Upload
nicutax
View
223
Download
1
Embed Size (px)
Citation preview
-1 -
EcoGas
Installation Guide
GAS EQUIPMENTS
EcoGas
-2 -
EcoGas
ORGANIZATION
ECOGAS - INSTALLATION GUIDE
The installation guide for the ECOGAS device is a modular documentation whichdescribes in detail this system from the technical and commercial point of view and it hasbeen studied in order to be suitable for all technicians, even if not practised.
The installation guide is divided in the following paragraphs:- Introduction- Installation Guide- Installation guide for handly computer- System setting- Appendices
The above division, created because of the different subjects, has been made in order tooptimize the use of the Installation Guide so that each chapter is indipendent but, at the sametime, it is part of the same textbook.
We also introduced some definitions, defined in the appendix A: “Dictionary of namesand definitions” so that the reading of the guide will be easier and comprehensible.
-3 -
EcoGas
GENERAL INDEX
1 INTRODUCTION1.1 General Characteristics1.2 General installation plan1.3 Detailed description of the components
1.3.1 The Electronic control unit and its functions1.3.2 The harness1.3.3 The change-over switch1.3.4 The handly computer1.3.5 The gas flow actuator1.3.6 The reducer1.3.7 The mixer
1.4 Advantages of the ECOGAS device
2 INSTALLATION GUIDE2.1 Preliminary operations2.2 Electronic control unit installation2.3 Electronic control unit connection
2.3.1 - 4 ways connector for “STEP” actuator2.3.2 - 3 ways connector for gas level transducer/pressure sensor2.3.3 - 10 ways connector for change-over switch2.3.4 - 5 ways DIN connector for handly computer2.3.5 - 6 ways male + female connector2.3.6 - Sheath A2.3.7 - Sheath B2.3.8 - Sheath C2.3.9 - Sheath D2.3.10 - Sheath E2.3.11 - Sheath F2.3.12 - Sheath G
2.4 Change-over switch installation2.5 LPG level transducer/pressure sensor installation2.6 Gas flow actuator installation2.7 Union connection for pressure sensor2.8 Mixer installation2.9 Reducer installation
-4 -
EcoGas
3 HANDLY COMPUTER INSTALLATION GUIDE3.1 General characteristics
3.1.1 Handly computer Keys3.1.2 How to read this guide
3.2 General system status
4 SYSTEM SETTING4.1. Automatic setting
4.1.1 Parameters automatic setting4.1.2 Pressure Sensor automatic setting4.1.3 Oxygen Sensor emulator automatic setting4.1.4 Oxygen Sensor automatic setting4.1.5 Automatic Step motor Reset position setting
4.2 Semiautomatic setting4.2.1 Parameters semiautomatic setting4.2.2 Pressure Sensor semiautomatic setting4.2.3 Oxygen Sensor emulator semiautomatic setting4.2.4 Oxygen Sensor semiautomatic setting4.2.5 Semiautomatic Step motor Reset position setting
4.3 Manual setting4.3.1 Parameters manual setting4.3.2 Pressure Sensor manual setting4.3.3 Oxygen Sensor emulator manual setting4.3.4 Oxygen Sensor manual setting4.3.5 Manual Step motor Reset position setting
4.4 Values display and setting exit4.4.1 Values display4.4.2 Setting exit
4.5 System setting4.6 System diagnosis
4.6.1 Current errors4.6.2 Historical errors
4.7 Solenoid valves test
APPENDIX:Appendix “A” - Dictionary of names and definitionsAppendix “B” - Interchangeability with the Lambda Gas I.B. systemAppendix “C” - Cars with carburettor enginesAppendix “D” - Cars with TURBO engine
EcoGas
1 INTRODUCTION
1.1 General Characteristics1.2 General installation plan1.3 Detailed description of the components
1.3.1 The Electronic control unit and its functions1.3.2 The harness1.3.3 The change-over switch1.3.4 The handly computer1.3.5 The gas flow actuator1.3.6 The reducer1.3.7 The mixer
1.4 Advantages of the ECOGAS device
-5 -
EcoGas
CODES:06LB00001530 ECO GAS device06LB00001531 ECO GAS “TURBO” device
06LB00001590 ECO GAS Electronic Control Unit06LB00001591 ECO GAS “TURBO” Electronic Control Unit
06LB00001101 Handly computer for ECO GAS device06LB00001102 Convertion kit for ECO GAS handly computer
-6 -
EcoGas
1 INTRODUCTION
1.1 GENERAL CHARACTERISTCS
The ECO GAS device is an innovating system for the gas feeding in the automotive field(both LPG and CNG) for explosion engines. The “heart” of the system is constituted by amicroprocessor able to run numerous functions optimizing times, adaptability and efficacy ofevery intervention carried out by the electronic control unit.
During the recent homologation test of the ECO GAS, the results obtained perfectlyshown the high quality of the carburation control system. The experience achieved by “BRCGas Equipments” allowed to create a new product, complete of all the components necessaryfor a good operation of the gas installation. The adaptability and the high technological levelof the programming system make the ECO GAS suitable to numerous functions for theoptimizing of the car operation and for the diagnosis and control of the system directlycarried out by the technician.
Moreover it is a warranty of a high potentiality for future development of the system itself.In order to make easier the technician work, the product and its installation has been
uniformed to all the other BRC systems already commercialized.
1.2 GENERAL INSTALLATION PLAN
The ECO GAS device can be installed on every type of engines (originally feeded bothwith carburettor and electronic injection) converted to gas with a traditional “BRC”installation (both LPG and CNG).
The Electronic Control Unit, with microprocessor, controls the whole gas installationand, through the “STEP” actuator, provides for the regulation in feedback of the fuelquantity in order to obtain an optimized carburation under the point of view of pollution,consumptions and drivibility independently from external conditions (temperature, etc...)and fuel composition.
The handly computer has been projected to “talk” in real time with the electroniccontrol unit permitting a precise control of the installation operation and also an easy andefficacious setting of its parameters.
The picture n. 1 shows the whole installation plan and puts in evidence the followingcomponents:
- the ECO GAS electronic control unit- the change-over switch with level indication- the handly computer- the “STEP” actuator for the gas flow control
-7 -
EcoGas
- the reducer- the mixer- the oxygen sensorThis plan has the aim of giving a general idea of the whole system.Something could change according to the type of car to convert so that it will be better to
refer to the specific connection plans.
1.3 DETAILED DESCRIPTION OF THE COMPONENTS
In the picture n. 2 we put in evidence the main components of the system that are:- the electronic control unit- the change-over switch- the “STEP” actuator for the gas flow control- the harness
Pic
t. 1
-8 -
EcoGas
Fig
. 2
1.3.1 THE ELECTRONIC CONTROL UNIT AND ITS FUNCTIONS
The ECO GAS Ecu is the operating centre of the whole gas installation.Through the harness, studied in order to achieve easily the different parts of the car where
the gas components are installed, thanks to idoneous inlet and outlet stages, sized in order tonot modify and/or damage the normal car operation with petrol, it is able to control the ECOGAS during its operations:
- manual and automatic changeover function with software programmable conditions- gas/petrol changeover and safety car functions (the gas flow is immediately arrested in
case of accidental stop of the engine, with double safety).- selection by software of the petrol feeding type (carburettor or injection)- selection by software of the gas feeding type (LPG or CNG) with different mappings of
operation- gas flow control function and the possibility to correct in real time the mixture title
according to the information of the oxygen sensor and the analysis of the different carconditions while driving (i.e. engine load).
- possibility of changing the different parameters in order to personalize the caroperation according to the different driving conditions.
- selection by software of the different type of used oxygen sensor- oxygen sensor signal emulation function with the possibility of automatic acquisition
of the parameters directly during petrol operation.- function of injectors cutting adaptable to the different types of injection and with the
-9 -
EcoGas
possibility of an easy connection to the external emulators.- fuel superimposition function and possibility to modify the time by software.- petrol ECU memories function able to directly cancel possible memorized operation
anomalies- “dialogue” function with the handly computer (code 06LB00001103)- level indication with four leds with reserve indication on the change-over switch (for
its operation the ECU has to be connected to one of the three available sensors - see §1.3.3.3)
- diagnosis of the system and of the correct car operation with warnings of the possibleerrors on the change-over switch: the error is memorized by the ECO GAS ECU in the section“Historical errors” which can be consulted with the handly computer.
- ECO GAS system check-up every time the dashboard is off.- selection by software of the setting method of the different parameters and signals
necessary for a correct operation of the installation (automatic, semiautomatic and manualsetting)
1.3.2 THE HARNESS
The ECO GAS kit also contains an idoneous harness to be connected to the ECU byusing an automotive harness with 35 pins.
All the secondary wired-harnesses and connectors directly go to the main one: the cablescolours are the same ones used for the Lambda Gas systems.
Moreover the conductors are divided in different sheaths in order to semplify theinstallation and improve the “look”.
1.3.3 THE CHANGE-OVER SWITCH
This is the interface between the EO GAS system and the user: through it the ECU givesall the necessary instructions to the driver.
At the moment the ECO GAS change-over switch follows the same line of all the otherBRC components (even if it will be possible to add other functions).
Together with the change-over switch an adhesive label is supplied in case the change-overswitch is installed in vertical position (you have only to remove the already sticked one).
1.3.3.1 CHANGEOVER FUNCTIONS FOR INJECTION CARS
The change-over switch (picture 3) has three different positions in order to allow:a) “forced petrol” position
-10 -
EcoGas
With the change-over switch button turned to the left, the writing “BRC” becomes red, theinjectors are operating, the gas solenoid valves are closed and the system for the gas flowcontrol is disconnected.
The car regularly runs with petrol as the gas installation does not exist.
b) gas/petrol automatic positionWith the change-over switch button in the centre, the car begins to run with petrol then
automatically changes to gas. It is possible both the changeover during aceleration anddeceleration and the threshold for the changeover is adjustable by software (see Handly com-puter user’s guide). While the engine operates with petrol, the writing “BRC” becomes redand starts to blink, then becomes green when the engine operates with gas.
Obviously, during the gas operation, the injectors are disconnected, the externalinjectors emulator runs, the gas solenoid valves are open, the gas flow control actuator isactived together with other components, where installed. This is the recommended positionfor a gas feeded car.
c) “forced gas” positionWith the change-over switch button turned to the right, the writing “BRC” becomes green
and the engine only runs with gas. The system automatically changes to petrol in case the carstart is not successful or in case of accidental stopping. During the primer the writing “BRC”becomes green and starts to blink.
This position has to be considered as an emergency solution to be used only in case ofproblems with the petrol feeding system and paying attention the petrol tank is not empty,avoiding the pumps runs without petrol. It is recommended to have a petrol quantity of 1/3 -1/4 of the tank capacity and to renew it continuosly so that it can not alter.
1.3.3.2 CHANGEOVER FUNCTION FOR CARBURETTOR CARS
The change-over switch has three positions and allows to have four different functions:a) gas operation
Pic
t. 3
-11 -
EcoGas
With the change-over switch button turned to the right, the writing “BRC” becomes green,the gas solenoid valves are open while the petrol one is closed. When the primer is finished,the writing “BRC” becomes green and starts to blink waiting for the engine starting.
During the gas operation the “safety car” function is always guaranteed (automaticstopping of the gas solenoid valves in case of accidental stop of the engine or for unsuccessfulstarting. The malfunction is shown on the led bar - see § 1.3.3.4)
b) gas/petrol changeoverWith the button in the centre for the changeover from gas to petrol, both the gas and
petrol solenoid valves are open in order to allow the filling up of the carburettor tank.The writing “BRC” becomes orange.
c) petrol operationWith the button turned to the left, the writing “BRC” becomes red, the gas solenoid valves
are closed while the petrol one is open.d) petrol/gas changeover
With the button in the centre for the changeover from petrol to gas, all the solenoid valvesare closed ad the fuel delivery is stopped in order to empty the carburettor.
