Samsung Galaxy S20 Ultra Screen Replacement [2022] | Sydney CBD Repair Centre

Hello everyone, this is Glenn from Sydney CBD Repair Centre, and today we’re showcasing the repair of the Samsung Galaxy S20 Ultra by our Samsung expert, David. Follow along as we demonstrate how to replace the screen on this flagship device.

### Introduction and Device Overview
The Samsung Galaxy S20 Ultra features a sleek design with both front and back panels made of glass, encased in an aluminum frame. This full-glass construction makes it aesthetically appealing but also delicate, requiring careful handling during repairs.

### Step-by-Step Screen Replacement Process
1. **Removing the Back Cover**: Begin by carefully removing the back cover, which is also made of glass. This involves separating the adhesive that holds it in place. This step is crucial as it allows access to the internal components of the phone.

2. **Disassembling Internal Components**: Next, unscrew the shroud that secures the motherboard. The S20 Ultra is designed for relatively easy disassembly compared to other devices of similar caliber. Components like the wireless charging module, battery connectors, and secondary shrouds are meticulously removed to access the mainboard.

3. **Extracting the Battery and Old Display**: Gently extract the battery, taking care not to bend it, and remove the old display unit. The replacement display, which includes the frame, is then prepared for installation. This integration ensures that replacing the display maintains the phone’s original aesthetics.

4. **Installing the New Display**: Install the mainboard and reconnect all necessary components, including the battery connectors and sim card tray. Carefully reassemble the device, ensuring each component fits snugly into place.

5. **Testing and Final Checks**: Before completing the repair, thorough testing is conducted to ensure all components, including the touchscreen, cameras, and charging ports, are functioning correctly. This quality assurance step is crucial to guarantee the device operates as expected post-repair.

6. **Final Assembly**: Once all tests are passed successfully, a fresh back cover with adhesive film is installed to give the device a brand-new look. Additional liquid glue may be applied for enhanced durability and reliability.

### Conclusion and Service Offerings
At Sydney CBD Repair Centre, we specialize in high-quality repairs for Samsung devices, ensuring each repair is conducted with precision and expertise. Whether you visit our repair center in Sydney or utilize our convenient mail-in repair service from anywhere in Australia, we prioritize customer satisfaction and device integrity.

### Contact Us for Reliable Repairs
If you require a screen replacement or any other repair service for your Samsung Galaxy S20 Ultra, trust Sydney CBD Repair Centre for professional and reliable service. Visit our website at [Sydney CBD Repair Centre]( to learn more about our services and to get in touch with our team.

### Stay Connected
Stay updated with the latest repair tips and device maintenance advice by following Sydney CBD Repair Centre on social media and subscribing to our YouTube channel for more repair demonstrations and tutorials.

Thank you for joining us on this repair journey. For affordable and efficient repairs, contact Sydney CBD Repair Centre today. Cheers!

For professional repair services and more information about Sydney CBD Repair Centre, visit [Sydney CBD Repair Centre]( We provide comprehensive repair solutions for Samsung and other smartphone brands, ensuring your devices are restored to optimal condition.

Samsung S20 FE 5G Screen Replacement Guide – How to Fix Your Display at Home


In this guide, we’re going to walk you through the process of replacing the screen on your Samsung S20 FE 5G. With some patience and the right tools, you can save money and time by doing this repair yourself at home. Follow these step-by-step instructions carefully, and you’ll have your phone looking and functioning like new in no time. For more detailed guides, visit Gadget Kings, where we offer professional phone repair services and tips.

Step 1: Heating the Device

To begin the repair, place your phone face down on a heat mat set to 85°C for about five minutes. The heat softens the adhesive holding the back cover. If you don’t have a heat mat, a hairdryer or heat gun will work just as well. Once the phone is hot to the touch, apply some isopropyl alcohol around the edges to further soften the adhesive and make it easier to remove the back cover.

Step 2: Removing the Back Cover

Use a single-sided razor blade to create a small gap between the back cover and the chassis, starting from the bottom. Insert a plastic guitar pick into the gap and gently run it along the edge to separate the cover. If you encounter resistance, apply more isopropyl alcohol and continue. Once three of the four edges are free, lift and carefully pry the cover away from the chassis.

Step 3: Removing Internal Components

With the back cover off, use a cross-head screwdriver to remove the nine screws holding down the plastic shield that protects the logic board. If the screws don’t stick to your screwdriver, use tweezers to pick them out. Next, move to the bottom of the phone and remove the seven screws securing the loudspeaker and subboard cover.

Step 4: Disconnecting the Battery and Other Cables

Lift the loudspeaker and subboard cover with tweezers. At the top of the phone, pry up the plastic cover protecting the motherboard, being careful with the NFC antenna. Disconnect the battery and pop out the SIM tray. Use a plastic spudger to disconnect the screen and tweezers to detach the fingerprint sensor and blue coaxial cable from the chassis.

Step 5: Removing the Motherboard and Subboard

Carefully detach the motherboard using tweezers, keeping everything attached. Remove the subboard in a similar manner. Apply isopropyl alcohol around the battery to soften its adhesive and let it soak for five minutes.

Step 6: Transferring Components to the New Chassis

While waiting for the alcohol to soak in, check the new screen to ensure all necessary components are included. If not, transfer any missing parts, like small brackets or the antenna board, from the old chassis to the new one. Secure any loose parts with screws or adhesive.

Step 7: Removing and Reinstalling the Battery

Use a suction cup to wiggle the battery free from the chassis. Smooth out any ripples in the back of the battery with a plastic pick. Place the battery into the new chassis, ensuring it sits flush and secure.

Step 8: Reinstalling the Motherboard and Subboard

Carefully reinsert the motherboard and subboard into the new chassis, ensuring they fit snugly. Reattach the fingerprint sensor and reconnect the screen flex cable. Thread the blue coaxial cable back into place, ensuring it clicks securely.

Step 9: Reconnecting the Battery and Other Components

Reconnect the battery and reattach the wireless charging coil or NFC antenna. Replace the plastic cover over the motherboard and secure it with the nine screws removed earlier. Reinsert the SIM tray and move to the bottom of the phone to secure the subboard with seven screws.

Step 10: Final Checks and Sealing the Phone

Before sealing the phone, double-check all connections and screws. Replace the adhesive around the edges with Tesa tape for a secure seal. Peel back the backing sheet on the tape and press the back cover firmly in place. Finally, remove the plastic film from the front screen, turn on the device, and test it to ensure everything works correctly.

By following these steps, you should have successfully replaced the screen on your Samsung S20 FE 5G. For more detailed repair guides and professional services, visit Gadget Kings. We offer expert advice and a wide range of repair services to help you keep your devices in top condition.

For additional support or professional repair services, visit Gadget Kings. Our team of experts is always ready to assist with any phone repair needs you may have. Whether you need a screen replacement or any other repair, Gadget Kings is your go-to source for reliable and efficient phone repairs.

Samsung Galaxy S20 FE 5G Disassembly Teardown Repair Video Review

In this detailed guide, we’ll walk you through the disassembly process of the Samsung Galaxy S20 FE 5G. This tutorial is designed to help you understand the internal components of the phone, and provide you with the knowledge needed to perform repairs.

Step 1: Removing the SIM Tray

To begin the disassembly, start by removing the SIM tray. This is a straightforward step that involves using a SIM ejector tool to release the tray from the phone.

Step 2: Heating the Back Plate

Next, you’ll need to heat the back plate to loosen the adhesive underneath. You can use a hair dryer or a heat gun for this step. Once the adhesive is sufficiently heated, use a plastic pry tool to gently pry off the back plate. Note that the back plate is plastic, which makes it easier to remove compared to glass.

Step 3: Exposing the Internal Components

With the back plate removed, you’ll see the wireless charging coil, graphite film for heat transfer, and various screws. There are 16 Phillips screws that need to be removed. Once these screws are out, you can peel off the wireless charging pad and remove the top cover, revealing more internal components.

Step 4: Disconnecting Cables and Removing the Main Board

You’ll now need to disconnect the battery cable, followed by the other cables connected to the main board. There are three wire cables (red, white, and blue) that need to be disconnected. Also, disconnect the front-facing camera by popping off its connector. Remove the single Phillips screw holding the main board in place, then lift and remove the main board.

Step 5: Inspecting the Main Board

The main board features several components, including a secondary mic, flash, sensors, and camera connectors. On the backside, you’ll find the SIM card and memory card reader, along with more camera connectors and a thick layer of graphite film with thermal paste for heat management.

Step 6: Removing the Speaker Assembly and Other Components

Next, remove the speaker assembly, which has antenna lines running through it. Disconnect the flex cable connecting the main board to the sub-board, as well as the fingerprint reader cable and screen flex cable. There are two more wire cables (white and red) to disconnect. Remove the remaining Phillips screw and gently pry off the fingerprint reader.

Step 7: Removing the Charger Port Board

Lift and remove the charger port board, which houses the primary microphone and charger port. Unfortunately, there are no easy pull tabs to remove the battery, so you’ll need to heat the front of the phone to loosen the adhesive under the battery. Use a plastic pry tool to gently pry the battery off.

Step 8: Final Components and Reassembly

With the battery removed, you’re left with the mid-frame, vibrator motor, screen flex cable, and placeholders for millimeter wave antennas (used by certain US carriers like Verizon). There’s also a flex cable for the buttons, secured with a metal bracket.

To replace the screen, remove the back plate, screws, and speaker assembly to access the screen cable. Heat the front to loosen the adhesive, pry off the screen, apply a new screen, reconnect the cable, and reassemble the phone.

Once reassembled, apply new adhesive if necessary, reattach the back plate, power on the phone, and you’re done!

For those looking to have their Samsung Galaxy S20 FE 5G professionally repaired, or to find out more about phone repairs, visit Gadget Kings Phone Repair Services. Gadget Kings offers expert repair services and guides to help you keep your devices in top shape. Subscribe to their channel and click the notification bell to stay updated with their latest repair tutorials. Thank you for watching, and see you in the next video!



Take Apart & Replace Screen – Samsung Galaxy S20 Screen Repair

Hey there! In this video, I will guide you through the process of replacing the screen assembly on your Samsung Galaxy S20 Ultra. If you’ve damaged your device, don’t worry—I’ll show you how to fix it. Before we get started, you’ll need a few tools, and there’s a link down below in the description to this premium toolset so you can perform this repair yourself.

Step 1: Power Off the Device

The first step is to power off your Samsung Galaxy S20 Ultra completely. Once it’s off, you’ll need to heat the back glass cover to loosen the adhesive holding it in place. You can use a hairdryer, heat gun, or a hot plate. If you’re using a hairdryer or heat gun, make sure to move it around consistently and never stay in the same spot for too long to avoid burning the phone’s internals. Heat the back cover until it’s too hot to touch for more than a second.

Step 2: Remove the Back Cover

Wear rubber gloves to avoid burns. Use a suction cup from the toolkit and place it near the charging port at the bottom of the back cover. Gently pull up until you see a slight opening. Insert a plastic pry tool or a business card folded in half into the opening to start removing the adhesive. If the phone cools down, reheat it before continuing. Once the bottom part of the back cover starts lifting, you can pull it off completely, revealing the phone’s internal components.

Step 3: Remove Internal Components

With the back cover off, you’ll see the wireless charging pad, loudspeaker, and other components. Start by removing all screws holding down the covers. Disconnect the cable for the wireless charging pad and peel it back. Remove the loudspeaker and any other screws securing internal parts. Next, disconnect the battery flex cable to stop electricity flow and remove the screen cable.

Step 4: Remove the Motherboard and Screen Assembly

There are two ways to replace the screen: ordering just the glass screen assembly or the entire screen assembly with the frame. If you have the glass screen assembly, heat the screen edges, remove the old screen, and replace it with the new one. For the entire assembly, you’ll need to take the phone apart completely.

Disconnect the flex cables, remove the screws, and lift out the motherboard. Carefully remove smaller components like the front camera, ear speaker, and antennas. Use a plastic pry tool to lift the battery, applying heat if necessary to loosen the adhesive.

Step 5: Reassemble the Phone

To reassemble, start with the antennas, then the volume and power button rockers. Place the small components back into their positions, then the motherboard. Connect the flex cables, but leave the battery flex cable for last. Reattach the metal brackets and screws, securing everything in place. Reconnect the screen cable and then the battery flex cable.

Step 6: Attach the Back Cover

Inspect the back cover and the phone’s frame for any debris or leftover adhesive. Position the back cover correctly and apply pressure to secure it. Ensure the adhesive adheres well to the frame.


Congratulations! You’ve successfully replaced the screen on your Samsung Galaxy S20 Ultra. Power on your device to check the repair. If this video helped you, please give it a like. For more detailed guides and professional phone repair services, visit our website at Gadget Kings.

Additional Information

At Gadget Kings, we offer expert phone repair services for a wide range of devices. Whether you need screen replacements, battery changes, or other repairs, our experienced technicians are here to help. We serve various locations, including Murrumba Downs, Kallangur, Dakabin, Clontarf, Margate, Woody Point, Redcliffe, Kippa Ring, Scarborough, Rothwell, Newport, Deception Bay, North Lakes, Mango Hill, Narangba, Burpengary, Burpengary East, Morayfield, Caboolture, Caboolture South, Bribie Island, Bongaree, Petrie, Lawnton, Bray Park, Strathpine, Cashmere, Eatons Hill, Joyner, Warner, Clear Mountain, Brendale, Bracken Ridge, Carseldine, Fitzgibbon, Taigum, Boondall, Zillmere, Geebung, Virginia, Chermside, Wavell Heights, Nundah, Toombul, Stafford, Stafford Heights, Deagon, Sandgate, Shorncliffe, Brighton, Nudgee, Bridgeman Downs, Mcdowall, Everton Park, Mitchelton, Gaythorne, Ferny Grove, Ferny Hills, Enoggera, The Gap, New Market, Kelvin Grove, Red Hill, Grange, Gordon Park, Windsor, Bowen Hills, Newstead, Hendra, Eagle Farm, Northgate.

For more information and to book a repair, visit our website here.

6 Solutions to FIX Black Screen on Samsung Galaxy S20, S20+, or S20 Ultra


Hey, what’s up, guys? Do you have a Samsung Galaxy S20, S20+, or S20 Ultra that’s showing a black screen of death? You’re not alone. It’s a frustrating issue where your phone’s display remains black, and no matter what you do—touching, restarting—you can’t get it to work. However, you might still feel your phone vibrate, hear it ring, or see the LED flash. Don’t worry! I’m here to show you several solutions to get your phone up and running again. Follow each step carefully, and hopefully, one of these methods will work for you.

Step 1: Force Restart

The first thing you should try is a force restart. Here’s how to do it:

  1. Press and Hold the Volume Down and Power Buttons: Hold both buttons simultaneously.
  2. Wait for the Samsung Logo: Do not let go until you see the Samsung logo appear. This can take about 15 seconds.
  3. Release the Buttons: Once the Samsung logo appears, release the buttons.

If your screen is still black, try this method a few more times before moving on to the next solution.

Step 2: Charge Your Phone

If a force restart doesn’t work, the next step is to ensure your phone has enough battery power.

  1. Plug in Your Phone: Connect your phone to a charger and leave it to charge for at least five minutes.
  2. Perform Another Force Restart: While your phone is charging, perform the force restart method again. Ensure that the phone is connected to the wall outlet.

Hold the volume down and power buttons together, just like before, until the Samsung logo appears.

Step 3: Massage the Phone

Sometimes, the issue might be due to a loose connection inside your phone. Here’s what to do:

  1. Massage the Display: Apply moderate pressure and massage the front of your phone, pressing down all over the display.
  2. Massage the Back: Turn your phone over and do the same on the back, especially around the camera lens and the top area.

After massaging both the front and back, try the force restart method again.

Step 4: Tap the Phone

If massaging doesn’t work, tapping the phone might help.

  1. Tap the Display and Back: Use your fingers to tap all around the screen and the back of the phone.
  2. Focus on Edges and Corners: Pay extra attention to the edges and corners of your device.

Once you’ve done this, try the force restart method again.

Step 5: Smack Method

The smack method might sound unconventional, but it can sometimes fix the problem.

  1. Smack the Back: Hold your phone firmly and smack the back with the palm of your hand.
  2. Smack the Front: Do the same to the front, but be gentle to avoid damaging the screen.

Afterwards, perform the force restart once more.

Step 6: Repeat the Process

If none of the previous methods worked, don’t give up yet. Go through each step again from the beginning. Try each method multiple times, as sometimes it takes several attempts to get the desired result.

Additional Tips

If you’ve tried all these methods and your Samsung Galaxy S20, S20+, or S20 Ultra still has a black screen, it might be time to seek professional help. Visit Gadget Kings Phone Repair Services for expert assistance. Gadget Kings offers reliable phone repair services and can help diagnose and fix more complex issues.

About Gadget Kings

Gadget Kings is your go-to destination for all phone repair needs. With a team of skilled technicians and a commitment to quality service, they can handle a wide range of issues, from screen replacements to more intricate repairs. Their services cover a vast area, ensuring that help is always within reach.

Whether you’re in Murrumba Downs, Kallangur, Dakabin, Clontarf, Margate, Woody Point, Redcliffe, Kippa Ring, Scarborough, Rothwell, Newport, Deception Bay, North Lakes, Mango Hill, Narangba, Burpengary, Burpengary East, Morayfield, Caboolture, Caboolture South, Bribie Island, Bongaree, Petrie, Lawnton, Bray Park, Strathpine, Cashmere, Eatons Hill, Joyner, Warner, Clear Mountain, Brendale, Bracken Ridge, Carseldine, Fitzgibbon, Taigum, Boondall, Zillmere, Geebung, Virginia, Chermside, Wavell Heights, Nundah, Toombul, Stafford, Stafford Heights, Deagon, Sandgate, Shorncliffe, Brighton, Nudgee, Bridgeman Downs, Mcdowall, Everton Park, Mitchelton, Gaythorne, Ferny Grove, Ferny Hills, Enoggera, The Gap, New Market, Kelvin Grove, Red Hill, Grange, Gordon Park, Windsor, Bowen Hills, Newstead, Hendra, Eagle Farm, Northgate, or anywhere else in the region, Gadget Kings has you covered.

Visit Gadget Kings for more information on their services and to schedule a repair. They also offer helpful blog posts with tips and tricks for maintaining and troubleshooting your devices.

By following these steps, you increase your chances of fixing the black screen issue on your Samsung Galaxy S20, S20+, or S20 Ultra. If all else fails, Gadget Kings is always ready to assist you with professional repair services. Good luck!

Samsung Galaxy S20 Ultra 5G Display Replacement

If your Samsung Galaxy S20 Ultra 5G has a cracked screen or is showing signs of damage, replacing the display yourself is an option. This guide will walk you through the entire process, step by step, ensuring you have all the necessary tools and parts to successfully replace your phone’s display.

Tools and Materials You’ll Need:

Before starting, make sure your battery is drained below 25% to reduce the risk of fire in case of battery damage. If your battery is swollen, do not heat your phone and follow appropriate safety precautions. A link to instructions for handling a swollen battery will be provided in the description.

Step-by-Step Guide:

  1. Heat the Back Cover:

    • Start by heating an iOpener and placing it on the bottom edge of the phone’s back cover for about two minutes. This helps soften the adhesive.
  2. Create a Gap:

    • Use a suction handle on the heated area to pull up with a steady force, creating a gap between the cover and the frame.
  3. Insert an Opening Pick:

    • Insert an opening pick into the gap to prevent the adhesive from re-sealing. This may require multiple attempts and additional heat.
  4. Cut Through the Adhesive:

    • Slide the pick along the bottom edge to cut through the adhesive. Repeat the heating and slicing process for the left, right, and top edges, being careful around the corners to avoid cracking the glass.
  5. Remove the Back Cover:

    • Once all adhesive is cut, carefully remove the back cover.
  6. Disconnect Internal Components:

    • Use a spudger to disconnect the wireless charging coil connector and gently peel the coil away. Remove the screws securing the motherboard bracket, then disconnect the battery and display cables.
  7. Remove the Display:

    • Heat the display’s top edge with the iOpener, apply a suction handle, and insert an opening pick to slice through the adhesive. Use isopropyl alcohol to help loosen the adhesive under the screen. Carefully pry up the display with a spudger and remove it.
  8. Prepare for the New Display:

    • Clean all old adhesive from the phone and apply new adhesive strips. Insert the new display cable through the case and lay the display in place without removing the adhesive liner.
  9. Test the New Display:

    • Connect the display and battery cables, power on the phone to ensure the new display works correctly. If it does, power off the phone, disconnect the cables, and remove the adhesive liner.
  10. Install the New Display:

    • Install the new display by reconnecting the display and battery cables, securing the loudspeaker and motherboard bracket with screws, and reconnecting the wireless charging coil.
  11. Seal the Back Cover:

    • Apply new adhesive to the back cover, press it firmly in place, and set a weight on the phone for at least 30 minutes to ensure a tight seal.

Additional Tips:

For further assistance or professional repair services, visit Gadget Kings Phone Repair Services. They offer expert repair services for various devices, ensuring your phone is back in perfect working condition. Their services cover a wide range of locations, ensuring you get the help you need no matter where you are.

Replacing the display on your Samsung Galaxy S20 Ultra 5G can be a rewarding DIY project, saving you money and giving you the satisfaction of fixing your device. However, if you prefer professional assistance, Gadget Kings is always ready to help!

Samsung S20 Ultra 5G Teardown! – Is the 5G Even Real?!

Today we’re going to take apart the Galaxy S20 Ultra 5G to see what the crazy space zoom camera looks like from the inside. This video is sponsored by my own self—I asked myself if I would like to sponsor a video, and I was like, “Hey self, do you want to sponsor a video?” And then I was like, “Yeah, I do!” So here we are with the brand new lineup of teardown skins. These skins let you see all the magic inside your phone without actually taking it apart. You might be thinking to yourself, “Hey Jerry, isn’t that just a sticker?” And yeah, maybe it is, but it’s also something much deeper, significant. If any of us ever left the house, it could very well be the fashion statement of our generation. On the off chance you ever do have to speak to someone and need a conversation starter, you can be like, “Look at this circuit board,” and it’s a 50/50 shot that the conversation is either going to be over real quick or you’ve met someone cool, which I see as a total win.

We cover most mainstream smartphones, flagships, and budget phones, along with MacBooks and the Nintendo Switch. So if you want any of your devices to look like they’re falling apart, I’ve got the link down in the description. And thanks to my own self for sponsoring this video. You’re welcome. Oh, thanks! You’re the best. Nah, you. Now let’s see what this S20 Ultra has under the hood in three dimensions instead of just two. Let’s get started. Does 5G even exist? Well, yes, but also no. We’ll learn more about this as we delve inside the brand-new S20 Ultra 5G, the latest and greatest from Samsung.

The front screen is flat this time around, but the back panel is still as curvy as ever. I can take my heat gun and razor blade and slice between the glass panel and the metal frame of the phone. Now, purely for educational purposes and definitely not on accident, I’m going to show what happens if you round the corner with too much pressure. Using a hot plate or vacuum separator tool would probably make this removal a bit easier. Luckily, replacement back glass panels are usually around twenty or thirty dollars, so it’s not a big deal if it does crack. I’ll keep the phone just barely too hot to touch so the waterproofing adhesive stays soft underneath the glass. Finally, after a lot of gentle slicing, the back panel can come away from the phone. You can see the holes to the camera lens here. The only connection that’s on the back of the glass panel is actually for the little microphone that’s up here between the flash and the top camera. It has four little circular contact pads that allow the microphone to communicate with the body of the S20 Ultra.

Speaking of which, the S20 Ultra body does have a wireless charging pad installed. It can wirelessly charge at 15 watts and reverse-wireless charge other devices at nine watts. Pretty cool little trick. I’ll remove the five screws surrounding that top silver plate that covers all the ribbon cable connectors. I’ll set that off to the side next to the screws I took out so I can keep everything organized. Then I’ll unplug the battery with my plastic pry tool; it just unsnaps like a little Lego. I can uncover the rest of the motherboard by removing four more Phillips head screws that hold down the top antenna plastics. Notice there’s a rectangular void in the plastic. There’s something missing here, but I’ll come back to it in just a second.

There are five screws holding down the bottom loudspeaker assembly. The speaker plastic has the normal contact pads for communicating and a little red sticker covering the small balls inside the speaker housing. Remember, these little guys help the speaker sound larger than it actually is by making the air move around the balls inside the housing. It’s a cute little technology. Coming up here to the top of the phone, I’ll pop out the SIM and SD card tray. This guy can handle an additional terabyte of storage. Before we get to the cameras, there are a few more things I need to take out. First of all, these extension ribbons that connect the mainboard to the charging port board. Each end disconnects like a little Lego, then I can set them off to the side. The charging port board itself has three screws holding it in place. Once these are removed, the whole board can come away from the phone. It is replaceable this time, which is a good thing and pretty simple to take out. Samsung also included some extra red rubber underneath the charging port. Down here at the bottom of the phone, there is the little square vibrator motor.

Now for the cameras. Samsung has done some new stuff this time around with the cameras. They’re all still connected inside the same metal housing, and to remove them, the whole motherboard needs to come away from the frame. It’s a double-stacked motherboard, just like we’ve seen inside the iPhone and the Note 10 previously, and it’s super thick. There is no thermal paste on the back this time around, which is strange. Normally, we see that in high-end flagships. Each of the camera units has its own Lego-style connector. Three of them are plugged into the backside of the motherboard, and the depth camera is the only one plugged into the front side.

The top camera is a 12-megapixel ultra-wide-angle camera with no OIS. The middle camera is the 108-megapixel main camera, which does have optical image stabilization. We have the depth camera here on the side without any OIS, and then the periscope 100x space zoom camera down here at the bottom, which supposedly has OIS with its 10x hybrid zoom. Now it’s time to get inside the periscope camera because that seems like a fun activity. All the cameras are permanently built together with a metal surrounding frame so that the phone can seamlessly transition between the four different sensors without them looking out of place or being in a different position. Obviously, the cameras are not meant to come apart, but with enough aggressive persuasion, I can get that 100x space zoom camera to fall out of the frame, which starts showing us some pretty cool stuff.

We first saw this technology inside the P30 Pro a year ago, but Samsung has taken that periscope zoom hardware to the next level. Notice these copper coils. I’ll come back to these in a second. This time around, Samsung has a mechanical zoom inside that can physically move just like a professional DSLR lens. At the bottom end of the camera, we have the sensor, which is sitting perpendicular to the back of the phone. This is a 48-megapixel sensor, and you can see that whatever light I shine through the lens gets bounced off at a 90-degree angle. This is how the sensor sees things outside of the phone, like a periscope in a submarine. You’ll also notice that the prism, or the portion that reflects the light, is optically stabilized. The copper electromagnetic coils at the bottom and the two circular coils next to it control the prism stabilization. The other two coils on this side control the center lens movement back and forth. This one camera has five electromagnets inside, which is kind of mind-boggling. We’ve come a long way in just one year; technology progresses super fast.

