MembersPage/PeteKrgr (2007-08-20 09:06:42)

Building a Porsche 3,0l 944 turbo

Now the details that affect VEMS specs and installation.


Trigger - Both are VR PPaadam

Porsche 944 turbo Trigger:

Are You doing Plug and Play to motronic harness? Same project. Yes.

For both sensor, measure all pairs of pins, in both direction (with a 3 pin connector this is 3*2=6 measurements). Write them here.


Measure sensor resistance and measure DC

''This, is very important. Measure from the econoseal-wire connector (with ECU removed), so that you also verify the wiring.

* secondary trigger VR: measure Ohm between EC36pin26 and EC18pin12 0, but between EC36pin25 and EC36pin13 3.46kohm

Write your measurements above. Confirm that they measure approximately the same in both directions. Preferrably also measure (and publish) DC voltage (measure between same wires, but maybe easier in the engine bay before you insulate the trigger wires) when the ECU is connected. If there are problems, do the DC measurements and publish all firmware + config info as IssueReports

DC V measurements later...

OK, what I now know is this. Info above about flyweel teeth count, pin on flywheel and sensors type are correct, that pin position has just to be confirmed. I bought yesterday a book "Bosch Fuel Injection & Engine Management" and it describes this system

" For the most accurate measure of engine timing and speed, Motronic systems read the position of the crankshaft directly. Special sensors pick up signals from the flywheel teeth."

"The rpm sensor ( also called the engine speed sensor ) is an inductive-pulse sender that picks up pulses from a toothed wheel, usually the flywheel. The rpm signal can be displayed on a scope just as it is sent to the control unit, one blip or spike for each tooth. It is so accurate it can sense an rpm chance while the crankshaft turns only a few degrees.

The TDC, or reference mark sensor ( reference from cylinder no1 TDC ),is triggered by a set screw on the flywheel. each time the srew passes the TDC sensor, the sensor signals one blip for each crankshaft revolution. Both ensors are magnetic, with a soft iron core that stores the magnetic field. When a tooth in the flywheel or the reference sensorpin moves though the magnetic field, the change induces an electrical voltage in the winding. This voltage is he input signal to the control unit. The sensor is known as a passive diffusionfield sensor, because it does not require a current supply."

I have these both new sensors, identical, at home, I will post their Bosch number here as I return home. I guess this makes the system what is called the Auditrigger.

Trigger measurement: If you have those VR triggers on table, is it possible for you to measure the polarity of them? As you know they are quite difficult to get access while the engine is on car.

Measuring Vr trigger polarity.

Measure with DVM, 200mV DC mode. If your wheel has normal shape (missing tooth), than signel should be +few mV when you move ferrous metal (iron) towards the sensor, and -few mV when you move it away. The reading shows up for a very short time only (while the sensor actually sees the movement)


Shopping list

Assembled v3.3 controller


Update on the 29th of April.'

While being busy with engine's installation I also did the wiring harness, modifying the old one for VEMS. I removed unnnecessary parts, reused some wires with new tasks and build completely new harness for fuel injction and ignition. I also replaced DME & KLR harness connectors with Econoseals and integrated Apexi AVC-R to this harness. I attached the VEMS box to the original installation plate at passenger's footwell. There was so much space that I managed to place fuses and AVC-R's own MAP sensor there. There's still some pins/wires unconnected ( see questions below ) and some finishing work to be done, but I thing that I can start configuring my system next week.

Unfortunately all my pictures are at the moment at page that needs password, but I try to change that later.


Questions with new ones

How shift light output is done? It is done using rpm triggered outputs

Any specific info on this one...eg. which pin? ...although I have now read the instruction manual and have some clue about this myself...

Found this out myself when configuring the unit.