The writing “BRC” is off.
1.3.3.3 LEVEL GAUGE
Inside the change-over switch there is a level gauge constituted by a led bar with fourgreen leds. The reserve indication is shown by the first led blinking.
Its operation can be obtained by connecting the electronic control unit to one of the threeavailable sensors:
- code 18CE00010046 GNC pressure sensor- code 18CE00010047 LPG level sensor for BRC Multivalve- code 18CE00010048 LPG level sensor for MV 92The level gauge is already adjusted but the indication can be optimized or corrected by
using the software (see handly computer user's guide).
1.3.3.4 FAILURES AND ERRORS INDICATION
The ECO GAS system is able to carry out in real time a diagnosys of its operation.Possible errors or failures are memorized by the Ecu and shown on the change-over switchled bar when they occur: all the leds begin to switch on one by one going first from the left tothe right and viceversa.
It is also possible to “consult” the Ecu in the section “CURRENT AND HISTORICALERRORS” by using the handly computer.
-12 -
EcoGas
1.3.3.5 ECO GAS SYSTEM CHECK-UP
Everytime the dashboard is switched off, the Ecu makes a check-up of all its parametersand of the “condition” of all the components of the ECO GAS system. This condition of“check-up” is shown by the change-over switch as follows: all the leds begin to switch on, twoleds together, going from the centre to the two ends and viceversa.
(P.S. In case of necessity, it is possible to stop the check-up for starting the car, providingthis does not happen during the “parameters set-up” or when a setting phase is finished).
1.3.4 THE HANDLY COMPUTER
The ECO GAS system is integrated by a programming handly computer (pict. 3.1) sothat it is possible to “talk” to the Ecu and to enter its memories and the central unit.
It is the instruments used by the technician to interact with the whole ECO GAS systemand, with this, he is able to “personalize” the gas installation according to the carcharacterists in the different driving conditions.
Obviously the programming system has been structured in order to show to not skilledtechnicians all the operations to do during installation, adjustment and diagnosis of thesystem.
It is provided with a liquid crystal backlighted display which permits to show all theinformation of the choisen option through the qualification of one of the six available buttons.
For more detailed information please refer to the specific section of the guide for thehandly computer use.
BRCGAS EQUIPMENTS
Pic
t. 3
.1
-13 -
EcoGas
1.3.5 GAS FLOW CONTROL ACTUATOR
The control of the fuel quantity sent to the engine is carried out by the “STEP” actuator: itis a step motor normally used in the automotive field to which we add a cilindric shutterwhose stroke creates a variation of the passage section of the gas in the duct.
The adjustment system is checked in real time by the Ecu which verifies the work doneand values both the oxygen sensor answer and the car operation conditions following analready set mapping (it is also possible to manage it by software): reset position with coldoxygen sensor and cut-off, idling, speed, acceleration and deceleration, engine load.
The rapidity of decision of the digital system and its flexibility guarantee an easy andefficacious setting for the constant holding of the correct stoichiometric ratio on every kind ofcar and engine.
The actuator has ben studied for an optimized operation both with CNG and LPG.
1.3.6 REDUCER
The ECO GAS system is suitable for LPG and CNG. Anyway the LPG or CNG reducerhas to be “BRC” ones, according to the current norms which do not allow different pairingsfrom the ones used during the homologation tests.
1.3.7 MIXER
Also for the mixer is the same: it is possible to install only BRC mixers.P.S. The use of the ECO GAS, through the information given to the handly computer,
allows a skilled technician to evaluate possible malfunctions of the feeding mechanical systemand to find out the best position and setting according to the type of car.
-14 -
EcoGas
1.4 THE ADVANTAGES OF THE ECO GAS SYSTEM
We have already stated that this system with microprocessor and the method for theprogramming are at a very high level. Hereunder we would like to underline some importantcharacteristics:
1) ECO GAS is a system studied and projected by BRC technical staff to obtain a very easyuse both for the technician and the driver.
2) The diagnosis system always checks the correct operation of the whole system.3) The self acquisition system make the setting of the Ecu easier removing the possibility
for the technician to make mistakes (we assure you that the self acquisition will be improvedin the future).
4) The electronic control system is programmed in such a way to be able to adapt itself tothe different driving conditions, improving performance and consumption.
5) The Ecu in and out stages are studied in order to avoid to damage the petrol originalcar system maintaining unchanged the diagnosis and control systems during the driving.
Please follow carefully all the installation plans supplied by BRC Technical Assistance,checking all the setting and connections.
6) The flexibility of the program both of the handly computer and of the Ecu permits tothe skilled technician to personalize the system operation according to every kind ofrequirements.
7) The microprocessor system with programmable memories permits to have greatpossibilities of future developments. BRC technicians are already studying them and areready to evaluate all suggestions coming from our installers in the context of a fullcooperationship which distinguishes BRC commercial policy and that is extremely useful forthe improvement of the components.
P.S.: the ECO GAS system is interchangeable with the I.B. Lambda Gas sytem (seeAppendix "B").
EcoGas
2 INSTALLATION GUIDE
2.1 Preliminary operations2.2 Electronic control unit installation2.3 Electronic control unit connection
2.3.1 - 4 ways connector for “STEP” actuator2.3.2 - 3 ways connector for the gas level/pressure sensor transducer2.3.3 - 10 ways connector for change-over switch2.3.4 - 5 ways DIN connector for handly computer2.3.5 - 6 ways male + female connector2.3.6 - Sheath A2.3.7 - Sheath B2.3.8 - Sheath C2.3.9 - Sheath D2.3.10 - Sheath E2.3.11 - Sheath F2.3.12 - Sheath G
2.4 Change-over switch installation2.5 LPG level/pressure sensor transducer installation2.6 Gas flow actuator installation2.7 Union connection for pressure sensor2.8 Mixer installation2.9 Reducer installation
-15 -
EcoGas
2. INSTALLATION GUIDE
2.1 Preliminar Operations
Before installing the ECO GAS components, as you have to do before converting a car, it isimportant to verify the car petrol operation.
Particularly it is better to verify with care the ignition electric system, the air filter, thecatalytic silencer; check with a multimeter or with BRC devices (Jolly, Diagnostic Box, Polar)the correct operation of the different signals: positive after turning the key, enginerevolutions, oxygen sensor, memories feeding of the petrol Ecu, injectors positive. Verify alsoif the mass potential of the different signals is constant and corresponds to the one of thepoint where you want to connect the mass of the ECO GAS Ecu: the acceptable change couldbe of some 10 mV.
Another important thing is to attentively follow the instructions supplied by BRC and theinstallation plans after having checked the type of car to be converted, the year ofmanufacture, the engine type, the type of injection and ignition and obviously the possibilityof installing a gas system.
These are very simple actions which requires few minutes but will avoid possible futureproblems and dispute with consequent loss of time.
P.S. Do not fix the conductors near the high tension cables of the ignition system.
2.2 Electronic Control Unit Installation
The ECO GAS Ecu has a new cover made of aluminium and plastic material parts, verystrong and with a great tightness, suitable to be directly installed in the engine compartment.
For a correct installation, please follow carefully these instructions:- avoid to place the Ecu near to the exhaust manifold: the radiative heat caused by this
latter might damage the Ecu even if relatively far. It is necessary to put a wall between theexhaust manifold and the Ecu in order to avoid the radiative heat.
- anyway it is necessary to place the Ecu in the engine space but protected by water.Particularly it is necessary to fix it in order to have the sheaths towards the low avoiding thehumidity goes inside the connector, pouring on the sheaths (see picture 4)
The solution of fixing the Ecu inside the car, when possble, is always allowed; in this caseit is necessary to avoid not ventilated places, far from felt, moquettes, etc...
To fix the Ecu, use the idoneous holes and avoid other systems which could deform thebox. Please verify it does not vibrate.
-16 -
EcoGas
2.3 Electronic Control Unit Connection
The ECO GAS Ecu has to be connected by using the harness supplied by themanufacturer.
All the connections has to be made with well done and insulated soft soldering. Do notwind the cables or use an unreliable connecting terminal in anycase.
The following instructions are general and necessary for a good comprehension of thesystem. For the application on single cars, please refer to specific connection plans.
At one end the harness has a main connector with 35 ways to which all the secundaryconnectors and the different conductors come. The same colours used in the LAMBDA GASI.B. system have been maintained. Moreover the conductors are divided in sheaths in order tomske the installation easier as possible.
(•) P.S. In the following tables we defined the signals coming to the Ecu with "in" and theones coming from the Ecu with "out".
Pic
t. 4
YESYES YES
NONONO
-17 -
EcoGas
2.3.1 4 WAYS CONNECTOR FOR "STEP" ACTUATOR
It links the Ecu to the step motor which has the function of gas flow control (see § 1.3.5)
Pic
t. 5
Pic
t. 6
Red
White/Red
Blu
Blue
Green
Vio
let
Ora
nge
Gre
y
Bro
wn
Whi
te
Whi
te/O
rang
e
Yel
low
Ligh
t blu
e
Vio
let
AO
rang
eLU
NG
O
CO
RT
O
Black
Violet/WhiteGreen/White
e
-18 -
EcoGas
1/2
4/4
STOP80%
GAS EQUIPMENTS
BRC87C
0 400
300
bar
2.3.2 3 WAYS CONNECTOR FOR THE GAS LEVEL TRANSDUCER/PRESSURE SENSOR
It is a white 3 ways connector to which one of the three level transducer is connected (see §1.3.3.3) (Pict. 7).
2.3.3 10 WAYS CONNECTOR FOR CHANGE-OVER SWITCH
It links the Ecu to the change-over switch placed inside the car. To make easier thepassage in the hole, it is recommended to curve the connector at 90° in order to make itparallel to the cables (pict. 8).
Fig
. 8
BRC
Pic
t. 7
-19 -
EcoGas
2.3.4 5 WAYS DIN CONNECTOR FOR HANDLY COMPUTER
It links the Ecu to the programming handly computer during the setting (see chapter 3)(pict. 9).
When the setting is finished, place the connector towards the low to avoid water in thecontacts; pay attention it does not hamper the operation of possible rolling devices placednear it (eventually it is better to bind it to the other sheaths with a clamp).
2.3.5 6 WAYS MALE + FEMALE CONNECTOR
This connector has an emergency function in case of bad working of the gas installation.On the male there are three idoneous jumpers to be used to reset eventually cut conductorsas indicated in the specific plans:
- oxygen sensor signals (yellow+light blue),- Ecu memories (white+white/orange),- injectors (orange+violet).In this way the original petrol operation of the car is reset.Once this connector is inserted, the car regularly runs with petrol even if the ECO GAS has
been taken away. This device can be particularly useful in order to find possible malfunctionsof the original petrol system, too as it resets everything as if the gas installation is not present.
The corrct use consists in inserting the connector and, according to the case, turn chechange-over switch in the "forced petrol" position or disconnect the main 35 ways connectorfrom the Ecu.
P.S.: an injectors emulator or a disconnector outside the ECO GAS Ecu, if out of order, cannot be by-passed with this system but has to be desassembled and checked.
During the normal operation, the male connector has to be preserved by the car owner andthis latter has to know perfectly the use of this connector, too.
Regarding the female connector, all the recommendations listed in § 2.3.4 are valid.