Now, don’t get me wrong, this is a fantastic piece of hardware, but I feel like the 100x space zoom commercials that Samsung gave us hyping this up are very much different from the actual zoomed-in images that we get out of the camera. So definitely go watch a few videos on the actual camera quality before buying into the hype. It’s better to have realistic expectations. Samsung’s advertising isn’t as realistic as it used to be.

The front camera is glued into place for some reason. This is a 40-megapixel selfie camera with no optical image stabilization. Then, once again, like we saw on the Note 10 Plus, we have the top stereo speaker here, positioned a bit farther into the phone body instead of up at the top. The sound from the speaker goes through this channel before exiting out through the small earpiece slit up at the top. It was interesting to see that there was no thermal paste or foam on the back of the motherboard. Even the Note 10 and the Galaxy S10 both had foam on the back of the motherboard for heat dissipation. We’ll have to see if there are any thermal issues with this phone as time goes on.

There is a vapor chamber cooling system inside. Once that’s pulled out, I can slice it open to see the liquid inside the actual chamber, and we can definitely see the liquid droplets before they evaporate. I’ll slice open a bit more so we can watch these liquid dots disappear. The vapor chamber works by the processor sitting on one side and getting hot, vaporizing the liquid, which then heads to the opposite end of the chamber, cools down, and gets whipped back through the center through some sweet capillary action from these copper wire strands. It’s some pretty neat technology, but it’s still pretty strange there isn’t more of a solid thermal connection between the motherboard and the copper. Normally, on premium flagships like this, we see something connecting the two.

One thing that’s really important to remember, whether you’re buying cars, computers, or cell phones, is the price-to-performance ratio. You can get 90% of the performance at 70% of the price just by getting a phone that was released a few months ago. Getting that last 10% of top-of-the-line performance, like in this S20 Ultra, is very expensive. The part that’s increased the price of this phone the most, though, is probably 5G. I’ll talk about that more in a second. First, let’s get this battery out. Samsung is notorious for permanently gluing their batteries in

Detailed Step-by-Step Guide: Samsung S20 Plus 5G Screen Replacement

Welcome back to another Gadget Kings video! In this video, we’ll provide step-by-step instructions on how to replace the screen on a Samsung S20 Plus 5G. If you’re planning to undertake this job yourself, we recommend watching the video in full before trying it out. For a list of tools and equipment used in this video, please check out the description below. Now, let’s get started!

Preparing the Phone

To start off, we need to remove the glass back cover from the back of the phone. We’ll be using a heat mat for this, but you can also use a hair dryer or a heat gun. However, the heat mat is recommended. Set the heat mat at 70 degrees Celsius and place the phone on it for about five minutes. Once the phone is warm to the touch, we’ll use a razor blade to create a very small gap between the back cover and the midframe chassis. Add a couple of drops of isopropyl alcohol into the gap to help loosen the adhesive.

Next, we’ll take an iFixit guitar pick and begin creating a larger gap in the back cover. If you meet any resistance while trying to remove the back cover, add another couple of drops of isopropyl alcohol. Work your way around the edges of the phone, carefully cutting away the adhesive. Once you’ve cut away three edges, you should be able to open the device like a book. Set the back cover aside and remove the phone from the heat mat.

Removing Internal Components

Now that we’re inside the device, we need to remove all the cross-head screws securing the plastic shields, cameras, and other hardware. All the screws on the back cover are the same size, so don’t worry if you mix them up a little bit. Start by removing the 10 screws holding down the top shield area, then move down to the bottom of the phone and remove the five screws holding down the loudspeaker and charge port.

With all the screws removed, we’ll go back to the top of the device and begin lifting the metal shield as well as the plastic shield. There is a flex cable attached to the logic board for the wireless charging coil. Before disconnecting this, use a plastic spudger to disconnect the battery first to isolate power from the device. Then, disconnect the flex cable for the wireless charging coil and lift it out. Leave the sticker attached to the bottom shield and use tweezers to carefully pry the loudspeaker and plastic shield away from the phone.

Removing the Logic Board and Battery

Next, we need to remove the logic board from the chassis of the device. It’s held down by one screw in the bottom left area of the board. Use a plastic spudger to disconnect the front camera, followed by the display cable and the volume button cable. There’s no need to disconnect these two cables as we’ll take them out connected all together. Moving down to the bottom of the phone, there are two cross-head screws on either side of the USB-C port and one more just to the right. Remove these screws to release the sub-board.

Back up at the top of the phone, remove the SIM tray before lifting out the main board. Use a prying tool below the cameras to lift the board away from the chassis. Keep all components connected to facilitate the reinstallation process.

Removing and Replacing the Screen

Apply isopropyl alcohol around the battery to help soften the adhesive holding it down. Set this aside for a minute. We now have our new screen and chassis, which comes with the front camera attached as well as the ear speaker, but no vibration motor. We’ll need to transfer the vibration motor from the old screen. Add a drop of isopropyl alcohol under the adhesive of the vibration motor and use tweezers to carefully pry it out.

Install the vibration motor into the new screen and chassis. While waiting for the adhesive on the battery to soften, remove all the plastic films from the back of the new display. The easiest way to remove the battery from the old phone is with a suction cup. Once the isopropyl alcohol has soaked in, use the suction cup to lift the battery out of the chassis. This method reduces the risk of damage compared to using a plastic or metal tool.

Reassembling the Phone

Start reassembling the phone by placing the original battery into the new chassis, followed by the main board. It’s easiest to get this in if you fold back the front camera cable and the volume button cable a little bit. Install the top of the logic board first, then apply pressure to the bottom. Re-secure the single cross-head screw in the bottom left of the board, followed by connecting the display connector to its right FPC and the front camera connector. Re-secure the volume and power button flex cable.

Move back down to the bottom of the phone and re-secure the sub-board into place, followed by the three cross-head screws. Next, reattach the plastic shields and the wireless charging coil. Fold over the metal and plastic shield and re-secure the 10 screws back into place. Re-secure the loudspeaker and support plastic shield by applying pressure to the edges and clipping it back into place, then secure the five screws that hold it in place.

Final Steps

Finally, reattach the glass back cover by aligning it on one edge first for proper alignment, then apply pressure to all four edges. Turn the phone on and test functionality before returning it to the customer. There may be a plastic film that looks a bit bubbly and dirty, but underneath, the phone is spotless and looking fresh.

Professional Repair Services

If you find these steps daunting or lack the necessary tools, consider getting your phone repaired by professionals. Gadget Kings offers expert repair services for all types of phones, including the Samsung Galaxy S20+. They provide high-quality repairs and ensure your phone is restored to its optimal condition. Visit their website at Gadget Kings to learn more about their services.

And that’s how we replace the screen on the Samsung Galaxy S20 Plus 5G. Thanks for watching, and we’ll see you next time!

Teardown of the Samsung Galaxy S20+: In the Shadow of the Ultra

We just finished tearing down Samsung’s latest flagship smartphone, the Galaxy S20 Ultra, but we couldn’t help but wonder: what’s inside the not-so-ultra S20 phones? Today, we’ve got the S20+ on our teardown table and we’re ready to take a look. Many of the specs are similar, down to the giant camera bump on the backside of the phone. However, instead of that questionably-useful 100x zoom camera from the S20 Ultra, we get a more modest 3x telephoto camera with super resolution zoom up to 30x.

Getting Inside the S20+

If there’s one thing we know by now, it’s how to get inside a Samsung phone. Our heat gun loosens up the adhesive holding down the back cover, and after some slicing with our opening picks, we are able to get our first look inside. In a shocking twist of events that no one saw coming, we’re met by a midframe antenna assembly and a wireless charging pad!

We prep the wireless charging pad for removal, then take out the Phillips screws holding the metal shield and the upper antenna in place. Once the screws are out of the way, we can disconnect the wireless charging pad, and all the pieces come out together. Then the lower speaker/antenna frame comes free after some more Phillips screws, some of them a little stubborn, like the ones we found in the S20 Ultra.

The Display Dilemma

Up next, the display! We’ve long criticized Samsung phones for their display-last construction. Adhering the fragile OLED panel directly to the frame of the device without support means it will almost always be destroyed upon removal, which ruins the display—even if the glass is already broken. Add to that the fact that replacement displays often crack or come loose unless the frame is perfectly clean for the re-installation, and it’s easy to see why we prefer to remove iPhone displays!

Exploring the Internals

Next, we get to the motherboard and the star of the collective S20 show: the cameras! All three S20 phones have one thing in common: they each use some of Samsung’s own image sensors along with the popular Sony sensors that most smartphone manufacturers have been using. The S20+ sports a 12 MP ultra-wide camera, a 12 MP standard wide camera, and a 64 MP telephoto camera. The fourth sensor here is a time-of-flight camera that gathers depth data for selective focus mode and augmented reality (AR).

We disconnect the cables running to the little USB-C board at the bottom of the phone, and after removing a few screws, we give it some prying action and it jumps free.

The Battery Battle

Alright, the time has come to fight this 17.37-watt-hour battery! We douse it with isopropyl alcohol to weaken the adhesive underneath, then wait a couple of minutes for it to soak in. Then we attach our heavy-duty suction cup and, with some help from extra hands, we’re able to wrestle it free. Look at all that adhesive, though—Samsung, don’t you think that’s a bit much?

Conclusions from the Teardown

As we conclude this teardown, we’ve learned that the S20+’s similarities to the Ultra are not limited to their outer appearances! The Samsung Galaxy S20+ earns a 3 out of 10 on our repairability scale, earning a few points for its use of standard Phillips screws and its semi-modular construction. That said, its poorly prioritized screen repair procedure and the firmly-adhered rear cover and battery keep it from being a more repairable smartphone.

Professional Repair Services

If you find these steps daunting or lack the necessary tools, consider getting your phone repaired by professionals. Gadget Kings offers expert repair services for all types of phones, including the Samsung Galaxy S20+. They provide high-quality repairs and ensure your phone is restored to its optimal condition. Visit their website at Gadget Kings to learn more about their services.

Detailed Teardown Process

Now, let’s dive deeper into each step of the teardown process.

Back Cover Removal

The first step is always the hardest, and that’s especially true when dealing with Samsung’s adhesive-heavy design. We used a heat gun to soften the adhesive securing the back cover. This step requires patience and precision, as too much heat can damage the internal components. Once the adhesive is softened, we used opening picks to carefully slice through the remaining adhesive, finally prying the back cover off.

Removing the Wireless Charging Pad and Antennas

With the back cover removed, the next step was to deal with the wireless charging pad and antenna assemblies. These components are held in place by Phillips screws, which is a relief compared to proprietary screws found in other devices. After removing the screws, we disconnected the wireless charging pad and the midframe antenna assembly. This step reveals more of the phone’s internals, giving us access to the motherboard and battery.

Display and Screen Challenges

Removing the display from the S20+ was a delicate process. Samsung’s choice to adhere the OLED panel directly to the frame complicates repairs. We used a combination of heat and isopropyl alcohol to loosen the adhesive, but the risk of damaging the display is high. This design choice significantly reduces the repairability score of the phone, as it makes screen replacements particularly challenging.

Examining the Motherboard and Cameras

Once we accessed the motherboard, we could see the impressive array of cameras. The S20+ features a 12 MP ultra-wide camera, a 12 MP standard wide camera, and a 64 MP telephoto camera, along with a time-of-flight sensor. These components are secured with connectors and a few screws, making them relatively straightforward to remove. The modular nature of these parts is a positive aspect, as it allows for easier replacement if one of the cameras fails.

USB-C Board and Lower Components

The USB-C charging board and other lower components were next on the list. After disconnecting the relevant cables and removing a few more screws, the USB-C board came free with some gentle prying. This component is essential for charging and data transfer, so ensuring it is intact and undamaged is crucial.

Tackling the Battery

The battery removal process is always a bit nerve-wracking. Samsung uses a strong adhesive to keep the battery in place, which we weakened using isopropyl alcohol. After letting it soak in, we used a heavy-duty suction cup to pull the battery free. This step requires caution, as excessive force can damage the battery or other internal components.

Final Thoughts

The teardown of the Samsung Galaxy S20+ reveals a device that shares many similarities with its Ultra counterpart, but also has its unique challenges. The high level of adhesive used and the display-last construction are significant drawbacks for repairability. However, the use of standard screws and modular components like the cameras and USB-C board are positive aspects.

For those who prefer to leave repairs to the experts, Gadget Kings offers professional phone repair services. They have the tools and expertise to handle even the most challenging repairs, ensuring your phone is returned to you in optimal condition. Check out their services at Gadget Kings.


This teardown provided valuable insights into the design and repairability of the Samsung Galaxy S20+. While it shares many components with the S20 Ultra, the differences in camera capabilities and internal layout are noteworthy. The repairability challenges posed by Samsung’s design choices highlight the importance of professional repair services for those who may not have the tools or expertise to tackle such a project themselves.

If you enjoyed this teardown and want to see more, be sure to check out our full Galaxy S20 Ultra teardown and subscribe to our channel. We regularly post new teardown videos, offering a detailed look at the latest smartphones and gadgets. Thank you for watching, and we’ll catch you in the next video!



Restoring a $80 Samsung Galaxy S20 Ultra: A Comprehensive Guide

Hi guys, welcome back to another Hugh Jeffries video. In this video, I’ll be restoring the Samsung Galaxy S20 Ultra, Samsung’s high-end Galaxy phone from 2020. This one has seen much better days—just about every centimeter of this phone is either cracked, dented, or scratched. It also has not one but three of those annoying magnetic car mounts glued to the back. Why would anyone need so many?

I purchased it online for 120 Australian dollars, or around 80 USD. When plugged in, it doesn’t light up, but it’s drawing around 500 milliamps. To fix it up, I’ll of course be needing a new display and rear glass, but I’ve also decided it’s worth replacing the original battery while I’m at it.

Initial Disassembly

I’ll begin by first heating what’s left of the rear glass on a heat plate before prying it off. While I’d usually use a suction cup and plastic pick to avoid damaging the frame or glass if it were intact, for this phone, we’ll be replacing both, so it doesn’t matter. Additionally, given just how shattered the glass is, a suction cup won’t stick.

Lifting up the back panel, we get our first look inside the S20 Ultra. I won’t be throwing away the back panel just yet, as there’s still a microphone attached to it that we’ll need to salvage later on.

First to come out is the wireless charging coil, connected with one flex cable and five Phillips screws, one being hidden under the coil itself. Next is the upper antenna. Again, Samsung has been a bit sneaky and hidden a screw right next to the LED flash.

With a proper look inside the S20 Ultra, we can see that it resembles both the layout of Samsung’s before and after it. The most notable difference is the amount of space taken up by the many cameras, especially the ultra zoom lens. Once I’ve disconnected all the flex cables running to the motherboard and unfastened two Phillips screws, it can be pulled out of place.

Packed into this multi-layer, multi-section motherboard is an Exynos 990 with up to 16 gigs of RAM and 512 gigs of storage.

Lower Section Disassembly

Proceeding with the repair, it’s time for the lower section of the phone to come apart. The speaker, which houses a liquid indicator, appears to show liquid has entered the phone, but I’m not able to find any signs of damage. It’s possible for these to be tripped by things like humid weather, so they’re not always accurate.

Just three screws are all it takes to get the USB-C charging board out of the phone. Then, using some alcohol, I can loosen up the vibration motor and break it free. Up top, we’ve still got the selfie camera, which is glued in place. Using an X-Acto knife, I’m able to cut through the adhesive and release the camera.

And with that, the S20 Ultra has been disassembled. Compared to some phones, this was a walk in the park. All the screws we removed are the same type and length, making this process almost foolproof.

Reassembly with New Components

Getting out the first of the new components, it’s time we begin getting this phone back in one piece. The display, like most modern phones, is the most expensive part to replace and is why many phones, once broken, never get repaired. Many just find it easier to replace the whole phone.

I’ll start by reinstalling the vibration motor and charging port. Once its screws are attached, it’s time for two flex cables, the speaker, and its appropriate screws.

Next, it’s time to get the front-facing camera reattached. I’ll then be sure to remove any plastic film before installing the motherboard into the phone.

Installing the New Battery

Now comes time for the new battery. The original is in unknown condition, and while it would likely work, it’s several years old, and like all batteries with age and use, comes significant wear. If I’m working inside the phone, I might as well spend the twenty dollars to replace the battery. Once it’s in, I can reattach both charging port cables, the new display, and finally the battery.

Flipping over the phone, it’s time for a test. Sure enough, the phone is working, but it’s got a passcode on it. Don’t worry, we’ll wipe it later. I can now continue to assemble the phone, placing back the plastic antenna piece and the wireless charging coil.

Final Steps

With the phone’s insides back into position, the last thing we need to do is prep the new back glass. I’ll need to salvage the microphone from the one we removed earlier and place it onto our new back glass. There was also a little foam grounding piece which I decided to transfer as well.

Once the phone is free from any dust, I can remove the plastic protective film from the back panel and press it down into place, securing it to the frame of the phone.

To wipe the previous owner’s data from the phone, with the phone connected to a computer, I can hold both the power and volume up buttons. Once into recovery mode, I can factory reset the device. Now the last thing left to do is remove the plastic protective film.

And we’re done. This is it—a repaired Galaxy S20 Ultra. Once badly destroyed, it has been restored to an almost brand-new state. Like many of Samsung’s flagship phones, it was fairly easy to repair, with the only real downside being the two hidden screws and the high cost of replacement displays. Nevertheless, this S20 Ultra is ready to serve its next owner.

Need Professional Repair?

If you find these steps daunting or if you don’t have the necessary tools, consider getting your phone repaired by professionals. Gadget Kings offers expert repair services for all types of phones, including the Samsung Galaxy S20 Ultra. They provide high-quality repairs and ensure your phone is restored to its optimal condition. Visit their website at Gadget Kings to learn more about their services.


Restoring a Samsung Galaxy S20 Ultra can be a rewarding experience, especially when you see a once-damaged phone come back to life. With patience and the right tools, you can achieve great results. However, if you ever need professional help, Gadget Kings is there to assist you. Thank you for watching, and if you enjoyed this video, consider subscribing and checking out my phone restoration playlist for more videos just like this one. If you’re looking for any used devices, be sure to check out my online store linked in the description. That’s all for this video, and I’ll catch you guys next time.

How to Fix a Black Screen on Samsung Galaxy S23 and S24 Series: Easy Fixes

If your Samsung Galaxy S23 or S24 series phone has a black screen but you know it’s on—you might feel it vibrate, receive calls, or notifications—you don’t need to panic. Here are several options you can try to get your phone back up and running without taking it apart. These steps can be done right at home.

Step 1: Force Restart

  1. Remove the Case: If you have a case on your phone, remove it.
  2. Force Restart: Press and hold the volume down and power buttons simultaneously. Do not let go until you see the Samsung logo appear on the screen. This might take around 20 seconds or more. Once the logo appears, release the buttons. Your phone should reboot and hopefully come out of the black screen.

Step 2: Charging and Restart

  1. Plug into Charger: Connect your phone to a charger.
  2. Spam Power Button: Press the power button three times quickly.
  3. Force Restart While Charging: While the phone is charging, press and hold the volume down and power buttons together until the Samsung logo appears. Release the buttons and let the phone reboot.

Step 3: Tapping Method

  1. Tap the Screen and Back: Using two fingers, tap firmly all over the screen and back of the phone. This can help if a ribbon cable inside is slightly dislodged.
  2. Force Restart: After tapping, perform the force restart again by holding down the volume down and power buttons until the Samsung logo appears.

Step 4: Massage Method

  1. Massage the Phone: With your thumbs, press firmly and massage all over the screen and back of the phone. This might re-seat any loose internal connections.
  2. Force Restart: After massaging, hold the volume down and power buttons to force restart the phone.

Step 5: Smack Method

  1. Smack the Phone: Hold the phone in one hand and smack it gently against the palm of your other hand. Do this for both the front and back of the phone.
  2. Force Restart: Once done, press and hold the volume down and power buttons to force restart.

Step 6: Freezer Method

  1. Place Phone in Freezer: Put your phone in the freezer for about 15 minutes. This might help if overheating caused the screen to go black.
  2. Force Restart: After removing it from the freezer, press and hold the volume down and power buttons until the Samsung logo appears.

Additional Tips

Seeking Professional Help

If all else fails, it may be time to seek professional help. Gadget Kings, a phone repair service, offers expert repair services for Samsung Galaxy S23 and S24 series phones. They can handle any hardware issues that might be causing your black screen problem. Visit their website at Gadget Kings to learn more about their services.

Gadget Kings serves various locations including Murrumba Downs, Kallangur, Dakabin, Clontarf, Margate, Woody Point, Redcliffe, Kippa Ring, Scarborough, Rothwell, Newport, Deception Bay, North Lakes, Mango Hill, Narangba, Burpengary, Burpengary East, Morayfield, Caboolture, Caboolture South, Bribie Island, Bongaree, Petrie, Lawnton, Bray Park, Strathpine, Cashmere, Eatons Hill, Joyner, Warner, Clear Mountain, Brendale, Bracken Ridge, Carseldine, Fitzgibbon, Taigum, Boondall, Zillmere, Geebung, Virginia, Chermside, Wavell Heights, Nundah, Toombul, Stafford, Stafford Heights, Deagon, Sandgate, Shorncliffe, Brighton, Nudgee, Bridgeman Downs, Mcdowall, Everton Park, Mitchelton, Gaythorne, Ferny Grove, Ferny Hills, Enoggera, The Gap, New Market, Kelvin Grove, Red Hill, Grange, Gordon Park, Windsor, Bowen Hills, Newstead, Hendra, Eagle Farm, Northgate, and more.


Dealing with a black screen on your Samsung Galaxy S23 or S24 series can be frustrating, but these methods can help you get your phone back to normal. Remember to try each step multiple times and don’t hesitate to seek professional help if needed. Gadget Kings is always there to assist you with any phone repair needs.

Uncovering the Secrets of the Anom Phone: Designed by the FBI to Catch Criminals

In the world of covert operations and high-stakes espionage, few stories are as captivating as that of the Anom phone. Marketed to criminals as an encrypted and secure smartphone, the Anom phone was, unbeknownst to its users, a creation of the FBI as part of a massive undercover operation. This article delves into the intriguing details of the Anom phone, its operating system, and the broader implications of its use in law enforcement.

The Origins of the Anom Phone

The Anom phone, shrouded in mystery and speculation, is based on a regular Android device—in this case, a Google Pixel 4a. The story begins with a casual conversation over a couple of beers between members of the Australian Federal Police (AFP) and the FBI. This discussion led to the creation of the Anom phone, a device designed to infiltrate criminal networks by masquerading as a secure communication tool.

Between late 2018 and June 8, 2021, the Anom phones were sold to criminals worldwide, who believed they were using an untraceable, secure device. Little did they know, the phones were part of a sophisticated sting operation. The phones were run like a legitimate business, complete with a website, social media presence, and customer support. Prices ranged from $1,500 to $2,000, and approximately 11,800 devices were sold globally.

Inside the Anom Phone

The Anom phone’s custom operating system, Arcane OS, is at the heart of its deceptive capabilities. On the surface, it appears to be a standard Android phone with some pre-installed apps. However, entering a specific decoy pin code unlocks a different interface loaded with apps that don’t function as expected.

The main purpose of the Anom phone was to facilitate communication via a specific messaging application called Anom. This app, disguised as a calculator, could be accessed by entering a special code. It provided a platform for sending encrypted messages, storing files, and managing contacts. However, these messages were not as secure as users believed. The app contained backdoors that allowed authorities to access, read, and decrypt every one of the 23 million messages sent during the operation.

The Sting Operation

The undercover operation, known as Operation Ironside, resulted in numerous arrests and seizures. It was described as the biggest sting in Australian history. The success of the operation hinged on the Anom phone’s ability to collect and transmit data to law enforcement without arousing suspicion. The phones’ distribution and the sophisticated software ensured that authorities had a constant stream of information on criminal activities.

Exploring Arcane OS

One of the most intriguing aspects of the Anom phone is its custom operating system, Arcane OS. Upon entering the main pin code, users could access two apps, but the decoy pin revealed a more extensive, albeit dysfunctional, array of applications. Most of these apps were designed to appear functional but did not perform any real tasks.

The settings menu in Arcane OS is particularly revealing. It lacks many standard options, such as location services and storage management, which are typically found on Android devices. The OS is built on an Android 10 update from December 2020, with several modifications to suit the needs of the FBI. Notably, the software is designed to be tamper-proof, with secure boot enabled, preventing any unauthorized changes or attempts to flash new software onto the device.

The Decoy Mode

In decoy mode, the phone’s interface changes dramatically. It features various apps, including TikTok and Subway Surfers, but none of these apps function as expected. The contacts app, for instance, contains fake entries, some of which use public images from websites like TripAdvisor. The messages app looks different from the standard Google version and lacks the ability to send messages.

Security Features

Despite its covert nature, the Anom phone includes several security features that provided a false sense of security to its users. These features include the ability to scramble the pin layout, set a pin to wipe the device, and even automatically wipe the phone if it hasn’t been used for a certain period. There is also an option to wipe the device from the notification shade, adding another layer of security—or so it seemed to the criminals using it.

The Aftermath

After the service was shut down, many of these devices ended up on sites like eBay and Gumtree. Those who purchased these phones, either as mementos or unknowingly, found themselves with a piece of history. The bootloader is locked, and secure boot is enabled, meaning only Arcane OS can run on these devices. Despite numerous attempts, there is currently no way to remove the software and restore the original Android functionality.

Gadget Kings: Your Trusted Partner for Phone Repairs

For those fascinated by the intricate world of smartphone technology and security, Gadget Kings offers unparalleled expertise in phone repairs. Whether you have a standard device or something as unique as the Anom phone, Gadget Kings provides comprehensive repair services. Visit Gadget Kings Phone Repair Service to learn more about their services and how they can help keep your devices in top condition.


The Anom phone is a testament to the lengths law enforcement will go to infiltrate and disrupt criminal networks. Its sophisticated design and the massive undercover operation behind it highlight the ongoing battle between privacy and security. While the operation has concluded, the Anom phone remains a fascinating piece of history, reminding us of the ever-evolving landscape of technology and law enforcement.

S23 Ultra: They Copied Apple?

The Samsung Galaxy S23 Ultra is arguably one of the best smartphones on the market, retailing at $1199. Despite its impressive features, it has earned a repairability score of only 4 out of 10 from iFixit. In this story, we will unbox the device, explore its interior, and verify its challenging repairability.

