, and multi-device docks that meet the highest industry standards.

How wireless charging works - electromagnetic induction and Qi2 technology explained by WOWOHCOOL factory

Quick Answer

How to source Qi2 wireless chargers from Shenzhen: Qi2 wireless charging uses electromagnetic induction with Magnetic Power Profile (MPP) — delivering 15W (Qi2) to 25W (Qi2.2) with N52H neodymium magnets for perfect alignment. For B2B buyers: Qi2 modules from WOWOHCOOL (WPC member since 2013) start at $8-13/unit FOB Shenzhen, MOQ 500, with CE/FCC/WPC certification included. Product types: desktop pads, 3-in-1 stations, car mounts, magnetic power banks — all available with custom branding and packaging.

$18.4B
Market Size
2026
25W
Qi2.2 Max
Wireless Power
85%
MPP Alignment
Efficiency
637
Qi2.2 Certified
Products (Feb 2026)
Faster Adoption
vs Original Qi

The global wireless charging market was valued at approximately $28.8-37.3 billion in 2025 and is projected to reach $237 billion by 2034 (CAGR 22.8%), according to Fortune Business Insights and 360iResearch. Qi2 has been a key growth catalyst —with over 1,200 certified products in 2025 alone, adoption running 6× faster than the original Qi standard, and more than 1.5 billion Qi2-capable devices activated globally. The automotive wireless charging segment is the fastest-growing at 46.7% CAGR. By 2026, the market is estimated at $18.4 billion (Coherent Market Insights), on track to reach $83.8 billion by 2033 at a 24.2% compound annual growth rate.

North America holds the largest regional share at 31.4%, driven by Apple's 57.4% US smartphone share and premium Qi2 accessory adoption. Asia-Pacific is the fastest-growing region at 24.4% CAGR, fueled by China's manufacturing dominance and India's expanding middle class. Inductive charging currently represents 60-67% of the market, with resonant charging growing for multi-device and EV applications. The Qi2 chipset market alone is projected at ¥167.3 billion (~$23 billion) by 2031 (CAGR 11.7%), with key players including NuVolta, Injoinic, and NuCurrent driving innovation in higher power levels up to 25W and beyond.

1. Wireless Charging Evolution: From Faraday to Qi2.2 — What OEM Buyers Need to Know

For OEM buyers sourcing wireless chargers in 2026, understanding the technology's evolution from basic induction to Qi2.2 MPP isn't academic — it determines whether your product ships with an outdated Qi v1.0 module or a WPC-certified Qi2.2 25W module that commands premium retail pricing. The concept of wireless power transfer dates back to 1831, when Michael Faraday discovered electromagnetic induction. However, it wasn't until 2007 that the technology became commercially viable for consumer electronics. A team at MIT, led by Marin Soljačić, demonstrated resonant energy transfer that could power a 60-watt light bulb from over 2 meters away, sparking the modern wireless charging revolution.

The first commercial wireless charging pads for phones appeared in 2012, following the Wireless Power Consortium (WPC) ratification of the Qi standard. Since then, adoption has accelerated dramatically. According to IEEE research, over 1 billion devices now support wireless charging globally.

Today, cordless charging is standard in smartphones, smartwatches, earbuds, and even furniture. Major automotive manufacturers including BMW, Mercedes-Benz, and Toyota now integrate charging pads into their vehicles, demonstrating how deeply this technology has penetrated daily life.

2. Electromagnetic Induction in OEM Charger Design: Coil & Circuit Fundamentals

Wireless charging works through electromagnetic induction —transferring energy without cables. The fundamental principle, known as Faraday's Law, states that a changing magnetic field induces an electric current in a nearby conductor.

Engineering Insight: The efficiency of this transfer depends on the quality of the Oxygen-Free Copper Coils. At our factory, we use high-density windings to minimize energy loss as heat.

The Process

  1. 1. Charger creates alternating electromagnetic field using copper coil
  2. 2. Device's receiver coil captures the energy
  3. 3. Received energy converts back to electrical current
  4. 4. Current charges the battery

The transmitter coil in the charging pad generates a high-frequency alternating current (typically 110-205 kHz for Qi standard devices). This current creates a oscillating magnetic field that extends outward from the coil.