I want the original boost gauge in instrument panel to be functional. The problem here is that it is electronic, ie. the Motronic's KLR ( boost & knock control unit ) feeds it. So it needs output from Genboard. Other peoples obsevations how the signal is handled can be found here

http://forums.rennlist.com/rennforums/showthread.php?t=313463&page=2&pp=5&highlight=boost+signal

Is it possible to get such output, and scale it a bit differently? Now the gauge shows 1,0 when MAP is athmospheric, and I would like it to mean 1,0bar boost... Does anyone have anything on this, like proper pin number and possible configuration data...??

Related to previous question, how can I get rpm signal out of the VEMS? 12V or 5V logic level pin and how to configure it ??

Found also this out myself.

More questions

Do I need PowerFlyback when using low-impedance injectors?? Yes, definitely


Specifications:

Board_version=v3.3

Serial_nr= 748

pump-= 4.16V

wbo2_pump_pw_zero=0x67

wbo2_nernstdc_target=0x86

pump+= -3.3mV/200 Ohm

AREF=4.9V

(C103=1nF, no D100)

Firmware 1.1.24 1.1.24 or 1.1.25 seems like a good choice for 132+1

Auditrigger was initially according to PhatBob's instructions:

EC36#27 VR+ ( primary ) = CRANK speed sensor

EC36#13 VR+ ( secondary ) = reference sensor (whel HALL!)

EC36#26 VR- ( primary & secondary )

but changed to

EC36#27 VR+ ( primary ), = CRANK speed sensor

EC18#12 VR- ( secondary ), = VR reference sensor

EC36#26 VR- ( primary )

EC36#26 VR+ ( secondary )

after discussions with Miska. So installation instructions should be updated considering this part.

Trigger is: 132+1 per crankrot, or 264+2 per camrot (132+1 means you have 66 pulses on crank, and 1 pulse on cam). But above says differently


Update 17-07-07

After these wiring changes and checking config I managed to get RPM to MegaTune. However there's no spark or fuel. I have current flowing to WS coil and injectors, but nothing further, like Genboard doesn't send any signals. Config should be correct, at least it's set according to installation instructions. Wiring is checked too.

Update 01-08-07

Reason for no spark and fuel was this brilliant "Installation instructions" found from Wiki...it says there that for WS coil one should use 5V logig level output. However when reading from Bosch WS-coil's information page you can see that it requires 12V output. While I do not have a Bosch coil I hadn't looked that page earlier. But now, when close to despair, I did some searching I found this and changed pins. Now it works. I just have to calibrate WBO2 and EGT sensors and do some serious tuning. But before that I have a massive vacuum leak to be fixed.

Configuration:

Not the latest, but close enough.