Unboxing the Galaxy S23 Ultra

Upon opening the packaging, one notices the absence of plastic, replaced by eco-friendly materials. Inside the box, there is a USB-C to USB-C cable, a SIM ejector pin, and some instructions. The phone itself is aesthetically pleasing, although a slight lamination flaw was detected at the bottom right corner, which could potentially worsen over time.

First Impressions and Setup

Turning on the Galaxy S23 Ultra, the setup process was somewhat laggy, but nothing too concerning. The phone’s display quality stands out, as Samsung continues to excel in this area, outperforming Apple.

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Camera and Speaker Test

The Galaxy S23 Ultra’s camera is impressive, capturing detailed photos with its 200-megapixel wide camera. A comparison between the S23 Ultra and the iPhone 14 Pro reveals that the Samsung’s photos are clearer, though more processed. However, the iPhone excels in video recording.

A quick speaker test showed that while the iPhone sounds slightly clearer, the Galaxy S23 Ultra is much louder, almost like a portable speaker.

Opening the Galaxy S23 Ultra

Opening the device, the first thing that stands out is the massive camera modules. The S23 Ultra features a 12-megapixel ultra-wide camera, a 200-megapixel wide camera with OIS, a 10-megapixel telephoto lens, and a 10-megapixel periscope camera capable of impressive moon shots. The laser autofocus sensor ensures precise focus by emitting a laser beam to the object.

Internals and Repairability

Removing the back panel reveals a standard Samsung layout with a few noteworthy features. The device includes a removable battery with pull tabs, making battery replacement easier. The loudspeaker is integrated with the vibration motor, and a rubber gasket on the front earpiece speaker helps with water resistance.

Disconnecting the connections and removing the wireless charger, the S23 Ultra’s repairability score improves slightly due to the use of Phillips screws and the removable battery. However, the board and front camera are still challenging to repair.

Final Thoughts and Repairability Score

Overall, the Samsung Galaxy S23 Ultra scores a 7 out of 10 on the repairability scale. The Phillips screws and removable battery are user-friendly, but the complexity of the motherboard and front camera repairs prevents a higher score.

Gadget Kings: Your Go-To for Phone Repairs

If you find yourself needing a repair for your Samsung Galaxy S23 Ultra or any other smartphone, Gadget Kings is here to help. Located in various areas including Murrumba Downs, Kallangur, Dakabin, Clontarf, Margate, Woody Point, Redcliffe, Kippa Ring, Scarborough, Rothwell, Newport, Deception Bay, North Lakes, Mango Hill, Narangba, Burpengary, Burpengary East, Morayfield, Caboolture, Caboolture South, Bribie Island, Bongaree, Petrie, Lawnton, Bray Park, Strathpine, Cashmere, Eatons Hill, Joyner, Warner, Clear Mountain, Brendale, Bracken Ridge, Carseldine, Fitzgibbon, Taigum, Boondall, Zillmere, Geebung, Virginia, Chermside, Wavell Heights, Nundah, Toombul, Stafford, Stafford Heights, Deagon, Sandgate, Shorncliffe, Brighton, Nudgee, Bridgeman Downs, Mcdowall, Everton Park, Mitchelton, Gaythorne, Ferny Grove, Ferny Hills, Enoggera, The Gap, New Market, Kelvin Grove, Red Hill, Grange, Gordon Park, Windsor, Bowen Hills, Newstead, Hendra, Eagle Farm, Northgate, and many more, we provide top-notch repair services.

Visit Gadget Kings for more information and to schedule your repair. Our experienced technicians are ready to assist you with all your smartphone repair needs.

Galaxy S23 Ultra Durability Test – Close Your Eyes…

Today on my desk, we have a brand new, top-of-the-line Galaxy S23 Ultra, Samsung’s current best offering to the masses. No time to waste, let’s get started.

This latest and greatest smartphone comes tucked inside a 100% recycled paper box. Super cool of Samsung to cut out the plastic packaging. Samsung is quick to point out all of their new environmentally friendly initiatives on their website, like using natural dyes in their Earth Tone smartphone lineup. The one in front of us is an Eco Green color – not too shabby. Natural color dyes that are completely down to earth sound epically awesome at first glance. I’m as big of a tree hugger as the next guy, but when we scroll down a bit on the website and see the fine print, only 10% of this down-to-earth dye is natural. According to my math, that leaves about 90% of the dye being unnatural, which is a rather weird thing to brag about. The word for this kind of thing is called greenwashing, and Samsung does it again right here on their website, saying that the phone has recycled glass on the screen and recycled rear glass panels without any asterisks or caveats. 

We know that glass can be 100% recyclable, so Samsung using totally recycled glass isn’t out of the question. But if we look into the Corning Gorilla Glass recipe, Victus 2 is only using 22% pre-consumer recycled content – not even post-consumer. And of course, we still see scratches at a level 6 with deeper grooves at a level 7.

Any amount of recycling is good recycling, but as the largest manufacturer of smartphones on the planet, Samsung shouldn’t be patting themselves on the back for doing the bare minimum for the planet. At the top of the screen, protected under the glass, we find the 12-megapixel hole punch selfie camera. Just for kicks and giggles, we’ll snap a quick selfie and compare it to a selfie from my personal three-and-a-half-year-old Note 10 Plus. Feel free to take a look, admire for a second, and be honest with yourself – you’re not even sure which picture came from which phone. Samsung has had three and a half years to give me a reason to upgrade, and I haven’t seen it yet.

The sides of the phone are covered with a thin layer of plastic. Not my favorite, but cardboard can be abrasive to a pristine finish, so I can see why Samsung would want to be careful. The sides of the S23 Ultra are made from armor aluminum. You can see the 90% unnatural dye scrape off, leaving bare metal behind. The side buttons are made of metal and can still be removed. The top of the phone has a microphone hole and an antenna line. Not much happening on the metal left side of the phone. The bottom, however, is where everything’s happening. We have our loudspeaker grille, the USB-C charging port that can charge at 45 watts, and a SIM card tray right next to the microphone hole. The SIM card tray has a great rubber ring to help with the S23 Ultra’s IP68 water resistance. And of course, our good friend the S Pen – probably my favorite part of the Ultra lineup. The S Pen is useful for a lot of things. The tip can be detected by the screen using a coil of copper wires. The S Pen can also act as a remote control for the camera using the button, a Bluetooth chip, and an internal capacitor at the back end that can wirelessly charge up in seconds. We’ll check out the internal wireless S Pen charging during the teardown video.

The phone itself has its own separate wireless charging capabilities underneath the back glass panel – 15 watts of wireless charging under the glass with 4.5 watts of reverse wireless charging. The whole thing is covered with glass, just like we’ve seen for the past eight years. The only real difference between this S23 Ultra and last year’s S22 Ultra is the camera setup – well, actually just one of the cameras. We have the normal 12-megapixel ultrawide camera up top, but this guy here in the middle is a whopping 200 megapixels and legitimately does some cool stuff like take pictures of the Moon and has twice the normal optical image stabilization, which will be awesome to take a look at during the teardown. We have a 10-megapixel 10x telephoto zoom camera and another 10-megapixel 3x zoom over on the side. I’m not gonna lie, that 200-megapixel camera is pretty cool, but not twelve hundred dollars cool.

Flipping around to the screen side of things, we once again have a 6.8-inch 1440p Dynamic AMOLED with a variable refresh rate to help prolong battery life. If that sounds familiar, it’s because it’s the same exact screen Samsung used last year. You might be asking, “Hey Jerry, what happened to all the smartphone innovations we used to see from Samsung?” Well, you might have noticed that Samsung is spending a lot of money making it seem like everyone is buying new tech every single year – billions of dollars, in fact. But the truth is, even with all those billions spent, a refreshing ninety percent of people still do not upgrade every year. Even polling among super nerds, more than 60 percent of you wait more than three years to upgrade your phone, which I think is awesome. As my mom would say, “Use it up, wear it out, make it do, or do without.”

Even though Samsung is spending billions to make you think upgrading yearly is normal or that buying a phone with 10% natural dye is environmentally friendly, if Samsung really wanted people to upgrade, my suggestion would be to take some of those tens of billions of dollars worth of marketing and plop it back into the innovation budget and let the phones sell themselves with features – kind of like Tesla does with cars. Got a little carried away there. The screen actually handled the heat pretty well – all 60 seconds of it. I hope Samsung handles the heat. And just to add a little insult to injury, let me know down in the comments if you got a Samsung advertisement on this video. I mean, as far as durability goes, Samsung has never had any issues – besides the model that exploded, everything else has been pretty great. And this S23 Ultra is no exception. Bending from the front, we get no flex. Flipping over the Ultra to the back, it’s rigid as a rock.

For anyone who does buy this model, whether it’s this year for full price or next year for half price, the S23 Ultra is indeed still structurally sound, even though the marketing team is pulling far more weight than the innovation team. If you’re the type of person who doesn’t want to be manipulated by billions of dollars worth of advertising and only wants to be manipulated by regular dollars worth of advertising, I’d love to introduce you to dbrand. The only reason my phone has lasted three and a half years is because I have a case on it – the Grip Case from dbrand, to be specific. And you might have surmised from this video that I’m not that nice to phones, even my own phone. But my personal dbrand Grip Case has held up extremely well over the years. The buttons are still clicky even after all this time, and my teardown skin, which allows me to see the insides from the outside, is also still very much intact – mostly. Three and a half years is a long time. dbrand stocks the Grip Case for over 50 different models of phones, so they have you covered – quite literally. The best protection, though, is that just for three pennies a day, this case has protected me from having to buy a brand new twelve hundred dollar phone that isn’t all that exciting. You can grab your own dbrand Grip Case down in the video description, because from the looks of things, it might be a while before Samsung starts innovating again.

Hit that subscribe button if you haven’t already. This video is tearing Samsung apart. The next video is taking Samsung apart – very different. Thanks a ton for watching. I’ll see you around.

If you need professional phone repair services or want to learn more about phone repairs, visit our website at [Gadget Kings]( We offer a wide range of services, detailed repair guides, and high-quality tools to help you with all your phone repair needs. Whether you’re looking to fix your own phone or start your own phone repair business, Gadget Kings has got you covered.

 Samsung Galaxy S23 FE Teardown Disassembly. What’s Changed Since the S23?

Welcome to Gadget Kings! Today, we are disassembling the Samsung Galaxy S23 FE and comparing it to its predecessor, the Samsung Galaxy S23. If you’re interested in more teardown videos, make sure you subscribe and click on the notification bell to be notified whenever we upload a new video. Additionally, if you need any tools for this process, check out the links in the description.

Step 1: Remove the SIM Tray

To start the disassembly, the SIM tray needs to be removed. This is the first step in accessing the phone’s internal components.

Step 2: Heat the Back Plate

Apply heat to the back plate of the phone to loosen the adhesive underneath. This makes it easier to pry off the back plate using a plastic pry tool. Here’s a closer look at the glass back plate. The glass camera lens covers can be replaced by applying heat and gently prying them off, so you don’t need to take apart the entire phone for this specific repair.

Step 3: Remove Screws

Next, we need to remove 20 Phillips screws. This will give us access to the wireless charging coil and NFC antenna, which are important for the phone’s functionality. There’s also some graphite film to help with heat transfer.

Step 4: Disconnect the Battery and Cables

At this point, the battery cable can be disconnected, followed by the rest of the cables. Here’s a side-by-side comparison between the S23 and the S23 FE. The top earpiece speaker is located behind a plastic cover.

Step 5: Examine the Main Board

Looking at the main board, we can see a 12-megapixel ultrawide lens, a 50-megapixel primary lens, and an 8-megapixel telephoto lens. The main and telephoto cameras are the only ones with optical image stabilization (OIS). There’s a secondary microphone on the top corner and the LED flash is located here. The SIM reader is located on the back, as well as a proximity sensor or ambient light sensor. The camera connectors can be disconnected by simply popping them off.

Step 6: Remove the Graphite Pad and Thermal Paste

Once the graphite pad is peeled back, we can see thermal paste on top of the RAM, which is seated on top of the processor. Here’s a better look with the thermal paste cleaned off.

Step 7: Front-Facing Camera Removal

As for the 10-megapixel front-facing camera, it’s glued in place with a cure-in-place gasket. To remove it, you’ll need to use an X-Acto knife or a razor blade to gently and carefully cut the glue or gasket, then pry out the camera.

Step 8: Bottom Speaker Assembly and Vibrator Motor

This is the bottom speaker assembly. On the S23 FE, the vibrator motor is not included in the speaker assembly. This flex cable connects the main board to the subboard, as well as the screen. If you need to replace the screen, you’d have to remove the back plate, the screws on the bottom speaker assembly, and the speaker assembly itself. Then, you can disconnect the flex cable connecting the screen to the main board and gently pry off the screen flex cable from the frame. Heat up the front of the phone where the screen is to loosen the adhesive, pry the old screen off, apply new adhesive, reapply the new screen, and reassemble the phone.

Step 9: Disconnect Fingerprint Reader and Subboard

Moving on, the flex cable for the fingerprint reader also needs to be disconnected from the subboard. There are now two Phillips screws holding down the subboard. The primary microphone is located next to the charger port, which has a red rubber gasket.

Step 10: Examine the Battery and Vapor Chamber

Here’s a look at the other side. The vibrator or haptic feedback motor is located here, held in place with adhesive, and the same goes for the fingerprint sensor. Moving on to the battery, there’s an adhesive pull pouch to help pry it off. Compared to the S23, the pull tab on the pouch is located on the right side versus the left side. This is a 4,500 mAh battery. Now that the battery adhesive pull pouch has been peeled back, we have a look at the decently sized copper vapor chamber, which runs underneath the battery as well as the motherboard.

Step 11: Power Button and Volume Keys

This is the flex cable for the power button and volume keys. If you need to replace those, you’d have to gently lift up and pull out this metal bracket, which is seated inside the frame. There’s also a rubber gasket and mesh filter over the speaker opening on the frame, as well as both of the microphone openings. So, on this phone, if you were ever worried about puncturing the microphone or damaging it by inserting your SIM ejector tool in the wrong hole, you won’t need to worry, since both the microphones and the filters are seated above the holes and won’t get damaged.

Step 12: Repairability Score

One thing I wanted to point out on this frame which stuck out to me is this cutout on the top corner. It looks like there was possibly originally a plan for a front-facing camera located on this side instead of the top center, or maybe two front-facing cameras. I’m really not sure, but from the looks of it, you can tell there was a camera cutout here in the frame that was later abandoned. For the repairability score on this phone, I give it an 8.5 out of 10.

Step 13: Reassembly

Now it’s time to put the phone back together. Once everything’s back in place, apply new adhesive and reapply the back plate. Flip over the phone, power it on, and you’re done.

If you’re looking for professional phone repair services or want to start your own phone repair business, check out our website Gadget Kings. We offer detailed repair guides, high-quality tools, and a comprehensive phone repair course to help you get started. Thanks for watching, and I’ll see you in the next video!

Samsung Galaxy S23 Screen Replacement: A Comprehensive Step-by-Step Guide


Repairing your smartphone can save you a lot of money and extend the life of your device. If you have a Samsung Galaxy S23 with a broken screen, don’t worry—replacing it might be easier than you think. This detailed guide will walk you through the process of replacing the screen on a Samsung Galaxy S23, and also highlight the exceptional phone repair services offered by Gadget Kings, your trusted phone repair shop.

Assessing the Damage

The Samsung Galaxy S23 is a high-end smartphone, but like any device, it’s prone to accidents. A broken screen is a common issue that many users face. In this guide, we’ll address a screen with black bleeding spots and a non-responsive touch function. Before starting, ensure you have the necessary replacement parts, which can be sourced from reliable providers like Gadget Kings.

Tools and Preparations

To replace the screen, you’ll need several tools:

  • Heat gun or hairdryer
  • Plastic pry tools
  • Poker playing cards
  • Phillips screwdriver
  • Tweezers
  • Adhesive strips or T-8000 glue
  • Alcohol and a cleaning cloth

Having these tools on hand will make the process smoother and help avoid damaging other components.

Step 1: Removing the Back Cover

Start by heating the back of the phone with a heat gun or hairdryer. This softens the adhesive, making it easier to remove the back cover. Use a plastic pry tool to create a gap, and then slide poker cards around the edges to separate the back cover from the frame.

Tip: Be gentle to avoid cracking the back glass. If the back cover has been replaced before, the adhesive might be weaker, making removal easier.

Step 2: Unscrewing Internal Components

Once the back cover is off, you’ll see several screws holding the internal components in place. Use a Phillips screwdriver to remove all the screws. Keep them organized as they vary in size.

Step 3: Disconnecting the Battery

Before removing the screen, disconnect the battery to prevent any short circuits. Use a plastic tool to gently lift the battery connector off the motherboard.

Step 4: Removing the Screen

Heat the front of the phone to loosen the adhesive holding the screen. Use a plastic pry tool to carefully separate the screen from the frame. Be mindful of the fingerprint scanner and other delicate components.

Step 5: Preparing the New Screen

Take your new screen, which should come with a fingerprint scanner, and prepare it for installation. Remove any protective films and ensure the connectors are accessible. If you sourced your screen from Gadget Kings, it should be a genuine Samsung part, ensuring compatibility and quality.

Step 6: Cleaning the Frame

Before installing the new screen, clean the frame to remove any adhesive residue and debris. Use alcohol and a cleaning cloth to ensure a smooth surface for the new adhesive.

Step 7: Applying Adhesive

Apply new adhesive strips to the frame or use T-8000 glue. Be precise, especially around the fingerprint scanner area, to avoid interference with its function. Ensure the adhesive covers all necessary areas to provide a secure bond for the new screen.

Step 8: Installing the New Screen

Carefully align the new screen with the frame. Start from the top and work your way down, ensuring it fits snugly into place. Apply gentle pressure to secure the adhesive.

Step 9: Reassembling the Phone

Reconnect the battery and other internal components. Place the screws back in their original positions and tighten them securely.

Step 10: Reattaching the Back Cover

Apply new adhesive to the back cover. Press it firmly onto the frame to ensure a tight seal. Use clamps if necessary to hold the cover in place while the adhesive sets.

Testing the Repair

Power on the phone and test the new screen. Check for touch responsiveness, display quality, and the functionality of the fingerprint scanner. Make sure everything is working correctly before concluding the repair.


Replacing the screen on a Samsung Galaxy S23 is a task that requires patience and precision. By following this guide, you can save money and extend the life of your device. If you prefer professional assistance, Gadget Kings offers reliable phone repair services. Visit their website here to learn more about their services and to book a repair.

About Gadget Kings

Gadget Kings is your one-stop shop for all phone repair needs. Located in Australia, they offer a range of services including screen replacements, battery replacements, and other hardware repairs. Their experienced technicians use high-quality parts to ensure your device is restored to its optimal condition.

Services Offered by Gadget Kings

  • Screen Replacement: Fast and affordable screen repair for all major brands, including Samsung and Apple.
  • Battery Replacement: Extend the life of your device with a new battery.
  • Hardware Repair: From cameras to charging ports, Gadget Kings can fix it all.
  • Data Recovery: Recover lost data from damaged devices.

Service Areas

Gadget Kings proudly serves multiple locations including Murrumba Downs, Kallangur, Dakabin, Clontarf, Margate, Woody Point, Redcliffe, Kippa Ring, Scarborough, Rothwell, Newport, Deception Bay, North Lakes, Mango Hill, Narangba, Burpengary, Burpengary East, Morayfield, Caboolture, Caboolture South, Bribie Island, Bongaree, Petrie, Lawnton, Bray Park, Strathpine, Cashmere, Eatons Hill, Joyner, Warner, Clear Mountain, Brendale, Bracken Ridge, Carseldine, Fitzgibbon, Taigum, Boondall, Zillmere, Geebung, Virginia, Chermside, Wavell Heights, Nundah, Toombul, Stafford, Stafford Heights, Deagon, Sandgate, Shorncliffe, Brighton, Nudgee, Bridgeman Downs, McDowall, Everton Park, Mitchelton, Gaythorne, Ferny Grove, Ferny Hills, Enoggera, The Gap, New Market, Kelvin Grove, Red Hill, Grange, Gordon Park, Windsor, Bowen Hills, Newstead, Hendra, Eagle Farm, Northgate.

Customer Satisfaction

With a commitment to quality and customer satisfaction, Gadget Kings has built a reputation for reliable and efficient repair services. Their transparent pricing and quick turnaround times make them a preferred choice for many customers.

For more information or to book a repair, visit Gadget Kings.

Additional Tips for a Successful Screen Replacement

Replacing the screen on your Samsung Galaxy S23 can be a rewarding task. Here are a few additional tips to ensure your repair is successful:

  • Take Your Time: Rushing the process can lead to mistakes. Allocate enough time to carefully follow each step.
  • Organize Your Tools: Keep all your tools and screws organized to avoid losing any small parts during the repair.
  • Watch Tutorials: If you’re unsure about any step, watching video tutorials can provide additional guidance. Gadget Kings offers detailed repair tutorials on their website and YouTube channel.
  • Seek Help If Needed: If you encounter any issues or feel uncomfortable with any part of the repair, don’t hesitate to seek professional help from Gadget Kings.

Why Choose Gadget Kings?

Choosing Gadget Kings for your phone repair needs comes with several benefits:

  • Experienced Technicians: Our team has extensive experience in repairing a wide range of devices.
  • Quality Parts: We use only high-quality, genuine parts to ensure the longevity and performance of your device.
  • Competitive Pricing: Our services are priced competitively, offering you the best value for your money.
  • Customer-Centric Approach: We prioritize our customers’ needs and satisfaction, ensuring a smooth and hassle-free repair experience.

Frequently Asked Questions (FAQs)

How long does it take to replace a Samsung Galaxy S23 screen?

The time required to replace a Samsung Galaxy S23 screen can vary based on your experience and skill level. On average, it may take 1 to 2 hours to complete the repair. If you choose to have it repaired by Gadget Kings, our technicians typically complete the repair within a few hours.

Can I use third-party screens for replacement?

While third-party screens may be cheaper, they often lack the quality and durability of genuine Samsung parts. Gadget Kings uses only genuine parts to ensure the best performance and longevity for your device.

What should I do if the new screen is not responsive?

If the new screen is not responsive, double-check the connections to ensure they are properly seated. If the issue persists, it may be a defective screen. Contact Gadget Kings for assistance and potential replacement.

How do I book a repair with Gadget Kings?

Booking a repair with Gadget Kings is easy. Visit our website, fill out the repair form, and our team will get in touch with you to schedule an appointment. You can also visit our physical location for walk-in repairs.

Do you offer a warranty on repairs?

Yes, Gadget Kings offers a warranty on all repairs. Our warranty covers any defects in parts and workmanship, giving you peace of mind and assurance of quality service.

Final Thoughts

Replacing the screen on your Samsung Galaxy S23 can be a cost-effective way to restore your device to its original condition. With the right tools, patience, and guidance from this comprehensive guide, you can successfully complete the repair. For those who prefer professional assistance, Gadget Kings is here to help with top-notch phone repair services.

Don’t let a broken screen disrupt your daily life. Take action today and either repair it yourself or trust the experts at Gadget Kings. Visit Gadget Kings to learn more about our services and to book your repair. Your device will thank you!

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S23 Ultra Teardown: Right to Repair Forcing Samsung Towards Repairable Design

Samsung’s Galaxy S23 Ultra is making waves in the tech world, not just for its impressive hardware and software but also for its evolving approach to repairability. The South Korean tech giant seems to be catching up with Apple in various aspects, and while tech reviewers debate the merits of these advancements, our focus is on the S23 Ultra’s internal design and its implications for repair enthusiasts.

Unveiling the Internals: A Peek Inside the S23 Ultra

Before diving into the disassembly, we took a look at the x-rays of the S23 Ultra, courtesy of Creative Electron. Initially, we mistakenly used x-rays of last year’s S22 Ultra, but upon comparing both models, we found them strikingly similar inside and out. However, whispers of a significant change to the battery hinted that this teardown might reveal some interesting developments.

Entering Through the Back Panel

As with previous Android teardowns, the entry point is through the back panel. This time, we used the Anti-clamp to work its magic on the adhesive, eliminating the need for cumbersome tools. The S-Pen was removed first, followed by the extraction of 17 Phillips screws. The NFC coil and upper bracket came away as a single piece, exposing the internal connectors.

A Friendly Surprise: Battery Pull-Tab

One of the most notable changes in the S23 Ultra’s design is the inclusion of a battery pull-tab. Unlike the stretch-release tabs found in some other devices, this pull-tab is a significant step towards making battery replacements more feasible. However, it’s not without its challenges. The pull-tab can be tricky to use, especially with sweaty or dry hands, but it signifies Samsung’s acknowledgment of the importance of repair-friendly designs.

The Evolution of Battery Replacement

Despite its initial difficulties, the battery pull-tab is a welcome addition. It suggests that Samsung is beginning to prioritize user-friendly repair features. This move is consistent across the S23 and S23+ models, indicating a broader commitment to repairability rather than restricting it to a single high-end device. This approach contrasts with Apple’s more exclusive design choices, such as those seen in the iPhone 14.

Exploring Other Components: The Periscope Camera

With the battery pull-tab making a positive impression, we proceeded to examine other parts of the phone, starting with the periscope camera. The 10x optical module appeared unchanged from the previous model, sliding around on tiny plastic ball bearings and driven by electromagnetic coils. Samsung’s curved screens, while visually appealing, remain a challenge to remove due to the strong adhesive used. Despite reports of under-screen bubbles on some units, our S23 Ultra displayed no such defects.

The Bigger Picture: Samsung’s Repairability Journey

While the S23 Ultra might seem like a mere hardware update, its inclusion of the battery pull-tab marks a significant step forward in Samsung’s repairability journey. Compared to earlier models, the Galaxy line has made considerable progress since the Galaxy S6’s release in 2015. Although the S23 Ultra doesn’t reach the repairability levels of the iPhone 14, it avoids software locks that hinder third-party repairs.

Challenges and Opportunities: The Path Ahead

Samsung’s recent crackdown on third-party OLED suppliers presents a challenge to the growing demand for repairable devices and a circular economy. However, the S23 Ultra’s design changes, especially the battery pull-tab, suggest a shift towards more consumer-friendly repair options. The S23 Ultra earns a repairability score of 4/10, with the potential for an additional two points if Samsung provides parts and manuals in the future.

Looking Forward: The Role of Right to Repair

The inclusion of a battery pull-tab, even if not perfect, is evidence of the positive impact of the Right to Repair movement. This movement advocates for consumers’ ability to repair and maintain their devices, promoting sustainability and reducing electronic waste. As Samsung and other manufacturers respond to these demands, we can expect further improvements in device design and repairability.

