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How to connect micro usb jack to pcb

How to connect micro usb jack to pcb

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Absalonse
Junior Member
47
07-18-2016, 06:54 PM
#1
I noticed the blutooth speaker charging port came out, so I purchased a replacement from Marker. Now I need to connect it to my PCB, but when trying, the 5 pins aren’t soldered properly. I suspect the lack of copper on that PCB might be the issue. Anyone have suggestions or ideas on how to fix this?
A
Absalonse
07-18-2016, 06:54 PM #1

I noticed the blutooth speaker charging port came out, so I purchased a replacement from Marker. Now I need to connect it to my PCB, but when trying, the 5 pins aren’t soldered properly. I suspect the lack of copper on that PCB might be the issue. Anyone have suggestions or ideas on how to fix this?

F
FinnBoZz
Member
55
08-04-2016, 09:20 AM
#2
Flux and solder quality are the main focus. Copper is present, but proper flux application and correct solder temperature are essential for success.
F
FinnBoZz
08-04-2016, 09:20 AM #2

Flux and solder quality are the main focus. Copper is present, but proper flux application and correct solder temperature are essential for success.

K
KadirReis
Member
108
08-04-2016, 11:39 AM
#3
Unfortunately, the pads appear to have been removed from the PCB, preventing proper connection. You can still use enameled wire to link the connector pins to a component where they should go, such as connecting the pin on the left to resistor R22.
K
KadirReis
08-04-2016, 11:39 AM #3

Unfortunately, the pads appear to have been removed from the PCB, preventing proper connection. You can still use enameled wire to link the connector pins to a component where they should go, such as connecting the pin on the left to resistor R22.

S
Supernova4242
Member
110
08-04-2016, 11:36 PM
#4
I can't send images directly. However, I can describe the old Micro USB port pins in detail if that helps. Let me know!
S
Supernova4242
08-04-2016, 11:36 PM #4

I can't send images directly. However, I can describe the old Micro USB port pins in detail if that helps. Let me know!

T
TheBlueFloyd
Member
123
08-05-2016, 08:18 AM
#5
The pads on the PCB seem removed, but please share an image of the Micro USB connection for verification. To link another device, you need to trace the traces and connect further along that path. I’ve handled something similar with a USB Type C port—it was more complex but also more straightforward than this one. It required careful planning since USB Type C offers many connections, yet it provided four unlabeled attachment points. For context, Micro USB 2.0 includes power (ground and +5V), data lines (D+ and D-), a shield, and an extra unused pin. The ground connects to the shield, while D+ and D- are likely unused. The +5V goes to a capacitor and resistor. This appears to be primarily a charging port, not a data transfer interface. You could potentially rewire it using a makeshift wire between the +5V pin and the resistor/capacitor if needed. Make sure to research USB standards and consider using a multimeter for continuity checks. With some modification, this port might still be usable.
T
TheBlueFloyd
08-05-2016, 08:18 AM #5

The pads on the PCB seem removed, but please share an image of the Micro USB connection for verification. To link another device, you need to trace the traces and connect further along that path. I’ve handled something similar with a USB Type C port—it was more complex but also more straightforward than this one. It required careful planning since USB Type C offers many connections, yet it provided four unlabeled attachment points. For context, Micro USB 2.0 includes power (ground and +5V), data lines (D+ and D-), a shield, and an extra unused pin. The ground connects to the shield, while D+ and D- are likely unused. The +5V goes to a capacitor and resistor. This appears to be primarily a charging port, not a data transfer interface. You could potentially rewire it using a makeshift wire between the +5V pin and the resistor/capacitor if needed. Make sure to research USB standards and consider using a multimeter for continuity checks. With some modification, this port might still be usable.

M
mr_creepzilla
Junior Member
49
08-05-2016, 09:36 AM
#6
It's an amplifier board for a sound bar that works with just 5V and ground. The device uses a 5-pin USB micro connector, but one of the pins was damaged and removed from the board.
M
mr_creepzilla
08-05-2016, 09:36 AM #6

It's an amplifier board for a sound bar that works with just 5V and ground. The device uses a 5-pin USB micro connector, but one of the pins was damaged and removed from the board.

M
Mael309
Member
145
08-06-2016, 12:34 AM
#7
Consider using the TP4056 Lithium Battery Charging Board instead. Link its output to your battery for a complete charging solution.
M
Mael309
08-06-2016, 12:34 AM #7

Consider using the TP4056 Lithium Battery Charging Board instead. Link its output to your battery for a complete charging solution.

T
The_Izuki
Junior Member
18
08-06-2016, 04:10 AM
#8
The solder connections for the pins were removed from the circuit board.
T
The_Izuki
08-06-2016, 04:10 AM #8

The solder connections for the pins were removed from the circuit board.

H
Her0brine57
Junior Member
23
08-06-2016, 04:50 AM
#9
It's my Bluetooth sound bar PCB. The 5-pin micro USB port was removed recently. I attempted a fix but couldn't, suspect the pins may have been soldered off. My plan is to charge externally using a TP4056 lithium battery charging board. Is this feasible? Could it harm the board due to reverse voltage or other issues?
H
Her0brine57
08-06-2016, 04:50 AM #9

It's my Bluetooth sound bar PCB. The 5-pin micro USB port was removed recently. I attempted a fix but couldn't, suspect the pins may have been soldered off. My plan is to charge externally using a TP4056 lithium battery charging board. Is this feasible? Could it harm the board due to reverse voltage or other issues?

C
Crossinite
Junior Member
3
08-06-2016, 12:58 PM
#10
why connect 5v to the cap labeled c23? The positive side should face toward your first photo, negative toward the left. This setup is confirmed because c23 on the positive side links between the micropin’s positive terminal and the VCC pin of the LTC4054 next to it. It looks like you might have taken it off, but it’s fine—just add another one or skip it if needed.
C
Crossinite
08-06-2016, 12:58 PM #10

why connect 5v to the cap labeled c23? The positive side should face toward your first photo, negative toward the left. This setup is confirmed because c23 on the positive side links between the micropin’s positive terminal and the VCC pin of the LTC4054 next to it. It looks like you might have taken it off, but it’s fine—just add another one or skip it if needed.

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