3. Qi2 Magnetic Power Profile (MPP): Why N52H Magnet Alignment Determines Charging Efficiency

Traditional Qi charging suffered from misalignment issues that caused severe heat generation and extremely slow charging speeds. The new Qi2 MPP standard solves this with perfect coil alignment.

This is why we focus on Magnetic Alignment in our products.

Engineering Insight: Look for chargers with Ferrite Shielding. Without it, electromagnetic interference can reduce charging speed by 30%. All WOWOHCOOL wireless products feature high-permeability shielding layers.

Our MPP-enabled Wireless Chargers and Magnetic Power Banks use N52H magnets — the strongest commercial grade available — to lock the coils into the "Sweet Spot" every time, achieving up to 85% efficiency. This is the same technology used in Apple's MagSafe, now standardized in the MPP (Magnetic Power Profile) format.

WOWOHCOOL Factory Data: Coil Alignment Precision & Magnet Pull Force

Coil Alignment Tolerance

<0.3mm — measured with Keyence LM-1100 laser micrometer across 100-unit sample batch. Qi2 MPP spec requires <1.0mm. WOWOHCOOL QC reject threshold: >0.5mm deviation.

Magnet Pull Force (through 5mm phone case)

N52H: 420g vs N48: 280g vs N35: 160g. N52H is the only grade maintaining reliable auto-alignment through standard protective cases. Measured with digital force gauge at 5mm gap.

WOW10 Qi2 wireless charger with magnetic alignment N52H magnets - 15W fast charging for iPhone and Android

WOW10 Qi2 Magnetic Wireless Charger - 15W Fast Charging

This innovation solves the 5-year pain point of cordless charging: misalignment. The Qi2 generation delivers consistent fast charging without worrying about perfect placement.

EXPERT INSIGHT

Snowy May, Market Manager at WOWOHCOOL: "The introduction of Qi2 MPP with N52H magnets has been a watershed moment. What used to require millimeter-perfect alignment now locks into place automatically, achieving 85% charging efficiency consistently. For B2B buyers, this translates to fewer returns and higher customer satisfaction."

4. Thermal Management for OEM Wireless Chargers: GaN, Ferrite Shielding & NTC Sensors

Inductive charging naturally generates heat. Without proper thermal management, efficiency drops and safety risks increase. At WOWOHCOOL, we use multiple strategies to keep temperatures in check.

Aluminum Heat Dissipation Layer

Premium wireless chargers include an aluminum alloy heat spreader between the coil and the outer shell. This conducts heat away from the device and dissipates it into the ambient air.

NTC Temperature Sensors

Our Smart ICs monitor temperature in real-time. If surface temperature exceeds 40°C, the controller reduces power automatically to prevent overheating.

GaN-Powered Efficiency

By using GaN (Gallium Nitride) components in our charging circuits, we reduce the footprint and improve thermal dissipation in our 2-in-1 Hybrid Chargers.

Ferrite Shielding

High-permeability ferrite sheets prevent magnetic interference from reducing charging efficiency and generating excess heat.

5. WOWOHCOOL OEM Wireless Product Categories: Pads, 3-in-1 Stations, Car Mounts & Power Banks

At WOWOHCOOL, we transform these principles into products that B2B buyers trust. Here's how each category optimizes wireless technology:

WOW93 3-in-1 folding wireless charger with independent coils for phone watch and earbuds

WOW93 3-in-1 Folding Wireless Charger - Independent Coils Design

Product Category Qi Tier & Key Spec MOQ FOB Shenzhen (1,000 pcs)
Magnetic Power Banks Qi2 15W · N52H magnets · 5,000-10,000mAh · GaN circuit 500 $8-13/unit
Desktop Charging Pads Qi2 15W or Qi2.2 25W · single-coil · FOD · NTC sensor 500 $5-9/unit
3-in-1 Multi-Device Docks Qi2 15W (phone) + 5W (watch) + 5W (earbuds) · independent coils · foldable design 500 $10-18/unit
Qi2 Car Mounts Qi2 15W · active cooling · 12V/24V · V0 fire-retardant housing 500 $6-10/unit
GaN Hybrid Docks Qi2 15W wireless + 65W GaN USB-C PD wired · simultaneous multi-device 500 $14-22/unit