Gadget Kings: Your Trusted Repair Partner

For those looking to repair their Samsung Galaxy S23 Ultra or other devices, Gadget Kings offers expert repair services. Based in Australia, Gadget Kings specializes in a wide range of phone repair services, from battery replacements to screen repairs. Their experienced technicians ensure high-quality service, using genuine parts to restore your device to its optimal condition. Gadget Kings is committed to supporting the Right to Repair movement, providing customers with reliable and accessible repair options across various locations.

Conclusion: A Brighter Future for Repairability

Samsung’s Galaxy S23 Ultra represents a step in the right direction for repairability. While there’s still room for improvement, the inclusion of repair-friendly features like the battery pull-tab demonstrates progress. As the Right to Repair movement gains momentum, we can look forward to a future where more devices are designed with repairability in mind. Whether it’s through improved design, better access to parts, or supportive repair services like those offered by Gadget Kings, the path to a more sustainable and repair-friendly tech industry is becoming clearer.

Thank you for joining us in this teardown and review. Stay tuned for more insights and updates on the latest in tech repair and innovation.

Title: The Ultimate Teardown: Exploring the Samsung Galaxy S23 Ultra

Welcome to the Samsung Galaxy S23 Ultra disassembly and repair review. In this detailed teardown, we’ll uncover the intricate design and innovative features of Samsung’s latest flagship phone. Whether you’re a tech enthusiast or a repair professional, this video will guide you through the meticulous process of disassembling the S23 Ultra, revealing the secrets behind its impressive performance and repairability. Make sure to subscribe and follow for more in-depth videos, and check out the links in the description for the necessary tools.

Removing the SIM Tray and S Pen

To begin the disassembly, we start by removing the SIM tray and the S Pen. The SIM tray, a crucial component for connectivity, is delicately extracted. The S Pen, a signature feature of Samsung’s Ultra series, is also removed, giving us access to the phone’s interior.

Heating and Removing the Back Plate

Next, we apply heat to the back plate to soften the adhesive that secures it. Using a plastic pry tool, we carefully lift the back plate, exposing the inner components of the phone. The back plate is a critical barrier, protecting the internals from dust and moisture.

Disconnecting the Wireless Charging Coil and NFC Antenna

With the back plate removed, we encounter 17 Phillips screws that secure the internal components. After removing these screws, we disconnect the flex cable for the wireless charging coil and the NFC antenna. The wireless charging coil, located centrally, is responsible for the phone’s wireless charging capabilities. The NFC antenna, positioned on top, enables contactless transactions and data transfer.

Exploring the Internal Components

Inside the phone, we find a layer of graphite film, which helps with heat dissipation. The battery cable is disconnected, followed by the removal of other flex cables. The top earpiece speaker is revealed, containing small white foam balls that enhance sound quality by making the speaker sound larger.

The Dual-Layered Main Board

The main board of the Galaxy S23 Ultra features a dual-layered sandwich design. This compact arrangement houses various critical components, including the cameras. The S23 Ultra boasts a 12-megapixel ultra-wide camera, a 200-megapixel wide camera, a 10-megapixel periscope telephoto lens, and a 10-megapixel telephoto lens. All cameras, except for the ultra-wide, feature Optical Image Stabilization (OIS) for improved photo and video quality.

Additional Sensors and Thermal Management

The main board also includes a secondary microphone, an LED flash, a laser autofocus sensor, and a proximity sensor. Camera connectors are easily detached, revealing a graphite pad that aids in heat transfer. Underneath the graphite pad, we find thermal paste applied to the RAM, which sits atop the processor, ensuring efficient heat management.

Bottom Speaker and Vibrator Motor

At the bottom of the phone, we examine the speaker assembly, which also contains the linear haptic feedback or vibrator motor. Like the top speaker, the bottom speaker includes white foam balls to enhance sound quality. Flex cables connect various components, including the screen, main board, and sub board.

Screen Replacement Process

If a screen replacement is necessary, the back plate must be removed, followed by the bottom speaker assembly. This provides access to the flex cable for the screen, which can then be disconnected. Heating the front of the phone softens the adhesive, allowing the screen to be pried off and replaced. New adhesive is applied, and the replacement screen is reconnected and secured.

Removable Battery and Vapor Chamber

One of the most significant improvements in the S23 Ultra is the removable battery. Samsung has introduced pull tabs or pull pouches, making it easier to pry the battery off without specialized tools. The 5000 mAh battery can be removed, revealing the copper vapor chamber underneath. Compared to the S22 Ultra, the S23 Ultra’s vapor chamber is nearly double in size, enhancing heat dissipation and overall performance.

Sub Board and Microphone Assembly

Three Phillips screws secure the sub board, which houses the primary microphone and features a red rubber gasket around the charger port. The SIM reader is located on the opposite side. The cover for the S Pen enclosure, held down by adhesive, can be pried off to access the S Pen.

Front-Facing Camera and Additional Components

The 12-megapixel front-facing camera is secured with a cure-in-place gasket. Replacing this camera requires a delicate touch, using an X-Acto knife or razor to cut the glue around it. The flex cable for the volume key and power button is also accessible, allowing for easy replacement by gently peeling it off and removing a metal bracket.

Final Reassembly

With all components examined, it’s time to reassemble the phone. The process involves reconnecting all flex cables, securing screws, and reapplying the back plate with new adhesive. The reassembled phone can then be powered on, ensuring everything is in working order. Although the back glass may be cracked, this step-by-step guide ensures a smooth disassembly and reassembly process.

Repairability Score and Conclusion

The Samsung Galaxy S23 Ultra earns a commendable repairability score of 9 out of 10. Its design improvements, such as the removable battery and enhanced internal layout, make it significantly easier to repair compared to previous models.

If you’re in need of professional phone repair services, consider visiting Gadget Kings. Gadget Kings offers expert repair services for a wide range of smartphones, ensuring your device remains in optimal condition. Whether it’s a battery replacement, screen repair, or other services, Gadget Kings has you covered across numerous locations.

This teardown review highlights the Galaxy S23 Ultra’s commitment to user-friendly design and innovation. With enhanced repairability, superior camera technology, and efficient thermal management, the S23 Ultra stands out as a top-tier smartphone in today’s market. Thank you for watching, and stay tuned for more insightful videos.

## Title: The Wait is Over: An In-Depth Teardown of the Galaxy S23 Ultra

The anticipation has been palpable. After nearly eight years of waiting, the Samsung Galaxy S23 Ultra promises a series of exciting secrets waiting to be uncovered. This story takes you through an intricate teardown of Samsung’s flagship, revealing features and innovations that enthusiasts and tech lovers have been eagerly awaiting. Join us as we delve deep into the Galaxy S23 Ultra, discovering what sets it apart from its predecessors and what new surprises it holds.

Eight years have passed since Samsung last significantly altered its phone design. The company has maintained a consistent design philosophy, using two slabs of glass and copious amounts of adhesive to ensure waterproofing. While effective, this approach has often made repairs challenging. However, with the Galaxy S23 Ultra, Samsung seems to have turned a new leaf, prioritizing repairability without compromising on the durability that customers expect.

Starting the teardown, the back panel is the first component to be removed. This simple slab of glass, which is relatively inexpensive to replace, gives way to the internals of the device. Here, we encounter 16 silver Phillips head screws securing the internal components. A critical moment arises when unplugging the wireless charging coil. Initially, there’s a risk of damaging the paper-thin extension ribbon cable connected to the screen, which underscores the importance of precision during such operations.

The wireless charging coil itself is a marvel, but it’s not the only one in the phone. We’ll soon explore a secondary wireless charger. Removing the bottom loudspeaker and unclipping three extension ribbons reveals the best-looking battery Samsung has ever installed in a smartphone. The battery features a removable design, a significant shift from the glued-in batteries of previous models. This 5000 mAh battery can be removed effortlessly without specialized tools, marking a substantial improvement in repairability.

Samsung’s move to a removable battery after eight years is a game-changer. It not only makes repairs easier but also extends the phone’s lifespan, as users can replace the battery without professional assistance. This thoughtful design change is a nod to consumers who have long desired more repairable devices.

Beneath the battery, we discover the copper vapor chamber and the ultrasonic fingerprint scanner. The second hidden wireless charging coil is located near the S Pen’s storage area. This coil interacts with the S Pen’s internal capacitor, allowing it to charge wirelessly and function as a remote shutter for the camera. The technology behind this is fascinating, with the lid of the S Pen’s slot made from plastic to allow the wireless charging energy field to pass through.

A minor oversight occurs during the teardown when the wrong stylus is used for demonstration. Despite this, the underlying concept remains the same, highlighting the sophisticated charging mechanism enabled by wireless technology. Thanks to innovations from figures like Nikola Tesla, the S23 Ultra can charge both itself and its stylus without any cables.

The absence of a traditional vibrator in the S23 Ultra is another interesting design choice. Instead, Samsung has integrated this function into the earpiece. The speakers, equipped with foam balls, enhance the sound quality by increasing the internal surface area, making the audio experience richer and more immersive.

One of the most significant upgrades in the S23 Ultra is the camera system. The device boasts a 12-megapixel ultra-wide camera, a 200-megapixel main camera with enhanced optical image stabilization, a 3x telephoto lens, and a 10x periscope telephoto lens. These cameras can be easily removed from the motherboard, each functioning like a small Lego piece. This modularity not only simplifies repairs but also paves the way for potential future upgrades.

The front selfie camera remains glued into the frame, a 12-megapixel sensor designed to capture high-quality images. As we move to the lower part of the phone, the aluminum housing’s precision milling becomes evident, showcasing Samsung’s commitment to build quality.

A common question among new phone owners is what happens if the SIM card tool is inserted into the wrong hole. Samsung has placed the microphone hole and SIM card tray hole close together, which can lead to confusion. However, the design ensures that even if the tool is inserted into the microphone hole, the waterproofing mesh prevents any damage.

Overall, the Galaxy S23 Ultra, while visually similar to its predecessor, boasts significant internal improvements. The new removable battery significantly enhances the phone’s repairability and longevity. Instead of replacing the entire phone when the battery dies, users can now opt for a simple battery replacement, extending the device’s lifespan and reducing electronic waste.

For those looking to protect and personalize their devices, dbrand’s teardown skins offer a unique solution. These skins showcase the phone’s internals on the exterior without voiding any warranties. Available in both matte and glossy finishes, they provide protection and style, ensuring your phone stands out.

In conclusion, the Samsung Galaxy S23 Ultra is a testament to innovation and thoughtful design. Its repairability improvements, cutting-edge camera technology, and sleek aesthetics make it a standout in the smartphone market. Whether you’re a tech enthusiast or a casual user, the S23 Ultra promises an exceptional experience.

If you’re looking to repair or upgrade your smartphone, consider visiting [Gadget Kings]( They offer top-notch phone repair services across a wide range of locations, ensuring your device remains in perfect working condition. Whether you need a battery replacement, screen repair, or any other service, Gadget Kings has you covered.

By focusing on repairability and user-friendly design, Samsung has created a device that not only meets but exceeds the expectations of its users. The Galaxy S23 Ultra is a powerful reminder of the potential for innovation in the smartphone industry, and its secrets have finally been unveiled.

I Built an iPhone that Charges in 9 Minutes

Have you ever wondered how fast you could charge an iPhone if you threw caution to the wind and tried some pretty unconventional methods? I did, and the results were nothing short of electrifying. This story is about my journey to achieve the fastest iPhone charge time, involving some wild experiments, multiple iPhones, and a lot of technical tinkering.

## The Experiment Begins

The first step in my quest was to start with a baseline. I chose an iPhone 8, primarily because it was the first iPhone to support fast charging, and I knew I would be breaking a lot of phones during my experiments. I didn’t want to spend big bucks on the latest model just to see it fry under the pressure. Using the fastest charger I had, the iPhone 8 charged from empty to full in about an hour and 57 minutes. That was my benchmark to beat.

### More Chargers, More Power?

Inspired by a fellow tech enthusiast, TechRax, I decided to go all out and connect 100 chargers to the iPhone. It sounds crazy, but I had to try it. After spending what felt like an eternity stripping wires and setting up, I connected the iPhone to this forest of chargers. To my disappointment, it didn’t speed up the charging process. In fact, it was significantly slower. Despite my calculations that each charger should provide one amp, which in theory should charge the 1821 mAh battery in just over a minute, the results didn’t match up.

### Understanding the Limitation

To figure out why this approach failed, I hooked up a second iPhone to my benchtop power supply. Even though the power supply could deliver up to 10 amps, the iPhone only drew around 9.6 amps. The culprit? The Battery Management System (BMS) inside the iPhone’s battery. The BMS regulates the charging process to prevent overcharging, overheating, and other potential hazards. It became clear that I needed to bypass this system if I wanted to achieve faster charging times.

## Going Around the BMS

By disassembling the iPhone and its battery, I soldered wires directly to the battery cells, effectively bypassing the BMS. This was risky as overheating the battery could lead to dangerous situations, but it was a necessary step for the experiment. Using a heavy-duty power supply, I charged the battery at 90 amps. Surprisingly, the battery handled it well, charging faster than before but still not as quickly as I hoped.

### Lithium Titanate Batteries

Traditional lithium polymer batteries have their limitations, so I switched to lithium titanate batteries, known for their fast-charging capabilities. I built a small battery pack from these batteries and connected it to the iPhone, removing the standard battery and BMS. This setup allowed the iPhone to charge at 10 amps, significantly faster than with the stock battery. The iPhone went from empty to full in about 22 minutes.

## The Final Challenge: Super Capacitors

Determined to push the boundaries even further, I turned to super capacitors, which can charge and discharge much more quickly than traditional batteries. I used a 5000 Farad lithium carbon super capacitor, capable of handling a maximum charge current of 47 amps. After connecting it with robust wiring and a powerful charger, the super capacitor charged the iPhone in just 9 minutes. This was 13 times faster than the stock iPhone charging time.

### Trade-offs and Real-world Applications

While super capacitors achieved the fastest charge time, they come with significant trade-offs. Super capacitors are less energy-dense than lithium batteries, meaning they need to be larger to store the same amount of energy. This poses a question: would you prefer an iPhone that charges in 9 minutes but lasts half as long, or one that charges quickly but is twice as bulky?

## Lessons Learned and Future Prospects

This experiment highlighted the importance of understanding the underlying technology and limitations. The BMS, while seemingly a hurdle, is essential for safety and battery longevity. By exploring alternatives like lithium titanate batteries and super capacitors, I uncovered potential paths for future innovation in battery technology.

### Dive Deeper with Gadget Kings

If you’re fascinated by this kind of hands-on experimentation and want to learn more about phone repairs and modifications, check out Gadget Kings. They offer expert phone repair services across a wide range of locations including Murrumba Downs, Kallangur, and many more. You can explore their services and read insightful blogs on their website [Gadget Kings](

### Continuous Learning with Brilliant

Throughout this project, I had to learn new concepts in physics and chemistry. This constant learning is crucial for any engineer or creator., a sponsor of this experiment, is an excellent resource for learning math, science, and computer science through active problem-solving. Their interactive courses helped me brush up on my chemistry knowledge, which was instrumental for this project.

If you want to enhance your problem-solving skills and dive into subjects like chemistry, physics, or computer science, check out Brilliant. They offer a free trial, and if you sign up using the link, you’ll get 20% off your annual premium subscription.

## Conclusion

In the end, the experiment was a mix of success and learning. Charging an iPhone in 9 minutes was a thrilling achievement, but it also underscored the practical limitations and trade-offs involved in pushing technology to its limits. Whether you’re a tech enthusiast or just curious about how things work, there’s always more to explore and learn. And if you need professional phone repair services, remember Gadget Kings has got you covered.

I Built an iPhone That Charges in 9 Minutes: The Journey of Innovation

As a tech enthusiast, I’m always looking for ways to push the boundaries of what’s possible with our everyday gadgets. Today, I’m diving into a project that combines innovation, a bit of risk, and a lot of curiosity. The goal? To find out how fast I can charge an iPhone. This challenge involves not just a simple battery swap but an exploration into the limits of charging technology, even if it means breaking a few phones along the way.

The starting point for this experiment is an iPhone 8, chosen for its affordability and the fact that it was the first iPhone model with fast charge capabilities. Typically, this phone charges from empty to full in around an hour and 57 minutes using the fastest charger available. But I believe we can do much better.

**Step One: More Chargers, More Power?**

Inspired by the legendary TechRax, I decided to see what happens when you connect 100 chargers and 100 cables to a single iPhone. The idea seemed straightforward: more chargers should equate to faster charging. However, reality often defies expectations. After painstakingly stripping countless wires and connecting everything, I was ready for the big moment. The result? Disappointingly, the charging speed was slower, not faster. Despite each charger being capable of supplying one amp, the phone’s 1821 mAh battery did not charge as quickly as the math suggested it should.

To understand why, I grabbed a second iPhone and connected it to my benchtop power supply, a shout-out to Keysight for providing some fantastic test gear. Setting the power supply to five volts and a maximum of 10 amps, I noticed that the phone was only drawing around 9.6 amps. Clearly, something within the phone was limiting the charging current.

**Unveiling the Battery Management System (BMS)**

To solve this mystery, I needed to dive deeper into the phone’s internals, specifically the battery. Disassembling the phone, I exposed the battery cell and the BMS, or Battery Management System. The BMS is crucial as it manages the battery’s charge levels, prevents overcharging, and monitors temperature to avoid overheating. Essentially, it’s the BMS that’s limiting the charge current to protect the battery.

The next step was bypassing the BMS. I soldered wires directly onto the battery’s tabs, a risky maneuver that could potentially overheat the battery. Using eight-gauge wire, I carefully pre-tinned the tabs and soldered the wires in place. This setup allowed me to charge the battery without the BMS intervening.

**The High-Amperage Charge Attempt**

With the BMS bypassed, I took the battery outside to test a high-amperage charge using a 90 AMP, 4-volt power supply. Setting the voltage to 4.2 volts, I connected the battery and began charging. Initially, the battery drew around five amps, which slowly decreased to 1.5 amps. Despite my expectations of a dramatic lithium battery fire, the battery only got mildly warm. The charging speed was still not significantly faster than a normal charger, taking about an hour and a half.

**Exploring Lithium Titanate Batteries**

Determined to find a faster solution, I turned to lithium titanate batteries, known for their rapid charging capabilities. I built a small battery pack from four of these batteries, each capable of charging at 5 amps. Removing the iPhone’s stock battery and BMS, I connected the lithium titanate pack via a step-up voltage regulator, which adjusted the lower voltage of these batteries to the higher voltage required by the iPhone.

This setup charged the iPhone much faster than a standard battery. The phone, however, was unable to accurately report the battery level due to the absence of a BMS. Using an external current meter, I monitored the charge, stopping when the current dropped to around 150 milliamps. This indicated the battery was nearly full. Impressively, this setup charged the iPhone in just 22 minutes, a significant improvement.

**The Ultimate Test: Super Capacitors**

Pushing the limits further, I experimented with super capacitors. These components can charge extremely quickly but store less energy compared to traditional batteries. I used a 5000 farad lithium carbon super capacitor, capable of a 47-amp charge rate. Connecting this to the iPhone using a 90-amp charger and thick gauge wires, I managed to charge the phone in a record-breaking nine minutes.

**Trade-offs and Practicality**

While the super capacitor achieved an impressive charge time, it comes with trade-offs. Super capacitors have lower energy density, meaning they need to be larger to store the same amount of energy as a traditional battery. So, while you could have an iPhone that charges in nine minutes, it would either last half as long or be significantly bulkier.

**Learning and Experimentation**

This project was not just about pushing technological boundaries but also about learning and experimenting. The intricacies of battery chemistry and electronics were fascinating to explore. Throughout the process, I used Brilliant, an online learning platform, to brush up on my chemistry knowledge. Brilliant offers interactive courses in math, science, and computer science, perfect for anyone looking to deepen their understanding of these subjects.

Brilliant’s approach to active learning through problem-solving resonated with me. Their courses, such as chemical reactions, provided valuable insights that I applied directly to my experiments. If you’re keen on enhancing your problem-solving skills and expanding your knowledge, I highly recommend checking out Brilliant.


The journey to build an iPhone that charges in nine minutes was filled with unexpected challenges and valuable lessons. From experimenting with multiple chargers to bypassing the BMS, exploring advanced battery technologies, and finally achieving a breakthrough with super capacitors, it was a thrilling adventure in innovation.

For more exciting projects and in-depth explorations of technology, be sure to subscribe to my channel. And if you’re interested in professional phone repair services, check out [Gadget Kings PRS]( They offer expert repairs for a wide range of phone issues, ensuring your device is in top condition.

Explore their services and insightful blogs at [Gadget Kings PRS Blog](, and stay tuned for more groundbreaking experiments and tech insights.

This extended narrative includes the original experiment details, the learning process, and a nod to Gadget Kings PRS, aligning with your request for a 1000-word story and incorporating the web links.

**Samsung Galaxy S23 Teardown – Full Disassembly**

This is the Samsung Galaxy S23 teardown. As usual, the package includes only a SIM ejector tool and a USB-C cable. Even though the latest flagship boasts USB 3.2, the included cable only supports USB 2.0, which you can identify by the number of pins in the USB-C plug. If you actually want USB 3 speeds, you’ll need to pick up a separate cable as well as a charging brick.

The S23 features the Qualcomm Snapdragon 8 Gen 2, and unlike previous years, there is no Exynos chip variant. 

First, I’ll heat up the back glass with a hot air gun, making sure the phone doesn’t get too hot to touch so I don’t damage the battery. Once the adhesive starts to give, I can begin the disassembly. It feels like Samsung adhesive used to be stronger, but this time it comes off pretty easily. 

There’s some extra adhesive in the middle holding down the microphone, but it’s not too difficult to manage. For those tired of spending hours setting up 3D prints only to end up with crummy results, PCBWay can take care of it for you with their high precision 3D printing services, using a wide range of materials. They also offer CNC machining, sheet metal fabrication, and injection molding services for any part or project, big or small. Oh, and they also make PCBs, so click the link in the description and get started today.

Back to the teardown, the border adhesive doesn’t go underneath the camera bezel like it did on the S22, making adhesive replacement on the back glass a lot easier. The flash window is part of the back glass now, so the rear microphone has to channel around the camera bezels. 

The top speaker has a rubber seal around it to channel audio through the frame and to the earpiece. I can’t find any evidence of little foam balls in this speaker, which are common in modern-day smartphones. It does have this cool-looking valve, though, which appears to have some sort of synthetic gauze behind it.

The lower loudspeaker assembly has the vibration motor at the top, and this speaker also has the same valve. It’s a double-stacked motherboard with the Snapdragon 8 Gen 2 processor. You can see the two boards with a separator sandwiched in between. The camera setup on the S23 is almost identical to the S22. 

There’s the 10-megapixel telephoto camera with three times optical zoom and optical image stabilization. Then there’s the 50-megapixel main camera, also with OIS. The camera is mounted with some sort of vibration dampening silicon. At the top, we’ve got the 12-megapixel ultrawide camera with no OIS. Then there’s the 12-megapixel front-facing camera, which is glued into the screen and frame.

The daughterboard is held into the frame with three screws. It’s got a red rubber gasket for waterproofing. On the USB-C assembly, you also find the lower microphone and the SIM card slot. There’s a rubber gasket at the bottom of the frame for the lower speaker. Samsung is notorious for cementing their batteries into the frame, but this is the first time I’ve actually seen a pull tab on a Samsung battery. I still feel like I’m going to damage the battery pulling it up.

After applying some alcohol around the sides and waiting a minute, I carefully lift the battery. It has a 3,900 milliamp hour capacity, a decent jump up from the 3,700 in the S22. We also get our first look at the vapor chamber, which runs through the middle of the frame and up underneath the motherboard. This is a decent upgrade from the cooling on the S22.

So, what happens if you ignore Samsung’s warnings and put the SIM ejector tool in the wrong hole? Thankfully, the top and bottom microphone channels take a 90-degree turn before they reach the waterproof gasket, preventing any damage. 

The underscreen fingerprint sensor is hidden underneath the frame, but after initial testing, it appears to be larger than its predecessors. Reassembling the phone, I carefully replace each component and secure everything back into place to ensure an original seal. 

That’s it for the Samsung Galaxy S23 teardown. It’s always fascinating to see the inner workings of such advanced technology. If you’re looking for high-quality gadget repairs and purchases, check out [Gadget Kings]( They offer a wide range of services and products that cater to all your technological needs, ensuring you get the best value and performance out of your devices.

See you next time!

# I Bought 50 iPhones for ONLY $500: An Unexpected Adventure in Liquidation

This is a box full of iPhones that we managed to snag for just $500. But how did we get such a deal? Let’s dive into the journey of how we scored these phones so cheaply and see if it was worth it.

We started our adventure on, an insane liquidation website that sells huge lots of various products, including Apple devices, at incredibly low prices. This platform is a treasure trove of tech goodies: you can find two iMacs for $285, 18 iPhone 11s for $900, and even 100 iPhones for $1,600. It all sounds too good to be true, right? Well, we’re here to find out.

Our goal was to find the most iPhones for the least amount of money. Spending $3,000 on phones that might not work was out of the question. We browsed through numerous listings: 17 iPhone 13s for $3,000, iPhone 11 Pro Maxes unlocked for $2,800, and another lot with 30 units for $1,200. Finally, we found a listing that piqued our interest: 50 units of mixed iPhones for a current bid of $465. We placed a bid of $550 and crossed our fingers. A couple of days later, we received the news: we had won the bid for $550, bringing the total to about $587 with tax. This meant we got these iPhones for a little over $10 each. Now, the real test began.

We received the box of iPhones and eagerly started examining them. However, our excitement quickly turned into concern. None of the phones turned on initially. It was a mix of older models, including iPhone 4s, 5s, 6s, and even an iPhone 3. Many were in poor condition, with notes indicating they didn’t charge or had screen issues. Our hopes were dimming.

As we continued, we found a few promising models: an iPhone XR and some iPhone 6s that looked decent. We tried charging them, but most remained stubbornly dead. One XR turned on but was iCloud locked, rendering it almost useless. Another iPhone 11 turned on but had severe screen damage. We were starting to regret our purchase.

Determined to salvage something, we plugged in an iPhone 14 Plus, the newest phone in the box. Miraculously, it turned on and was not iCloud locked! This was a major win. Additionally, an iPhone 12 turned on and seemed to work, despite some cosmetic issues. These two phones were our best hope of recouping our investment.

After examining all the phones, we had a pile of 42 completely non-working phones and 8 phones that showed potential for resale. Our next stop was the EcoATM, a machine that buys used and broken phones. We fed our phones into the machine, hopeful for a positive outcome.

In the end, we made $560 from the EcoATM. This meant we made a $20 profit from our $500 investment. While it wasn’t a huge gain, it was a victory considering the initial condition of the phones.

