The Troubleshooting and Repair for On-board Charger (OBC) Thread

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It looks like you have access to some very good diagnostic tool.

In the first image it shows faults that are likely caused by the low 12V battery. The live data shows 12.3V which is too low a reading for the 12V battery, indicating old, weak or worn out, definitely below acceptable.

Get a strong fully charged 12V before doing any diagnostics in order to clear up any issues with the low voltage power. The 5V and 3.3V supplies in the ECUs are created from the 12V, so any issue with the 12V will extend across many subsystems as shown in your image.

The pictures of your OBC don't reveal any obvious failure points such as commonly found with failures there, But your tool did not show a fault with the OBC,

The 12V is used to energize the Main contactors in the pack; so the lack of that function points to something upstream such as a fuse, relay or wiring fault (rodent damage?)
 
i think the P1A15 is because the main contactor is not closing and HV is not being sent to the MCU; the fault code is thrown if the voltage does not rise up to the required level in a few seconds.

The driver for the Main Contactor coil is from the EV-ECU located under the rear seat cushion. Check that 12V is reaching the EV-ECU (fuse, relay, wire, connector, etc.).

You will need to use the image link from imgur (.jpg file) along with the [ img ] tags to get it to show here.
 
There is live data available for the Precharge and Main contactors (Relays in the Pack) that you might monitor while you try to go to READY.

So you are hearing the Main Contactors in the pack when turning the key to start? That is a good sign.

Possibly the Contactors were damaged by an accident or some other disconnect while current was flowing? Or the voltage measuring circuit in the MCU is not reading the pack voltage properly. See the P1A15 troubleshooting thread, but your issue seems different from all of those. This is not an OBC problem; with a P1A15 present the car will never go into the mode to allow charging [or READY] to occur.
https://myimiev.com/forum/viewtopic.php?t=4225
 
I checked the signal of the control unit EV-ECU to the main contactors:
in connector C-111 I checked pin 105,106,107.
105 and 106 - ok - at start, the battery voltage is applied and then decreases to 0.8 V
107 - there is no signal to the contactor + it's allways 0,8 v
any idea why the control unit is not signaling the contactor?
 
So it seems that the (-) and precharge contactor are being energized, but not the main (+),
Thb7SMg.png


i suspect the P1A15 code is thrown due to an issue with the MCU board, likely with the little hybrid board in the bottom plenum control board.

Someone made a cludge repair by adding a resistor to the op amp, another person by changing capacitors, two other guys replaced the board altogether with an AD204 isolation amplifier (likely the best solution), and one guy made his own version of the hybrid,

You may be able to get one of the AD204 boards from the designer; User Boo... added headers and glued it to the cover with fly leads,
https://myimiev.com/forum/viewtopic.php?p=43555#p43555

Can you tell us about the scan tool that you are using--is it an OEM version for Citroen like the MUT3, or an aftermarket device? It seems that nobody has a MUT over here so diagnostic ability is limited.
 
kiev said:
treisutedoi302 said:
hello!

i have the same problem as few post ago. i have a 2011 i miev that doesn't slow charge. only chademo fast charge. i changed the 4.7 ohm 5w resistor and the problem was solved for 2 days. now, that resistor is broken again and if i change it is broken immediately. a little help, please?

Howdy and welcome t302, it sounds like your AC relay is not engaging and the resistor is being forced to carry the AC input power for too long a period (which it was never designed or intended to do).

The white ceramic resistors are pre-charge resistors to handle the initial inrush current into the large capacitors on the power board. After a brief time period the AC relay is supposed to engage and bypass the resistors and carry the bulk of the AC input to the waffle plate under the power board.

See posts on page 1 for pictures and links to other posts such as how to test the AC relay, etc. The relay may be defective or the 5V supply voltage created on the upper control board may be missing or some other fault is preventing the 5V from reaching/switching the relay coil.