All prices FOB Shenzhen at 1,000-unit volume. MOQ 500 with model mixing allowed (e.g., 200 pads + 200 docks + 100 car mounts = 500 total). CE/FCC/WPC Qi certification included in unit price. Custom branding (laser engraving, silk screen, packaging) adds $0.50-2.00/unit depending on complexity.

6. Qi Certification Tiers for OEM Sourcing: Qi v1.0 → Qi2 15W → Qi2.2 25W Compared

According to Counterpoint Research, over 60% of flagship smartphones shipped in 2025 support wireless charging, with Qi2 becoming the universal standard.

Understanding the evolution of the Qi standard helps explain why cordless charging efficiency and capabilities have improved dramatically over the past decade. For a complete walkthrough of the certification process, see our Qi Certification Guide.

Version Year Max Power Key Features
Qi v1.0 2008 5W Basic inductive charging, limited interoperability
Qi v1.1 2012 7.5W Improved Foreign Object Detection (FOD)
Qi v1.2 2015 15W Extended Power Profile, fast charging support
Qi v1.2.4 2019 30W Enhanced efficiency, better thermal management
Qi2 (v2.0) 2023 15W Magnetic Power Profile (MPP), Apple MagSafe technology integrated, N52H magnets
Qi2.2 (25W) 2025 25W 25W fast wireless charging, active cooling required, 30W+ USB-C PD adapter, iPhone 16/17 & Samsung S/Pixel support
Qi2 v2.3 2026 25W Maintenance update: system gain change reporting for power transmitters

The Qi2 standard, introduced by the Wireless Power Consortium in 2023, represents the most significant advancement in wireless charging technology. It incorporates Apple's Magnetic Power Profile (MPP), which uses a ring of magnets to align the transmitter and receiver coils perfectly, achieving over 90% efficiency — comparable to wired charging.

For a detailed comparison between Qi2 and Apple's MagSafe, read our comprehensive guide: Qi2 vs MagSafe: What's the Difference?

Qi2.2: The 25W Wireless Fast Charging Era

Released by the Wireless Power Consortium in July 2025, Qi2.2 (also branded as Qi2 25W) raises the wireless charging ceiling from 15W to 25W — closing the gap with wired fast charging for everyday use.

What Changed

  • Power jump: 15W → 25W (67% increase)
  • Charging speed: 0–50% in ~30 minutes on compatible devices
  • Stronger magnetic alignment for consistent coil coupling at higher power
  • Improved safety monitoring with optimized wattage delivery and less heat loss

Requirements

  • Power adapter: USB-C PD rated at 30W or higher
  • Active cooling: Most 25W chargers include internal fans to prevent throttling to 15–18W
  • Compatible device: iPhone 16 (with iOS 26), iPhone 17 series, Samsung Galaxy S26, Google Pixel 2026
  • Backward compatible: Qi2.2 chargers still deliver 15W to Qi2 devices and 5–10W to older Qi devices

Qi2.2 (25W wireless charging) — the latest WPC standard, doubles Qi2's speed from 15W to 25W. Requires a 30W+ USB-C PD adapter and active cooling. Supported by iPhone 16/17, Samsung S26, and Google Pixel 2026. Fully backward compatible with all Qi and Qi2 devices.

Qi2 v2.3 (February 2026) is a minor maintenance update that adjusts how the transmitter reports internal gain changes — no new speeds or features. The real performance leap is Qi2.2's 25W capability.

7. Wireless Charger BOM: Key Components OEM Buyers Must Specify

Transmitter Coil

Located in the charging pad. Creates the electromagnetic field when connected to power. Modern transmitters use multi-layer Litz wire coils to minimize skin effect losses at high frequencies.