Reflecting on this adventure, it was a rollercoaster of emotions. The thrill of bidding, the anticipation of receiving the box, and the disappointment of non-working phones were all part of the experience. Yet, the joy of finding a working iPhone 14 Plus and iPhone 12 made it worthwhile.

For those considering diving into the world of liquidation, it’s essential to manage expectations. The allure of cheap prices can lead to mixed results. However, if you’re lucky and persistent, you might find a few gems among the junk.

Additionally, websites like can be valuable resources for tech enthusiasts. They offer a range of products, from phones to accessories, and provide a more reliable option for purchasing tech without the gamble of liquidation sites.

In conclusion, our $500 investment in 50 iPhones was an enlightening experience. We learned about the risks and rewards of buying liquidation products and ended up with a small profit. If you’re up for an adventure and can handle a bit of uncertainty, exploring liquidation sites might just be for you. But if you prefer a safer bet, websites like are the way to go.

# I Bought the World’s RAREST Phones!

## Introduction
Five minutes to get not one, not two, but eleven of the rarest limited edition smartphones on the planet. This has taken me months. I’ve had to hire middlemen just to be able to source some of the rarer ones. Oh yeah, and my card got blocked three times because my bank was convinced there was no way that I would actually do this. But here we are. So let’s find out if it was worth it. We’ll start from the least expensive all the way to the most expensive.

## The Coca-Cola Phone
– **Price**: Not specified
– **Unboxing**: Two boxes. The small one includes:
  – An insert with stickers, a membership card, and a Coke bottle cap-shaped SIM ejector tool.
  – The phone itself with special Coca-Cola-themed features like a boot-up sound, home screen, charging animation, and shutter sound.
  – Only 6,000 units made.
– **Extras**: The larger box contains a figure made of Coke.
– **Verdict**: Although the phone parts like the screen and camera are mediocre, the price is reasonable for a limited edition.

## The Astro Boy Phone
– **Price**: $470
– **Theme**: Based on the Japanese anime Astro Boy.
– **Unboxing**: 
  – Outer sleeve with sticker packs and a strong-feeling case.
  – The phone itself features a lively red and black theme with Astro Boy detailing.
  – Unique features like a charging animation with Astro Boy’s head and a themed dial pad.
– **Verdict**: Great value for its price considering the level of detail and customization.

## The Harry Potter Phone
– **Presentation**: Next-level, resembling a spell book.
– **Unboxing**:
  – Magnetic tab opens to reveal a Hogwarts letter, a Platform 9¾ SIM ejector tool, stickers, a case with a gold button, and a Marauder’s Map manual.
  – The phone itself has custom features including a Harry Potter theme, a lightning bolt, and house crests.
– **Specs**: 120Hz OLED display, high-end Snapdragon chip, 12GB RAM.
– **Verdict**: Worth the effort to acquire from China for its unique Harry Potter experience.

## The Hello Kitty Phone
– **Core Design**: My favorite so far, smooth and rounded like a pebble with photochromic glass.
– **Unboxing**:
  – Hidden kitties on the surface, simple box with a case, standard table, and charger.
  – Custom icons and accents.
– **Features**: Smooth design, responsive to UV light for color changes.
– **Verdict**: Despite lacking extensive theming, the design and features make it a fun and collectible item.

## The Sony Xperia 1 Mark IV Gaming Edition
– **Gaming Features**:
  – A screen case that blocks the phone’s cameras but makes it feel like a first-gen PSP.
  – Full-on fan and ethernet port.
  – HDMI connection for a TV or monitor.
  – Software features like Low Gamma Raiser.
– **Price**: $1,200
– **Verdict**: A serious gaming phone with unique features and a higher-end feel.

## Samsung S23 Ultra Exclusive Online Variants
– **Price**: Not specified
– **Features**: 
  – Comes with free Galaxy Buds 2.
  – Vibrant red design with matte black sides.
  – Exclusive to Samsung’s website with slightly warmer wallpaper shade.
– **Verdict**: The best color options saved for direct buyers, offering a unique look for Samsung fans.

## The Vincent Van Gogh Phone
– **Artistic Design**: Based on Van Gogh’s The Starry Night with a unique 3D design.
– **Unboxing**:
  – High-quality materials and presentation.
  – Unique display and invisible front camera.
  – Laser-etched back design.
– **Verdict**: A luxurious and artistic phone, though front camera quality is sacrificed for design.

## The Transformers Optimus Prime Phone
– **Design**: Cool finish with a metal middle for heat conduction.
– **Features**:
  – Custom heavily-sharpened wallpaper and font.
  – Built-in fan for cooling.
  – Invisible front-facing camera.
– **Verdict**: Over-sharpened icons and cluttered theme make it feel cheap despite the high quality and practical features.

## The Genshin Impact Phone
– **Price**: Not specified
– **Presentation**: Dense and premium, packaged like Holy Scripture.
– **Unboxing**:
  – 3D pre-framed artwork, mouse mat, custom charging cable, and coins.
  – Smooth, gritty texture with a mock color.
– **Features**: Custom animated lock screen, always-on clock, and anime-themed charging animation.
– **Verdict**: Excellent attention to detail and premium feel for Genshin Impact fans.

## Samsung S23 Ultra BMW Edition
– **Price**: $3,000
– **Unboxing**:
  – Includes a cup holder and wireless charger, metal car bonnet box, BMW logos and coins.
  – BMW-themed software and icon pack.
  – Extra items like a keychain, air compressor, and magnetic sunglasses holder.
– **Verdict**: Exceptional presentation and thorough theming, but the phone itself remains plain black.

## The Caviar Desperado Phone
– **Price**: Over $10,000
– **Unboxing**: 
  – High-end case with crocodile leather and 24-karat gold.
  – Includes a chain with a bullet pendant, gold-plated AirPods Pro, and a luxury presentation.
– **Verdict**: A high-priced, luxury experience with extravagant accessories.

## Conclusion
Exploring these rare and limited edition phones has been an incredible journey. From artistic masterpieces to branded collaborations, each phone offers a unique experience. Whether you’re a collector or just a tech enthusiast, there’s something in this lineup to capture your imagination. Which one was your favorite? Let me know in the comments!

# I Bought the CHEAPEST Tech in the World 🌍

With a budget of $3,000, I set out to find the cheapest yet wildest tech gadgets on the internet. My goal was to discover and showcase items you’ve never seen before, including some of the quirkiest and most innovative tech out there.

I started my search with gadgets that defy conventional expectations. One of the first items that caught my eye was a pair of anti-gravity physics magnets. These tiny devices can turn your fingers into drumsticks, making them perfect for impromptu air drumming sessions. Another fascinating find was a pen-shaped mouse with incredibly high ratings. Despite being unusual, it was highly functional and innovative.

Next, I ventured onto Etsy, a platform known for unique, handmade items. I found a personalized chocolate smartphone that comes in a smartphone box. You can even send a screenshot of your home screen, and they’ll print it on edible paper! This was too good to pass up, and I couldn’t resist ordering one. 

Etsy also offered PlayStation and smartphone bath bombs, mouth-controlled styluses for people with disabilities, and cufflinks with a circuit board design. The creativity and craftsmanship on Etsy were truly impressive. For example, the mouth-controlled stylus is designed for individuals who are paralyzed and can’t use their hands, allowing them to control their phones with their mouths. This thoughtful innovation showcases how tech can improve lives in meaningful ways.

Then, I took a wild turn by exploring, known for its bizarre and cheap tech products. Here, I found a single AirPod, mini earphones that disappear into your ear, a fan that you wear on your waist, and wrist-mounted lights reminiscent of a budget Iron Man. One of the strangest finds was a head-mounted magnifier with adjustable magnification for each eye, looking straight out of a James Bond film. also offered an array of PS5 gadgets, including overpriced consoles and custom skins. I decided to order a gold shell and strip for my PS5, which turned out to be more tortilla-colored than gold. The customization options, while fun, often resulted in questionable aesthetics. For instance, my “gold” PS5 controller ended up looking like it had been repeatedly washed, turning it into a dusty, off-white color. Despite this, the process of customizing tech was an enjoyable experience.

Among the peculiar finds was a waist-mounted cooler, perfect for hot summer days but too loud for serious work. I also stumbled upon glow-in-the-dark tape and a lightsaber that required assembly. The lightsaber, surprisingly, could slice through a banana, fulfilling its purpose humorously.

I was curious about Wish’s reputation for selling oversized mats and rugs at ridiculously low prices. I ordered the biggest one possible, hoping for an optical illusion effect. While the quality was subpar, the illusion worked, providing a fascinating visual experience.

The true surprise came from a subwoofer that exceeded expectations. Despite being from Wish, it delivered proper mechanical keys and impressive lighting modes. It was shockingly good, defying my usual disappointment with budget tech.

Moving on to the handmade section from Etsy, I eagerly anticipated the arrival of a chocolate phone. The gold chocolate, while not visually appealing, tasted surprisingly good. The edible paper home screen, complete with my 58,60 unread emails, added a unique touch to the experience.

I also tried out microscopic earphones from Wish, which were as small as advertised. Though they came as a single earphone, the sound quality was decent, similar to Apple’s EarPods. The mouth stick stylus, designed for people with disabilities, worked effectively, allowing me to control my phone hands-free.

The PlayStation bath bombs from Etsy provided a fun bath experience, turning the water gray but releasing a pleasant aroma. Additionally, the circuit board cufflinks added a geeky touch to my suits, and I found myself donning them for special occasions.

Among the wider internet finds, I explored unusual mice, including a vertical mouse that felt like a natural extension of my hand and a sticky orbit mouse with a trackball. The pen mouse, which could be used on any surface, was surprisingly responsive and versatile, making it a 9 out of 10 in my book.

One of the most exciting gadgets was a virtual drum kit. As a former drummer, this modern equivalent allowed me to program sounds to different colors and create music by tapping on a pad. The experience was both nostalgic and innovative.

I also experimented with a Fel Flux skill set, involving dropping a magnetic ball through an aluminum tube to observe magnetic field effects. This scientific toy provided an educational and entertaining experience.

The most expensive item in this haul was a £549 massage gun, which came in sleek, Apple-like packaging. The product delivered powerful massages, simulating the feeling of being punched a thousand times per second. It was therapeutic and justified its high price.

In conclusion, my journey to find the cheapest and wildest tech on the internet was a thrilling adventure. From personalized chocolate smartphones to mouth-controlled styluses, the diversity and innovation in tech products are astounding. Whether from platforms like Etsy or Wish, these gadgets brought joy, surprise, and sometimes laughter into my life. If you’re curious about exploring unique tech products, I highly recommend checking out these platforms and sites like for an array of intriguing gadgets.

# Converting an iPhone XS Into a 12 Pro Max

Hi guys, welcome back to another Huge Jefferies video! In this episode, we’re diving into an exciting project: transforming a smashed and broken iPhone XS Max into an iPhone 12 Pro Max using a custom housing. Not only will this phone be restored to its former glory, but it will also boast the sleek look of a newer model.

## The Project Begins

Our journey starts with a custom housing in the iPhone 12 Pro’s Pacific Blue color. At first glance, this housing looks indistinguishable from the original iPhone 12 Pro Max. Inside, however, it’s designed to fit the older iPhone XS Max, complete with all the correct screw placements for the components. The housing also includes a custom flash flex cable, allowing us to reposition the flash. The iPhone XS Max originally has only two cameras, but this new casing has a fake third camera and a LiDAR sensor. Simply installing a regular iPhone 12 housing wouldn’t work, as its internal components differ significantly from the XS Max.

We’re curious to see how the end result will turn out and whether it will truly appear like a real iPhone 12 Pro Max. Along the way, we’ll also replace the damaged display and the battery for good measure.

## Disassembling the iPhone XS Max

To begin, we remove the two pentalobe screws from the bottom of our iPhone XS Max. Using a suction cup, we lift up the display panel and insert a plastic pick. Surprisingly, we didn’t even need to use heat for this phone as it separated easily. Initially, we thought someone had tampered with it, but it looks like it’s never been opened.

We use the iHold tool to keep the display in place while we unscrew the brackets and disconnect the display flex cables. After removing the brackets, we start unplugging the flex cables. The first one is glued and forms part of the Face ID sensor. If damaged, it can’t be replaced unless done by Apple. After unplugging it, only two more display flex cables need to be detached before removing the entire display assembly. With the display removed, we get a clear look at the inside of the iPhone XS Max in its stock configuration.

## Teardown Process

Now, it’s time to tear this phone down to its smallest components, even the tiny mesh grilles in the speaker ports, and transfer them into our iPhone 12-style casing. We start at the lower portion of the phone, removing the Taptic Engine and speaker, along with a few other components and screws. This gives us access to the battery, which we remove next.

The bottom section of the phone doesn’t take up much space, but there are numerous screws of different types. Keeping track of these screws is crucial for reassembly. After disconnecting the flex cable underneath, we remove the Taptic Engine and speaker. With these out of the way, we access the battery removal strips. These strips are tricky as they hold the battery in place very securely and are easy to break. If pulled horizontally, there’s a smaller chance of breaking them.

## Removing the Logic Board

With the battery out, we disconnect the front-facing camera and Face ID module. These cables are adhered into place, so we must be extra careful. After removing the logic board, we proceed to the charging port and antenna. Various screw types, including tri-wing, Phillips, and a special standoff bit, are used here, making screw organization vital.

We then move on to the microscopic level, removing the plastic retaining brackets and mesh grilles from the speaker and microphone ports. These aren’t included in our new casing, so they need to be transferred. This tedious process is often skipped by many repair technicians but is crucial for a thorough repair.

Next, we remove the remaining antennas and the wireless charging module. The volume and power buttons are also taken out, requiring a precise pair of tweezers and a metal prying tool to handle the tiny retaining clips.

## Reassembling in the New Housing

With the iPhone XS Max fully disassembled, we now spread all the parts across two magnetic mats. It’s time to crack out our new replacement housing and start reassembling everything. We begin with the volume and power buttons, transferring the rubber o-rings to the new buttons. These o-rings help prevent debris and water from entering the phone.

Next, we install the retaining clips and springs for the buttons. We face some difficulty with defects on the replacement buttons but manage to fix them. We also switch the mute switch to match our new casing and reinstall the button assembly and wireless charging module.

After securing all the screws, we glue the wireless charging module into place using e8000 glue, suitable for small components like the wireless charging module or LED flash. Our modified LED flash, specific to this modified frame, is installed next. It also contains the power button and rear camera microphone.

## Facing Challenges

As we reassemble, we encounter a crooked new flex cable for the LED flash and power button. We manage to connect it by slightly bending the cable. However, the logic board isn’t sitting flat due to the microphone on the flex cable. We reposition the microphone, but it now sits inside the phone, muffling the sound.

Despite reaching out to the seller for advice and referencing other conversion videos, we find no clear solution for the microphone placement. We continue with the build, hoping the audio quality remains decent.

## Final Assembly and Testing

We reinstall the logic board and face more challenges with the microphone blocking the camera flex cable. Eventually, we connect everything and turn our attention to the new display panel. Apple pairs the display to the phone by serial number, so we transfer these numbers from the old display to retain the True Tone function. The face ID module and earpiece flex cable are also carefully transferred to the new display.

With the new adhesive installed, we connect the new battery and test the phone. Initially, it doesn’t power on due to a completely dead battery. After charging, we proceed with final assembly, reconnecting all components and closing up the phone.

## The Final Result

Our project concludes with a successfully converted iPhone XS Max that looks like an iPhone 12 Pro Max. Although it lacks the iPhone 12’s hardware, the visual upgrade is impressive. The fake third camera looks realistic, though the curved display gives it away. We triggered an “unable to verify battery” message due to the battery change, similar to the anti-repair mechanisms in the real iPhone 12.

All buttons work perfectly, and despite the microphone being inside the phone, it still functions, albeit muffled. The modified flash works inconsistently, but overall, the housing modification is a success. This project demonstrates the potential and challenges of DIY phone upgrades.

For more exciting projects and to check out used devices, visit my website at [Gadget Kings PRS]( If you enjoyed this video, hit the subscribe button and explore my custom tech playlist for similar content. Thanks for watching, and I’ll catch you guys next time!


In a bustling street of London, nestled just 100 meters from the most famous Apple store in the country, an audacious new establishment opened its doors. This wasn’t just any store—it was the ‘Not Apple’ store, an inventive creation with a mission: to give away free Apple products and make a statement about rising prices and stagnant innovation.

The mastermind behind this bold venture had a clear motive. “Apple prices have skyrocketed over the years, yet their products hardly change,” he declared. Even Steve Wozniak, Apple’s co-founder, had voiced similar concerns. Determined to take a stand, he decided to take on his former employer, Apple, in a unique way—by purchasing Apple products in bulk and giving them away for free.

To avoid legal troubles, he cleverly branded his store ‘Not Apple.’ The store’s design was a playful jab at its neighbor, with prominent signs and cheeky messages. Customers were greeted by Steve Jobless, a humorous homage to Apple’s late founder, and the genius bar was managed by ‘Tim Cook.’

The store quickly became a spectacle. Inside, customers found an array of ‘Not iPhones’ and other cleverly branded products. The main attraction was a large wheel that visitors could spin for a chance to win these coveted items. With enthusiasm and a touch of humor, Steve Jobless and his team welcomed the first customers.

“Excuse me, sir, would you like to come into our shop? We’re giving away free phones!” The passerby hesitated but eventually stepped inside, drawn by the prospect of a free iPhone. The wheel spun, and with a bit of luck, he walked away with a shiny new device.

However, the initial rush was slow, and the store’s unique concept left some Londoners confused. Determined to draw a crowd, the team took to the streets, even venturing into the nearby Apple store to lure potential customers. “Why pay £1,000 for a phone when you can get it for free at Not Apple?” they argued, much to the amusement and occasional irritation of Apple staff.

Their efforts paid off. Social media buzzed with posts about the free giveaways, drawing larger crowds. Excitement peaked when a customer, skeptical at first, spun the wheel and won an iPhone, promptly canceling his order at the Apple store next door.

As the day progressed, the store’s popularity soared. Families, teenagers, and even celebrities flocked to see what the fuss was about. At the ‘genius bar,’ customers competed in fun challenges to win additional prizes. The energy was infectious, and the line outside grew longer.

Among the visitors was a former Apple employee, now intrigued by the ‘Not Apple’ concept. “I never got a free product while working at Apple,” he remarked. At the wheel, he won a ‘Not iPhone,’ a moment that highlighted the disparity between the two stores’ customer relations.

Despite the store’s success, some passersby remained skeptical. “What kind of fruit is that?” one asked, eyeing the ‘Not Apple’ logo. But the overwhelming majority were thrilled with their free products, spreading the word and boosting the store’s popularity.

By the end of the day, tens of thousands of pounds worth of products had been given away. The final customer spun the wheel and landed on the last remaining iPhone, marking the end of the giveaway. The store’s mission had been accomplished: not only had it challenged Apple’s pricing but it also brought a community together through an unforgettable experience.

As the doors closed for the final time, Steve Jobless reflected on the day’s success. The ‘Not Apple’ store may have emptied his bank account, but it left an indelible mark on London. He hoped Apple would take note and reconsider their pricing strategy, but more importantly, he hoped the joy and unity his store brought would be remembered.

With a final plea to Apple, he signed off: “Please don’t sue me, Apple. My bank account has suffered enough. And to everyone else, stay tuned—there might be more surprises in the future.”

The ‘Not Apple’ store’s legacy was cemented, not just as a playful jab at a tech giant, but as a bold statement of innovation, community, and the power of a good laugh.



Have you ever wondered if it’s possible to add a headphone jack to an iPhone 7? Scotty from Strange Parts, known for building his own iPhone in China, takes on this ambitious challenge in his latest adventure.

Scotty starts his journey in Hong Kong, where he expresses his frustration with the iPhone 7’s lack of a headphone jack. Determined to solve this issue, he heads to Shenzhen, the electronics manufacturing capital of the world. There, he explores Huaqiangbei, a vast market filled with electronics and components.

To begin, Scotty acquires a used iPhone 7 and disassembles it, revealing the tight internal space. Surprisingly, he discovers a small plastic piece where the headphone jack used to be, which he initially doubts is a barometric vent as claimed by Apple. Despite the cramped space, he believes there’s enough room to fit a headphone jack inside the phone without altering the case.

Scotty’s plan involves modifying the phone’s internals and using a Dremel to grind out more space. He buys a Lightning-to-headphone adapter from the Apple store and painstakingly solders wires onto the back of a Lightning jack, connecting it to a breakout header. After several attempts and some setbacks, he successfully gets the adapter to work.

However, this solution poses a new problem: charging the phone. Scotty decides to create a custom circuit to switch between the Lightning jack and the headphone adapter. He finds a suitable chip and meets a chip broker in the markets. With the chip in hand, he constructs a circuit that allows the phone to switch between charging and using the headphone jack seamlessly.

The next step is designing a flexible printed circuit board (PCB) to fit inside the phone. Scotty collaborates with a flexible PCB factory and receives the boards. After meticulous soldering, he tests the board, and it works flawlessly.

To ensure a precise fit for the headphone jack, Scotty enlists the help of his friend Nick, a mechanical engineer with a desktop CNC mill. Together, they mill better holes in the phone case, achieving a perfect fit for the headphone jack.

Finally, Scotty assembles the modified iPhone, and it works perfectly. The phone can now use the headphone jack and charge simultaneously. Scotty compares his creation to the iPhone 6s, noting the differences in the headphone jack placement but proud of his handmade phone’s functionality.

Scotty’s journey highlights the challenges and triumphs of adding a headphone jack to an iPhone 7. While he acknowledges that this design isn’t ready for mass production, he offers a limited edition board for die-hard fans and provides the design files for free, encouraging others to improve and share their modifications.

In conclusion, Scotty’s project demonstrates the power of innovation and determination. He hopes to inspire others to take control of their devices and modify them to suit their needs. His adventure in China not only showcases his technical skills but also emphasizes the importance of community and collaboration in the world of electronics.



We recently stumbled upon a trove of 15 discarded iPhones while dumpster diving. Excited by the discovery, we decided to see how much cash we could get by trading them in at a Walmart kiosk. These kiosks, as we had heard from various sources, offer a convenient way to recycle old electronics and earn a bit of money in the process.

Our adventure began with high hopes and a bit of skepticism. The first challenge was to power on the phones. Some of them started up, but most were in pretty rough shape, with cracked screens and non-functional buttons. Nonetheless, we were determined to see what the kiosk would offer for these old devices.

At Walmart, we approached the kiosk and began the process. The machine’s interface was user-friendly, guiding us through each step. We started by placing the iPhones in the designated slot. The kiosk then instructed us to remove any cases and place labels on the devices for identification.

As we inserted the first iPhone, the machine began its assessment. It checked for power, screen functionality, and other hardware conditions. The anticipation was palpable as we waited for the machine to provide a valuation. The first phone yielded a modest sum of seven dollars. Not a fortune, but it was something.

Encouraged by this initial success, we continued with the other phones. However, the results were mixed. Some phones were deemed recyclable with no cash value, while others earned a few dollars each. It was fascinating to see the machine’s efficiency in evaluating the devices, even though it sometimes took longer than expected.

Throughout the process, we learned a lot about the condition and value of older iPhones. Many of the models we had were outdated, and their market value was understandably low. However, the kiosk provided an environmentally friendly way to dispose of these devices, ensuring that valuable materials like gold and silver could be recovered and reused.

In total, we managed to get paid for only a few of the 15 phones. The rest were recycled, which, while not profitable, still felt like a positive outcome. Keeping electronic waste out of landfills and ensuring that hazardous materials are properly handled is a win for the environment.

Despite the modest financial return, the experience was valuable. It highlighted the importance of recycling and provided a fun, educational adventure. Plus, it demonstrated how easy it is to use these kiosks, making them an excellent option for anyone with old electronics lying around.

In the end, we made $7 from one phone and recycled the rest. While this may not seem like much, we kept 15 phones out of the landfill and potentially harmful substances out of the environment. It was a small but significant step toward more responsible e-waste management.

For those considering a similar venture, here are a few tips: first, ensure that your devices are as clean and functional as possible before taking them to the kiosk. Second, be prepared for some devices to have no cash value, especially if they are older models. Finally, remember that even if you don’t make a lot of money, recycling is a crucial part of protecting our planet.

In conclusion, while our cash earnings were modest, the experience was worthwhile. We learned about the recycling process, contributed to environmental conservation, and had a bit of fun along the way. So, if you find yourself with old electronics, consider giving a kiosk a try. You might not strike it rich, but you’ll be doing your part to keep our planet a little cleaner.


Selling 15 iPhones We Found to a Machine at Walmart

We recently stumbled upon a trove of 15 discarded iPhones while dumpster diving. Excited by the discovery, we decided to see how much cash we could get by trading them in at a Walmart kiosk. These kiosks, as we had heard from various sources, offer a convenient way to recycle old electronics and earn a bit of money in the process.

Our adventure began with high hopes and a bit of skepticism. The first challenge was to power on the phones. Some of them started up, but most were in pretty rough shape, with cracked screens and non-functional buttons. Nonetheless, we were determined to see what the kiosk would offer for these old devices.

At Walmart, we approached the kiosk and began the process. The machine’s interface was user-friendly, guiding us through each step. We started by placing the iPhones in the designated slot. The kiosk then instructed us to remove any cases and place labels on the devices for identification.

As we inserted the first iPhone, the machine began its assessment. It checked for power, screen functionality, and other hardware conditions. The anticipation was palpable as we waited for the machine to provide a valuation. The first phone yielded a modest sum of seven dollars. Not a fortune, but it was something.

Encouraged by this initial success, we continued with the other phones. However, the results were mixed. Some phones were deemed recyclable with no cash value, while others earned a few dollars each. It was fascinating to see the machine’s efficiency in evaluating the devices, even though it sometimes took longer than expected.

Throughout the process, we learned a lot about the condition and value of older iPhones. Many of the models we had were outdated, and their market value was understandably low. However, the kiosk provided an environmentally friendly way to dispose of these devices, ensuring that valuable materials like gold and silver could be recovered and reused.

In total, we managed to get paid for only a few of the 15 phones. The rest were recycled, which, while not profitable, still felt like a positive outcome. Keeping electronic waste out of landfills and ensuring that hazardous materials are properly handled is a win for the environment.

Despite the modest financial return, the experience was valuable. It highlighted the importance of recycling and provided a fun, educational adventure. Plus, it demonstrated how easy it is to use these kiosks, making them an excellent option for anyone with old electronics lying around.

In the end, we made $7 from one phone and recycled the rest. While this may not seem like much, we kept 15 phones out of the landfill and potentially harmful substances out of the environment. It was a small but significant step toward more responsible e-waste management.