One of the white ceramic resistors has an internal thermal fuse, the other one is purely a resistor, check them both, but do not energize the OBC until you have cleared the AC relay issue or the resistors will continue to fail.


thank you very much!
i solved the problem.
 
treisutedoi302 said:
kiev said:
treisutedoi302 said:
hello!

i have the same problem as few post ago. i have a 2011 i miev that doesn't slow charge. only chademo fast charge. i changed the 4.7 ohm 5w resistor and the problem was solved for 2 days. now, that resistor is broken again and if i change it is broken immediately. a little help, please?

Howdy and welcome t302, it sounds like your AC relay is not engaging and the resistor is being forced to carry the AC input power for too long a period (which it was never designed or intended to do).

The white ceramic resistors are pre-charge resistors to handle the initial inrush current into the large capacitors on the power board. After a brief time period the AC relay is supposed to engage and bypass the resistors and carry the bulk of the AC input to the waffle plate under the power board.

See posts on page 1 for pictures and links to other posts such as how to test the AC relay, etc. The relay may be defective or the 5V supply voltage created on the upper control board may be missing or some other fault is preventing the 5V from reaching/switching the relay coil.

One of the white ceramic resistors has an internal thermal fuse, the other one is purely a resistor, check them both, but do not energize the OBC until you have cleared the AC relay issue or the resistors will continue to fail.


thank you very much!
i solved the problem.

is a problem if i used a 4.7 ohm and 10w instead 5w resistor?
 
kiev said:
So it seems that the (-) and precharge contactor are being energized, but not the main (+),
Thb7SMg.png


i suspect the P1A15 code is thrown due to an issue with the MCU board, likely with the little hybrid board in the bottom plenum control board.

Someone made a cludge repair by adding a resistor to the op amp, another person by changing capacitors, two other guys replaced the board altogether with an AD204 isolation amplifier (likely the best solution), and one guy made his own version of the hybrid,

You may be able to get one of the AD204 boards from the designer; User Boo... added headers and glued it to the cover with fly leads,
https://myimiev.com/forum/viewtopic.php?p=43555#p43555

Can you tell us about the scan tool that you are using--is it an OEM version for Citroen like the MUT3, or an aftermarket device? It seems that nobody has a MUT over here so diagnostic ability is limited.

thanks Kiev for the advice and help.
I mainly use Autel Ultra Lite in Power probe 4.
I have original programs for any brands, but Citroen is a rare guest, so Mut is absent.
I put the work on pause, but I will be back soon and I will definitely write what the reason is.
I also want to check hiter and air conditioning,
I disconnected the power wires from the inverter, but 12 V to + contactor still doesn’t go, it’s unlikely that a bad driver is in EV-ECU, so I’m still looking.
 
Hi guys, long ago, and again have one more OBC with failure. Was no AC and no DC-DC working. Replaced blue burnt caps, measured ceramic resistors, confirmed 9.7 and working relay. Replaced 3 big caps due to bulgy top. 20A fuse was replaced, AC charging works, but DC-DC not providing 14v to the battery. DTC: P0A09 and P1B2E key code not programmed. I seen there is manual regarding P0A09 Dtc, but suspect there is internal issue with DC-DC itself. Any hints for measuring and tracking the issue inside OBC?
 
Hello there,
Few time ago i bought a Peugeot ION 2011 old and after short time on board charger ruined. To be more explicit, after 7 sec the charging would stop.
From the posts i found here on this forum i was inspired and found that the 4.7 ohm 5W resistor was burned and so i changed it. Also i changed the 3 capacitors around it.
After 2 days of perfect functionality the same problem came back. The resistor burnt again. So again i checked the forum and i searched further and checked the relay by applying 4.5V on diode D301 and the relay was ok, including his contacts. (0 ohm between the white wire and N)
It is very annoying because after 1or 2 charges i must replace that resistor over and over.
In my opinion, that relay don t receive the start signal so the power goes through the resistors leading to the burning of these ones.
Can anyone help me with some ideas?
What could happen if i eliminate those resistors by bringing them to zero OHM?
 
What is the condition of your 12V starter battery? An old, weak or worn out 12V battery will cause issues such as this. A good, strong battery is very important for an EV, more so than for an ICE car.