Pic
t. 9
-20 -
EcoGas
2.3.6 SHEATH A
Colour type (•) descriptionRed in battery positive to be protected by a 7,5 A fuseGreen out LPG solenoid valve - other devices (eventual)Blue cut and insulateBlu e cut and insulateWhite/Red out solenoid valve on LPG or CNG reducer
The connection of the RED cable to the battery positive has to be protected by a 7,5 Afuse, or the warranty will be not valid.
Pic
t. 1
0P
ict.
11
Shea
th "
A"
White/Red
Reducer SolenoidValve
LPG Solenoidvalve
Green
Blue
Blue Do not connect
+ 12V Battery7.5ARed
Do not connect
-21 -
EcoGas
2.3.7 SHEATH B
Colour type (•) descriptionBrown in positive after turning the keyGrey in engine ignition impulses
The connection of the BROWN cable absorbs a very little quantity of current so that anypositive after turning the key can be used. The most important thing is to verify that it is nota point of the electrical installation subject to great loss of tension. For example, in some carsit is not possible to use the ignition coil positive or the injectors one because they are precededby resistances which can low the potential of some volt.
The GREY cable has to be connected to an impulsive signal with a frequency proportionalto the engine rpm. It could be:
- a square wave signal found on the injection or ignition Ecus, if only with a sufficientamplitude. It might be the cable which goes to the engine speed indicator or the connectioncable between the above Ecus and the ignition power module,
- a signal coming from the "negative of the ignition coil"When it is possible, we recommend you to prefer the square wave signal. We advice you
against winding it in coils like an antenna on the high tension cable. In case there are notother solutions (quite impossible), we suggest you to use the plastic reel supplied with theBRAVO Ecu code 06LB00001016 keeping in mind that a correct changeover might not bealways guaranteed.
Pic
t. 1
2 Sh
eath
"B
"
Gre
y
Bro
wn
Positive after turning the key
Engine ignition impulses
-22 -
EcoGas
2.3.8 GUAINA C
(lenght = 2 meters)
Colour type descriptionOrange - injectors cable (injectors side)Violet - injectors cable (injectors Ecu side)
The ECO GAS Ecu permits to directly stop the operation of the injectors through a relaywith a switch and to deviate the current to the external emulator code 06LB00001054.
This solution is suitable for single-point systems (monoinjection) (pict. 14A) or multipointfull group (more injectors controlled by just one cable) (pict. 14B).
In these cases, cut the cable which connects the monoinjectors (or the injectors) to thepetrol injection Ecu. We obtain two ends: the one towards the injector has to be connected tothe ORANGE cable and the end towards the injection Ecu has to be connected to theVIOLET one.
Vio
let
Ora
nge
injectors cable (injectors side)
injectors cable (Ecu side)
lenght sheath = 2 meters
EEEEccccoooo
GGGGaaaassssORANGE
VIOLET
MONOINJECTOR
✂
PETROL INJECTION ECU
INJECTORSI
✂
PETROL INJECTION ECU
ORANGE
VIOLET
EEEEccccoooo
GGGGaaaassss
Pic
t. 1
4B
Pic
t. 1
4A
Pic
t. 1
3 Sh
eath
"C
"
-23 -
EcoGas
When it is not necessary to emulate the charge of the injectors (the lights are off and thereare not malfunctions), the VIOLET and ORANGE cable will be used also for sequencialmultipoint system (that is more injectors separately controlled), by interrupting the only posi-tive cable which feeds the injectors (pict. 15A and 15B).
P..S.: Take care to verify the feeding of other devices (such as the idling adjusting screw,...) will not be stopped.
In this case the "4 channels disconnector with harness" code 06LB00001072 or withoutharness code 06LB00001075 might be used, or the "right" and "left" models of the harness(code 06LB50010015 and 06LB50010016), too. For the correct use of these devices, refer tothe instructions supplied with them. For the sequencial multipoint systems which require theemulation of the injectors, use only the BRC "2" - "3" or "4" channels emulators withharness.
In any case, refer to the detailed connection plan of the single car.
2.3.9 SHEATH D
(lenght = 0.5 metri)
Colour type descriptionOrange - injectors emulator (eventual)Violet - injectors emulator (eventual)
The sheath D is different from the C one for the lenght of the cable :- sheath C cable lenght l = 2.0 m- sheath D cable lenght l = 0.5 m
Pic
t. 1
5A
Pic
t. 1
5B
INJECTORS
PETROL INJECTION ECU
OR
AN
GE
VIO
LET
✂
EEEEccccoooo
GGGGaaaassss
INJECTORS
PETROL INJECTION ECU
OR
AN
GE
VIO
LET
✂
EEEEccccoooo
GGGGaaaassss
-24 -
EcoGas
The ORANGE and VIOLET cables of the sheath D have to be connected to thecorrispondent ORANGE and VIOLET cables of the eventual injectors emulator code06LB00001054. Always refer to the detailed connection plans of the single cars andabsolutely avoid to confuse the two sheats C and D.
2.3.10 SHEATS E
Colour type (*) DescriptionYellow in oxygen sensor signalLight blue out emulated lambda signal
The oxygen sensor generally gives a signal between 0 and 1 V; in some type of cars it ispossible to find signals between 0 and 1,8 V or between O and 5 V. The ECO GAS Ecu,idoneously adjusted by software, is able to adapt itself to all these types of oxygen sensors.
The connection of the YELLOW and LIGHT BLUE cables can be directly made on theinjection Ecu or on the oxygen sensor connector. Anyway, follow carefully the detailed
Pic
t. 1
6 Sh
eath
"D
"P
ict.
17
Shea
th "
E"
Vio
let
Ora
nge
Sheath Lenght = 0,5 meters
Orange
Violet
Lambda GasEmulator code06LB00001054
Ligh
t Blu
e
Yel
low
Oxygen Sensor Signal
Emulated Lambda Signal
-25 -
EcoGas
connection plans of the single cars.If it is necessary to emulate the oxygen sensor signal, the connection plan is the one
represented in the picture 18A. If it is not necessary, refer to the picture 18B.
Important: do not short-circuit the oxygen sensor cable nor towards the earth or towardsthe positive. Do not apply load.
In case of doubt, the oxygen sensor can be easily found out by using the "Jolly" devicecode 06LB00001086.
2.3.11 SHEATH F
Colour type (*) DescriptionWhite in ECU memories cable (battery side)White/Orange out ECU memories cable (ECU side)
These connections are usually used on cars where it is necessary to zero the petrol injectionEcu memories. Normally this memory is maintained by a cable which directly connects theEcu to the battery (see the connection plan of each car).Generally this cable is easy to be
Pic
t. 1
8BP
ict.
18A
InjectionECU
Ligh
t Blu
e
Yel
low
✂
Oxygen Sensor
InjectionECU
Ligh
t Blu
e
Yel
low
Oxygen Sensor
Do notconnect
-26 -
EcoGas
Pic
t. 1
9 Sh
eath
"F
"
recognized because its tension is always 12V, with the key turned on, off and when the carruns (see picture 20)
Thanks to these connections it is possible to stopped it in time, saving some functions suchas the warm cable self-cleaning which occurs few seconds after the engine stop.
2.3.12 SHEATH G
Colour type (*) DescriptionBlack in engine earthWhite/Green out external emulator feeding (eventual)White/Violet - cut and insulate
It is important that the BLACK cable is connected to the engine earth and not to the coilnegative or to other parts of the bodywork. It will be easier to make mistakes in theinterpretation of the oxygen sensor signal by taking the signal in not favorable points as,
Pic
t. 2
0
Whi
te/O
rang
e
Whi
te
ECU memories cable (battery side)
ECU memories cable (ECU side)
InjectionECU
Whi
te/O
rang
e
Whi
te✂ +
12VBattery
-27 -
EcoGas
changing the point of the car mass, the potencial could vary of some tenth of Volt.P.S. Check carefully the potential of the point where you want to connect the BLACK
cable by comparing it to the mass of the other signals (oxygen sensor, etc...)The feeding of the possible external injectors emulators has to be connected to the
WHITE/GREEN cable (see specific instructions for installation)Absolutely avoid to connect the emulator to the GREEN cable which feeds the gas solenoid
valves as, by doing this, it will be possible to use the fuels superimposition.In case of installation made on carburettor cars, the WHITE/GREEN cable has to be
connected to the Petrol solenoid valve (see Appendix A)
2.4 CHANGE-OVER SWITCH INSTALLATION
With the screws supplied, fix the device in a visible and accessible place for the driver.Substituting the adhesive label with the spare one, the change-over switch can be also
mounted in a vertical position.
2.5 LPG LEVEL TRANSDUCER/PRESSURE SENSOR INSTALLATION
Follow the instructions supplied with the choisen transducer and see the § 4.1.1 for theadjustment.
2.6 GAS FLOW ACTUATOR INSTALLATION
The "STEP" actuator has to be placed on the gas duct between the actuator and the mixer,the nearest as possible to the mixer. Moreover it has to be placed straight with the connector
Pic
t. 2
1 Sh
eath
"G
"
White/Violet
Black Engine Earth
External Emulator Feeding (eventual)Petrol Solenoid Valve Feeding (eventual for carburettor cars)
White/Green
Do not connect
-28 -
EcoGas
towards the high (see Pict. A).Verify there are not excessive vibrations and that the weight of the step motor does not lie
heavily on the hose.
2.7 UNION CONNECTION FOR PRESSURE SENSOR
The ECO GAS Ecu has an internal pressure sensor which has the aim of measuring thevacuum inside the induction manifold.
It has to be connected to a whatever point of the induction manifold between the throttlebody and the valves, as shown in the pictures 22 and 23, by using the idoneous unions.
For the connection we suggest you to use the following components:- code 21RG99020001 "2 ways fork in nylon for idling"- code 22TB00060001 "idling rubber pipe 5x10.5"- code 21RG03010005 "idling nozzle M5x0,8"For the connection of the pressure sensor on Turbo cars, see Appendix "D".
Pic
t. A
Pic
t. B
Pic
t. 2
2
150°YES
NONO
THROTTLEBODY
IDLING NOZZLE M5x0,8
EEEEccccoooo
GGGGaaaassss
IDLING RUBBER PIPE 5x10,5
-29 -
EcoGas
2.8 MIXER INSTALLATION
Follow the instructions supplied for each car.
2.9 REDUCER INSTALLATION
Follow the usual installation norms, fix the reducer to the bodywork and orientate it insuch a way that the diaphragms are parallel to the longitudinal axis of the car. Be sure theengine does not knock into the reducer, during the idling or at high speeds.
If it is possible, place the reducer and the mixer in such a way that the lenght of the gaspipe is as shorter as possible.
Pic
t. 2
3
THROTTLEBODY
2 WAYS FORK
EEEEccccoooo
GGGGaaaassss
IDLING RUBBER PIPE 5x10,5
ORIGINAL CONNECTION
OR
IGIN
AL
PIP
ING
✂
EcoGas
3 HANDLY COMPUTER INSTALLATION GUIDE
3.1 General characteristics3.1.1 Handly computer Keys3.1.2 How to read this guide
3.2 General System Status
4 SYSTEM SETTING
4.1. Automatic setting4.1.1 Parameters automatic setting4.1.2 Pressure Sensor automatic setting4.1.3 Oxygen Sensor emulator automatic setting4.1.4 Oxygen Sensor automatic setting4.1.5 Automatic Step motor Reset position setting
4.2 Semiautomatic setting4.2.1 Parameters semiautomatic setting4.2.2 Pressure Sensor semiautomatic setting4.2.3 Oxygen Sensor emulator semiautomatic setting4.2.4 Oxygen Sensor semiautomatic setting4.2.5 Semiautomatic Step motor Reset position setting
4.3 Manual setting4.3.1 Parameters manual setting4.3.2 Pressure Sensor manual setting4.3.3 Oxygen Sensor emulator manual setting4.3.4 Oxygen Sensor manual setting4.3.5 Manual Step motor Reset position setting
4.4 Values display and setting exit4.4.1 Values display4.4.2 Setting exit
4.5 System setting4.6 System diagnosis
4.6.1 Current errors4.6.2 Historical errors
4.7 Solenoid valves test
-30 -
EcoGas
3. HANDLY COMPUTER INSTALLATION GUIDE
3.1 GENERAL CHARACTERISTICS
The handly programming computer is the necessary device for the installation and settingof the equipment and allows the technician to "talk" with the ECO GAS Ecu.