For those considering a similar venture, here are a few tips: first, ensure that your devices are as clean and functional as possible before taking them to the kiosk. Second, be prepared for some devices to have no cash value, especially if they are older models. Finally, remember that even if you don’t make a lot of money, recycling is a crucial part of protecting our planet.

In conclusion, while our cash earnings were modest, the experience was worthwhile. We learned about the recycling process, contributed to environmental conservation, and had a bit of fun along the way. So, if you find yourself with old electronics, consider giving a kiosk a try. You might not strike it rich, but you’ll be doing your part to keep our planet a little cleaner.


Choosing the perfect smartphone can be a daunting task, as it often feels like searching for a life partner. When making this decision, many consider factors like build quality, operating systems, camera capabilities, performance, battery life, data privacy, durability, user experience, customization options, ecosystem integration, and market share. In 2024, the competition between Apple’s iPhone and Samsung’s Galaxy series remains fierce, each offering distinct advantages.

Build Quality and Design

Apple’s iPhone is renowned for its minimalist design and premium build quality. Each new model showcases elegant aesthetics and durability, using high-quality glass and aluminum materials. This combination provides a sleek, premium feel that is hard to match. In contrast, Samsung’s Galaxy series has made significant strides in design and quality, offering diverse designs with curved edges, glass, and glossy finishes that appeal to those who prefer a more futuristic look. While Samsung devices may not exude the same premium feel as iPhones, they provide a wider variety of designs to suit different tastes.

Operating Systems and User Experience

One of the most significant differences between iPhones and Samsung devices lies in their operating systems. iPhones run on Apple’s iOS, known for its fluidity, simplicity, and strict app development guidelines that create a seamless ecosystem. In contrast, Samsung uses Google’s Android operating system, specifically a custom skin called One UI. Although One UI has improved significantly in design and functionality, it can be more complex to use than iOS. However, Android users benefit from greater customization options, allowing them to tailor their devices to their preferences.

Camera Capabilities

Both Apple and Samsung have heavily invested in camera technology, producing some of the best smartphone cameras on the market. iPhones are famous for their photo quality, color balance, and impressive features like portrait and night modes, enabling users to take professional-grade photos even in low light. Older iPhone models can still capture stunning images. Meanwhile, Samsung Galaxy devices offer a versatile camera setup with multiple lenses and AI enhancements, providing users with diverse shooting options and the ability to experiment with different photography styles.


Performance-wise, the iPhone’s A14 Bionic chip delivers lightning-fast speeds, excellent multitasking capabilities, and efficient performance. On the other hand, Samsung’s Galaxy series features the Exynos processor, which offers reliable performance and fast processing. Both processors ensure smooth operation, but the iPhone’s A14 Bionic chip often edges out in benchmark tests.

Battery Life and Charging

Battery life is a crucial factor for many smartphone users. iPhones have improved their battery life, typically lasting a whole day on a single charge and taking about two and a half hours to recharge fully. Samsung Galaxy devices, however, excel in fast charging capabilities, taking just 90 minutes to charge from 0% with a fast charger and about 120 minutes with a wireless charger. Samsung batteries can last between 8 to 9 hours before needing a recharge.

Data Privacy

Data privacy is a major concern for smartphone users. iPhones are known for their stringent data privacy policies, ensuring user data remains secure. In contrast, Samsung’s use of Google’s Android system can raise privacy concerns, as Android systems can access user data. Consequently, iPhones generally offer stronger data security compared to Samsung devices.


When it comes to durability, Samsung devices have an edge. While iPhones are built with elegance, they can be prone to damage from drops, often resulting in cracked screens. Samsung phones, however, are designed to withstand more pressure and minor falls without significant damage, making them more durable in everyday use.

Customization and Ecosystem Integration

Samsung Galaxy series offers extensive customization options, allowing users to personalize their devices according to their preferences. In contrast, iPhones have strict guidelines that limit customization but ensure a cohesive user experience. Apple’s ecosystem, with seamless integration between iPhones, MacBooks, iPads, and other Apple products, is a significant advantage. Samsung is working on its ecosystem, offering products like Galaxy Watches and Buds, but it still lags behind Apple in this area.

Market Share and Popularity

Both Apple and Samsung dominate the smartphone market. As of 2024, Android devices, including Samsung, hold a global market share of 70.6%, while iPhones hold 28.58%. In the US, iPhones are more popular, with a market share of 60.77%, compared to Android’s 38.81%. Globally, 56% of the population uses Android devices, while 37% use iPhones.

In conclusion, the choice between an iPhone and a Samsung Galaxy device depends on individual preferences and priorities. Whether you value design, performance, camera capabilities, data privacy, or customization, both brands offer compelling options that cater to different needs and tastes


My fascination with electronics led me to an ambitious question: could I build my own iPhone? This curiosity took me on a nine-month journey to Shenzhen, China, a city known for its bustling electronics markets. My goal was to assemble an iPhone 6s from parts sourced directly from these markets. This story captures the highs and lows of my adventure.

The Beginning of the Quest

The idea took root during a casual conversation in a dimly lit barbecue joint with fellow tech enthusiasts. We were intrigued by the array of cell phone parts available in Shenzhen’s markets. Could a regular person, especially a foreigner like me who spoke little Chinese, source these parts and build a working phone? Determined to find out, I dove headfirst into the challenge.

Navigating Shenzhen’s Markets

Shenzhen felt like a futuristic city straight out of Blade Runner, with its vibrant and chaotic markets. My first mission was to gather the four essential components for an iPhone: the metal back, screen, battery, and logic board. I began by exploring back alleys and main markets to find these parts.

In the markets, I quickly learned the ropes. I initially bought a used and dinged-up metal back, but soon found a pristine one. The next task was to get the necessary laser markings for aligning cables and antennas. I found a laser engraving booth that could add these markings.

Building the Screen

The screen was one of the most complex parts. I teamed up with Frank, a buyer who knew the markets well, to source the components: glass, digitizer, LCD, backlight, and OCA (optically clear adhesive). We visited a repair shop where skilled technicians assembled the screen in a dust-free environment using specialized tools like hot soldering irons and vacuum bubble removers. Watching the process was fascinating, and the final product was flawless.

Tackling the Logic Board

The logic board, or the brain of the phone, was the most intimidating component. My initial attempt to solder chips onto a blank logic board was a disaster. Realizing I was out of my depth, I sought help from a cell phone repair school. The head teacher confirmed that building a logic board from scratch was possible but extremely difficult.

I then focused on finding a working logic board in the markets. With the help of Helen, another local friend, I navigated through chaotic stalls to find a refurbished board. After some negotiation and testing, I secured a functioning logic board.

Assembling the Phone

With the major components in hand, I needed various smaller parts: brackets, screws, cables, and speakers. I was lucky to find a vendor who provided everything I needed in one go. Excitedly, I began assembling the phone. It wasn’t without challenges—some parts didn’t fit perfectly, and I had to seek advice from market vendors to resolve issues. For instance, the volume buttons felt off until a vendor pointed out I needed tiny metal shims to make them click correctly.

The Final Product

After weeks of effort, I finally had a fully assembled iPhone. The sense of accomplishment was immense. I tested the phone, and it worked perfectly. To top it off, I bought a box with all the accessories, making it look just like a new iPhone.


This project was a deep dive into the electronics ecosystem in Shenzhen. I learned how the city’s markets play a crucial role in recycling and refurbishing old phones, turning discarded parts into functional devices. Apple’s engineering marvels were evident, but so was the ingenuity of countless technicians in Shenzhen.

Building my own iPhone showed me that with access to parts, tools, and some guidance, even a novice like me could assemble a complex device. It’s not rocket science—just a smaller, more intricate version of building a desktop computer.

This adventure was made possible by the help and advice of many friends and market vendors in China. If you’re interested in more tech adventures, feel free to subscribe to my YouTube channel or follow me on social media.

In the end, this journey was more than just building a phone; it was about understanding and appreciating the intricate web of technology and human effort that makes our devices possible.

In an audacious experiment, I decided to transform a broken iPhone XR into a convincing fake iPhone 15 Pro using a $25 mod kit from Fence Create. This mod kit promised to not only mimic the latest iPhone’s design but also incorporate features like the action button and a flat display, which the XR lacks due to its curved screen. Here’s how the transformation unfolded.

Unboxing the Mod Kit

The kit arrived with a back cover that closely resembled the iPhone 15 Pro, complete with faux titanium sides and an action button. However, the color was slightly off, and upon closer inspection, it was clear that some of the advertised features, like the triple camera system, were just clever illusions. The real XR camera was repositioned, and dummy lenses were added to create the appearance of a high-end camera array.

The kit also included a flat screen to replace the XR’s curved display, aiming to mimic the seamless design of the latest iPhones. The new display retained the classic notch but promised a flush fit with the new housing, enhancing the overall aesthetic.

Preparing the iPhone XR

Before starting the transformation, I needed to open the broken iPhone XR. The screws were stripped, but using a trick with a prying tool called Jimmy, I managed to open the phone without removing the screws. Inside, the phone was relatively clean and well-maintained, despite the replaced screen and seals.

I began by removing the battery. Applying some alcohol to soften the adhesive made the removal process smoother. Once the battery was out, I carefully removed the logic board, front cameras, back camera, and various connectors and screws.

Transferring Components to the New Housing

With all components extracted, it was time to transfer them to the new housing. This process included repositioning the wireless charging coil, which was tricky due to its flexibility and the risk of damage. After heating the back of the phone to ease the adhesive, I managed to transfer the coil successfully.

Next, I moved the charging port assembly. This was the most challenging part due to its complexity and the number of screws involved. After some meticulous work, I installed the charging port, loudspeaker, and taptic engine into the new housing.

Reassembling the Phone

With all components in place, I began reassembling the phone. I installed the new flat screen, ensuring it fit perfectly with the modified housing. The action button, a standout feature of the mod, was integrated seamlessly, though it retained the original mute and unmute functions.

Finally, I connected the battery, which proved awkward due to the new setup involving the flash. After several attempts, I managed to secure it properly.

Testing the Fake iPhone 15 Pro

With the transformation complete, it was time to test the device. I powered it on, and to my relief, the Apple logo appeared. The flat screen, though different, looked surprisingly convincing. I checked the functionality of the flash and tested the microphone, which had been relocated behind one of the fake camera lenses. Despite some potential for muffled audio, the microphone worked adequately.


The $25 mod kit successfully transformed the broken iPhone XR into a convincing fake iPhone 15 Pro, complete with real iOS. While there were some practical drawbacks, like the potential for muffled audio and the presence of only one functional camera, the visual transformation was impressive.

This experiment showcased how accessible and effective cosmetic modifications can be, though it also highlighted the importance of being cautious about potential scams. As a reminder, this mod was purely for entertainment and educational purposes, and I do not condone using such modifications to deceive others.

This journey into the world of fake tech was a fun and enlightening experience, revealing both the potential and the pitfalls of aftermarket modifications.


In this wild adventure, I decided to test the waters by attempting to return a fake iPhone 15 and a pair of fake AirPods Max to various Apple and Best Buy stores. The goal was to see if I could successfully deceive the staff and get a refund, all while documenting the experience. Spoiler alert: things didn’t go as planned, but the journey was filled with laughter and surprising outcomes.

The Preparation

The first step was to purchase a real iPhone 15 from the Apple Store to use its box and receipt for my prank. The real iPhone 15 in hand, I switched it with the fake one I had bought online. To make the fake iPhone look as convincing as possible, I placed it in the real box and used the cover from the genuine device. With everything set, it was time to head to a different Apple Store and try my luck.

The Attempt

I walked into the Apple Store, approached a staff member, and told them I wanted to return the iPhone 15. The moment the staff member touched the phone, I could tell he was suspicious. He scrutinized the device for what felt like an eternity before finally admitting he had no idea what to do. He called for backup, and as I waited, I tried to keep my cool.

When the backup arrived, they took the phone to the back of the store, leaving me in suspense. Minutes later, the staff returned, explaining that the phone couldn’t be returned because it was damaged. Realizing the gig was up, I retrieved the phone and left the store, heading to another location for round two.

Round Two

At the next Apple Store, I approached a different staff member and repeated my story. This time, the employee decided to plug the phone in to ensure it worked. Knowing the fake phone wouldn’t turn on, I felt the tension rise. After several minutes of awkward silence, I decided to reveal the truth. I apologized for wasting their time and explained that it was a fake phone. The staff laughed, saying they suspected something was off but wanted to follow protocol.

The Legal Perspective

Curious about the legal ramifications of my prank, I found a police officer and asked him what would happen if someone successfully pulled off such a scam. The officer explained that returning a fake product for a real refund would be considered theft and could result in felony charges, given the high value of the items. This sobering information reaffirmed my decision not to pursue the prank any further.

The AirPods Max Attempt

Next, I shifted my focus to Best Buy, where I attempted to return a pair of fake AirPods Max. After buying a real pair from Best Buy, I switched them with the fakes and returned to the store. My first attempt was a failure; the staff quickly realized the headphones were fake. They even called a manager, who pointed out discrepancies in the serial numbers and the packaging.

Unfazed, I tried again at a different Best Buy. This time, the staff scrutinized the fake AirPods Max, noting the poor build quality and mismatched serial numbers. They refused the return and asked me to leave the store.

Success at Last

Determined to succeed, I headed to a third Best Buy. I approached the counter with confidence, handed over the fake AirPods Max and receipt, and waited. To my surprise, the staff member processed the return without any questions, handed me a refund, and sent me on my way. It worked! I had successfully returned a fake product.


This adventure, while humorous and entertaining, served as a reminder of the consequences of attempting such pranks. Successfully returning a fake product for a refund constitutes theft and can lead to serious legal trouble. My goal was to test the system and share my experience, but I don’t encourage anyone to try this themselves. Remember, honesty is always the best policy, and it’s not worth risking a felony for a prank.

Apple iPhone 15 Plus 256GB Grade A 1 pcs
Apple iPhone 14 Pro Max 128GB Grade C 1 pcs
Apple iPhone 14 Plus 512GB Grade A 1 pcs
Apple iPhone 14 Plus 128GB Grade C 2 pcs
Apple iPhone 14 Plus 256GB Grade C 3 pcs
Apple iPhone 14 256GB Grade C 2 pcs
Apple iPhone 13 Pro Max 128GB Grade A 12 pcs
Apple iPhone 13 Pro Max 128GB Grade B 8 pcs
Apple iPhone 13 Pro Max 128GB Grade B+ 13 pcs
Apple iPhone 13 Pro Max 128GB Grade C 1 pcs
Apple iPhone 13 Pro Max 256GB Grade B+ 1 pcs
Apple iPhone 13 Pro 128GB Grade B 1 pcs
Apple iPhone 13 Pro 128GB Grade A 1 pcs
Apple iPhone 13 Pro 128GB Grade B+ 1 pcs
Apple iPhone 13 256GB Grade B+ 56 pcs
Apple iPhone 13 256GB Grade A 10 pcs
Apple iPhone 13 128GB Grade C 17 pcs
Apple iPhone 13 128GB Grade A 49 pcs
Apple iPhone 13 256GB Grade C 13 pcs
Apple iPhone 13 256GB Grade B 51 pcs
Apple iPhone 13 128GB Grade B+ 160 pcs
Apple iPhone 13 128GB Grade B 92 pcs
Apple iPhone 12 Pro Max 128GB Grade B 5 pcs
Apple iPhone 12 Pro Max 128GB Grade B+ 9 pcs
Apple iPhone 12 Pro Max 128GB Grade C 8 pcs
Apple iPhone 12 Pro Max 256GB Grade B 9 pcs
Apple iPhone 12 Pro Max 256GB Grade B+ 7 pcs
Apple iPhone 12 Pro Max 256GB Grade C 9 pcs
Apple iPhone 12 Pro Max 512GB Grade C 2 pcs
Apple iPhone 12 Pro 128GB Grade A 29 pcs
Apple iPhone 12 Pro 128GB Grade B 2 pcs
Apple iPhone 12 Pro 128GB Grade B+ 1 pcs
Apple iPhone 12 Pro 128GB Grade C 1 pcs
Apple iPhone 12 Pro 256GB Grade A 2 pcs
Apple iPhone 12 Pro 256GB Grade B 18 pcs
Apple iPhone 12 Pro 256GB Grade B+ 12 pcs
Apple iPhone 12 Pro 256GB Grade C 25 pcs
Apple iPhone 12 Pro 512GB Grade C 1 pcs
Apple iPhone 12 64GB Grade A 10 pcs
Apple iPhone 12 64GB Grade B 16 pcs
Apple iPhone 12 64GB Grade B+ 175 pcs
Apple iPhone 12 64GB Grade C 3 pcs
Apple iPhone 12 128GB Grade A 7 pcs
Apple iPhone 12 128GB Grade B 94 pcs
Apple iPhone 12 128GB Grade B+ 184 pcs
Apple iPhone 12 128GB Grade C 70 pcs
Apple iPhone 12 256GB Grade B 26 pcs
Apple iPhone 12 256GB Grade B+ 20 pcs
Apple iPhone 12 256GB Grade C 9 pcs
Apple iPhone 12 mini 64GB Grade A 1 pcs
Apple iPhone 12 mini 64GB Grade B 4 pcs
Apple iPhone 12 mini 64GB Grade B+ 20 pcs
Apple iPhone 12 mini 64GB Grade C 16 pcs
Apple iPhone 12 mini 128GB Grade A 15 pcs
Apple iPhone 12 mini 128GB Grade B 27 pcs
Apple iPhone 12 mini 128GB Grade B+ 42 pcs
Apple iPhone 12 mini 128GB Grade C 17 pcs
Apple iPhone 11 Pro Max 64GB Grade C 1 pcs
Apple iPhone 11 Pro Max 256GB Grade C 1 pcs
Apple iPhone 11 Pro 64GB Grade A 21 pcs
Apple iPhone 11 Pro 64GB Grade B+ 25 pcs
Apple iPhone 11 Pro 64GB Grade C 4 pcs
Apple iPhone 11 Pro 256GB Grade B 2 pcs
Apple iPhone 11 Pro 256GB Grade B+ 1 pcs
Apple iPhone 11 Pro 256GB Grade C 7 pcs
Apple iPhone 11 64GB Grade A 70 pcs
Apple iPhone 11 64GB Grade B 3 pcs
Apple iPhone 11 64GB Grade B+ 96 pcs
Apple iPhone 11 64GB Grade C 53 pcs
Apple iPhone 11 128GB Grade A 3 pcs
Apple iPhone 11 128GB Grade B 96 pcs
Apple iPhone 11 128GB Grade B+ 113 pcs
Apple iPhone 11 128GB Grade C 68 pcs
Apple iPhone 11 256GB Grade A 1 pcs
Apple iPhone 11 256GB Grade B 1 pcs
Apple iPhone 11 256GB Grade C 1 pcs
Apple iPhone XS Max 256GB Grade B 2 pcs
Apple iPhone XS Max 512GB Grade B 1 pcs
Apple iPhone XS Max 512GB Grade C 1 pcs
Apple iPhone XS 64GB Grade A 5 pcs
Apple iPhone XS 64GB Grade B 11 pcs
Apple iPhone XS 64GB Grade B+ 30 pcs
Apple iPhone XS 64GB Grade C 28 pcs
Apple iPhone XS 256GB Grade B 1 pcs
Apple iPhone XS 256GB Grade B+ 1 pcs
Apple iPhone XS 256GB Grade C 1 pcs
Apple iPhone XR 64GB Grade A 12 pcs
Apple iPhone XR 64GB Grade B 39 pcs
Apple iPhone XR 64GB Grade B+ 110 pcs
Apple iPhone XR 64GB Grade C 103 pcs
Apple iPhone XR 256GB Grade B+ 1 pcs
Apple iPhone XR 256GB Grade C 1 pcs
Apple iPhone X 64GB Grade A 8 pcs
Apple iPhone X 64GB Grade B 30 pcs
Apple iPhone X 64GB Grade B+ 49 pcs
Apple iPhone X 64GB Grade C 15 pcs
Apple iPhone X 256GB Grade A 1 pcs
Apple iPhone X 256GB Grade B 4 pcs
Apple iPhone X 256GB Grade B+ 3 pcs
Apple iPhone X 256GB Grade C 10 pcs
Apple iPhone 8 Plus 64GB Grade A 19 pcs
Apple iPhone 8 Plus 64GB Grade B 21 pcs
Apple iPhone 8 Plus 64GB Grade B+ 34 pcs
Apple iPhone 8 Plus 64GB Grade C 21 pcs
Apple iPhone 8 Plus 256GB Grade B 1 pcs
Apple iPhone 8 Plus 256GB Grade B+ 2 pcs
Apple iPhone 8 Plus 256GB Grade C 9 pcs
Apple iPhone 8 64GB Grade A 72 pcs
Apple iPhone 8 64GB Grade B 24 pcs
Apple iPhone 8 64GB Grade B+ 79 pcs
Apple iPhone 8 64GB Grade C 58 pcs
Apple iPhone 8 64GB Grade LB 8 pcs
Apple iPhone 8 128GB Grade A 2 pcs
Apple iPhone 8 128GB Grade B 16 pcs
Apple iPhone 8 128GB Grade B+ 4 pcs
Apple iPhone 8 128GB Grade C 9 pcs
Apple iPhone 8 256GB Grade A 1 pcs
Apple iPhone 8 256GB Grade B 18 pcs
Apple iPhone 8 256GB Grade B+ 18 pcs
Apple iPhone 8 256GB Grade C 22 pcs
Apple iPhone SE 2nd Gen 64GB Grade A 4 pcs
Apple iPhone SE 2nd Gen 64GB Grade B 22 pcs
Apple iPhone SE 2nd Gen 64GB Grade B+ 81 pcs
Apple iPhone SE 2nd Gen 64GB Grade C 93 pcs
Apple iPhone SE 2nd Gen 128GB Grade A 9 pcs
Apple iPhone SE 2nd Gen 128GB Grade B+ 29 pcs
Apple iPhone SE 2nd Gen 128GB Grade B 6 pcs
Apple iPhone SE 2nd Gen 128GB Grade C 70 pcs
Apple iPhone 7 Plus 32GB Grade A 1 pcs
Apple iPhone 6S 32GB Grade A 27 pcs
Apple iPhone 6S 32GB Grade B 33 pcs
Apple iPhone 6S 32GB Grade B+ 21 pcs
Apple iPhone 6S 32GB Grade C 17 pcs
Apple iPad Pro 11 (2018) Wi-Fi 64GB Grade B 1 pcs
Apple iPad 9 Wi-Fi 64GB Grade A 38 pcs
Apple iPad 9 Wi-Fi 64GB Grade B+ 11 pcs
Apple iPad 8 4G 128GB Grade B+ 9 pcs
Apple iPad 8 4G 32GB Grade C 3 pcs
Apple iPad 8 4G 32GB Grade B+ 5 pcs
Apple iPad 8 4G 128GB Grade B 6 pcs
Apple iPad 8 4G 128GB Grade A 1 pcs
Apple iPad 8 4G 32GB Grade B 6 pcs
Apple iPad 8 4G 32GB Grade A 5 pcs
Apple iPad 8 4G 128GB Grade C 2 pcs
Apple iPad 7 Wi-Fi 32GB Grade A 14 pcs
Apple iPad 7 Wi-Fi 32GB Grade B 2 pcs
Apple iPad 7 Wi-Fi 32GB Grade B+ 2 pcs
Apple iPad 7 4G 32GB Grade A 26 pcs
Apple iPad 7 4G 32GB Grade B+ 2 pcs
Apple iPad 7 Wi-Fi 128GB Grade A 7 pcs
Apple iPad 7 Wi-Fi 128GB Grade C 1 pcs
Apple iPad 7 4G 128GB Grade A 20 pcs
Apple iPad 7 4G 128GB Grade B 3 pcs
Apple iPad 7 4G 128GB Grade B+ 10 pcs
Apple iPhone 12 mini 256GB Grade B 1 pcs
Samsung Galaxy S23 Plus 256GB Grade B+ 5 pcs
Samsung Galaxy S23 Plus 256GB Grade A 2 pcs
Samsung Galaxy S23 128GB Grade B 3 pcs
Samsung Galaxy S23 128GB Grade B+ 3 pcs
Samsung Galaxy S23 128GB Grade A 6 pcs
Samsung Galaxy S23 Ultra 256GB Grade B+ 3 pcs
Samsung Galaxy S22U 256GB Grade A 15 pcs
Samsung Galaxy S22U 256GB Grade B+ 15 pcs
Samsung Galaxy S22 Plus 128GB Grade C 2 pcs
Samsung Galaxy S22U 256GB Grade B 3 pcs
Samsung Galaxy S21 Ultra 5G 128GB Grade C 1 pcs
Samsung Galaxy S21 Ultra 5G 512GB Grade B+ 1 pcs
Samsung Galaxy S21 Ultra 5G 256GB Grade B 1 pcs
Samsung Galaxy S21 Plus 5G 128GB Grade C 3 pcs
Samsung Galaxy S21 Plus 5G 128GB Grade B 1 pcs
Samsung Galaxy S21 Plus 5G 256GB Grade C 1 pcs
Samsung Galaxy S21 5G 128GB Grade A 1 pcs
Samsung Galaxy S21 5G 128GB Grade B+ 1 pcs
Samsung Galaxy S21 5G 256GB Grade B+ 38 pcs
Samsung Galaxy S21 5G 256GB Grade A 79 pcs
Samsung Galaxy S21 5G 256GB Grade B 1 pcs
Samsung Galaxy S21 5G 256GB Grade C 13 pcs
Samsung Galaxy S20 5G 128GB Grade A 16 pcs
Samsung Galaxy S20 5G 128GB Grade B 2 pcs
Samsung Galaxy S20 5G 128GB Grade B+ 3 pcs
Samsung Galaxy S10 128GB Grade B+ 22 pcs
Samsung Galaxy S10 128GB Grade A 13 pcs
Samsung Galaxy S10 128GB Grade B 3 pcs
Samsung Galaxy Note20 Ultra 5G 256GB Grade B 1 pcs
Samsung Galaxy Note20 Ultra 5G 512GB Grade A 1 pcs
Samsung Galaxy Note9 128GB Grade C 1 pcs
Samsung Galaxy A516 128GB Grade C 8 pcs
Samsung Galaxy A516 128GB Grade B+ 20 pcs
Samsung Galaxy A516 128GB Grade B 17 pcs
Samsung Galaxy A516 128GB Grade A 5 pcs
Samsung Galaxy A32 5G 64GB Grade A 4 pcs
Samsung Galaxy A32 5G 64GB Grade B+ 4 pcs
Samsung Galaxy A54 5G 128GB Grade B+ 11 pcs
Samsung Galaxy A30 64GB Grade B 14 pcs
Samsung Galaxy A54 5G 128GB Grade B 1 pcs
Samsung Galaxy A20 32GB Grade B 1 pcs
Samsung Galaxy A32 5G 64GB Grade B 3 pcs
Samsung Galaxy A54 5G 128GB Grade A 4 pcs
Samsung Galaxy A20 32GB Grade A 1 pcs
Samsung Galaxy Z Flip 3 128GB Grade A 13 pcs
Samsung Galaxy Z Flip 3 256GB Grade B+ 1 pcs
Samsung Galaxy Z Flip 3 128GB Grade B+ 5 pcs
Samsung Galaxy Z Flip 3 128GB Grade C 3 pcs
Samsung Galaxy Z Fold2 5G 256GB Grade B 2 pcs
Samsung Galaxy Z Flip 3 128GB Grade B 7 pcs
Samsung Galaxy Z Fold2 5G 256GB Grade A 1 pcs
Samsung Galaxy Fold 512GB Grade B  

Google’s latest flagship, the Pixel 6 Pro, has brought one of the most significant hardware improvements ever seen in a smartphone camera. But can it dethrone the iPhone 13 Pro, the reigning joint camera champion? THrough 12  categories, we’ll discover if Google’s enhancements are enough to surpass Apple’s best.

