ACIN - 1.8V
DCIN - 19V
ACOK - 0V
DCIN - 19V
ACOK - 0V
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ACIN is too low. This is a voltage that is created by the resistor based voltage divider @ PRB7 and PRB11. Together, they will accept the high adapter voltage of ~19 volts and lower it to a safe value for the charger IC. If this safe voltage is higher than the threshold, then the power adapter is considered to be worthy to power the logic board else the DCin mosfets will remain OFF.
It appears that this ISL (Intersil) part wants a threshold of 2 volts or higher.
Reference calculator:
https://www.digikey.ca/en/resources/...oltage-divider
Suggest to remove all power -> meter in a high resistance scale (higher than 500k ohms) -> measure the resistance across PRB7. It should be ~499k ohms. Repeat for PRB11 which should be ~66k5 ohms.
Unless the ACIN voltage is above 2 volts, the charger IC will not offer the boosted gate voltage to enable the DCin mosfets. The mosfets are like gate keepers / mother-in-laws for the main power rail.Comment
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I've took measurements of PRB7 and PRB11. I got
PRB7: 450k ohm in 100k range
PRB11: 60k ohm in 100k range
PRB7: 90k ohm in 1k range
PRB11: 65k ohm in 1k range
both doesn't make sense when put into digikey voltage divider calculator since they are 2.24V and 7.97V respectively whereas when measured directly in ACIN pin it's still 1.8VLast edited by Growtopia Jaw; 01-21-2024, 09:01 AM.Comment
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Post a pic of the meter face for these measurements. Be sure that there is no power to the board during these resistance checks.
It is not possible to measure 450k ohms if the meter is in the 100k scale. This means the max resistance this meter setting can measure is 100k and all else will be reported as '1' = over limit. Then you must select a higher resistance scale on your meter. Also measure the exact voltage output of your power adapter. It must be ~19 volts or higher. With this adapter voltage and with proper resistors @ PRB7 and PRB11, you should have ~2v2 for the voltage at the output of this voltage divider. If it is under 2 volts, the charger IC will not function properly.PRB7: 450k ohm in 100k range
PRB11: 60k ohm in 100k rangeComment
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I have an analog Sanwa YX360TRF multimeter and if not mistaken, according to its spec sheet
source: YX360TRF | Sanwa Electric Instrument Co., Ltd. (sanwa-meter.co.jp)
I've also did 0 ohms adjustment everytime I changed the range for accuracyLast edited by Growtopia Jaw; 01-21-2024, 09:13 AM.Comment
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My suggestion is to pickup a digital meter from Amazon or similar to make this measurement a bit easier. While I grew up with an analog meter from Radio Shack, the digital ones were not on the market at that time. A Fluke brand is a good one to source if available. Many manufacturers from Taiwan produce a quality meter - there is a long thread on eevblog on how to purchase a quality multimeter.
https://eevblog.store/products/eevblog-bm235-multimeter
https://www.youtube.com/watch?v=ymJc5oxthlw
https://www.amazon.ca/EEVblog-BM235-.../dp/B01JZ1ADCOComment
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The analog meter measurement will depend on your observation of the meter pin so it is an approximation. Best to use a digital meter but in the end, the ACIN voltage is what matters.
should read as:PRB7: 450k ohm in 100k range
PRB11: 60k ohm in 100k range
since any measurement on this scale should be multiplied by x100k ohms. The final ACIN voltage on the Digikey calculator is also without a load so that is a factor as well. Using the same calculator, you can select other resistors that you may have to increase the ACIN voltage to be above 2 volts to trigger the charger IC mosfets. Be sure to double check the resistors and their values before powering on else the ACIN voltage may shoot over the max limit and cause damage to the charger IC. At this time, suspect the fault is with these resistors or the power adapter voltage is lower than expected. The calculations are based on the power adapter being ~19 volts or higher.PRB7: 450k ohm in x100k range
PRB11: 60k ohm in x100k rangeComment
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I'm back with a Kyoritsu Model 1009 DMM.
PRB7: 0.485M ohm
PRB11: 64.8k ohmComment
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The measurements look close to the expected values. Measure the voltage to ground of ACIN.Comment
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Got 49mV on ACIN.
Edit: Got confused between pins. Correct voltages below.Comment
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Sorry, I got confused between ACIN and ACIN_CHG.
ACIN aka pin #1 is 2.308V
ACOK aka pin #2 is 49mV
Main voltage rail is 19.63V
Didn't manage to measure pin #18.
Unfortunately I burnt something while measuring DCIN on pin #18.Comment
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Pin #18 on the charger ic? Post a clear pic of the region and part that may be defective.
ACIN is high enough to be ok.
measure (carefully), voltage of:
ACDRV ; should be ~25v to enable the dcin mosfets
REGN ; should be ~6 volts
on the charger IC.Comment
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I might've accidentally shorted the pins between #17 and #18 / #18 and #19 due to the leads being too big. It released a little smoke and I've put a stapler piece in place temporarily for the red probe to make the leads smaller.
Not sure which pins are ACDRV and REGN. I don't see it in schematics and boardview.Comment
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Yes, small probe tips are mandatory for this line of work. Check Aliexpress for such fine tip probes that are often compatible across the meters. The labels are different for your ISL charger IC vs. the very popular devices from Texas Instruments but the same idea.
See attached. Carefully measure the voltage to ground of these pins to determine if the charger IC is defective or not.
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Looks like everything became 0V other than a few like
ACIN / pin #1 = 2.308V
DCIN / pin #18 = 19.28V
ACOK / pin #2 = 0V
ASGATE / pin #30 = 0V
VDD / pin #19 = 0V
Seems like I burnt the charging IC. Luckily I've bought spares and have around 5 of them. Might be back tomorrow after soldering the charging ICComment
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Yes - this is the LDO output rail that is required to create the boost voltage and other low current legs of the circuit. This line should be ~6 volts (like it is on the BQ series charger IC).VDD / pin #19 = 0V
Suggest to flux and carefully remove to replace this IC. Practice on donor boards if required but use ample heat but low air pressure to get the job done. The concern is to be not making the surrounding parts fly off to across the room yet low enough heat to pull off the part. Be patient and do not burn the board with too much heat. Aluminum foil is good to protect parts that may be nearby.
Be sure to note the position of pin #1 of this original part before starting.Comment
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I've soldered on a new charging IC.
ACIN / pin #1 = 2.308V
ACOK / pin #2 = 49mV
DCIN / pin #18 = 19.28V
VDD / pin #19 = 3.95V
ASGATE / pin #30 = 0VComment
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Remove all power. Measure the resistance to ground of VDD pin #19.
On the gate pin of both dcin mosfets is a 4K ohm resistor that is driven by the asgate pin on the charger ic. Carefully flux and remove it but do not lose this part. Then power up again with the adapter. What is the voltage to ground on each side of this removed resistor pad on the pcb? We are testing if the boosted gate voltage is present or not from the charger ic.Comment
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I got 110k ohm on VDD pin #19 to GND.
I've removed both resistors PRB8 and PRB9 and it looks like I'm only getting a few millivolts on both PRB8 and PRB9 resistor pads.
Edit: 5.8mV on CMSRC_CHG
8.6V on +19V_P1
0V on ASGATE_CHG
No reading on N16860566
I'm not sure why I'm getting inconsistent readings on all four of the pads. The values shift sometimes and just to make sure it isn't the probe's fault, I crossed both probes and am getting 0V which should indicate the probes are working fine.
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