It has to be connected to the ISO interface of the control Ecu, through the stereo 5 waysDIN connector and it is equipped with an alphanumeric backlighted display to make easierthe night reading.
The handly computer allows:- the display in real time of the required data (engine revolutions, oxygen sensor, induction
manifold vacuum, step motor position), and the driving conditions (cut-off, pumping)- the possibility of verifying during the various phases that all the already done
connections and the behaviour of the required data are correct.- the "drived" management of the Ecu and gas installation setting- the complete control of the good operation of the system both through the direct
operation test of some components and through the interpretation of the shown data that askilled technician is able to do.
For the correct installation of the handly computer refer to § 2.3.4.
P.S.: BRC handly computer is perfectly compatible with the previous ECO GAS 2000 Ecusand all future programs will be suitable for the "old" ones.
For the technicians which have an "old" version of the handly computer, a suitableconvertion kit is already available in order to adapy it to the ECO GAS made by BRC.
- Code 06LB00001102 Convertion kit for ECO GAS handly computer
-31 -
EcoGas
3.1.1. HANDLY COMPUTER KEYS
The following list describes the meaning of the 6 keys placed on the handly computer.
SYMBOL KEY MEANING
Page-up Back to the previous page
Page-down To the next page
Next Change the choice in the displayed page
Plus Add one unit to the displayed value (i.e.: from 4 to 5).
Minus Subtract one unit to the displayed value (i.e.: from 5 to 4).
Enter Confirm the displayed choice
The choisen parameters are confirmed and youautomatically enter the next page.
-32 -
EcoGas
--------------------------------------------------
Operation to be carried out by the technician.
--------------------------------------------------
Page displayed by the handly computer
Usable keys to move inside the page
--------------------------------------------------
3.1.2. HOW TO READ THIS GUIDE
The setting different phases are indicated in the following paragraphs, through flow charts,which show the operations to be done, the displayed pages on the handly computer and thekeys it is possible to use.
Keys sequence to be pressed to display the next page
Page displayed by the handly computer
The symbol "*" which appears near some words of the pages displayed by the handly com-puter means the automatically selected option:
- to accept it press Enter
- to change option press Next and then Enter
Key to be pressed to display the next page
Paragraph you have to refer to for a detailed descriptionof the meaning of the text displayed by the handly com-puter.
4.3.2.
Arrow to display the next page
Arrow to display the previous page
-33 -
EcoGas
xx - Software version implemented on the ECO GAS Ecu.After 5 seconds the next page of the general system statusautomatically appears.
TARATURA ? TARATURA ? TARATURA ? TARATURA ? TARATURA ? SI *NO SI *NO SI *NO SI *NO SI *NO
TEST ELETTROVALVTEST ELETTROVALVTEST ELETTROVALVTEST ELETTROVALVTEST ELETTROVALVOLE? SI *NOOLE? SI *NOOLE? SI *NOOLE? SI *NOOLE? SI *NO
DIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMA SI *NO SI *NO SI *NO SI *NO SI *NO
ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM
Indication like led bar for theoxygen sensor and the step motorposition (The shown window isincluded between the maximum andminimum value obtained during thesetting).
SI - you enter the system setting
NO - you go directly to the system diagnosis page
Chap.4
SI - you enter the solenoid valve test
NO - you return to the general system status page
SI - you enter the system diagnosis
NO - you go directly to the solenoid valves test page
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
LAM ############LAM ############LAM ############LAM ############LAM ############MPP ############MPP ############MPP ############MPP ############MPP ############
4.6
4.7
3.2 GENERAL STATUS OF THE SYSTEM
To verify the "status" of the ECO GAS system during the different driving conditions, andobviously the correct operation of the gas installation, both in the workshop and on the road,it is possible to read the desired parameters with the handly computer, as shown in thefollowing flow chart. P.S. The following pages are obviously consultable even if the engine ison. The panel lighting is enough in order to activate the handly computer and, after 1 secondthe following page will be displayed:
The general system status displays:Rxxxxx - engine revolutions;P C M/R system status parameters(see table at the end of this guide);Pxxx - vacuum value depressionmeasured before the throttle body;Mxxx - step motor position;Lxxx - oxygen sensor tensionconvertion.
System Diagnosis
Solenoid valves test
Setting
-34 -
EcoGas
4. SETTING OF THE SYSTEM
This paragraph describes the different pages displayed by the handly computer, theirmeaning, the description of the various options in each page, the results caused by the choicedone, and the suggested options for the best engine and ECO GAS system operation.
The setting procedure is a sequence of operations which has to be done following theindications of the handly computer, at least for the first time (the program foresees theimpossibility of operation outside the only correct and planned sequence). Anyway, accordingto the technician necessity and his knowledge of the system, it is possible to execute thephases again with a different sequence, even because the system signals every wrongoperation and does not accept data that are in contrast with the good operation and efficacyof the control.
The ECO GAS system allows the selection of 3 different settings:
AUTOMATIC: The system automatically acquires the different parameters, checking if theacquirements are really made during the conditions required for the setting. For example, itchecks that an acceleration is done in the correct way; if it is not correct, the acquirement isnot accepted and the operation has to be repeated.
SEMIAUTOMATIC: The system automatically acquires the different parameters but itdoes not check if the the correct conditions occur during the setting: the technician has toconfirm all the operations by pushing the key "Enter" on the handly computer.
MANUAL: It allows to enter directly the values. The ECO GAS system does not carry outany control on these data.
We suggest this option only to skilled technician or when you want to directly modify thevalue of the obtained data, after having completed at least one time the system setting.
Each of the above setting is divided in:- parameters setting;- pressure sensor setting;- oxygen sensor emulator setting (eventual);- oxygen sensor setting;- step motor reset position setting;
-35 -
EcoGas
PRELIMINARY OPERATIONS:Before begining the setting phase, we suggest to start the car using petrol and to check on
the handly computer display if:- the revolution numbers correspond to the real value,- the pressure changes (it decreases during the acceleration and increases during
deceleration),- the oxygen sensor signal moves from nearly 0 to more than 50: if you obtain an oxygen
sensor signal that is constant, it means the connection is not correct or that the oxygen sensoris damaged or short-circuited.
The system setting has to be carried out after having kept the engine on with petrol forsome minutes until the cooling ventilator operates at least once.
ATTENTION:Each time you insert the key and turn it, the handly computer start again the procedure. If
the engine stops during the setting, the handly computer displays the following page:
in this case it is necessary to:- turn off the dashboard and wait until the change-over switch is off,- insert the key again and switch on the dashboard only, without starting the engine,- enter the setting procedure and start from the point where you stopped before.
ATTENTION:It is necessary to insert the key and switch the dashboard on without starting the engine, or
the following page will be displayed :
General system status 3.2
REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE ERRATO! ERRATO! ERRATO! ERRATO! ERRATO!
(Wrong engine running)
TARATURA NON TARATURA NON TARATURA NON TARATURA NON TARATURA NON ABILITATA ABILITATA ABILITATA ABILITATA ABILITATA
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
(Setting not allowed)
-36 -
EcoGas
4.1 AUTOMATIC SETTING
The system automatically acquires the different parameters, recognizing the drivingconditions required to the technician during the setting.
This type of setting is recommended to technicians which are not yet practised with ECOGAS: it is sufficient to correctly carry out all the operations indicated by the handly computerand wait the self-acquisition of the values made by the Ecu is completed.
SWITCH THE DASHBOARD ONENGINE OFF
ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
xx - Software version implemented on the ECO GAS Ecu.After 5 seconds the next page of the general system statusautomatically appears.
General system status
TARATURA ? TARATURA ? TARATURA ? TARATURA ? TARATURA ? SI *NO SI *NO SI *NO SI *NO SI *NO
SI - you enter the system setting
NO - you go directly to the system diagnosis page
MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM SEMIAUTOM SEMIAUTOM SEMIAUTOM SEMIAUTOM SEMIAUTOM
MANUALE - you enter the manual settingAUTOM - you enter the automatic settingSEMIAUTOM - you enter the semiautomatic setting
4.3
4.2
PARAMETRI - you start the parameters setting
SONDA PRESSIONE - pressure sensor setting
4.1.1 *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE 4.1.2
N.B. you can go in the following pages only if you completethe previous setting at least once.
LAM ############LAM ############LAM ############LAM ############LAM ############MPP ############MPP ############MPP ############MPP ############MPP ############
Indication like a led bar
Setting?
-37 -
EcoGas
TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.LAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SI
SI - you enter the oxygen sensor emulatorsetting. 4.1.3
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
SONDA LAMBDA - you enter the oxygen sensor settingPOS.RESET M.PP - you enter the step motor resetposition setting.
4.1.4
4.1.5
*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA
USCITA TARATURA - you leave the settingVALORI TARATURA - you can display the valuesobtained during the setting 4.4.1
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
General system status 3.2
4.4.2
-38 -
EcoGas
4.1.1 PARAMETERS AUTOMATIC SETTING
SONDA PRESSIONE - pressure sensor setting *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
4.1.2
CARBURATORE CARBURATORE CARBURATORE CARBURATORE CARBURATORE *INIEZIONE *INIEZIONE *INIEZIONE *INIEZIONE *INIEZIONE
Choice of the original feeding with petrolCARBURATORE - cars with carburettor App.C
COMMUT. BENZ/GASCOMMUT. BENZ/GASCOMMUT. BENZ/GASCOMMUT. BENZ/GASCOMMUT. BENZ/GAS ACC *DEC ACC *DEC ACC *DEC ACC *DEC ACC *DEC
DEC - choise the automatic changeover in deceleration.ACC - choise the automatic changeover in acceleration
EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA? SI *NO SI *NO SI *NO SI *NO SI *NO
NO - the oxygen sensor emulation is not necessarySI - the oxygen sensor signal is emulated
4.1.3
GPL - the gas installation is a LPG oneMETANO - the gas installation is a CNG one
METANO *GPL METANO *GPL METANO *GPL METANO *GPL METANO *GPL
MAX ESCURSIONEMAX ESCURSIONEMAX ESCURSIONEMAX ESCURSIONEMAX ESCURSIONEMOT. PP=xxxMOT. PP=xxxMOT. PP=xxxMOT. PP=xxxMOT. PP=xxx
xxx - (already set) shows the maximun number of stepsof the step motor with regards to its reset position (inopening and closing)
-39 -
EcoGas
TEMPO SOVRAPPOS.TEMPO SOVRAPPOS.TEMPO SOVRAPPOS.TEMPO SOVRAPPOS.TEMPO SOVRAPPOS. CARBUR.=xxx CARBUR.=xxx CARBUR.=xxx CARBUR.=xxx CARBUR.=xxx
xxx - (already set) shows the fuel superimposition timein tenth of seconds.