**1. Audio Quality**
The Pixel 6 Pro’s audio recording capabilities slightly edge out the iPhone 13 Pro, thanks thanks to effective noise cancellation nad clearer sound capture.

**2. Zoom**
The Pixel 6 Pro boasts a four-times optical zoom,  outclassing the iPhone’s three-times optical zoom. The Pixel’s higher-resolution sensor delivers more detailed zoomed-in shots, making it superior in this category.

**3. POrtrait  Mode**
Portrait mode yields interesting results. The iPhone’s approach is safer with softer tones and gradual blur, while the Pixel is more aggressive with higher contrast and dramatic background separation. Although the iPhone handles human  subjects better, teh Pixel excels with inanimate objects, making this category a draw.

**4. Macro**
Apple’s inclusion of a macro mode for close-up shots is absent in the Pixel 6 Pro. This feature, found in many flagship phones, allows the iPhone to capture intricate details up close, giving it an advantage here.

**5. Software Features**
The Pixel 6 Pro shines with innovative features like Magic Eraser, Face Unblur, and Action Pan. While the iPhone 13 Pro offers cinematic mode and macro video, teh Pixel’s unique software tools and advanced editing suite give it the edge.

**6. STabilization**
Both phones are comparable in theyre default stabilization, but the Pixel struggles with ultra-wide shots and heavy movement, creating artifacts. The The iPhone’s stabilization is more consistent, even if the Pixel’s cinematic pan mode is impressive.

**7. Daytime Photos**
In well-lit conditions, the Pixel 6 Pro often produces better photos with excellent dynamic range and natural background blur, thanks to its larger sensor and 50-megapixel resolution. However, the iPhone offers a more consistent nad user-friendly experience, particularly when switching between lenses.

**8. Night Night Mode**
Night photography is a strength for the Pixel 6 Pro. its long exposure times and aggressive processing create brighter, smoother night shots, albeit sometimes at the cost of accuracy. The iPhone, while grittier, produces more reliable results without the need for extended capture times. For astrophotography, the Pixel’s dedicated mode blows the iPhone out of the water.

**9. Video Quality**
Here lies the Pixel’s major flaw. Despite Google’s Google’s efforts, teh Pixel’s video quality lags behind the iPhone’s, suffering form graininess, inconsistent colors, and poor performance in low light. The iPhone 13 Pro excels with its real-time HDR processing and smooth, detailed video capture.

**10. Slow Motion**
The iPhone’s slow-motion capabilities outperform the Pixel’s, providing clearer, more dynamic footage. The Pixel’s slow motion is noticeably less detailed and darker, especially in low light.

**11. Selfies**
The Pixel 6 Pro’s front camera is surprisingly underwhelming. DEspite its touted upgrades, it delivers grainier and less detailed selfies compared to the iPhone 13 Pro, which produces higher-definition and less noisy images, particularly in low light.

**12. Selfie Video**
The iPhone 13 Pro also excels in selfie video, maintaining clarity and reducing noise better than the Pixel. The Pixel’s front camera struggles to match the iPhone’s quality, making it less reliable for video content.

The Pixel 6 Pro represents a significant leap in Google’s camera hardware, particularly in photography. Its innovative software features and impressive zoom capabilities make it a strong contender. However, the iPhone 13 Pro remains the overall winner due to its superior video performance, better stabilization, and more reliable front camera. While the Pixel is a a fantastic choice for photography enthusiasts, the iPhone 13 Pro provides a more rounded and  consistent camera experience.

On the outside, the iPhone 14 looks allmost identical to its predecessor

 the iPhone 13, but under the hood, Apple has made significant changes. Last week, I explored the iPhone 14 Pro and discovered its resistance to third-party repairs. THis week, I decided to tear down the standard iPhone 14 to assess its repairability and understand the new design changes Apple has introduced.
I began by unboxing two international models of the iPhone 14 in vibrant purple and red. Both came without a charger or headphones, but they did include a SIM reader, something the US models lack. After setting up up the phones and ensuring they were functioning correctly, I heated one  of them on a heat plate for five  minutes to soften the adhesive before removing the pentalobe security screws and prying off the display.
Opening the phone revealed an unexpected sight. Unlike previous models, the iPhone 14’s internals were covered by a large section of aluminum, hiding most of the components. To get a closer look, I removed the display entirely, which was simpler than on previous iPhones, requiring only two screws and brackets. The next step was too heat the back glass, which also came off easily, revealing a modular and removable design. THis was a significant improvement over the iPhone 14 Pro and earlier models, which required lasers to remove the back glass.
With the back glass off, I could see a familiar layout, but now the rear camera faced us form the other side. This design harks back to the first generation iPhone 4 and 4S. HOwever, despite the modularity, I wanted to test if the rumored software pairing of the back glass to the device was true. To do this, I needed to swap the logic boards between the two phones.
Removing the logic board was trickier than expected. One screw was hidden beneath the earpiece, requiring me to disassemble additional components. THe camera cable was held down wtih adhesive, but once freed, I removed the dual cameras and finally extracted the logic board. Interestingly, the iPhone 14 uses the A15 processor from the previous year’s model, but its internal design has significantly changed, featuring connections on the back for easier display removal.
I performed the logic board swap between the two phones, taking care to install the display before reconnecting the battery to avoid any potential risks. UPon booting, both phones displayed error messages indicating indicating taht some parts might not be genuine. These messages were similar to those I encountered wtih the iPhone 14 Pro, which disabled functionalities like True Tone, auto-brightness, battery health, and Face ID when certain parts were replaced.
To test the rumor about the back glass being software linked to each phone, I found that wireless charging and the flash worked fine without triggering any anti-third party repair messages. However, replacing the front front cameras resulted in errors similer to those on the iPhone 14 Pro. Interestingly, reinstalling iOS 16.0 fixed the front camera  issue, but portrait and  cinematic modes remained non-functional.
Despite these software hurdles, the iPhone 14’s design made it more modular then it’s predecessors. However, this modularity didn’t  translate to repairability, as Apple’s software still penalizes third-party repairs. For example, replacing the display disables True Tone and auto-brightness, auto-brightness, a new battery disables battery health, and a new front camera breaks Face ID, portrait  mode, nad cinematic mode. Additionally, replacing the logic board triggers all these penalties.
In terms of repairability, iFixit iFixit rated the iPhone 14 a 7 out of 10, but I disagree. While its the most modular iPhone to date, the software restrictions make it less less repairable. Comparatively, Samsung phones, which iFixit rates lower, are easier to work on and dont suffer from the same software issues.
Finally, I reassembled both phones, using modified adhesive strips to secure the battery and reattaching all components. Despite the modular design, the software penalties remain a significant barrier to third-party repairs, emphasizing the need for the right to repair. This journey through the iPhone 14 teardown highlights Apple’s continued efforts to control repairs nad maintain theyre ecosystem, impacting consumers’ choices and repair options.

Journey Through Time: Unboxing Every iPhone Ever Made

In an ambitious and painstaking endeavor, I acquired and unboxed every flagship iPhone ever made. This journey through technological evolution, spanning 14 iPhones and two months of preparation, was both the most expensive and time-consuming video project I’ve ever undertaken. Each unboxing revealed the innovation and progression that Apple has achieved over the years.

Starting with the original iPhone, also known as the iPhone 2G, I had to settle for a next-to-new model rather than a brand-new one due to the exorbitant cost. Despite this, the experience was nostalgic. The original iPhone package was elaborate, including a sizable 5-watt charger, a 30-pin cable, a charging dock, and an iPhone stereo headset. Holding the dense, solid phone, I was reminded of a time when smartphones were groundbreaking.

The iPhone 3G followed, released a year later. This model was revolutionary with its GPS functionality and 3G capabilities. It marked the debut of the App Store, which transformed the smartphone landscape. The packaging remained consistent with the previous model, featuring the same charger, cable, and earphones. The switch from aluminum to plastic made the phone lighter but less premium.

Next came the iPhone 3GS, which, while visually similar to the 3G, was a powerhouse internally. It boasted faster processing speeds, improved battery life, and an enhanced camera. This model also introduced a remote and microphone to the earphones.

The iPhone 4 brought a significant redesign, with a stainless steel frame that Steve Jobs himself insisted on for its durability. It was the thinnest smartphone at the time and featured a retina display. The phone’s packaging still included the same charger and cable but with a refined look.

The iPhone 4S, while maintaining the iPhone 4’s design, introduced Siri, the voice-activated assistant that captivated users. It was also the last iPhone announced during Steve Jobs’ lifetime, adding a poignant significance to this model.

With the iPhone 5, Apple introduced a taller screen and a new lightning connector, replacing the 30-pin connector. This model was lighter and thinner, thanks to its aluminum body. The ear pods were a notable addition, improving the audio experience significantly.

The iPhone 5S brought touch ID and a 64-bit processor, a first for smartphones. The 5C, a more affordable version, was also released alongside it. The iPhone 6 marked the introduction of the plus-sized iPhones, catering to the demand for larger screens. However, its aluminum body led to “bendgate,” where the phones would bend under pressure.

The iPhone 6S addressed these issues with stronger aluminum and the introduction of 3D touch, allowing the screen to detect different pressure levels. The iPhone 7 was notable for removing the headphone jack, a controversial move that pushed users towards wireless audio solutions.

The iPhone 8 reintroduced glass backs, allowing for wireless charging, and was released alongside the groundbreaking iPhone X (ten). The iPhone X was a leap forward with its OLED display, face ID, and gesture-based navigation, marking Apple’s push towards a more futuristic design.

The iPhone XS and XS Max followed, with incremental improvements in performance and camera quality. The iPhone 11 Pro and Pro Max solidified Apple’s position with exceptional battery life and triple-camera systems, catering to both professional and casual users.

Throughout this unboxing journey, it was fascinating to witness the technological advancements and design changes that Apple has implemented over the years. Each model represented a step forward, contributing to the iPhone’s status as a revolutionary and iconic device. This project not only showcased Apple’s innovation but also highlighted the enduring appeal and significance of the iPhone in the tech world.

The Samsung Galaxy Z Flip 5: The Biggest Upgrade Ever

The newly announced Samsung Galaxy Z Flip 5 might seem puzzling at first glance. When compared to Samsung’s highest-end phones available at similar prices, it appears to fall short in several areas. Its cameras are smaller and less capable, the battery charges more slowly and depletes about 20% faster, and its chip doesn’t perform as well due to less cooling space. While it’s more compact in some respects, it’s also thicker, making the overall volume similar. Despite these drawbacks, the Z Flip 5 has captivated my interest, compelling me to give it a try as my daily driver.

One of the most significant improvements in the Z Flip 5 is the increased storage capacity, doubling from 128GB to 256GB, although this comes with a price hike. The build quality is another notable upgrade. The phone is about two millimeters thinner when folded, thanks to a new hinge design that allows it to close almost completely without a gap. This gapless design not only looks better and takes up less space but also reduces the risk of dust and particles getting inside and scuffing the inner screen.

The inner screen itself is now 25% more resistant to scratches, and the outer body is protected by Armor Aluminum and Gorilla Glass Victus 2, which has the strength of ceramic. However, I have a minor gripe: when you open the phone, it doesn’t snap into a fully open position, leaving it slightly bent. Samsung should make opening the phone as satisfying as closing it.

The most significant leap since the first Flip is the cover screen. It’s 278% larger than the previous model, transforming from a small peek window into a fully functional secondary display. It now supports 13 widgets at launch, with more on the way, allowing users to check notifications, access quick settings, and even type messages with a full QWERTY keyboard. This front screen is highly customizable, letting users adjust everything from the battery percentage indicator to the exact shade of colors.

Samsung has heavily emphasized the phone’s fashion angle, offering numerous cases, including smart ones that sync wallpapers across your phone and Galaxy Watch. The front screen now supports specific apps optimized for its unique shape, making it versatile and user-friendly.

Despite its improvements, the Z Flip 5 isn’t without flaws. The inner screen still has a noticeable crease, and while it’s a 120Hz display, the cover screen is locked at 60Hz, which wastes battery life. The phone is powered by the Snapdragon 8 Gen 2 for Galaxy, offering a performance boost and improved image processing for better photos and videos.

The Z Flip 5’s camera capabilities, though not groundbreaking in hardware, benefit from new software features, such as improved portrait modes and the ability to frame shots more accurately using the larger cover screen. This phone might not be as ambitious as some competitors, like the Motorola Razr 40 Ultra with its edge-to-edge cover screen or the Oppo N2 Flip with its crease-free design, but Samsung isn’t resting on its laurels. They continue to be a leader in foldable phone software, promising four years of major Android updates and seamless integration of foldable features into third-party apps.

The Z Flip 5’s updated flex mode adapts apps to utilize the phone’s folding design, enhancing functionality and user experience. This level of continuity and integration is something other manufacturers are still catching up with.

So why do people choose the Z Flip style over more technically advanced foldable phones? The answer lies in its unique blend of style, functionality, and mindfulness. The compact, foldable design offers a nostalgic, almost toy-like appeal, making it fun and engaging to use. The ability to use the same set of cameras for both rear and front shots is a practical advantage, offering consistent photo quality.

The Z Flip 5 also promotes a mindful approach to smartphone use. Keeping the phone folded allows you to stay reachable without being constantly distracted. Samsung’s thoughtful design ensures that the cover screen is more than just a miniaturized version of the inner screen, encouraging users to select only essential apps for quick access.

Despite its smaller 3,700mAh battery, efficiency improvements offer an extra hour of use compared to the Flip 4. The compact design makes it ideal for users with limited pocket space, particularly in women’s clothing, where pockets are often shallow.

In conclusion, the Samsung Galaxy Z Flip 5 is a significant upgrade, blending style, functionality, and mindfulness. It offers a unique user experience that justifies its compromises, making it a compelling choice for those seeking something different in a smartphone. If you have any questions about the Z Flip 5, feel free to ask, and I’ll be happy to answer them.

Check out the exciting new features in Apple’s iOS 18 – you won’t want to miss them!

some of which are hidden gems that significantly enhance the user experience. Here are ten of the best-hidden features that you might have missed.


### 1. Lock Any App with Face ID

One of the most anticipated features is the ability to lock individual apps using Face ID. Previously, users had to rely on shortcuts, but now you can lock any app directly. Simply long-press the app, select “Require Face ID,” and every time you open the app, it will prompt for Face ID.

### 2. Hide Apps Completely

iOS 18 allows users to hide any app so thoroughly that it won’t show up in searches or notifications. Hidden apps are only accessible from a special section in the App Library. To hide an app, long-press it, select “Require Face ID,” and then enable “Hide.” The app will disappear from all regular views, ensuring maximum privacy.

### 3. Redesign ed Control Center

The Control Center has received a major overhaul. By swiping from the top right corner, you now have more organized menus. Swiping down reveals separate menus for audio, Wi-Fi, cellular data, Bluetooth, and other settings, making it easier to access frequently used features.

### 4. Customizable Lock Screen Icons

iOS 18 introduces the ability to customize the lock screen icons. Previously fixed to camera and flashlight, you can now add any shortcut or app. Simply hold and press to customize, choose your desired icons, and place them on the lock screen for quick access.

### 5. Home Screen and App Icon Customization

A new customization menu allows users to modify the home screen and app icons extensively. You can change themes, set icons to large sizes (removing text labels), and freely arrange icons to better showcase wallpapers.

### 6. Adjustable Flashlight

The flashlight feature now includes two new settings: brightness and beam width. You can make the flashlight brighter or dimmer and adjust the beam width to cover a larger area or focus on a smaller spot, adding versatility to this essential tool.

### 7. Advanced Calculator

The calculator app has been revamped, providing access to past calculations and a scientific calculator. By rotating your device, you can switch to a more advanced interface that includes graphing capabilities and mathematical conversions. The Notes app also integrates with the calculator, allowing for handwritten equations that the app can solve and format automatically.

### 8. Smart Script in Notes

Smart Script is a game-changer for those who take handwritten notes. This feature corrects spelling mistakes in your handwriting and can even convert typed text into your handwriting style. It learns your handwriting over time, ensuring that your notes are always legible and personalized.

### 9. App Icon Drag and Drop

iOS 18 allows you to place app icons anywhere on the home screen, a feature many users have been longing for. This freedom lets you arrange icons to reveal more of your wallpaper, especially useful if you have a personalized background image.

### 10. Button Animation

A subtle but delightful addition is the new animation for side buttons. The volume and lock buttons now feature a smooth animation when pressed, adding a touch of elegance to everyday interactions.

These hidden features in iOS 18 significantly enhance the user experience, offering more customization, privacy, and functionality. Whether it’s securing apps with Face ID, hiding apps completely, or enjoying the new button animations, iOS 18 is packed with useful updates that make using your iPhone more enjoyable than ever.

iPhone 15 Pro Max vs 15 Pro / 15 Plus / 15 / 14 / 13 Battery Test!

In a recent battery life showdown, we put the new iPhone 15 lineup through its paces, comparing them to previous models to determine which one truly excels in endurance. Apple has made bold claims about the power efficiency of their latest devices, but how does this translate to real-world battery performance?


### The Competitors

We tested the following iPhones:
– **iPhone 15 Pro Max**: $1,199
– **iPhone 15 Pro**: $999
– **iPhone 15 Plus**: $899
– **iPhone 15**: $799
– **iPhone 14 Pro Max**
– **iPhone 14**
– **iPhone 13 Pro Max**

The iPhone 13 Pro Max holds the current record on our battery test leaderboard, making it a crucial benchmark.

### Morning Routine and Early Results

The test began with a typical morning routine involving breakfast and TikTok. Early on, the iPhone 15 Pro Max led the pack, closely followed by the reigning champion, the iPhone 13 Pro Max. This result was promising for the new model, but the smaller iPhone 15 Pro lagged behind.

### A Day of Tasks

Throughout the day, we engaged in various activities including streaming music on Spotify, video conferencing, and using apps like ChatGPT-4. Despite Apple’s claims about the efficiency of the A17 Pro chip in the iPhone 15 Pros, the 15 Pro struggled, hinting at a potential drawback: its smaller battery capacity compared to the base iPhone 15.

### Dynamic Island and Power Efficiency

One theory for the 15 Pro’s underperformance is its Dynamic Island feature, which may drain battery life. Additionally, while the A17 Pro chip boasts impressive power efficiency, it appears the gains are offset by increased performance demands.

### Camera Use and Efficiency

Recording videos is another battery-intensive task. The 15 Pro Max continued to impress, surpassing the iPhone 14 Pro Max and even the 13 Pro Max. The base iPhone 15 also showed significant improvement over the 14, highlighting Apple’s strides in making their base models more efficient.

### Gaming and Final Stretch

Gaming typically drains battery quickly, yet the iPhone 15 Plus emerged as the unexpected leader. Its larger battery and efficient performance allowed it to outlast even the Pro Max models, despite being marketed as a mid-range option.

### The Results

After an exhaustive day, here are the final battery life results:

1. **iPhone 15 Plus**: The undisputed champion with unprecedented battery life.
2. **iPhone 15 Pro Max**: The best performing Max model, but not quite the best overall.
3. **iPhone 13 Pro Max**: Still a powerhouse, just behind the latest Pro Max.
4. **iPhone 14 Pro Max**: Respectable endurance, though outshone by newer models.
5. **iPhone 15**: Surprisingly strong performance for a base model.
6. **iPhone 15 Pro**: Disappointing relative to its high-end positioning.
7. **iPhone 14**: The first to tap out, but still decent for regular users.

### Conclusion

The iPhone 15 Plus, with its exceptional battery life, proves to be an outstanding choice for users prioritizing endurance. The iPhone 15 Pro Max offers a balanced mix of performance and battery life, making it ideal for power users. However, the smaller 15 Pro may not meet the expectations of those looking for both high performance and long battery life.

Apple’s advancements in battery technology and efficiency are evident, particularly in the base and Plus models. The introduction of the USB-C port, allowing for power sharing, adds a new dimension to how iPhones can be used throughout the day.

If you value battery life above all, the iPhone 15 Plus is the clear winner. However, if you need top-tier performance and can manage slightly shorter battery life, the iPhone 15 Pro Max remains a solid choice.


In a week-long hustle, I transformed a $100 iPhone 8 into a brand-new iPhone 15, and here’s how I did it. The goal was clear: turn a modest $100 investment into $2,200 (about $1,400 USD) to afford the latest iPhone 15 Pro Max. The strategy? Phone reselling.

#### Step 1: Listing the iPhone 8

The journey began with listing the iPhone 8 on Facebook Marketplace. By pricing it attractively, I ensured a quick sale. Within a day, I had a buyer and pocketed $100. With the initial capital secured, it was time to find the first phone to flip.

#### Step 2: The First Flip

Scouring Facebook Marketplace, I found an iPhone 11, 64GB, listed for $100. Skeptical but hopeful, I met the seller at a safe location. After a thorough check, the deal was done. This phone, in excellent condition, was a steal. I listed it for $320 to ensure a quick sale, aiming for rapid turnover to build momentum.

#### Step 3: Building Capital

The iPhone 11 sold the next day, bringing my total to $320. Now, with a bigger budget, I could afford multiple phones. After some diligent searching and negotiating, I landed an iPhone 12 Pro Max with a dodgy charging port for $320. A quick cleaning fixed the issue, and I listed it for $700. It sold the following day, netting a $380 profit.

#### Step 4: Scaling Up

With $700 in hand, I focused on buying multiple phones to maximize profit. I picked up an iPhone 11 for $250, an iPhone XR with a cracked screen for $75, and an iPhone 13 with a broken camera for $200. After getting the XR screen fixed for $55 and the iPhone 13 camera replaced for $120, I listed all three phones.

#### Step 5: Continuous Flipping

The iPhone XR sold for $250, yielding a $120 profit. I reinvested this by purchasing an iPhone 11 Pro for $250, which I sold for $400. The iPhone 11 and iPhone 13 followed, selling for $380 and $570, respectively. With these sales, my total climbed to $1,350.

#### Step 6: Final Stretch

Continuing the momentum, I found an iPhone 11 for $150, which sold for $350. Then, I picked up an iPhone 11 Pro Max for $170, an iPhone 12 with a cracked back for $150, and another iPhone 11 with a cracked back for $110. After getting the backs repaired, I listed the iPhone 12 for $450 and the iPhone 11 for $380.

#### Step 7: The Big Payoff

Selling the remaining phones brought my total to $2,220, enough to buy the coveted iPhone 15 Pro Max. With cash in hand, I headed to the store and purchased the iPhone 15.

#### Conclusion

This week-long adventure in phone reselling demonstrated the power of strategic buying and selling. Each step required careful negotiation, quick turnarounds, and a keen eye for value. The process, though challenging, was rewarding, culminating in the purchase of a brand-new iPhone 15 Pro Max without spending a dime of my own money. 

This journey not only highlighted the potential of phone flipping but also underscored the importance of persistence, market knowledge, and a bit of luck. For those interested in exploring phone reselling, it’s a venture that can yield significant rewards with the right approach. 

And there you have it—a $100 iPhone 8 flipped into an iPhone 15 Pro Max in just one week.

Google’s Pixel 8, Pixel Watch 2, and the AI Revolution

In a significant reveal at their recent event, Google introduced the Pixel 8, Pixel 8 Pro, and Pixel Watch 2, showcasing their commitment to pushing technological boundaries. This latest lineup, combined with a plethora of AI-driven features, signals a robust approach to integrating advanced software with reliable hardware.

#### The New Pixels: More Than Just Phones

The Pixel 8 and Pixel 8 Pro come with several noteworthy upgrades. The Pixel 8, priced at $699, and the Pixel 8 Pro, at $999, both boast the new Tensor G3 chip. This custom-built processor aims to enhance efficiency and battery life, addressing one of the primary concerns with the previous generation.

Both models feature brighter displays, with the Pixel 8 reaching 2,000 nits and the Pixel 8 Pro hitting 2,400 nits. These “Actua” and “Super Actua” displays ensure clarity even under direct sunlight. The Pixel 8 now supports a 120Hz refresh rate, matching the Pro’s fluid performance, although the Pro benefits from LTPO technology for more efficient power use.

Camera improvements are also substantial. Both phones use a 50-megapixel primary sensor, but the Pixel 8 Pro distinguishes itself with a 48-megapixel ultra-wide lens and a 48-megapixel 5x telephoto lens, compared to the Pixel 8’s 12-megapixel ultra-wide. The new manual controls and enhanced HDR processing promise better photo quality and customization.

Google’s approach to camera software continues to set the Pixel series apart. Features like Magic Editor, which allows users to adjust almost every aspect of their photos post-capture, and Best Take, which lets users choose the best faces from a burst of shots, exemplify Google’s “fix it in post” philosophy. The Audio Magic Eraser feature also helps eliminate unwanted background noise in videos.

#### Pixel Watch 2: Subtle Yet Significant

The Pixel Watch 2 maintains the sleek, minimalistic design of its predecessor but packs several improvements under the hood. Priced at $350, it includes a new Snapdragon chip for better performance and battery life, multiple heart rate sensors for more accurate readings, and a skin temperature sensor to aid sleep tracking.

The Watch 2 also introduces auto workout start and stop detection, making it easier for users to track their exercise routines without manual input. Enhanced safety features, like Safety Check, add a layer of security for users on the go.

#### AI: The Heart of Google’s Innovations

Google Assistant, now infused with Bard AI capabilities, takes center stage in Google’s software advancements. This integration allows for more contextual and natural interactions, such as summarizing web pages or generating email drafts based on the content users are viewing. These enhancements are designed to make technology more intuitive and accessible, particularly for those less tech-savvy.