Receiver Coil

Located in the device. Captures energy and converts it to charging current. Receivers often include shielding layers (ferrite or nanocrystalline) to improve coupling efficiency.

Resonant Circuit

Allows charging over longer distances and through cases up to 3mm thick. Resonant systems use LC circuits tuned to the same frequency, enabling energy transfer even when coils are misaligned.

Controller Chip

Manages power transfer, detects foreign objects, and optimizes charging. The controller uses digital communication (In-Band or EPP protocol) to negotiate power levels between transmitter and receiver.

8. FOD (Foreign Object Detection): A Critical Safety Certification Gate for OEM Products

Foreign Object Detection is a critical safety feature in all Qi-certified wireless chargers. Without FOD, metal objects like coins, keys, or credit cards placed between the charger and device could absorb energy, leading to dangerous overheating.

How FOD Works

Qi chargers employ two primary FOD methods:

  • Power Loss Method: The transmitter monitors input power versus transferred power. A significant discrepancy indicates energy being absorbed by a foreign object.
  • Primary-side Sensing: Dedicated sensing coils or the main transmitter coil detects changes in the electromagnetic field caused by metallic objects.

According to WPC specifications, all Qi-certified products must implement FOD to prevent temperatures exceeding 60°C on any metallic surface. This safety mechanism is why reputable manufacturers like WOWOHCOOL ensure all wireless chargers are Qi-certified.

WOWOHCOOL Factory Data: FOD Production-Line Test Results (Qi2 Desktop Pad, 1,000-Unit Batch)

False Trigger Rate
<0.1%
Coin test: ¥1, 1 RMB, 1¢, 1€
Detection Speed
<1.2s
Avg time from object placement to power cut
Surface Temp During FOD
<48°C
Max recorded on metal object (WPC limit: 60°C)

Test protocol: Each production unit tested with standardized metal object set. WPC Qi certification requires FOD detection within 2 seconds of contact. WOWOHCOOL's internal QC threshold: reject any unit with false trigger (FOD activation without metal present) or detection latency >2.0s.

9. Inductive vs Resonant Charging: Technology Choice for Your OEM Product Line

While both methods transfer power wirelessly through electromagnetic fields, resonant and inductive charging differ significantly in their physical characteristics and use cases.

Inductive Charging

  • —Requires close proximity (<3mm coil separation)
  • —Higher efficiency (85-90%) when aligned
  • —Sensitive to alignment
  • —Lower cost to manufacture
  • —Standard in most Qi devices

Resonant Charging

  • —Works at greater distances (up to 50mm)
  • —Slightly lower efficiency (75-85%)
  • —More tolerant of misalignment
  • —More complex electronics required
  • —Used in furniture integration and automotive

Qi v1.2+ standards support both methods, with resonant charging typically used in furniture-embedded solutions and automotive applications where precise device placement isn't practical. The Qi2 standard with Magnetic Power Profile effectively solves the alignment problem through physical magnetic coupling.

10. Wireless Charging Efficiency Benchmarks: What OEM Spec Sheets Must Guarantee

Wireless charging works at 75-85% efficiency versus 90-95% for wired connections. The energy lost becomes heat, which is why thermal management is crucial in wireless charger design. Qi standard ensures safety and interoperability between devices and chargers.

Modern improvements like Qi2's Extended Power Profile are increasing efficiency and enabling faster cordless charging up to 50W. According to IEEE Power Electronics Society, advances in gallium nitride (GaN) semiconductors are enabling even higher efficiencies by reducing switching losses in the transmitter electronics.

WOWOHCOOL's engineering team continuously optimizes coil designs and thermal pathways to maximize efficiency while maintaining safe operating temperatures. Learn more about our OEM/ODM services for custom Qi charging solutions.

11. Charge Speed by Qi Tier: Setting Realistic Performance Claims for Your Product Spec

Charging speed is the most common concern for buyers evaluating wireless versus wired solutions. The table below compares real-world charging times across all current standards for a typical 4,500mAh flagship smartphone battery.