SELEZIONE SONDASELEZIONE SONDASELEZIONE SONDASELEZIONE SONDASELEZIONE SONDA LAMBDA=xxx LAMBDA=xxx LAMBDA=xxx LAMBDA=xxx LAMBDA=xxx
xxx - by varying this parameter it is possible to selectthe different types of oxygen sensors according to thefollowing table:000 0÷1V 004 0÷1V with absorption001 0÷5V 005 0÷5V with absorption002 0,8÷1,5V 006 0,8÷1,5V with absorption003 5÷0 V 007 5÷0V with absorption
NUMERO PASSI INNUMERO PASSI INNUMERO PASSI INNUMERO PASSI INNUMERO PASSI IN POMPATA=xxx POMPATA=xxx POMPATA=xxx POMPATA=xxx POMPATA=xxx
xxx - (already set) number of steps in opening of the"step" motor in pumping conditions
VALORE LAMBDAVALORE LAMBDAVALORE LAMBDAVALORE LAMBDAVALORE LAMBDA MAGRO=xxx MAGRO=xxx MAGRO=xxx MAGRO=xxx MAGRO=xxx
VALORE LAMBDAVALORE LAMBDAVALORE LAMBDAVALORE LAMBDAVALORE LAMBDA RICCO=xxx RICCO=xxx RICCO=xxx RICCO=xxx RICCO=xxx
xxx - (already set and equal to LAM RICCO) referencevalue of the rich lambda during FULL LOAD condition.
xxx - (already set and equal to LAM MAGRO) referencevalue of the lean lambda during FULL LOADcondition.
App.C
App.C
COMMUT. BENZ/GASCOMMUT. BENZ/GASCOMMUT. BENZ/GASCOMMUT. BENZ/GASCOMMUT. BENZ/GAS RPM=xxxxx RPM=xxxxx RPM=xxxxx RPM=xxxxx RPM=xxxxx
xxxxx - (already set) rpm threshold beyond which theautomatic petrol/gas changeover is effected.
-40 -
EcoGas
(•) If the handly computer displays a number of rpm which is the half of the real one, it is necessary to input anumber of cylinder equal to half of the real ones (i.e.: a car with a coil every two cylinder and with the signaltaken from one of these).
VARIAZIONE VARIAZIONE VARIAZIONE VARIAZIONE VARIAZIONE RPM = xxxxx RPM = xxxxx RPM = xxxxx RPM = xxxxx RPM = xxxxx
xxxxx - (already set) rpm variation with regards to thethreshold to allow the automatic petrol/gas changeover.
TURBO ? TURBO ? TURBO ? TURBO ? TURBO ? SI *NO SI *NO SI *NO SI *NO SI *NO
NO - cars with normal engineSI - cars with turbo engine App.D
N. CILINDRI N. CILINDRI N. CILINDRI N. CILINDRI N. CILINDRI * x * x * x * x * x
x - specify the car engine cylinder number (between 2and 8). This value has influence on the rpm readingcarried out by the ECO GAS Ecu and depends from thechoisen signal for the rpm reading (•).
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
LIVELLO CARBUR.LIVELLO CARBUR.LIVELLO CARBUR.LIVELLO CARBUR.LIVELLO CARBUR. 4/4=xxx 4/4=xxx 4/4=xxx 4/4=xxx 4/4=xxx
xxx - (already set) shows the threshold between the 3/4and 4/4 of the fuel level. Increasing this value theduration of 4/4 is shortened and, decreasing it theduration of 4/4 is extended.
LIVELLO CARBUR.LIVELLO CARBUR.LIVELLO CARBUR.LIVELLO CARBUR.LIVELLO CARBUR.RISERVA=xxxRISERVA=xxxRISERVA=xxxRISERVA=xxxRISERVA=xxx
xxx - (already set) shows the threshold of the fuelreserve: to extend the reserve this value has to beincreased and viceversa, to shorten the reserve, it has tobe decreased.
SENSORE LIVELLOSENSORE LIVELLOSENSORE LIVELLOSENSORE LIVELLOSENSORE LIVELLO *SI NO *SI NO *SI NO *SI NO *SI NO
SI - the transducer for the level gauge has beeninstalledNO - the level indication is not enabled (it isimplemented starting from the 3D version)
-41 -
EcoGas
4.1.2 PRESSURE SENSOR AUTOMATIC SETTING
For the pressure sensor automatic setting the technician has to carry out some simpleoperations while the engine runs with petrol; the ECO GAS system automatically recognizesthe different driving conditions.
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
4.1.1PARAMETRI - parameters setting
MOTORE ACCESO MOTORE ACCESO MOTORE ACCESO MOTORE ACCESO MOTORE ACCESOA BENZ AL MINIMOA BENZ AL MINIMOA BENZ AL MINIMOA BENZ AL MINIMOA BENZ AL MINIMO
The system carries out a test of the engine whilerunning with petrol and of the rpm at idling (less thanabout 1200 RPM) for 4 or 5 seconds, then youautomatically enter the next page.
ACCELERATA A ACCELERATA A ACCELERATA A ACCELERATA A ACCELERATA AFONDO E RILASCIOFONDO E RILASCIOFONDO E RILASCIOFONDO E RILASCIOFONDO E RILASCIO
PUSH THE ACCELERATOR ANDLEAVE IT IMMEDIATELY
The system is ready to acquire the maximum andminimum value of the pressure sensor and the rpmnumber obtained while accelerating has not influence.
The engine rpm have to go from idling up to 4500 RPMin less than 5 seconds, then they have to go again under1200 RPM.
ACQUISIZIONE OKACQUISIZIONE OKACQUISIZIONE OKACQUISIZIONE OKACQUISIZIONE OKMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMO
ACQUISIZIONE KO!ACQUISIZIONE KO!ACQUISIZIONE KO!ACQUISIZIONE KO!ACQUISIZIONE KO!MOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMO
The acquisition is not correct. If this page appearsrepeatedly, check that the rpm number and the pressuresensor value displayed in the general status page areacceptable. In this case carry out a semiautomatic setting(this method is necessary for the setting of cars where theengine goes back to idling very slowly).
4.2.2
The acquisition is OK. It isnecessary to have at least 6valid acquisitions.
WAIT WITH THE ENGINEAT IDLING
START THE ENGINE AT IDLING"FORCED PETROL" POSITION
-42 -
EcoGas
After 6 valid acquisitions, the computer calculates the value for the pumping and CUT-OFF insertion anddisconnection.. If the difference between the maximun and the minimun acquired values is very small or if thereare problems with calculation, the handly computer will display: TARATURA KO! (SETTING KO!)
TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA KO! TARATURA KO! TARATURA KO! TARATURA KO! TARATURA KO!
Value calculation executed
POH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzz
Value calculation not possible.The pressure transducer settinghas to be repeated.
xxx - pressure threshold for pumping insertion.yyy - pressure threshold for pumping disconnection.ttt - pressure threshold for CUT-OFF insertion..zzz - pressure threshold for CUT-OFF disconnection.Obviously it has to be: POH < POM; COH > COM.
CHECK IF THE POSITION OF THEVACUUM IS AFTER THE
THROTTLE BODY
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE ERRATO! ERRATO! ERRATO! ERRATO! ERRATO!
page 35
ATTENTION: while the engine runs with petrol, during the pressure transducer setting, donot to switch it off or change to gas or the following message will appear:
Wrong Engine running!
-43 -
EcoGas
4.1.3 OXYGEN SENSOR EMULATOR AUTOMATIC SETTING
PARAMETRI - you start the parameters setting
SONDA PRESSIONE - pressure sensor setting
4.1.1 *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE 4.1.2
TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.LAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SI
Self-acquisition setting of the emulated oxygen sensorsignal.
MOTORE ACCESO AMOTORE ACCESO AMOTORE ACCESO AMOTORE ACCESO AMOTORE ACCESO ABENZ. 3000 RPMBENZ. 3000 RPMBENZ. 3000 RPMBENZ. 3000 RPMBENZ. 3000 RPM
EMULAZ. LAMBDAEMULAZ. LAMBDAEMULAZ. LAMBDAEMULAZ. LAMBDAEMULAZ. LAMBDANON ABILITATANON ABILITATANON ABILITATANON ABILITATANON ABILITATA
The system is ready for the automaticacquisition of the wave form of theoxygen sensor signal with petrol.
SPEED UP AND MAINTAIN THEENGINE AT 3000 RPM WITH PETROL
ACQUISIZIONE ONACQUISIZIONE ONACQUISIZIONE ONACQUISIZIONE ONACQUISIZIONE ONR=xxxxx LAM=xxxR=xxxxx LAM=xxxR=xxxxx LAM=xxxR=xxxxx LAM=xxxR=xxxxx LAM=xxx
MAINTAIN THE ENGINE AT3000 RPM AND WAIT
EMULATORE LAMBDAEMULATORE LAMBDAEMULATORE LAMBDAEMULATORE LAMBDAEMULATORE LAMBDA RICC.%=xxx RICC.%=xxx RICC.%=xxx RICC.%=xxx RICC.%=xxx
At the end of the acquisition, the system informs thetechnician of the "richness" percentage of thecarburation.xxx - percentage of time during which the transducer isrich.
The system begins the automaticacquisition
ENABLE THE OXYGEN SENSOREMULATION IN PARAMETERS SETTING
The emulation of the oxygen sensorsignal is not provided during theparameters setting.
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
4.1.1
P.S. you go to the next pages only if the previoussettings have been completed at least once.
When it is necessary to emulate the oxygen sensor signal, besides the settings describedin this paragraph, you have to answer "SI" during the parameters setting:
4.1.1EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA? SI *NO SI *NO SI *NO SI *NO SI *NO
-44 -
EcoGas
4.1.4 OXYGEN SENSOR AUTOMATIC SETTING
During the oxygen sensor setting, it is necessary to select the GAS feeding by pushing theidoneous key on the change-over switch. Leave the changeover on GAS until the step motorreset position setting is finished.
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.LAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SI
SI - you enter the oxygen sensor emulatorsetting 4.1.3
POS.RESET M.PP - you enter the step motor resetposition setting
PARAMETRI - you start the parameters setting
SONDA PRESSIONE - pressure sensor setting
4.1.1
4.1.2
P.S. you go to the next pages only if the previoussettings have been completed at least once.
4.1.5
ACQUISIZIONE ONACQUISIZIONE ONACQUISIZIONE ONACQUISIZIONE ONACQUISIZIONE ONMOT=xxx LAM=xxxMOT=xxx LAM=xxxMOT=xxx LAM=xxxMOT=xxx LAM=xxxMOT=xxx LAM=xxx
MAINTAIN THE ENGINE AT2000 RPM AND WAIT
The value acquisition can last for 4 or 5 minutesespecially if the engine is not enough warm.
xxx - step motor position instant valueyyy - tension convertion out form the osygen sensorThe system affects the step motor in order to exalt theoxygen sensor variations and acquires the values.
MOTORE ACCESO AMOTORE ACCESO AMOTORE ACCESO AMOTORE ACCESO AMOTORE ACCESO AGAS A 2000 RPMGAS A 2000 RPMGAS A 2000 RPMGAS A 2000 RPMGAS A 2000 RPM
CHANGE TO GAS AND MAINTAINTHE ENGINE AT 2000 RPM
The system makes a test of the engine running with gas.In order to have the oxygen sensor at the right tempera-ture, the system will wait together with the step motorin reset position from 30 seconds to some minutes.
ATTENTION: during the chageover, it is important theengine does not switch off by accelerating.This is necessary because the gas installation setting hasbeen not completed and the carburation could beuncorrect (•).
-45 -
EcoGas
ACQUISIZIONE OK!ACQUISIZIONE OK!ACQUISIZIONE OK!ACQUISIZIONE OK!ACQUISIZIONE OK! TARATURA KO! TARATURA KO! TARATURA KO! TARATURA KO! TARATURA KO!
Acquisition is OK! The acquisition is notcorrect. Repeat the setting.
