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**reeluff** · 02-15-2024, 12:22 PM

All finished, fixed beautifully.

**mcplslg123** · 01-23-2024, 11:02 PM

Its not possible that you have ACDRV at 25V on charging chip and not on the gate of dc-in mosfets. maybe you're looking at wrong mosfets.

**reeluff** · 01-29-2024, 12:57 PM

Definitely have 25.6V at ACDRV, and looking at the correct DCin mosfets.

Turns out that this ACDRV pin is floating - not connected to anything.

Mosfet drive must be coming from the EC chip, this board actually has 2 - specifically the TE1 chip at B2 / DCIN_DRV

**mon2** · 01-29-2024, 03:42 PM

The gate voltage has been boosted so it is the charger IC that will be supplying this line via ACDRV. Often there will be a 4k series resistor between ACDRV and the gate pin(s) of the DCin mosfets. Which exact charger IC is onboard? Would you have a link to the schematic? Probably the popular BQ (BenchMarq / TI part).

ACDRV voltage = adapter_in voltage + REGN voltage = 19v + 6v = 25 volts to enable the N-channel mosfet(s).

**reeluff** · 01-30-2024, 04:44 AM

BQ24780

I used green marker to highlight areas of interest. It definitely is not the BQ driving DCin mosfets from what I can understand, but the TE1 chip - which is a lenovo thinkengine chip right next to the main EC chip. This TE1 looks like a seperate EC lenovo thinkengine power management chip.

I have already replaced the TE1 chip, with no change. The chip was an aliexpress order, unsure if a good chip or not or whether this chip has to be programmed / can be programmed from the main EC however I am getting the exact same response from the board so will assume both new and old chips are as good/ bad as each other and operating the same.

Under a thermal camera, when I have the 0.8V main power rail - it is only this TE1 chip that is doing anything on the board.

**mcplslg123** · 01-30-2024, 11:11 PM

Now thats a completely new theory invented by you. To the best of my knowledge and experience, DC-IN mosfets are driven by charging controller thru ACDRV pin

**piernov** · 01-31-2024, 02:56 AM

It's not always the case. Sometimes you have a combination of P and N-channel DC-in MOSFETs, and the P-channel is not driven by ACDRV. And sometimes you even have both MOSFETs as P-channel, none driven by ACDRV.
And Lenovo likes to do weird things on their ThinkPad lineup. As far as I understand it, the secondary ThinkEngine (which is mostly a power sequencing chip but not much info about it) is powered directly before the DC-in MOSFETs and generates its own 3.3V rail.

**reeluff** · 01-31-2024, 06:33 PM

Correct Piernov, the power switch is getting the 3.3v from this thinkengine power chip.

**mcplslg123** · 02-01-2024, 05:55 AM

I've not seen a p channel mosfet(as dc-in) in BQ24780 design so far. Yes,P channel mosfet are used as dc-in on many boards but then the charging ic is like BQ24737(no acdrv) or ISL. Whereever, i've seen a BQ series charging IC with ACDRV function,its Usually a N channel. May be i've not come across such design.

**piernov** · 02-01-2024, 06:54 AM

Yes I meant with bq24780, it seems that it has replaced both the bq24735 (N-channel) and bq24737 (P-channel) designs for non-USB-C charging.
An example can be found on the Quanta X1BD board where 1st MOSFET is P-channel, driven separately, and 2nd MOSFET is N-channel driven by the charger IC's ACDRV output. I have no idea why they make it so convoluted though.

**reeluff** · 02-02-2024, 03:53 AM

This P1 board does indeed have 1st.P + 2nd.N channel DCin mosfet pair, neither of which are driven by the BQ24780.
Not a completely new theory invented by me, again i will upload the schemtatic pages of interest highlighted in green.
You can clearly see that the BQ24780 chip, ACDRV pin is floating - going nowhere as indicated by the big X - not driving any mosfet.
You will also see, the 2 DCin mosfets, first being a P channel, 2nd being an N channel. The N channel gate is being driven from the TE1 chip (thinkengine power sequencing EC) on the DCIN_DRV line.

**mcplslg123** · 02-02-2024, 11:41 PM

Yes,with the schematic pics,its clear now.Quite a weird design to diagnose.Sorry for my comments.

**reeluff** · 02-15-2024, 12:22 PM

All finished, fixed beautifully.

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LENOVO P1 G1 (X1 EXTREME) 0.8V MAIN POWER RAIL [LPM-1]

LENOVO P1 G1 (X1 EXTREME) 0.8V MAIN POWER RAIL [LPM-1]

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