Maybe the relay should be swapped out; it is difficult to judge if it is always switching fully. It would require destructive investigation into the internal relay mechanism.

Bypassing the relay is not a good idea as you would lose control of the charger--there would be no way to shut it off if an error were detected by the control board. Also there would be no precharging of the 3 big capacitors, which are having a difficult time already with the temperatures in the OBC while charging.
The relay functions as an "ON/OFF Switch" for charging and the EV-ECU would throw DTCs.

Check out the schematic of the AC Input filter and relay at this post,
https://myimiev.com/forum/viewtopic.php?p=36708#p36708
 
Robert said:
It is very annoying because after 1or 2 charges i must replace that resistor over and over.
I got the same problem when I had to change these resistors. Below is a successful approach.

The two original cemented resistors of 4.7 Ω 10 W and 5 W were replaced by two wire-wound resistors of 4.7 Ω and 50 W of power with Aluminum casing to promote heat dissipation.

Why 50 W?
Power = Resistance x Intensity ²
Max intensity = (50 W / 4.7 Ω) ½ = 3.26 A, whereas with 10 W the max intensity = (10 W / 4.7 Ω) ½ gives a much smaller value of 1.45 A which unfortunately can cause damage in the event of a high In-Rush Current.
This new configuration with 50 W resistors makes it possible in principle to eliminate a 3.26 A current as heat without damage while giving the margin for a Push Button Manual Reset thermal circuit breaker of one Ampere to avoid any destructions.

So instead of the original thermal fuse hidden in the cemented resistance R105, a one Ampere 240V Thermal Circuit Breaker is now used.

Why 1 A?
When charging, there is always an interruption of the AC charging current for several minutes to perhaps measure the internal resistance of the drive battery. During this charging interruption, caniOn with the “Charging Amps AC” graph shows random current peaks on the AC zero Ampere baseline that do not exceed one Ampere. (1)

For lack of space, wires are drawn outside the OBC to place this assembly in the small box to the right of the iOn rear trunk. To avoid any electrical short-cut a coffee glass jar wedged in this small box contains the assembly. The starting wire of R105 is marked to feed the Thermal circuit breaker first. After passing in series through the new resistors, the return is made at R106 of the OBC.

(1) "CaniOn and the “Charging Amps AC” graph show random current peaks on the AC zero Ampere baseline that do not exceed one Ampere." I do not know if before my AC charge problems this base line was flat without any AC current pics. I expect it was flat without pics. Any current pic at the end of AC charge should also be checked on the “Charging Amps AC” graph.
Would “Charging Amps AC” graph from CaniOn be a way to check incoming AC charge problems ?

Cross fingers, more than ten AC charges by now with this new design and no problems with the 50 W resistors and no reset of the Thermal circuit breaker had to be done.

Link to my former post on my AC charge problems


X 06 - RESISTANCE BOBINEE BOITIER ALUMINIUM 50W 4.7 OHMS


X 07 - DISJONCTEUR THERMIQUE 1A 240V


X 01 - Fusible Thermique 1A 240V avec 2 Resistances Bobinées Aluminium 50W 4.7 OHMS


X 02 - Boitier OBC


X 03 - Vue Coffre Latéral

X 010 Charging Amps AC pict_2022-10-09_16-44-01

X 011 Charging Volt AC pict_2022-10-09_16-44-29

X 012 Amps History pict_2022-10-09_16-45-02

X 013 Volts History pict_2022-10-09_16-45-37

X 014 SOC History pict_2022-10-09_16-46-28
 
hello!

i checked the 12V battery and is in perfect condition.
i also tried the with 2 resistor 4.7 ohm 50W but these also burnt.
i checked the relay and cutting the up part and it is in perfect condition also.
i removed the diode D301 and checked it and also this one is fine.
haven t done anything else and now i have other problem:
the resistor don t burn anymore (i don't know why) but the charging don t stop when battery is full, but once i stop the charging for 20 sec and then i turn it back on, this time functionality is normal and so it stopes because the battery full.
is possible to burn diode D301 when i put it back? what type of diode is?
 
Yes it will burn up the diode if you put it in backwards, plus it might damage the power supply chip on the upper control board.