MAX LAM=xxxMAX LAM=xxxMAX LAM=xxxMAX LAM=xxxMAX LAM=xxxMIN LAM=xxxMIN LAM=xxxMIN LAM=xxxMIN LAM=xxxMIN LAM=xxx
xxx e yyy - sample values:oxygen sensor maximum andminimum
TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! The computer calculates the rich and lean Lambdavalues.
WAIT
LAM RICCO=xxxLAM RICCO=xxxLAM RICCO=xxxLAM RICCO=xxxLAM RICCO=xxxLAM MAGRO=yyyLAM MAGRO=yyyLAM MAGRO=yyyLAM MAGRO=yyyLAM MAGRO=yyy
xxx - rich Lambda calculated valueyyy - lean Lambda calculated valueThese are the reference values for the lambda controlduring normal driving conditions (it is possible tomodify them only with the manual setting).
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE ERRATO! ERRATO! ERRATO! ERRATO! ERRATO!
page 35
(•) ATTENTION: During the oxygen sensor setting, do not switch the engine off or changeto PETROL or the following message will appear:
4.3.4
App.A
CHECK CONNECTIONS AND OXYGENSENSOR
Wrong Engine running!
-46 -
EcoGas
4.1.5 AUTOMATIC STEP MOTOR RESET POSITION SETTING
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
SONDA LAMBDA - you enter the oxygen sensor setting4.1.4
MOTORE ACCESO MOTORE ACCESO MOTORE ACCESO MOTORE ACCESO MOTORE ACCESOA GAS AL MINIMOA GAS AL MINIMOA GAS AL MINIMOA GAS AL MINIMOA GAS AL MINIMO
The system carries out the engine test while runningwith gas at idling (less than about 1200 RPM)
MAINTAIN THE ENGINE ATIDLING AND WAIT
ACCEL PER FAVORIACCEL PER FAVORIACCEL PER FAVORIACCEL PER FAVORIACCEL PER FAVORIRE TRANS LAMBDARE TRANS LAMBDARE TRANS LAMBDARE TRANS LAMBDARE TRANS LAMBDA
After a minute it is necessary to accelerate to favour thelambda transition (if it does not occur spontaneously).
ACCELERATE AND DECELERATECONTINUOSLY
MANTENERE MOTOREMANTENERE MOTOREMANTENERE MOTOREMANTENERE MOTOREMANTENERE MOTORE A GAS A 3000RPM A GAS A 3000RPM A GAS A 3000RPM A GAS A 3000RPM A GAS A 3000RPM
The oxygen sensor transition has occurred; the system isready for the step motor setting.
RPM=xxxxx RPM=xxxxx RPM=xxxxx RPM=xxxxx RPM=xxxxx MOT PP=yyy MOT PP=yyy MOT PP=yyy MOT PP=yyy MOT PP=yyy
xxxxx - rpm valueyyy - step motor position value
MAINTAIN THE ENGINE WITH GASAT 3000 RPM AND WAIT
It is necessary to speed the engine between2500 and 3500 RPM avoiding roughvariations. The sampling stops when the stepmotor reset position is quite constant.
The rpm came out of the intervaldesired, between 2500 and 3000RPM.
REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE ERRATO! ERRATO! ERRATO! ERRATO! ERRATO!
Wrong Engine running!
-47 -
EcoGas
POS MOT PP=xxx POS MOT PP=xxx POS MOT PP=xxx POS MOT PP=xxx POS MOT PP=xxxMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMO
xxx - step motor reset position sample value
BRING THE ENGINE AT IDLINGAND WAIT
CONTROLLARE CONTROLLARE CONTROLLARE CONTROLLARE CONTROLLARE MINIMO GAS MINIMO GAS MINIMO GAS MINIMO GAS MINIMO GAS
POS MOT3000=xxxPOS MOT3000=xxxPOS MOT3000=xxxPOS MOT3000=xxxPOS MOT3000=xxxMOT PP=yyyMOT PP=yyyMOT PP=yyyMOT PP=yyyMOT PP=yyy
IF NECESSARY, ADJUST THEIDLING WITH GAS
If necessary turn the reducer idling adjusting screw andeventually the sensibility one in order that xxx is nearyyy, than continue (•).
xxx - step motor position at 3000 RPMyyy - step motor current position
RIPETI TARATURARIPETI TARATURARIPETI TARATURARIPETI TARATURARIPETI TARATURA3000RPM? SI *NO3000RPM? SI *NO3000RPM? SI *NO3000RPM? SI *NO3000RPM? SI *NO
SI - another acquisition at 3000 rpm is carried outNO - the acquisition is acceptedWe suggest to verify for at least two times the resetposition setting at 3000 RPM and at idling.
(•) The step motor reset position is very important for the good operation of the system:- at idling the step motor has to operate near the reset position obtained at 3000 RPM (not
lower) in order to not compromise the engine answer at pickup;- if possible, verify "on road" the working position at 3000 RPM.In the different driving condition, the step motor should work without great variations
(maximum 10- 15 steps of movement from the reset position with the engine at idling, 8steps while driving): if it is not possible, check the gas feeding installation (reducer, mixer, ...)
-48 -
EcoGas
TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! The setting is OK!
POS RESET POS RESET POS RESET POS RESET POS RESET MOT PP=xxx MOT PP=xxx MOT PP=xxx MOT PP=xxx MOT PP=xxx
xxx - step motor reset position value
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE ERRATO! ERRATO! ERRATO! ERRATO! ERRATO!
page 35
(•) ATTENTION: During the step motor reset position setting, do not switch the engine offand do not change to PETROL or the following page will be displayed:
App.A
Wrong Engine running!
-49 -
EcoGas
4.2 SEMIATOMATIC SETTING
The system autonomously acquires the different parameters but it does not recognize thedriving conditions required during the setting: the technician will have to confirm all theoperations with the key Enter on the handly computer.
This setting is suggested for technicians that already has a knowledge of the ECO GASsystem in order to make the setting shorter; moreover this procedure is necessary for all thecars where the engine speed is controlled by the original Ecu (i.e. cars where the enginereturns to idling very slowly).
Many times the pages and the operations to be effected during the semiautomatic settingare the same of the automatic one: therefore we suggest to refer the paragraphs of theautomatic setting (4.1) for more detailed informations for the common pages.
SWITH THE DASHBOARD ONWITH THE ENGINE OFF
ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
xx - Software version implemented on the ECO GAS Ecu.After 5 seconds the next page of the general system statusautomatically appears.
General system status
TARATURA ? TARATURA ? TARATURA ? TARATURA ? TARATURA ? SI *NO SI *NO SI *NO SI *NO SI *NO
SI - you enter the system setting
NO - you go directly to the system diagnosis page
MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM SEMIAUTOM SEMIAUTOM SEMIAUTOM SEMIAUTOM SEMIAUTOM
MANUALE - you enter the manual settingSEMIAUTOM - you enter the Semiautomatic settingAUTOM- you enter the Automatic setting
4.3
4.1
LAM ############LAM ############LAM ############LAM ############LAM ############MPP ############MPP ############MPP ############MPP ############MPP ############
Indication like led bar
Setting?
-50 -
EcoGas
PARAMETRI - you start the parameters setting
SONDA PRESSIONE - pressure sensor setting
4.2.1 *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE 4.2.2
TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.LAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SI
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
SONDA LAMBDA - you enter the oxygen sensor settingPOS.RESET M.PP - you enter the step motor resetposition setting
4.2.4
4.2.5
*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA
USCITA TARATURA - you leave from the settingVALORI TARATURA - you can display the valuesacquired during the setting 4.4.1
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
General system status 3.2
P.S. you can go to the next pages only if the previoussettings have been completed at least once.
SI - you enter the oxygen sensor emulatorsetting 4.2.3
4.4.2
-51 -
EcoGas
4.2.1. PARAMETERS SEMIAUTOMATIC SETTING
This procedure is always the same. Please refer to § 4.1.1.
4.2.2. PRESSURE SENSOR SEMIAUTOMATIC SETTING
The first pages of the semiautomatic setting are different from the automatic ones for theopening symbol "$".
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
4.2.1PARAMETRI - parameters setting
$ MOTORE ACCESO$ MOTORE ACCESO$ MOTORE ACCESO$ MOTORE ACCESO$ MOTORE ACCESOA BENZ AL MINIMOA BENZ AL MINIMOA BENZ AL MINIMOA BENZ AL MINIMOA BENZ AL MINIMO
The system carries out a test of the engine whilerunning with petrol and of the rpm at idling (less thanabout 1200 RPM) for 4 or 5 seconds.
START THE ENGINE AT IDLING"FORCED PETROL" POSITION
$ ACQUISIZ OK!$ ACQUISIZ OK!$ ACQUISIZ OK!$ ACQUISIZ OK!$ ACQUISIZ OK!MOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMO
The acquisition is OK. It is necessary to have at least 6valid acquisitions.
$ ACCELERATA A$ ACCELERATA A$ ACCELERATA A$ ACCELERATA A$ ACCELERATA AFONDO E RILASCIOFONDO E RILASCIOFONDO E RILASCIOFONDO E RILASCIOFONDO E RILASCIO
PUSH THE ACCELERATOR ANDLEAVE IT IMMEDIATELY
The system is ready to acquire the maximum andminimum value of the pressure sensor and the rpmnumber obtained while accelerating has not influence.
It is necessary to push the accelerator and leave itimmediately; then confirm the operation has beeneffected with the key Enter.
-52 -
EcoGas
BRING THE ENGINEAT IDLING
TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK!
Value calculation executed Value calculation not possible.The pressure transducer settinghas to be repeated.
CHECK IF THE POSITION OF THEVACUUM IS AFTER THE
THROTTLE BODY
POH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzz
xxx - pressure threshold for pumping insertion.yyy - pressure threshold for pumping disconnection.ttt - pressure threshold for CUT-OFF insertion..zzz - pressure threshold for CUT-OFF disconnection.Obviously it has to be: POH < POM; COH > COM.
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
ATTENTION: while the engine runs with petrol, during the pressure transducer setting, donot switch it off or change to gas or the following message will appear:
REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE ERRATO! ERRATO! ERRATO! ERRATO! ERRATO!
page 35
TARATURA KO! TARATURA KO! TARATURA KO! TARATURA KO! TARATURA KO!
After 6 valid acquisitions, the computer calculates thevalue for the pumping and CUT-OFF insertion anddisconnection.. If the difference between the maximunand the minimun acquired values is very small or ifthere are problems with calculation, the handly compu-ter will display: TARATURA KO! (SETTING KO!)
Wrong Engine running!
-53 -
EcoGas
4.2.3 OXYGEN SENSOR EMULATOR SEMIAUTOMATIC SETTING
This procedure is the same of the automatic one. Please refer to § 4.1.3.
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
SONDA LAMBDA - you enter the oxygen sensorsetting 4.2.4
MOTORE ACCESO MOTORE ACCESO MOTORE ACCESO MOTORE ACCESO MOTORE ACCESOA GAS AL MINIMOA GAS AL MINIMOA GAS AL MINIMOA GAS AL MINIMOA GAS AL MINIMO
The system carries out the engine test while runningwith gas at idling (less than about 1200 RPM)
ACCEL PER FAVORIACCEL PER FAVORIACCEL PER FAVORIACCEL PER FAVORIACCEL PER FAVORIRE TRANS LAMBDARE TRANS LAMBDARE TRANS LAMBDARE TRANS LAMBDARE TRANS LAMBDA
After a minute it is necessary to accelerate to favour thelambda transition (if it does not occur spontaneously).
4.2.5 SEMIAUTOMATIC STEP MOTOR RESET POSITION SETTING
4.2.4 OXYGEN SENSOR SEMIAUTOMATIC SETTING
This procedure is the same of the automatic one. Please refer to 4.1.4.
