POCO F4 HyperOS 3.0 Best Update for You, Don't Miss it ❤️
https://youtu.be/ZZoqLpN-dLM
https://youtu.be/ZZoqLpN-dLM
https://youtu.be/ZZoqLpN-dLM
Download Link
HyperOS 3.0.1.2
Mega link
Other link
Credit-@jayant222
https://youtu.be/ZZoqLpN-dLM
https://youtu.be/ZZoqLpN-dLM
https://youtu.be/ZZoqLpN-dLM
Download Link
HyperOS 3.0.1.2
Mega link
Other link
Credit-@jayant222
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Xiaomi 17 Ultra
HPE (1/1.4", 200MP) periscope and new lens group
Engineering prototype with a minimum aperture of F3.0± and a maximum aperture of F2.3± within the variable focal length range
Let's analyze based on the available information
The Xiaomi 15 Ultra uses a 1/1.4" HP9 sensor at 100 mm (4.3×) with f/2.6. Since the Xiaomi 17 Ultra will use the same-sized 1/1.4" HPE sensor, we can use the 15 Ultra’s f/2.6 at 100mm as a reference—aperture scales proportionally with focal length
The ratio between f/3.0 and f/2.6 is 3 ÷ 2.6 ≈ 1.15
New focal length: 100 mm × 1.15 = 115 mm
Xiaomi 15 Ultra: f/2.6 @ 100 mm
Xiaomi 17 Ultra (long end): f/3.0 at 115 mm
The ratio between f/3.0 and f/2.3 is 3 ÷ 2.3 ≈ 1.30
Short end focal length: 115 mm ÷ 1.30 ≈ 88 mm (DCS gave approximate f-numbers, so round to 85 mm)
Thus, the Xiaomi 17 Ultra periscope should span roughly 85mm (3.7x) with f/2.3 to 115mm (5x) with f/3.0 using continuous optical zoom
HPE (1/1.4", 200MP) periscope and new lens group
Engineering prototype with a minimum aperture of F3.0± and a maximum aperture of F2.3± within the variable focal length range
Let's analyze based on the available information
The Xiaomi 15 Ultra uses a 1/1.4" HP9 sensor at 100 mm (4.3×) with f/2.6. Since the Xiaomi 17 Ultra will use the same-sized 1/1.4" HPE sensor, we can use the 15 Ultra’s f/2.6 at 100mm as a reference—aperture scales proportionally with focal length
The ratio between f/3.0 and f/2.6 is 3 ÷ 2.6 ≈ 1.15
New focal length: 100 mm × 1.15 = 115 mm
Xiaomi 15 Ultra: f/2.6 @ 100 mm
Xiaomi 17 Ultra (long end): f/3.0 at 115 mm
The ratio between f/3.0 and f/2.3 is 3 ÷ 2.3 ≈ 1.30
Short end focal length: 115 mm ÷ 1.30 ≈ 88 mm (DCS gave approximate f-numbers, so round to 85 mm)
Thus, the Xiaomi 17 Ultra periscope should span roughly 85mm (3.7x) with f/2.3 to 115mm (5x) with f/3.0 using continuous optical zoom
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POCO F7 : Install OrangeFox Recovery and AOSP ROM - Full installation Guide
https://youtu.be/7gSmY9PaQqQ
https://youtu.be/7gSmY9PaQqQ
https://youtu.be/7gSmY9PaQqQ
Download Link
Fox Recovery
Link 1 , Link2 , Link3
Link4 , Link5
https://youtu.be/7gSmY9PaQqQ
https://youtu.be/7gSmY9PaQqQ
https://youtu.be/7gSmY9PaQqQ
Download Link
Fox Recovery
Link 1 , Link2 , Link3
Link4 , Link5
All links are same; use anyone
❤🔥1
Samsung Electronics confirms February launch of ‘Galaxy S26’ next year… Only the Ultra model to be equipped with a Qualcomm AP
A recent news popped up regarding the Periscope where the aperture is variable in periscope from F2.3 to F3.0 upon zooming,
But the twist is that as per source it could be 85mm-115mm
Xiaomi 17 ultra
But the twist is that as per source it could be 85mm-115mm
Xiaomi 17 ultra
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POCO F7 The SuperiorOS Update Review, Best Performance Results, 120fps and more..
https://youtu.be/cpxuYGX6kWo
https://youtu.be/cpxuYGX6kWo
https://youtu.be/cpxuYGX6kWo
Download link
SuperierOS
Credit-@Rajveer_vai
https://youtu.be/cpxuYGX6kWo
https://youtu.be/cpxuYGX6kWo
https://youtu.be/cpxuYGX6kWo
Download link
SuperierOS
Credit-@Rajveer_vai
❤2
Ola 4680 Bharat Cell
• Format: Cylindrical lithium-ion cell
Size: 46 mm diameter, 80 mm height
• Why it matters: Made in India to reduce battery imports and gain control over cost, quality, and supply chain.
• Claims:
* Higher energy density (~275 Wh/kg)
* Faster charging (around 50% in about 13 minutes under ideal conditions)
* Longer usable lifespan and better performance stability
• Production:
Located at the Krishnagiri Gigafactory.
Starting with about 1 GWh capacity.
Planned scale up over time.
• Vehicle Use:
New Ola scooters and motorcycles are expected to adopt this cell gradually from 2025 onward.
• Format: Cylindrical lithium-ion cell
Size: 46 mm diameter, 80 mm height
• Why it matters: Made in India to reduce battery imports and gain control over cost, quality, and supply chain.
• Claims:
* Higher energy density (~275 Wh/kg)
* Faster charging (around 50% in about 13 minutes under ideal conditions)
* Longer usable lifespan and better performance stability
• Production:
Located at the Krishnagiri Gigafactory.
Starting with about 1 GWh capacity.
Planned scale up over time.
• Vehicle Use:
New Ola scooters and motorcycles are expected to adopt this cell gradually from 2025 onward.