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The ABSOK 6 Pcs Battery Charger Module combines TP4056 charging technology with a boost circuit to safely charge and discharge 3.7V lithium-ion batteries while providing adjustable output voltages up to 27V and currents up to 2A. Compact and versatile, it supports solar input and converts low-power devices into USB rechargeable units, making it ideal for DIY electronics, Raspberry Pi projects, and portable power solutions.
| ASIN | B098989NRZ |
| Best Sellers Rank | #105,081 in Electronics ( See Top 100 in Electronics ) #382 in Household Battery Chargers |
| Manufacturer | ABSOK |
| Product Dimensions | 2.34 x 2.34 x 2.3 cm; 18 g |
M**K
Used a few of these, still trying to find another project or 2 to use them in. Use 2 to power 2 separate raspberry pi nodes for hamvoip with a transmitter. Set to about 6 volts these are powering the pi and transmitter without issue. I'm running them off some salvaged 18650s. Seems to be of good quality, voltage is stable and handles the amp load while transmitting around 1.5 amps in total. Charger seems to have working overcharge protection. I'm not sure how long I left this on for, but I did add an on/off switch between the board and battery as well as the pi project. I'm not sure what the continuous draw is but there is one. I left a pi off for a few days but board directly connected to my battery and I noticed it did not last as long as previous runs. It WILL drain your batteries if not charging.
C**R
So many awesome features here! 1. Accepts a wide range of DC input for charging 2. Provides and adjustable DC output (the adjuster is sensitive, but hitting 5V is pretty easy) 3. LED for charging status 4. Automatic shutoff at around 2.8V (requires 6-8V input to get the board to wake back up again) All for like $2 a board. I used this on a project where I powered a small drone camera VTX using a 400mAh battery. Worked awesome.
D**D
As described
P**E
I am using this module embedded inside an ESP32-based project I am working on, where the LEDs would not be visible. I desoldered the LEDs and the resistors, then drilled two holes 2.54mm apart where the resistors had been. I then stuck a pin header through and soldered it so I could run the signals to the ESP32. They are open-collector outputs, so I can use pinMode(pin, INPUT_PULLUP), and digitalRead will return LOW when they are active. For monitoring the battery voltage, I used a 33k/47k ohm voltage divider and connected it to one of the analog inputs. The only issue is that there is no protection against discharging the battery too much. The boost converter is an SDB628, which cuts off under 2 volts, but Li-Ion batteries should not go below 3.2V. I built a circuit that would allow the ESP32 to cut off power when the voltage drops too low. I like that it has an adjustable output voltage. It's a little fiddly to tweak because you have to use a voltmeter and a non-conductive screwdriver, but it only has to be set once.
T**G
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