primep=0A

primep_temp_scaling=33

cwl=50

cwh=14

cranking_thres=04

awev=32

awev_temp_scaling=54

awec=75

warmup_clt_range[0]=00

warmup_clt_range[1]=0D

warmup_clt_range[2]=20

warmup_clt_range[3]=34

warmup_clt_range[4]=50

warmup_clt_range[5]=64

warmup_clt_range[6]=78

warmup_clt_range[7]=8C

warmup_clt_range[8]=AA

warmup_clt_range[9]=C8

warmup_clt[0]=C0

warmup_clt[1]=B4

warmup_clt[2]=AB

warmup_clt[3]=A8

warmup_clt[4]=A0

warmup_clt[5]=96

warmup_clt[6]=8C

warmup_clt[7]=80

warmup_clt[8]=77

warmup_clt[9]=64

warmup_rpm_scale=73

req_fuel=43

divider=01

alternate=10

injopen=00

battfac=00

kpafac=C8

kpaoffs=9C

injocfuel=00

injrampup_battfac=FF

injpwm=BF

injpwmt=64

als_launch_input=CC

rpmk[0]=0B

rpmk[1]=B8

tpsdot_kpadot_conf=16

tpsdotrate[0]=01

tpsdotrate[1]=05

tpsdotrate[2]=14

tpsdotrate[3]=32

tpsaq[0]=0F

tpsaq[1]=14

tpsaq[2]=23

tpsaq[3]=46

als_cut_mintps=FF

tpsasync=FF

acmult=FA

tpsacold=96

launch_enrich=FF

launch_retard=FF

overrun_fuelcut=4A

overrun_fuelresume=19

rev_limit=28

airden_ignore=00

config11=30

config12=30

config13=02

batt_cal=B9

fastidle=0C

als_max_cut=E0

dbaro=FF

tps_low=00

tps_high=DD

fan_temp=E1

fan_hyst=02

fan_channel=4F

iac_step_seq=64

iac_conf=08

iac_max_steps=28

iac_tps_thres=0D

iac_cold_idle_temp=CF

iac_warm_idle_temp=8C

iac_cold_rpm=70

iac_warm_rpm=55

iac_cold_start_pos=FF

iac_warm_start_pos=FF

iac_afterstart_rpm=0A

iac_afterstart_duration=A0

iac_speed=FF

iac_kp=74

iac_ki=67

iac_kd=E2

launch_rpm=FF

iac_integral_limit_dec=1F

iac_integral_limit_inc=20

iac_integral_deadband=04

iac_deadband=25

als_cut_maxtps=FF

iac_overclose_interval=30

iac_ref_pos[0]=1A

iac_ref_pos[1]=1A

iac_ref_pos[2]=1A

iac_ref_pos[3]=1A

iac_ref_pos[4]=1A

iac_ref_pos[5]=1A

iac_ref_pos[6]=1A

iac_ref_pos[7]=36

iac_ref_pos[8]=33

iac_ref_pos[9]=33

iac_sol_channel=60

iac_ign_slope=FF

softrpm_range=FF

iac_ign_advance_limit=2F

iac_ign_retard_limit=2E

iac_ign_threshold=2D

ego_conf=06

ego_lag=14

ego_coolant=B4

ego_maxtps=80

ego_maxmap=3C

ego_minrpm=06

ego_maxrpm=28

ego_warmup=5A

ego_lean_limit=26

ego_rich_limit=03

ego_pid_kp=1E

als_enrich=00

ego_delta=03

ego_target=19

ego_pid_window=FF

wbo2_warmup_ramp=A0

als_react_tps=FF

wbo2_abs_limit=E0

wbo2_limit_maxt=F0

wbo2_fallback=70

wbo2_retry_t=06

als_retard_rpm1=BA

als_retard_rpm2=50

wbo2_ri_target=96

wbo2_nernstdc_target=86

wbo2_pump_pw_zero=67

wbo2_calibration=DD

wbo2_heater_pid_kp=46

wbo2_heater_pid_ki=10

wbo2_heater_pid_kd=1A

wbo2_heater_pid_ilimit=80

wbo2_pump_pid_kp=40

wbo2_pump_pid_ki=10

wbo2_pump_pid_kd=00

wbo2_pump_pid_ilimit=68

wbo2_ri_confidence_scale=80

knock_conf=FD

knock_sampling_window=F3

knock1_frequency=E3

knock1_gain=C0

knock1_integrator=EF

knock2_frequency=E3

knock2_gain=C0

knock2_integrator=EF

knock_threshold=00

knock_noise_scale=00

knock_max_retard=18

knock_default_retard=08

knock_retard_step=08

knock_retard_delay=07

knock_advance_step=04

knock_advance_delay=0D

knock_minrpm=0F

knock_maxrpm=48

ve_learn_coolant=D8

ve_learn_max_power=FF

ve_learn_rpm_scale=32

ve_learn_kpa_scale=32

ve_learn_ego_scale=32

ve_learn_min_weight=01

ve_learn_speed=64

ve_learn_limit=40

ve_learn_conf=01

lcd_c0=0F

