Amazon” href=”https://www.amazon.com/Google-Pixel-10-Pro-Moonstone/dp/B0FJMKL98S?th=1&linkCode=ll1&tag=trxphone8208-20&linkId=b00c9dc7778decec72320ea02fce4a7f&language=enUS&ref=aslisstl” rel=”nofollow sponsored” target=”blank” onclick=”
(function(element) {
window.dataLayer = window.dataLayer || [];
const elements = document.querySelectorAll(‘a.offer-button’);
let currentIndex = 0;
for (let i = 0; i < elements.length; i++) { if (elements[i] === element) { currentIndex = i + 1; break; } } const totalCount = elements.length; window.dataLayer.push({ 'event': 'singleOffersClicked', 'eventLabel': currentIndex + ' / ' + totalCount + ',Amazon - https://www.amazon.com/Google-Pixel-10-Pro-Moonstone/dp/B0FJMKL98S?th=1&linkCode=ll1&tag=trxphone8208-20&linkId=b00c9dc7778decec72320ea02fce4a7f&language=enUS&ref=aslisstl’
});
})(this);
return true;”>

Pre-order at Amazon

Explanation:

The provided code snippet is a complete HTML tag representing an offer button. Let’s break down the important parts:

Tag: this is a standard HTML anchor tag, forming a hyperlink. class="offer-button button button-primary": These classes are used for styling the button. offer-button likely identifies it as an offer element, button is a general button style, and button-primary applies a primary color scheme.
data-merchant="Amazon": This data attribute stores information about the merchant associated with the offer (in this case, Amazon). This is useful for tracking and analysis.
href="https://www.amazon.com/...": this is the URL the button links to – the Amazon product page for the Google Pixel 10 Pro XL. the URL contains affiliate tracking parameters (tag=trxphone8208-20) which means the website likely earns a commission if someone makes a purchase through this link.
rel="nofollow sponsored": These attributes are critically important for SEO.
nofollow tells search engines not to pass link equity (ranking signal) to the linked page. This is often used for affiliate links or user-generated content.
sponsored indicates that the link is part of a sponsored ad or promotional relationship.
target="blank": This attribute ensures that the link opens in a new tab or window.
onclick="...": This is the JavaScript code that executes when the button is clicked. This is the core of the analytics tracking:
(function(element) { ... })(this);: This is an immediately invoked function expression (IIFE). It creates a closure and passes the clicked element (this) to the function. This is done to avoid polluting the global namespace.
window.dataLayer = window.dataLayer || [];: This initializes the dataLayer array if it doesn’t already exist. dataLayer is a common array used by Google Tag Manager (GTM) to store data that can be sent to Google Analytics or other tracking tools.
const elements = document.querySelectorAll('a.offer-button');: This selects all elements on the page with the class offer-button.
The for loop: This loop iterates through all the offer buttons to determine the index of the clicked button.
currentIndex = i + 1;: Sets the index of the clicked button (plus 1 because indexes start at 0).
window.dataLayer.push({ ... });: This pushes an event object into the dataLayer array.
'event': 'singleOffersClicked': This specifies the name of the event being tracked.
'eventLabel': currentIndex + ' / ' + totalCount + ', Amazon - ...': This creates a descriptive label for the event, including the button’s position in the list and the URL of the offer. This is vrey useful for reporting.
Pre-order at Amazon: This is the text displayed on the button. The onclick event handler changes the background color of the span to #1992ff (a blue color) when clicked, providing visual feedback to the user. return true; prevents the default button behavior (like form submission if it were inside a form).

In summary:

This code creates a styled button that links to an Amazon product page. When clicked,it changes the button’s background color and,more importantly,sends an event to Google Tag Manager (or a similar data layer system) to track that the button was clicked,providing valuable data about user engagement and offer performance. The data sent includes the button’s position relative to other offer buttons on the page.

Why might Google have chosen to limit teh Pixel 10 Pro XL to 25W Qi2.2 charging despite newer devices supporting higher wattages?

Pixel 10 Models Rely on Old Qi2 Version: Understanding the Strategic Choice

The Qi2 Landscape in 2025: A Speedy Recap

Wireless charging has evolved rapidly. The introduction of Qi2 promised a significant leap forward,leveraging the MagSafe technology pioneered by Apple. This magnetic power delivery system offers improved alignment, faster charging speeds, and increased efficiency compared to the original Qi standard. However, the Google Pixel 10 series’ adoption of Qi2, specifically with the Pixelsnap magnets, reveals a nuanced approach – one that utilizes the core benefits of Qi2 while seemingly bypassing the latest advancements in power delivery. This has sparked discussion within the Android and tech communities.