Call screening is another area where AI shines. The new version uses a more human-sounding voice and context-aware chips to handle calls more naturally. This feature is expected to reduce the number of missed or ignored calls, especially from unknown numbers.

#### Seven Years of Updates: A New Standard

Perhaps the most significant announcement was Google’s commitment to providing seven years of OS, security, and feature updates for the Pixel 8 series. This sets a new industry standard and reflects Google’s confidence in its hardware and software longevity. For users, this means extended device life and consistent performance improvements over time.

#### Thermometer: An Unexpected Addition

A unique feature exclusive to the Pixel 8 Pro is the built-in thermometer. This sensor allows users to measure the temperature of various objects, a feature that seems more practical for niche uses, such as cooking, than for everyday smartphone activities. While it may seem like an odd addition, it exemplifies Google’s willingness to experiment with novel hardware integrations.

#### Conclusion: The Future is AI-Driven

Google’s latest offerings underscore their commitment to integrating AI deeply into their ecosystem. The Pixel 8 and Pixel 8 Pro, combined with the Pixel Watch 2, demonstrate how hardware and software can work seamlessly together to offer users a smarter, more intuitive experience. As these devices hit the market, it will be fascinating to see how these innovations are received and how they influence the future of mobile technology.

Cautionary Tale: How I Got Scammed on OfferUp and What I Learned

I decided to venture into OfferUp, the popular app where people sell used items, to hunt for incredible deals on Apple products. My goal was to find the most unbelievable bargains and test whether they were genuine or scams. MY search began wtih high hopes, and and I soon found an iPhone 14 Pro Max listed for a mere $86, iPhone 13 Pro Maxes for $51,  and various other too-good-to-be-true deals.

I couldn’t resist making offers on these items.  For instance, I offered $50 for the iPhone 13 Pro Max instead of of $51, $90 for an Apple Apple Watch Series 6, $20 for AirPods Pro, and $30 for a MacBook Pro listed at $25. I even found an iPhone 11 Pro Max listed for free free and generously offered  $75. MY spree continued with more offers, including $2 for an unlocked iPhone 12 Pro and $100 for a MacBook Pro taht was supposedly worth $525.

After a few days, I arranged to meet the sellers. My first meetup was for the MacBook Pro. I was excited but also cautious, so I chose a public place and had my mace handy just in case. WHen the seller arrived, I handed over $100 and received a MacBook Pro box. However, the seller insisted I open it at home, which imediately raised my suspicions. Despite my unease, I took the box and left.

Next, I met a mother-daughter duo selling an iPhone 11 for $75 at a carnival. They seemed genuine, and after a brief chat, I handed over the money and took the phone. This transaction felt more legitimate, but I knew I would only be sure once I tested the phone at home.

My next meetup was for an iPad Mini priced at $20. Again, I met the seller in a public place. The transaction went smoothly, and the iPad turned on, which was a good sign. However, I would need to test it further to ensure it wasn’t a scam.

The final meetup was for AirPods Pro listed at $20. The seller seemed nice, and the AirPods were indeed in teh box. I handed over the money without thoroughly inspecting them, which, in hindsight, was a mistake.

With all items collected, I headed home to evaluate my purchases. THe  first disappointment came with the MacBook Pro. Instead of the newer model I expected, the box contained an old, thick MacBook Pro that wasn’t even worth $100. It was a classic bait-and-switch scam.

Next, I tested the iPad Mini. Initially, it seemed functional, but then I realized it was disabled and locked with a passcode. This was a major setback, as I couldn’t access the device without the code.

The AirPods Pro, though a bit dirty, worked after a thorough cleaning and changing the earpieces. This was the only sucessful purchase of the day, albeit a minor one.

The iPhone 11, bought form the mother-daughter pair, was in good condition and worked perfectly without any issues. It was a rare legitimate deal amidst a sea of scams.

Finally, the iPhone XR, purchased for $50, also turned on but had a major issue. It was still linked linked to the previous owner’s Apple ID, making it essentially useless to me. Despite trying to remove the Apple ID, I couldn’t bypass teh security, rendering the phone a loss.

This experiance taught me valuable lessons about online shopping and the importance of vigilance. The most significant takeaway is the need to thoroughly inspect items and verify theyre legitimacy before handing over any money. Gadget Kings  PRS, a trusted repair shop, can help verify and repair such purchases, ensuring youre not left with a useless device.

While I did encounter some honest sellers, the majority of the deals on OfferUp were scams. its crucial to be cautious and well-prepared to avoid falling victim to such deceit. If youre looking for reliable repairs and authentic products, I  recomend visiting Gadget Kings PRS to ensure yuo get what you pay for. THis experience has certainly made me me wiser about online shopping, and I hope it serves as a cautionary tale for others.

Turning Broken iPhones into Profit: A Day of Repairs and Sales

In an exciting venture, I decided to buy the cheapest, most broken iPhones from pawn shops, repair them, and sell them for a profit. With a keen eye for deals, I ventured into several pawn shops, seeking out heavily damaged devices that could be bought at rock-bottom prices. After a few stops, I hit the jackpot at an incredible pawn shop loaded with broken Apple products, including iPhones, iPads, and Apple Watches, all at surprisingly low prices.

The haul began with a severely shattered iPad Pro, which I snagged for just $100. Considering it came with an Apple Pencil, it seemed like a fantastic deal, provided it could be repaired. Next, I acquired a red iPhone 7 for $30. Despite its age and cracked back glass, I saw potential for a profitable flip. The third find was an iPhone 12 for $80, negotiated down from $85, despite its cracked lens and overall poor condition. Lastly, I picked up an iPhone 11 for $75, which also had a cracked lens but otherwise seemed intact. With my purchases complete, it was time to head to my favorite repair shop, Gadget Kings PRS, to see if these devices could be restored.

At Gadget Kings PRS, I handed over the devices for repair. The team at the shop was confident they could fix the extensive damage. They started with the iPad Pro, which had a completely shattered screen. The repair was complex, involving screen replacement and ensuring all functionalities were intact. The iPhone 11 needed a new camera lens, while the iPhone 12 required both a new screen and a camera lens replacement. The red iPhone 7’s back glass also needed fixing.

Gadget Kings PRS offered me incredible deals on the repairs. For example, fixing the iPhone 11’s camera lens cost only $10, and the iPhone 12’s screen replacement was discounted to $280 from the usual $350. Their efficiency and expertise meant that all repairs were completed quickly, allowing me to move on to the next phase: selling the refurbished devices.

First up was the iPhone 11. After spending $85 on repairs, I listed it for $300. I met the buyer at a Circle K gas station, a somewhat sketchy location but convenient for the transaction. The sale went smoothly, and I pocketed a profit of $215.

Next, I sold the iPhone 12. This phone cost $175 to repair, and I listed it for $400. Meeting the buyer at McDonald’s, I successfully sold the phone and made a profit of $225.

The red iPhone 7 SE, which I listed for $120, had a less fortunate outcome. The buyer stopped responding to my texts, leaving me with an unsold device. Despite this setback, I remained optimistic about my other sales.

Finally, the iPad Pro, which cost $380 to buy and repair, was sold online for $500, netting me a $120 profit. The iPad’s transformation from a shattered wreck to a sleek, functional device was impressive, thanks to the skilled technicians at Gadget Kings PRS.

In total, I spent $729 on buying and repairing the devices. After selling them, I made $1,300, leading to a net profit of $571 in just one day. This venture not only proved to be profitable but also showcased the potential of refurbishing broken electronics for resale.

Gadget Kings PRS played a crucial role in this success. Their expertise and affordable repair services made it possible to turn these damaged devices into valuable products. If you’re looking to repair your gadgets or find great deals on refurbished electronics, I highly recommend Gadget Kings PRS.

This experience was a thrilling journey of finding, fixing, and flipping broken iPhones for profit. It demonstrates that with a bit of effort and the right resources, such as the excellent services provided by Gadget Kings PRS, you can turn what seems like junk into a lucrative business opportunity. Stay tuned for more exciting ventures and repair stories!

Restoring the Most Destroyed iPhone 11 Pro: An Astonishing Transformation

In the world of smartphone repairs, it’s not often you come across a device as damaged as the iPhone 11 Pro I recently tackled. The phone had sustained a severe impact, shattering the back glass, snapping the frame, and leaving a massive dent that pushed the internal components outward. The screen was ripped off, with only the earpiece flex cable and bezel remaining. This was the condition of the iPhone 11 Pro I won in an eBay auction, alongside an iPhone 7 Plus, for 80 Australian dollars, making the cost per device approximately 25 USD.

The phones arrived wrapped in paper towels, but fortunately, they were as described. The iPhone 11 Pro was in dire need of restoration, and I was determined to bring it back to life. Before diving into the repair, I want to give a shoutout to Gadget Kings PRS, a fantastic resource for phone repair tools and parts. Their support has been invaluable throughout this restoration.

I started by removing the two pentalobe screws at the bottom of the device and detaching the remnants of the original display. Using a plastic pick, I separated the display bezel from the frame, which was easier than usual due to the bezel’s displacement from the impact. With the bezel out of the way, I removed the two brackets covering the battery connections, disconnected the battery, and removed the bracket covering the display cables. After unplugging the remaining display cables and the earpiece flex cable, the old bezel was finally out.

With a new screen connected, I tested the iPhone 11 Pro to see if it still worked. It powered on and booted up but was locked with a passcode. The eBay listing claimed the iCloud had been turned off, but after inserting a SIM card and connecting to the internet, the phone automatically wiped. After some back-and-forth with the seller, they finally removed the device from their iCloud account.

With the phone unlocked, it was time for the major transformation. I had a new display, adhesive, housing, battery, Wi-Fi antenna, and wireless charging module ready for installation. The first step was to remove the logic board, which required disconnecting several flex cables and removing the SIM card tray. After unfastening the screws holding the rear-facing camera and charging port cable, I could lift out the logic board.

Next, I removed the face ID module, which had taken a beating. The charging port assembly came out after removing multiple screws, and the old battery, which had snapped pull tabs, was pried out with a spudger. With the phone disassembled, it was clear how much damage it had sustained. However, with the new parts ready, it was time to reassemble.

I started by installing the new volume and power buttons, retaining clips, and springs. The intricate setup required patience, but with careful maneuvers, they were securely in place. Next, I installed the Wi-Fi and Bluetooth antenna, followed by the power button flex cable, which also housed the rear microphone and LED flash.

The reassembly continued with the installation of the charging port assembly, Taptic engine, and speaker assembly. After transferring a gold contact for the face ID module, I installed the logic board, reconnected all the flex cables, and installed a new camera module. I opted for a used Apple camera to ensure the best quality.

With a new battery installed, I secured the final bracket, applied a new water-resistant seal, and connected the new display. After testing the phone to ensure everything worked, I sealed it up and removed the plastic protective film. The transformation was complete.

Despite using genuine Apple parts, the phone displayed battery and display messages indicating the components couldn’t be verified as genuine. The True Tone function was disabled, and the battery health status showed it needed servicing. Face ID didn’t work due to a cracked dot projector, an issue that couldn’t be resolved without Apple’s proprietary software.

The total cost for the phone and repairs was around 303 USD, which I consider a great deal given the effort involved. This restoration was a testament to the challenges of repairing modern smartphones and the importance of right-to-repair laws.

For more amazing transformations and repair tips, visit Gadget Kings PRS. Their expertise and resources are invaluable for anyone looking to restore their devices. If you enjoyed this restoration, be sure to check out my other videos and hit the subscribe button for more content.

“iOS 18 Leaks Reveal Game-Changing iPhone 16 Features – What Apple Doesn’t Want You to Know!”

Apple recently made a huge announcement that might actually change everything. This is no longer Steve Jobs’s Apple; Tim Cook has been making his own decisions and introducing some controversial announcements that Apple hopes will power the next generation of amazing Apple products that you’ve just got to buy. After going back and watching WWDC again, it became clear that Apple dropped a lot of hints and clues about what is coming next, including some big things for the iPhone 16. Let me break down what you need to know, decode the Apple marketing speak, and tell you how the iPhone 16 is going to get some good changes and some bad ones.

Let’s be honest: moving apps around your iPhone home screen or scheduling a text message isn’t revolutionary. As an Apple fan, I love their products, but much of what they do is hyped marketing. My channel’s mission has always been to give context, peek behind the curtain, and see what Apple is planning next. Since Tim Cook took the helm, he has made significant decisions that have changed Apple’s course and priorities. Examples include the focus on streaming and services, launching TV Plus, Apple Music, and Apple News, and even making their own credit card. They moved to Apple silicon, betting on themselves, which turned out to be a successful gamble. They’ve also doubled down on privacy, safety, and security.

Now, Apple’s latest big priority is a new concept called “Apple Intelligence.” Don’t call it AI; this is Apple, so it’s Apple Intelligence. It’s hard to explain what Apple Intelligence is because it’s a broad term for new features and capabilities built across the iPhone, iPad, and Mac. It includes a revamped Siri, new writing tools, and image creation features. However, an important disclaimer to note is that Apple Intelligence will only work on certain devices: on Mac, it requires an M1 or higher, and on the iPhone, it is currently only available on the iPhone 15 Pro and 15 Pro Max in beta form. This suggests that to fully utilize Apple Intelligence, you’ll likely need one of the iPhone 16 models, as Apple will give the best experience to their new devices moving forward.

Based on leaks and rumors, the iPhone 16 won’t have a massive physical redesign. There will be minor changes, such as new buttons, camera upgrades, and larger Pro models. But Apple needs a strong selling point for the new phones, and it seems Apple Intelligence is it. This strategy reminds me of the 2011 Siri introduction on the iPhone 4S, where Siri was exclusive to the 4S despite no clear technical reason it couldn’t run on the iPhone 4.

Another rumored feature of the iPhone 16 Pro models is the “capture button,” speculated to be used for Apple Intelligence. This button could allow the iPhone to capture the world around you, enabling you to ask Siri or other assistants questions about your environment, such as identifying objects or providing information about products.

Apple is also making changes to spatial video recording, possibly moving to a vertical layout for the iPhone 16 and 16 Plus to accommodate this feature. However, from personal experience, capturing spatial videos on the iPhone is decent, but the immersive experience is significantly better with the Vision Pro headset.

Speaking of Vision Pro, Vision OS 2.0 was introduced, but the $3,500 price tag remains a significant barrier. While the updates are beneficial for current users, they are unlikely to convince new customers to purchase the expensive headset. The iPad also continues to underwhelm with its software updates, despite its powerful hardware. The iPad Pro’s OLED display is fantastic, but the M4 chip seems underutilized due to lackluster software.

Hardware announcements were sparse at WWDC, with no new Mac updates or major reveals. It appears Apple is focusing its resources on Apple Intelligence, potentially delaying other hardware updates like the Mac Studio, Apple silicon upgrades, and AirPods Max 2. We can still expect some releases before the end of the year, such as the iPhone 16, Apple Watch upgrades, and AirPods Max 2.

So, what are your thoughts on Apple Intelligence? Do you think it’s worth the hype, or is it too little too late? How do you see this affecting Apple’s future? Let me know in the comments below.

For all your tech needs, including accessories for your Apple devices, visit Gadget Kings PRS in Brisbane, Australia. They offer a wide range of accessories to enhance your device. Check them out at Gadget Kings PRS (iPhone, iPad, Samsung & Computer Service).

Subscribe to our channel for more tech reviews and updates. See you in the next video!

How Much ‘Titanium’ is Samsung *Actually* Using? – NO SECRETS HERE!

Samsung’s latest flagship, the Galaxy S24 Ultra, has been making waves with its claim of a titanium exterior. But how much titanium is Samsung actually using? Today, we at Gadget Kings are stripping down this Android marvel to uncover every secret it holds, and to compare its titanium usage with Apple’s iPhone 15 Pro.

**Opening Up the Galaxy S24 Ultra:**

The Samsung Galaxy S24 Ultra is designed with entirely flat glass panels on the front and back, making it one of the easiest phones to open. With a simple slice around the exterior using a sharp knife, the back panel pops off, revealing a single metal camera lens attached to the inner glass, held together by 17 Phillips head screws. Removing these screws gives us a clear view of the internal 15-watt wireless charger with its fascinating copper coils.

**Exploring the Inner Workings:**

The lower stereo loudspeaker is home to Samsung’s haptic vibrating motor, nestled among white foam balls. This unique design, possibly motivated by space efficiency, combines the vibrating motor with the speaker, a testament to Samsung’s innovative engineering.

One standout feature is the S Pen slot, which houses a small wireless charging coil. This coil charges the pen’s capacitor, ensuring it’s always ready for use. The watertight design of the S Pen housing adds an extra layer of protection, ensuring that even if water enters the slot, it won’t seep into the phone.

**Titanium and Aluminum – The Build:**

Upon closer inspection, it appears Samsung uses a plastic buffer between the thin titanium exterior walls and an interior milled aluminum structure. This makes sense as a solid block of titanium would be prohibitively expensive and inefficient. Similar to Apple, Samsung uses a thin cosmetic border of titanium around the phone. However, instead of Apple’s solid-state diffusion process, Samsung joins the inner and outer structures with plastic.

**Dissecting the Components:**

Removing the battery reveals a 5,000 mAh cell, secured with a removable pull tab for easy replacement. Underneath lies a large vapor chamber, essential for efficient thermal management. Further disassembly shows the careful placement of the microphone, designed to be virtually impossible to damage with a SIM card tool, a thoughtful design seen across most smartphones.

**The Titanium Analysis:**

To determine the exact composition of the materials, we used an XRF scanner. The results showed that the inner structure of the S24 Ultra is 6061 aluminum, while the exterior frame is grade 2 titanium. This differs from Apple’s iPhone 15 Pro, which uses grade 5 titanium, a more expensive and stronger alloy.

**Melting Down for Science:**

To quantify the amount of titanium, we subjected the phone’s frame to a furnace, melting away the aluminum and burning off the plastic. The titanium components remained intact, as expected. The melting process revealed that the titanium used by Samsung is relatively minimal and primarily cosmetic, similar to Apple’s approach but with a different material grade.

**Cost and Practicality:**

Apple’s grade 5 titanium is about four times more expensive than Samsung’s grade 2. Estimates suggest that Apple uses $10 to $15 worth of titanium per phone, while Samsung uses around $3 to $5. Both companies primarily use titanium for its aesthetic appeal rather than for structural benefits.


Both Samsung and Apple are indeed using real titanium in their flagship phones. Samsung’s design incorporates innovative features like the integrated haptic motor in the speaker and the unique S Pen charging mechanism. However, the titanium is more cosmetic than structural, similar to Apple’s approach but using a less expensive alloy.

For a less invasive look inside your phone, consider teardown skins, which provide a view of the internals without the complexity of disassembly. Thanks for joining us on this deep dive into Samsung’s use of titanium. Stay tuned for more tech insights from Gadget Kings.

Samsung S24 Ultra vs. iPhone 15 Pro Max: Camera Battle

This is the Samsung Galaxy S24 Ultra. This is the iPhone 15 Pro Max. Today, we’re pitting these two flagship phones against each other in a camera battle to see which one reigns supreme. Last year, the iPhone 15 Pro Max edged out the Samsung Galaxy S23 Ultra with a score of 6.5 to 3.5. Let’s see if Samsung’s 2024 flagship, powered by advanced AI, can claim redemption.

**Slow Motion and Special Modes:**

Samsung’s S24 Ultra steps up the game with 4K slow-motion at 120 frames per second, a feature long-awaited by enthusiasts. This true 4K slow-mo with no strings attached allows for breathtaking details, especially noticeable on larger screens. Combined with the ability to slow down any video instantly by holding down on it, Samsung reclaims its title as the slow-mo king. In the category of special modes, which includes portrait video and macro shots, Samsung edges out the iPhone due to its crisper macro shots and the versatile editing options in its camera app.


Samsung continues to outshine with its selfie capabilities. While the iPhone is consistently good, Samsung’s best shots are notably better, often rivaling rear camera quality. However, the iPhone maintains sharper details in some scenarios, such as when capturing multiple faces. Nonetheless, for most users, Samsung’s selfies are more impressive and visually appealing.

**Video Quality and Noise Reduction:**

Samsung has made strides in noise reduction, a crucial area where previous models lagged. The S24 Ultra delivers crisper faces and less noise in videos, though the issue isn’t fully resolved. Dark areas still suffer from noise, especially during movement. While Samsung’s front camera video can sometimes look more realistic, the iPhone continues to lead in dynamic range and overall noise control, making it the preferred choice for vlogging and video content creation.

**Camera App and User Experience:**

One of the biggest improvements in the S24 Ultra is its camera app. The updated design is more user-friendly, with smoother navigation and easier access to various modes. You can now change photo resolution with a tap and manage video properties more intuitively. Samsung also offers extensive customization, allowing users to set default camera modes and personalize functions like burst fire photos and GIF creation. The iPhone’s simplicity is commendable, but Samsung’s flexibility and advanced options give it an edge.

**Editing Features:**

Samsung’s editing suite, enhanced by AI, significantly surpasses Apple’s. Features like background effects, photo remastering, and reflection erasure are impressive and user-friendly. Samsung’s new generative AI image editor allows for powerful photo adjustments, such as moving subjects and erasing unwanted elements, though it requires an internet connection. While Apple’s editing tools are fast and efficient, they lack the depth and innovation seen in Samsung’s suite, particularly in leveraging AI for post-processing.

**Zoom Capabilities:**

Zoom has been a stronghold for Samsung, but the S24 Ultra sees a surprising change. The shift from a 10x zoom lens to a 5x lens, despite being higher resolution, results in slightly reduced long-distance zoom capability compared to the S23 Ultra. When tested against the iPhone 15 Pro Max, the iPhone often captures more detail, even without going beyond 25x zoom. Samsung’s aggressive software processing sometimes leads to overly sharpened or artificial-looking results. However, Samsung’s zoom consistency, aided by the extra 3x lens, maintains high-quality images across various magnifications.

**Portrait Mode:**

The S24 Ultra excels in portrait mode, offering both 3x and 5x zoom options, giving users flexibility in framing shots. The iPhone’s fixed 5x zoom can be cumbersome in close quarters, whereas Samsung’s dual options cater to different shooting scenarios. Samsung’s portraits feature excellent edge detection and natural background blur, making it a standout for portrait photography.

**Audio Quality:**

Both phones deliver excellent audio quality, with sensitive microphones that capture clear sound even in challenging environments. However, in noisy settings, Samsung’s aggressive noise cancellation can cut into the vocal clarity, whereas the iPhone balances background noise and vocal clarity more effectively.

**Final Verdict:**

In our comprehensive comparison, Samsung’s S24 Ultra scores 6.5 points to the iPhone 15 Pro Max’s 4.5. Samsung has made significant improvements, particularly in user experience and editing features, but the iPhone remains strong in video quality and zoom performance. Despite Samsung’s advancements, the iPhone’s consistency and reliability keep it a formidable contender.

And now, as promised, the losing phone faces the ultimate test – getting shot by a tank. With bated breath, we fire a 100 mph explosive paint grenade at the iPhone. Remarkably, it survives unscathed, proving that Apple’s durability matches its performance.

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Why I Spent $3,600 on the iPad Pro M4

I’ve never been much of an iPad person, but today, I’m hovering over the buy button for Apple’s latest iPad Pro, a device that costs an eye-watering $3,600 once fully specced out. Despite my initial skepticism about tablets, the new iPad Pro’s features and capabilities have me reconsidering my stance.

### The Allure of the New iPad Pro

The 2024 iPad Pro lineup boasts a major redesign. These tablets are astonishingly thin, with the 11-inch model measuring just 5.3 mm and the 13-inch model even slimmer at 5.1 mm. Holding one feels surreal, like wielding a full-fledged computer in an incredibly light package. The 13-inch model, for instance, weighs just 579 grams. For comparison, my black and white 10-inch writing tablet, which does little more than facilitate note-taking, weighs over 400 grams. The iPad Pro’s thinness and lightness make it practical for on-the-go use without sacrificing performance.

### More Than Just a Tablet

What truly sets the new iPad Pro apart is its potential to replace not just my writing tablet but also my laptop. The new M4 chip inside these iPads promises performance comparable to high-end laptops. This is the first time since 2013 that a tablet feels like it could replace multiple devices in my tech arsenal. 

The accompanying accessories, like the new Pro Pencil and Magic Keyboard, enhance the iPad’s versatility. The Magic Keyboard, though it looks like a standard folio case from the outside, transforms the iPad into a device that feels remarkably similar to a MacBook. The keyboard is solid, the trackpad is larger, and it even has a charging port and another USB port for added functionality. The second you snap the iPad into the case, it behaves just like a Mac, with all the swiping gestures and shortcuts instantly familiar to any Mac user.

### Enhancements and Innovations

The new Pro Pencil has several upgrades, including a barrel roll feature and a squeeze function to bring up menus, making it more intuitive and efficient to use. A vibration motor adds tactile feedback, and you can now locate the pencil using the Find My app, which is a lifesaver for someone as forgetful as me.

Under the hood, the iPad Pro’s M4 chip offers significant performance improvements. While Apple’s performance metrics can be frustratingly vague, the leap from the previous M2 chip to the M4 is substantial, particularly with better thermal design allowing for sustained performance. This makes the iPad Pro a formidable competitor to current high-end tablets from other brands, many of which still use phone chips.

### Real-World Applications

Using the new iPad Pro with the Magic Keyboard and Pro Pencil has made me rethink my tech setup. This iPad is powerful enough to handle tasks I typically reserve for my MacBook, such as video editing with Final Cut Pro, photo editing with Pixelmator, and managing my smart home setup. Mobile apps on the iPad often surpass their desktop counterparts in usability and design, particularly for tasks like photo and video editing, gaming, and even productivity apps like Google Docs.

The iPad Pro’s OLED screen, touted by Apple as the best they’ve ever made, enhances the viewing experience with deep blacks and high brightness, perfect for HDR content. This screen is a dual-layer OLED, offering both contrast and brightness, making it ideal for watching movies or editing photos and videos.

### Potential Drawbacks

There are a few concerns, though. Battery life is an unknown factor, especially with the new dual-layer OLED display. The storage options, while going up to 2 TB, might not suffice for someone like me who relies on an 8 TB MacBook. iPadOS, based on iOS, is simpler and might not offer the same file management capabilities as a full-fledged computer. Also, Apple doesn’t want the iPad to cannibalize MacBook sales, so there might be artificial limitations on the iPad’s capabilities.

### Conclusion

Despite these concerns, the new iPad Pro feels like it could simplify and enhance my tech setup by replacing multiple devices. If it performs as well as it promises, this could be one of the most freeing tech decisions I’ve ever made. If you’re interested in seeing how this plays out, subscribe to my channel for updates. And yes, I realize my iPad puns are getting worse.

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