The first time you try it like that all the current will flow thru the diode until it burns up, and the relay will get no current until the diode is blown, then it will energize. When it gets the Off command, then the relay coil will likely get damaged because there is no path (diode) for the freewheeling current from the collapsing magnetic field in the coil.

i don't remember the diode part number; it might be listed in one of the posts if you try a search, but a 1N4001 would probably work okay.
 
Hi to everyone,
So I got back to research. I made a shunt from a resistance of 1.65 MOhm on a hybrid board - the contactors started working, car goes into READY mode, everything works, but !!!
Diagnostics shows that the charge level of the capacitor is now 361 V, with a battery charge of 355 V - that is, 6 V more than the actual one.
as I already wrote - everything works - all errors are gone.
but with slow charging (I haven’t tried fast charging yet), when the charge reaches 75%, an error appears in inverter the P0A0D (Motor drive voltage increase) and in the ECU - P1A22 (Fault in electric motor ECU (MCU) control Voltage too high).
the live data shows the voltage in the inverter is 392V, which is a so high - but I think that this value is given by the same hybrid board. the ECU shows the battery charge is 354 V, the capacitor is 310 V in freeze data.
with all this, when we turn on the ignition, the yellow lamp goes out and the car goes into READY !!! and everything continues to work.
I did not find in the forum links to similar error codes.
Does anyone have any information on how the inverter calculates the voltage that it is ready to transfer to the motor?
Is it all the same hybrid board or something else?
kind regards and special thanks to everyone who did a great job of solving problems here.
 
In the MCU, the HV is measured and sensed using the hybrid board. The signal goes from the hybrid over to a row of test points on the edge of the board and then thru a buffer amplifier and to the micro controller chip. i think i traced this out and posted some details in the P1A15/MCU thread.

There may be other locations that sense the HV level, such as in the OBC, in the BMU and EV-ECU from the pack CMU boards, etc.

It sounds like you are getting an error about disagreement of the HV level across some of the measurement points, most likely from the MCU data. It may be that your mod to add the resistor to the hybrid board has changed the gain of the op amp and caused a bias error for it to read higher than actual. i think someone else also did this and it is discussed in the P1A15/MCU thread.

P1A15 Thread: https://myimiev.com/forum/viewtopic.php?t=4225
 
Robert said:
hello!
the resistor don t burn anymore (i don't know why) but the charging don t stop when battery is full
In fact I had no problems with charge ending.

I never paid attention on how charges were ending. It was charge and forget. But last summer, at the first charge with a resettable 1 A thermal circuit breaker and two resistors of 4.7 Ω and 50 W, I remained present with Canion during the whole charge process in case there would be any battery temperature runaway.

I got worried when SOC reached 100 % and that charge was still going on. "Batt Temp" on Canion was showing that temperature of Cell 64 kept increasing over 30°C (86°F) ... From this time my conclusion was to unplug when CaniOn was showing 100% SOC. I even made a curve, (Bars gone) or (100-SOC), versus time to know when to come to stop charging...

In autumn, temperatures were more fresh, with a battery cell 64 well below 30 °C. I took this opportunity to let the charge going on after reaching 100% SOC. Battery temperature was remaining flat, AC charge current was decreasing slowly like for a soft landing, then when AC current was around two Ampere, charge ended.... with DC current switching from a negative to a positive value below one ampere, (0.6 - 0.8 A), during ten minutes.

This was repeated again and again, charge was ending when AC current was around two Ampere. There was no problems with charge ending.

Below Canion's graphs till 0 fps, when the iOn shut off, graphs got frosen with no data transmission, (0 frame per second).
AC and DC currents start do decrease when battery reaches 361 V.

Charging Amps AC End of Charge


DC Amps History End of Charge
 
Only one of the snubber 1000pf cap seems broke on mu OBC 2012 I-Miev.

1- Should I change both regardless?

2- The voltage is fairly low ( 350V ), is it necessary to re-pot the component after the repair?
Or is this just to avoid component movement because of the vibration?

IMG_2459_800x600.jpg
 
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