lcd_delay=2F

lcd_backlight=FF

kpa_conf=21

als_igncut_rpm2=00

als_retard_mintps=FF

als_retard_maxtps=FF

lcd_default_view=04

primary_trigger=C3

secondary_trigger=19

tooth_wheel=42

trigger_tooth=01

another_trigger_tooth=21

crank_minper=33

tooth_wheel_twidth1=16

tooth_wheel_twidth2=00

cam_sync_r_edge_phase=00

cam_sync_f_edge_phase=00

reset_engphase_after=40

ign_tdcdelay=8B

ign_dwell14=22

ign_dwell6=4A

ign_crank_advance=30

ign_out=70

ignchmax=03

engine_off_delay=08

pump_on_mintime=08

fuelpump_channel=57

inj_stage2_rate=00

inj_stage2_start_tps=FF

inj_stage2_start_map=FF

als_igncut_rpm1=FF

als_deact_time=FF

als_deact_egt=FF

als_retard=00

als_rev_limit=FF

misc1out_minrpm=08

misc1out_maxrpm=3C

misc1out_mintps=00

misc1out_maxtps=CC

misc1out_minmap=14

misc1out_maxmap=A0

misc1out_channel=07

misc2out_minrpm=FF

misc2out_maxrpm=FF

misc2out_mintps=FF

misc2out_maxtps=FF

misc2out_minmap=FF

misc2out_maxmap=FF

misc2out_channel=0F

act_wot_rpm=FF

act_wot_channel=FF

act_rpm_rpm=FF

act_rpm_channel=FF

egt1_cal=00

als_tks_channel=FF

boost_conf=00

boost_targetoffs=FF

boost_minpressure=FF

boost_pid_kp=FF

boost_pid_ki=FF

boost_pid_kd=FF

boost_pid_ilimit=FF

boost_channel=FF

water_pump_temp=7E

hybrid_rpm_a=00

hybrid_rpm_m=00

water_pump_hyst=00

water_pump_channel=8F

toothrel_normal=FF

toothrel_missing=FF

fuelcut_min_kpa=0F

fuelcut_max_kpa=0B

tach_channel=F2

shiftcut_conf=FD

shiftcut_channel=FF

shiftcut_time=FF

softrpm_rpm=FF

h[0]=0F 00 00 00 00 00 00 00

h[1]=00 63 42 21 00 00 00 00

h[2]=01 12 02 02 02 02 02 02


WBO2 calibration problem

Tuning of the car is at the moment quite difficult, because I cant't calibrate my WBO2. I followed instructions found from MembersPage/PhatBob/UserGuide with no success. It says:

"Once the heater is up to temperature the O2% reading will display a value rather than question marks. We now need to adjust the calibration value so that the O2% reading is correct. The earths atmosphere is 20.9% Oxygen, we'll settle for a figure close to that.

RPM:0000 W00I00 P099

009F 77, 10EC D3 P

00 F1 00 00 0DDD

AFR=? O2%=20.9

To change the wideband calibration value type Manmttg8bcA8mcs and then type mll a few times to get an idea of the average value that its displaying. To increase the calibration amount increase the hex number after Manmttg8bc from A8 to A9, AA...AF while checking for changes by typing mll."

So command Manmttg8bcA8mcs gives O2% of 12.8, command Manmttg8bcAFmcs gives 13.0% and max hex of Manmttg8bcFFmcs gives just 16.0% . Quite far from 20.9%, isn't it??

Sensor is a BOSCH LSU-4 from VEMS web shop and the Genboard is calibrated. What's the reason and how to solve the problem?? AFAIK I'm not alone with this...one fellow Finn had similar issue and it was solved when he changed the sensor to one that came with Innovate LC-1.


Pete, you can use LCD and keyboard to heat up the sensor and get it to show O2%, and just open MT and adjust WB calibration constant from there (Settings -> Wideband settings -> Calibration constant), results are visible "live" as soon as you change the constant. You can verify that it's spot on by shutting down the heater (mde00), ECU and then heating it up again. MembersPage/PeepPaadam