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{{Repair Guide | {{Repair Guide | ||
|Device=iPhone 7, iPhone 7 Plus | |Device=iPhone 7, iPhone 7 Plus | ||
|Affects parts=Main Logic Board | |Affects parts=Main Logic Board | ||
|Needs equipment=Soldering Iron, Hot Air Station, Microscope | |Needs equipment=Soldering Iron, Hot Air Station, Microscope |
Latest revision as of 21:33, 20 December 2023
How To Fix an iPhone 7 That Does Not Turn On | |
---|---|
Device | iPhone 7, iPhone 7 Plus |
Affects part(s) | Main Logic Board |
Needs equipment | Soldering Iron, Hot Air Station, Microscope |
Difficulty | ◉◉◉◌ Hard |
Type | BGA, Soldering, Teardown, Part replacement |
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Problem description
Pulls ≈2 A or more before you prompt to boot on DC power supply
Symptoms
- No Power
- Doesn't turn on
- Doesn't Charge
Solution
Diagnostic Steps
Do a full visual inspection of the board and check for water damage under the stickers on the back. Remove the foam around the connectors to get a better look at everything. You're looking for any signs of corrosion on or around components and ICs.
If there is no water damage, is is most likely a shorted capacitor on any of the below lines:
- PP_VDD_MAIN — This is the most likely line to be shorted
- PP_VDD_BOOST — This line is usually shorted when it's not VDD MAIN
- PP_LCM_BL_ANODE or PP_LCM_BL34_ANODE — Sometimes the backlight circuit has a short and causes the same symptoms
- PP_SPKR1_VBOOST — This is a bit rare but it does happen
Repair Steps
You'll need to inject voltage (4 V / 2 A) directly into the line you measured as short and use freeze spray (see here https://youtu.be/3MtLSQJvQxI) or thermal camera (see here: https://youtu.be/fkd4iDjgfvc) to spot the capacitor that is shorted.
In these cases, you can just remove the shorted capacitor and not replace it. The device will function normally with no negative effects.
Replacing it means you are adding more heat to the board to reinstall it, which increases the risk of something going wrong.
If you have a case of water damage, then you'll have to pay attention to the spots on the board where there's signs of water damage.
Often, you'll find corrosion on capacitors but also under ICs.
Common ICs and areas to have corrosion and cause a VDD MAIN short:
- Under BBPMU_RF and around it, like Capacitors: C5625_RF, C5622_RF
- Back top "arm", like C2611, C2612, C2609, C2610
- Back bottom, like the backlight caps C3725, C3705, C4602, C4612
- Above and next to WiFi (WLAN_RF), like C7610_RF, C2527, C3002
- Front Top above CPU, like C3327, C3328, C3313
You'll need to visually inspect these areas to see if they're liquid damaged
Please Note: If you are using a DC power supply to inject voltage through the battery connector, like using an iPower Pro or DT880 (see here https://youtu.be/rawjB9yxe1A), be aware that the Tigris Mosfet Q2101 will heat up instantly. This is because the battery connector line PP_BATT_VCC connects to PP_VDD_MAIN through it, which creates lots of heat. Q2101 itself does not have a connection to ground, therefore, it's impossible for it to be shorted.