Pixel 10 and Qi2: What’s the Deal?

Recent reports confirm the Pixel 10 series is fully embracing Qi2, utilizing the Pixelsnap magnetic system for secure attachment and optimized charging. This is a positive step, as it addresses a key pain point of older wireless charging standards: inconsistent power transfer due to misalignment.

However, the Pixel 10 Pro XL’s support for 25W Qi2.2 wireless charging is the focal point of the discussion. While 25W is respectable,newer devices are already pushing beyond this,with some supporting 50W+ Qi2 charging.the question is: why didn’t Google opt for the latest, fastest Qi2 implementation across the entire Pixel 10 lineup?

Decoding Google’s Strategy: Potential Reasons

Several factors likely influenced Google’s decision. Here’s a breakdown of the most plausible explanations:

Cost Optimization: Implementing the latest Qi2.2 technology, notably the components required for higher wattage charging, adds to the bill of materials. Google may have strategically chosen to balance performance with cost, especially for the standard Pixel 10 model.

Thermal Management: Faster wireless charging generates more heat. Google may have prioritized thermal efficiency and long-term battery health over maximizing charging speed. Pushing too much power wirelessly can degrade battery life over time.

Ecosystem Considerations: The Pixelsnap system is a key component. Google is highly likely building an ecosystem of first-party and third-party accessories that leverage this magnetic attachment. focusing on a stable, well-supported Qi2 implementation with Pixelsnap may have been deemed more vital than chasing the absolute fastest charging speeds.

Charger Compatibility: While Qi2 is designed for backward compatibility, the full benefits of newer standards are only realized with compatible chargers. Google may be anticipating a slower adoption rate of Qi2.2 chargers among consumers and opted for a more universally supported standard.

Software Integration: Google’s software optimization plays a crucial role in battery management. Thay might potentially be confident in their ability to optimize charging speeds and efficiency through software, even with a slightly older Qi2 standard.

Pixelsnap: The Magnetic Advantage

The inclusion of Pixelsnap magnets is a significant win for the Pixel 10 series. This magnetic alignment system offers several benefits:

Improved Alignment: Ensures optimal coil alignment for maximum power transfer efficiency.

Secure Attachment: prevents the phone from shifting during charging, maintaining a stable connection.

Accessory Ecosystem: Opens the door for a wider range of magnetic accessories, such as wallets, stands, and car mounts.

Reduced Wireless Charging Frustration: Eliminates the fiddling frequently enough associated with traditional Qi wireless charging.

Wireless Charging Speeds: A Comparison

Here’s a quick comparison of wireless charging speeds across different standards and devices (as of August 2025):

| standard/Device | Wireless Charging Speed |

|—|—|

| Original qi | 5W – 15W |

| Qi2 (Pixel 10) | up to 25W (pro XL) |

| Qi2.2 (Latest) | Up to 50W+ |

| Samsung Galaxy S25 | 45W (Qi2) |

| iPhone 17 Pro Max | 30W (MagSafe/Qi2) |

Benefits of Qi2 Even at Lower Wattages

Even with the Pixel 10 pro XL topping out at 25W Qi2.2, the benefits of the Qi2 standard are still substantial:

Increased Efficiency: Qi2 generally offers better power transfer efficiency than the original Qi standard, meaning less energy is wasted as heat.

Reliable Connection: The magnetic alignment ensures a more consistent and reliable charging connection.

Future-Proofing: Adopting Qi2 now positions the Pixel 10 series for future accessory compatibility and potential software optimizations.

Practical Tips for Pixel 10 Wireless Charging

Use a Qi2-certified charger: ensure your wireless charger is Qi2 certified for optimal compatibility and performance.

Consider a Pixelsnap Accessory: Explore the range of Pixelsnap accessories to enhance your charging experience and add functionality.

Monitor Charging temperature: pay attention to your phone’s temperature during wireless charging. If it gets excessively hot, consider removing the case or using a different charger.

Software Updates: Keep your Pixel 10 software up to date to benefit from any charging optimizations released by Google.