Standard Max Power 0–50% 0–100% Best For
Qi (original) 5W ~1h 45min ~3.5h Overnight / desk trickle charge
Qi2 (MPP) 15W ~45min ~1.5–2h Daily desk / bedside charging
Qi2.2 (25W) 25W ~30min ~1h Quick top-up, replaces wired for most users
Wired USB-C PD 45W ~20min ~45min Maximum speed, travel / emergency
Wired USB-C PD 3.1 65–100W ~15min ~35min Laptop + phone simultaneous, power users

Note: Times are approximate and vary by device, battery health, ambient temperature, and adapter wattage. Qi2.2 requires a 30W+ USB-C PD adapter and active cooling to sustain 25W. Without active cooling, most chargers throttle to 15–18W after a few minutes. For wired fast charging options, see our USB-C PD Fast Charging Guide.

For B2B buyers, the key insight is that Qi2.2 at 25W eliminates the speed penalty that previously made wireless charging a convenience trade-off. WOWOHCOOL's Qi2-certified chargers with magnetic alignment already deliver the fastest wireless speeds available, and our engineering team is actively developing 25W-ready products for the next generation.

12. OEM Sourcing Outlook: Qi2.2, MOQ & Factory Partnerships

The next generation of cordless charging extends far beyond charging pads. Several emerging technologies are poised to transform how we power our devices:

Long-Range Wireless Charging

Companies like Ossia and Energous are developing RF-based charging systems that can power devices from several meters away. The IEEE is actively developing standards for spatially-oriented wireless power transfer, which could eliminate charging docks entirely.

Over-the-Air (OTA) Charging

Using focused ultrasound or microwave energy, OTA charging could power devices throughout a room. While still experimental, this technology could mirror the convenience of WiFi for power, enabling always-on device operation without battery anxiety.

Reverse Wireless Charging

Already available in flagship smartphones, reverse charging allows devices to share power wirelessly. Future iterations could enable laptop-to-phone charging or even vehicle-to-device power transfer using the same Qi infrastructure.

Automotive Integration

The Qi2 standard includes profiles specifically for automotive applications. Future vehicles may feature charging surfaces integrated into dashboards, center consoles, and even wireless charging lanes that charge vehicles while driving.

WOWOHCOOL FACTORY STAT

WOWOHCOOL's Qi2-certified wireless chargers feature N52H neodymium magnets and 15W MPP fast charging (25W Qi2.2-ready products in development) for both iPhone and Android, with form factors including 3-in-1 folding stations, car mounts, night light stations, and premium zinc alloy docks. Wireless charging expertise since 2013.

OEM Wireless Charger Sourcing Summary

  • Electromagnetic induction is the core principle: a transmitter coil creates a magnetic field that induces current in the receiver coil inside your device.
  • Qi2 (15W) solved the alignment problem with Magnetic Power Profile (MPP) and N52H magnets, achieving up to 85% efficiency.
  • Qi2.2 (25W) launched in July 2025, cutting wireless charge time roughly in half — 0 to 50% in about 30 minutes on supported devices.
  • Foreign Object Detection (FOD) is mandatory in all Qi-certified chargers, preventing overheating from metal objects between charger and device.
  • Thermal management — including aluminum heat spreaders, NTC sensors, GaN components, and ferrite shielding — is critical for maintaining safe, efficient charging.
  • The wireless charging market is projected to reach $83.8 billion by 2033 (CAGR 24.2%), with automotive integration as the fastest-growing segment.
  • Backward compatibility is built in: Qi2.2 chargers work with Qi2 devices (15W) and original Qi devices (5–10W).

Need Qi-Certified Wireless Chargers?

WOWOHCOOL offers Qi2-certified wireless chargers with advanced thermal management and magnetic alignment. Factory-direct pricing with custom branding available.

Snowy May - Market Manager at WOWOHCOOL
Snowy May Author

Market Manager · Wireless Charging & Market Analysis

10+ years experience in wireless charging and power bank market analysis. Market Manager at WOWOHCOOL tracking global trends in GaN, Qi2, and battery technology.

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