MAINTAIN THE ENGINE ATIDLING
ACCELERATE AND DECELERATECONTINUOSLY
-54 -
EcoGas
MANTENERE MOTOREMANTENERE MOTOREMANTENERE MOTOREMANTENERE MOTOREMANTENERE MOTORE A GAS A 3000RPM A GAS A 3000RPM A GAS A 3000RPM A GAS A 3000RPM A GAS A 3000RPM
MAINTAIN THE ENGINE WITH GASAT 3000 RPM AND WAIT
$ RPM=xxxxx $ RPM=xxxxx $ RPM=xxxxx $ RPM=xxxxx $ RPM=xxxxx MOT PP=yyy MOT PP=yyy MOT PP=yyy MOT PP=yyy MOT PP=yyy
The oxygen sensor transition has occurred; the system isready for the step motor setting.
xxxxx - rpm valueyyy - value of the step motor position
It is necessary to speed the engine between 2500 and3500 RPM avoiding rough variations. When the stepmotor reset position is quite constant, press Enter: thesystem acquires the position achieved at that momentand does not carry out the rpm test.
xxx - step motor reset position selected value POS MOT PP=xxx POS MOT PP=xxx POS MOT PP=xxx POS MOT PP=xxx POS MOT PP=xxxMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMOMOTORE AL MINIMO
BRING THE ENGINEAT IDLING
REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE REGIME MOTORE ERRATO! ERRATO! ERRATO! ERRATO! ERRATO!
ATTENTION: During the step motor reset position setting, do not switch it off or changeto PETROL or the following message will appear:
page 35
CONTROLLARE CONTROLLARE CONTROLLARE CONTROLLARE CONTROLLARE MINIMO GAS MINIMO GAS MINIMO GAS MINIMO GAS MINIMO GAS
xxx - step motor position at 3000 RPMyyy - step motor current position
POS MOT3000=xxxPOS MOT3000=xxxPOS MOT3000=xxxPOS MOT3000=xxxPOS MOT3000=xxxMOT PP=yyyMOT PP=yyyMOT PP=yyyMOT PP=yyyMOT PP=yyy
Wrong Engine running!
-55 -
EcoGas
IF NECESSARY, ADJUST THEIDLING WITH GAS
If necessary turn the reducer idling adjusting screw andeventually the sensibility one in order that xxx is nearyyy, than continue (•).
RIPETI TARATURARIPETI TARATURARIPETI TARATURARIPETI TARATURARIPETI TARATURA3000RPM? SI *NO3000RPM? SI *NO3000RPM? SI *NO3000RPM? SI *NO3000RPM? SI *NO
SI - another acquisition at 3000 rpm is carried outNO - the acquisition is acceptedWe suggest to verify for at least two times the resetposition setting at 3000 RPM and at idling.
TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! The setting is OK!
POS RESET POS RESET POS RESET POS RESET POS RESET MOT PP=xxx MOT PP=xxx MOT PP=xxx MOT PP=xxx MOT PP=xxx
xxx - step motor reset position value
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
(•) The step motor reset position is very important for the good operation of the system:- at idling the step motor has to operate near the reset position obtained at 3000 RPM (not
lower) in order to not compromise the engine answer at pickup;- if possible, verify "on road" the working position at 3000 RPM.In the different driving condition, the step motor should work without great variations
(maximum 10- 15 steps of movement from the reset position with the engine at idling, 8steps while driving): if it is not possible, check the gas feeding installation (reducer, mixer, ...)
-56 -
EcoGas
4.3 MANUAL SETTING
The manual setting allows to directly input the values. For this reason it is better to modifythe data memorized by the Ecu after having completed the system setting at leat once.
SWITCH THE DASHBOARD ONENGINE OFF
ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
xx - Software version implemented on the ECO GAS Ecu.After 5 seconds the next page of the general system statusautomatically appears.
TARATURA ? TARATURA ? TARATURA ? TARATURA ? TARATURA ? SI *NO SI *NO SI *NO SI *NO SI *NO
MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM MANUALE *AUTOM SEMI AUTO SEMI AUTO SEMI AUTO SEMI AUTO SEMI AUTO
4.1
4.2
LAM ############LAM ############LAM ############LAM ############LAM ############MPP ############MPP ############MPP ############MPP ############MPP ############
4.3.1 *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE 4.3.2
General system status
SI - you enter the system setting
NO - you go directly to the system diagnosis page
MANUALE - you enter the manual settingAUTOM - you enter the automatic settingSEMIAUTOM - you enter the semiautomatic setting
Indication like a led bar
4.6
PARAMETRI - you start the parameters setting
SONDA PRESSIONE - pressure sensor setting
N.B. you can go in the following pages only if you completethe previous setting at least once.
-57 -
EcoGas
TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.LAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SI
SI - you enter the oxygen sensor emulatorsetting 4.3.3
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
SONDA LAMBDA - you enter the oxygen sensor settingPOS.RESET M.PP - you enter the step motor resetposition setting
4.3.4
4.3.5
*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA
USCITA TARATURA - you leave the settingVALORI TARATURA - you can display the valuesobtained during the setting 4.4.1
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
General system status 3.2
4.4.2
-58 -
EcoGas
ATTENTION: In the manual setting it is possible to directly input (or vary) the valuesobtained. Use the key Plus and Minus to change the value and press the key Enter to confirm.
4.3.1. PARAMETERS MANUAL SETTING
This procedure is the same of the automatic one. Please refer to 4.1.1.
4.3.2. PRESSURE SENSOR MANUAL SETTING
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
4.3.1PARAMETRI - parameters setting
INSERIMENTO INSERIMENTO INSERIMENTO INSERIMENTO INSERIMENTOPOMPATA= xxxPOMPATA= xxxPOMPATA= xxxPOMPATA= xxxPOMPATA= xxx
xxx - value of the pressure threshold for the pumpinginsertion.
DISINSERIMENTODISINSERIMENTODISINSERIMENTODISINSERIMENTODISINSERIMENTOPOMPATA= xxxPOMPATA= xxxPOMPATA= xxxPOMPATA= xxxPOMPATA= xxx
xxx - value of the pressure threshold for the pumpingdisconnection.
INSERIMENTO INSERIMENTO INSERIMENTO INSERIMENTO INSERIMENTOCUT-OFF= xxxCUT-OFF= xxxCUT-OFF= xxxCUT-OFF= xxxCUT-OFF= xxx
xxx - value of the pressure threshold for the cut-offinsertion.
DISINSERIMENTODISINSERIMENTODISINSERIMENTODISINSERIMENTODISINSERIMENTOCUT-OFF= xxxCUT-OFF= xxxCUT-OFF= xxxCUT-OFF= xxxCUT-OFF= xxx
xxx - value of the pressure threshold for the cut-offdisconnection.
-59 -
EcoGas
4.3.3 OXYGEN SENSOR EMULATOR MANUAL SETTING
When it is necessary to emulate the oxygen sensor signal, besides the settings describedin this paragraphs, you have to answer "SI" during the parameters setting:
4.1.1EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA?EMULAZ. LAMBDA? SI *NO SI *NO SI *NO SI *NO SI *NO
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.LAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SI
PARAMETRI - you start the parameters setting
SONDA PRESSIONE - pressure sensor setting
4.3.1
4.3.2
Emulated oxygen sensor signal setting
P.S. you go to the next pages only if the previoussettings have been complete at least once.
EMUL. LAMBDA EMUL. LAMBDA EMUL. LAMBDA EMUL. LAMBDA EMUL. LAMBDA RICC.%=xxx RICC.%=xxx RICC.%=xxx RICC.%=xxx RICC.%=xxx
xxx - emulated oxygen sensor richness that is the timepercentage during which the emulated oxygen sensorsignal is rich. App.A
-60 -
EcoGas
P.S.: during the normal driving conditions, the Ecu will refer to these rich and lean lambda values. The valuescontained in the parameters setting pages (LEAN LAMBDA and RICH LAMBDA) refer to FULL LOAD (PIENOCARICO) conditions.
4.3.4 OXYGEN SENSOR MANUAL SETTING
The symbol "#" distinguishes the following pages from the automatic and semiautomaticsetting ones.
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
*SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.TARATURA EMULAT.LAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SILAMBDA? *SI
SI - you enter the oxygen sensor emulatorsetting 4.3.3
POS.RESET M.PP - you enter the step motor resetposition setting
PARAMETRI - you start the parameters setting
SONDA PRESSIONE - pressure sensor setting
4.3.1
4.3.2
P.S. you go to the next pages only if the previoussettings have been completed at least once.
4.3.5
# LAM RICCO=xxx# LAM RICCO=xxx# LAM RICCO=xxx# LAM RICCO=xxx# LAM RICCO=xxx xxx - rich reference lambda value during normaldriving conditions
# LAM MAGRO=xxx# LAM MAGRO=xxx# LAM MAGRO=xxx# LAM MAGRO=xxx# LAM MAGRO=xxx xxx - lean reference lambda value during normaldriving conditions
App.A
App.A
App.A
-61 -
EcoGas
4.3.5 MANUAL STEP MOTOR RESET POSITION SETTING
The symbol "#" distinguishes the following pages from the automatic and semiautomaticsetting ones.
SONDA LAMBDA - you enter the oxygen sensor setting4.3.4 *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA *SONDA LAMBDA
POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP POS.RESET M.PP
# POS RESET# POS RESET# POS RESET# POS RESET# POS RESET MOT PP=xxx MOT PP=xxx MOT PP=xxx MOT PP=xxx MOT PP=xxx
xxx - step motor reset position value (•).
(•) The step motor reset position is very important for the good operation of the system:- at idling the step motor has to operate near the reset position obtained at 3000 RPM (not
lower) in order to not compromise the engine answer at pickup;- if possible, verify "on road" the working position at 3000 RPM.In the different driving condition, the step motor should work without great variations
(maximum 10- 15 steps of movement from the reset position with the engine at idling, 8steps while driving): if it is not possible, check the gas feeding installation (reducer, mixer, ...)
-62 -
EcoGas
*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA
USCITA TARATURA - you leave the settingVALORI TARATURA - you can display the valuesacquired during the setting.
4.4.2
TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK!
POH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyPOH=xxx POM=yyyCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzzCOH=ttt COM=zzz
xxx - pressure threshold for pumping insertionyyy - pressure threshold for pumping disconnectionttt - pressure threshold for CUT-OFF insertionzzz - pressure threshold for CUT-OFF disconnectionObviously it has to be: POH < POM; COH > COM
TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK!
LAM RICCO=xxxLAM RICCO=xxxLAM RICCO=xxxLAM RICCO=xxxLAM RICCO=xxxLAM MAGRO=yyyLAM MAGRO=yyyLAM MAGRO=yyyLAM MAGRO=yyyLAM MAGRO=yyy
xxx - calculated rich lambda valueyyy - calculated lean lambda value
TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK! TARATURA OK!
App.A
4.4 VALUES DISPLAY AND SETTING EXIT
4.4.1 VALUES DISPLAY
By choosing "VALORI TARATURA" (Setting values) the values acquired during thesetting will be displayed.
The shown pages are the same described in the previous paragraphs; to change page pressEnter.
The setting values display does not change for all the different setting:AUTOMATIC, SEMIAUTOMATIC and MANUAL.
App.A
-63 -
EcoGas
ATTENTION: after the setting, switch the dashboard off and wait until the change-overswitch is completely off. Then start the engine.
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
General system status 3.2
*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA*USCITA TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA VALORI TARATURA
USCITA TARATURA - you leave the settingVALORI TARATURA - you can display the valuesacquired during the setting. 4.4.1
4.4.2. SETTING EXIT
With the option "USCITA TARATURA" you leave the setting and return back to thegeneral system status page.
*PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI *PARAMETRI SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE SONDA PRESSIONE
RESET MOT PP=xxxRESET MOT PP=xxxRESET MOT PP=xxxRESET MOT PP=xxxRESET MOT PP=xxxPASSI POMP. =yyyPASSI POMP. =yyyPASSI POMP. =yyyPASSI POMP. =yyyPASSI POMP. =yyy
xxx - step motor reset position value
LAMBDA RICCO= xxxLAMBDA RICCO= xxxLAMBDA RICCO= xxxLAMBDA RICCO= xxxLAMBDA RICCO= xxxLAMBDA MAGRO= yyyLAMBDA MAGRO= yyyLAMBDA MAGRO= yyyLAMBDA MAGRO= yyyLAMBDA MAGRO= yyy
xxx - rich lambda value in full load (PIENO CARICO)conditions (•) App.A
App.A
yyy - "step motor" steps opening number duringpumping conditions. (•)
yyy - lean lambda value in full load (PIENO CARICO)conditions (•)
(•) In course of implementation
P.S.: At the end of the setting, we suggest to check if the values obtained during the settingphase displayed in the general system status pages are acceptable.
-64 -
EcoGas
4.5 SYSTEM SETUP
If for some reasons you want to start again the procedure or make the setting again, it ispossible to restore the initial values (default value) with the parameters SETUP in thefollowing way:
INSTALL THE HANDLYCOMPUTER AND CHANGE OVERIN FORCED PETROL POSITION
SWITCH THE DASHBOARD ONENGINE OFF
ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC ECO GAS BRC VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM VER xx by MTM
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
General system status
xx - Software version implemented on the ECO GASEcu.After 5 seconds the next page of the general systemstatus automatically appears.
Press the indicated keys at the same time
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
Internal system page: DO NOT modify.
You enter the parameters SET UP by pressing theindicated key twice.
SETUP PARAMETRI?SETUP PARAMETRI?SETUP PARAMETRI?SETUP PARAMETRI?SETUP PARAMETRI? SI *NO SI *NO SI *NO SI *NO SI *NO
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
General system status
SWITCH THE DASHBOARD OFF ANDWAIT THE CHANGE-OVER SWITCH
IS COMPLETELY OFF
P.S.: the parameters SET-UP is carryed out when thetechnician makes errors during the setting and wantsrestore the initial values; this operation involves the lossof the values set up to that moment.
-65 -
EcoGas
4.6 SYSTEM DIAGNOSIS
Choosing the "SI" option in the "DIAGNOSI SISTEMA" page described in the introductionof the chapter 4, the errors will be displayed.
These latter are shown on the change-over switch led bar when they occur: all the ledsbegin to switch on one by one going first from the left to the right and viceversa. The errorsare divided in:
- CURRENT, system malfunctions get during the reading; they are canceled when theerror cause is taken away.
- HISTORICAL, system malfunctions get from the installation of the ECO GAS Ecu. Theseerrors are memorised and it is possible to erase them after the reading.
4.6.1. CURRENT ERRORS
DIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMA SI *NO SI *NO SI *NO SI *NO SI *NO
SI - you enter the system diagnosis
NO - you go to the solenoid valves test page 4.7
PRESENTI - display the current errors
STORICI - display the historical errors 4.6.2
NESSUN ERRORENESSUN ERRORENESSUN ERRORENESSUN ERRORENESSUN ERRORE i USCITAUSCITAUSCITAUSCITAUSCITA
ERRORI PRESENTI ERRORI PRESENTI ERRORI PRESENTI ERRORI PRESENTI ERRORI PRESENTImVISIONA *USCITAVISIONA *USCITAVISIONA *USCITAVISIONA *USCITAVISIONA *USCITA
This page appears if there areno errors
ERRORI STORICIERRORI STORICIERRORI STORICIERRORI STORICIERRORI STORICI *PRESENTI *PRESENTI *PRESENTI *PRESENTI *PRESENTI
In this page (and in the eventualnext ones) the system displays theerrors messages. See reference tablepage 67.
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
General system status
-66 -
EcoGas
DIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMADIAGNOSI SISTEMA SI *NO SI *NO SI *NO SI *NO SI *NO
SI - you enter the system diagnosis
NO - you go to the solenoid valves test page 4.7
STORICI - display the historical errors
PRESENTI - display the current errors 4.6.1
ERRORI STORICIERRORI STORICIERRORI STORICIERRORI STORICIERRORI STORICI *PRESENTI *PRESENTI *PRESENTI *PRESENTI *PRESENTI
4.6.2 HISTORICAL ERRORS
NESSUN ERRORENESSUN ERRORENESSUN ERRORENESSUN ERRORENESSUN ERRORE i USCITAUSCITAUSCITAUSCITAUSCITA
This page appears if there areno errors
General system status
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
ERRORI STORICI ERRORI STORICI ERRORI STORICI ERRORI STORICI ERRORI STORICImVISIONA *USCITAVISIONA *USCITAVISIONA *USCITAVISIONA *USCITAVISIONA *USCITA
In this page (and in the eventual next ones)the system displays the errors messages. Seereference table page 67.
CANCELLA ERRORICANCELLA ERRORICANCELLA ERRORICANCELLA ERRORICANCELLA ERRORISTORICI? SI *NOSTORICI? SI *NOSTORICI? SI *NOSTORICI? SI *NOSTORICI? SI *NO
SI - the historical errors are canceled in thememories and you automatically return to thegeneral system status page.NO - you go to the general system status
-67 -
EcoGas
This page appears if the data transmission from theEcu to the handly computer has malfunctions due to awrong connector installation. Install correctly theconnector .
ERRORE IN ERRORE IN ERRORE IN ERRORE IN ERRORE IN TRASMISSIONE TRASMISSIONE TRASMISSIONE TRASMISSIONE TRASMISSIONE
The step motor has achieved a wrong position POSIZIONAMENTO POSIZIONAMENTO POSIZIONAMENTO POSIZIONAMENTO POSIZIONAMENTOERRATO ATTUATOREERRATO ATTUATOREERRATO ATTUATOREERRATO ATTUATOREERRATO ATTUATORE
The CUT-OFF solenoid valve is short circuited ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTROVALVOLA CUT OFFVALVOLA CUT OFFVALVOLA CUT OFFVALVOLA CUT OFFVALVOLA CUT OFF
The petrol solenoid valve is short circuited ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTROVALVOLA BENZINAVALVOLA BENZINAVALVOLA BENZINAVALVOLA BENZINAVALVOLA BENZINA
TRANSAZIONE LAMBTRANSAZIONE LAMBTRANSAZIONE LAMBTRANSAZIONE LAMBTRANSAZIONE LAMBDA NON RILEVATADA NON RILEVATADA NON RILEVATADA NON RILEVATADA NON RILEVATA
The oxygen sensor transiction has been not taken.
ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTRO ERRORE ELETTROVALVOLA GASVALVOLA GASVALVOLA GASVALVOLA GASVALVOLA GAS
The gas solenoid valve is short circuited
ERROR MESSAGES TABLE
This table lists the error messages and their cause.
These are the important errors get by the ECO GAS system to be explained to thetechnician as their seriousness could compromise the correct car operation.
Anyway the system checks all the other errors or malfuntions causes: when possible, itprovides the suitable solution and displays the malfunction on the change-over switch led bar(1.3.3.4)
-68 -
EcoGas
4.7 SOLENOID VALVES TEST
The tests allows to check the correct connection of the solenoid valves (petrol, gas andCUT-OFF), of the injectors cutting relay or of the eventual emulator and to check theiroperation.
TEST ELETTROVALVTEST ELETTROVALVTEST ELETTROVALVTEST ELETTROVALVTEST ELETTROVALVOLE? SI *NOOLE? SI *NOOLE? SI *NOOLE? SI *NOOLE? SI *NO
NO - you go back to the general system statusSI - the solenoid valves tests begin
TEST ELETTRO TEST ELETTRO TEST ELETTRO TEST ELETTRO TEST ELETTRO VALVOLA GAS VALVOLA GAS VALVOLA GAS VALVOLA GAS VALVOLA GAS
The system activates and deactivates alternatively thegas solenoid valve contacts.
TEST ELETTROVAL TEST ELETTROVAL TEST ELETTROVAL TEST ELETTROVAL TEST ELETTROVAL VOLA BENZINA VOLA BENZINA VOLA BENZINA VOLA BENZINA VOLA BENZINA
The system activates and deactivates alternatively thecontacts of the eventual petrol solenoid valve, of theinjectors cutting relay (orange and violet cables) and ofthe external emulator (white/green cable).
TEST ELETTROVAL TEST ELETTROVAL TEST ELETTROVAL TEST ELETTROVAL TEST ELETTROVAL VOLA CUT OFF VOLA CUT OFF VOLA CUT OFF VOLA CUT OFF VOLA CUT OFF
The system activates and deactivates alternatively thereducer solenoid valve contacts.
Rxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RRxxxxx P C M/RPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx LxxxPxxx Mxxx Lxxx
General system status
3.2
3.2
EcoGas
APPENDIX:
Appendix “A” - Dictionary of names and definitionsAppendix “B” - Interchangeability with the Lambda Gas I.B. systemAppendix “C” - Cars with carburettor enginesAppendix “D” - Cars with TURBO engine
-69 -
EcoGas
Appendix "A"Dictionary of names and definitions
In this appendix we list some names and definitions which constantly appears during theECO GAS system use.
For the values which are a variable of the system setting and can be directly input by thetechnician with the handly computer, please refer to the manual setting paragraph.
CUT-OFF - Engine condition characterized by a great vacuum value in the inductionmanifold and by a rpm number above the set threshold.Particularly it occurs for a vacuum value between the CUT-OFF INSERTION andDISCONNECTION (§4.3.2).This condition is pointed out in the general system status page displaying the letter"C".
CUT-OFF DISCONNECTION (COM) - Vacuum value inside the induction manifold underwhich the system operates the CUT-OFF disconnection (§4.3.2).
PUMPING DISCONNECTION (POM) - Vacuum value inside the induction manifold abovewhich there is a new pumping and you leave the full load conditions (§4.3.2).
CUT-OFF INSERTION (COH) - Vacuum value inside the induction manifold above whichthe system operates the CUT-OFF insertion (§4.3.2).
PUMPING INSERTION (POH) - Vacuum value inside the induction manifold during whichthe pumping occurs and the system enters the full load conditions (§4.3.2).
LAM MAGRO - Variable value which indicates the oxygen sensor convertion value underwhich the system recognizes the lean mixture during the normal driving conditions (§4.3.4).
LAM RICCO - Variable value which indicates the oxygen sensor convertion value abovewhich the system recognizes the rich mixture during the normal driving conditions (§4.3.4).
LAMBDA MAGRO - Variable parameter which indicates the oxygen sensor convertion valueunder which the system recognizes the lean mixture during the full load conditions (§4.1.1).
LAMBDA RICCO - Variable parameter which indicates the oxygen sensor convertion valueabove which the system recognizes the rich mixture during the full load conditions (§4.1.1).
-70 -
EcoGas
PIENO CARICO (Full Load) - Engine condition characterized by a low vacuum value in theinduction manifold and by a rpm number above the set threshold. Particularly it occurs fromthe moment when (accelerating) the vacuum value decreases under the PUMPINGINSERTION threshold and until the vacuum value is again above the PUMPINGDISCONNECTION threshold (decelerating)
POMPATA (PUMPING) - step motor opening (in open loop) and steps numbers set duringthe setting (§4.1.1). This function is effected while accelerating when the vacuum inside theinduction manifold achieves the PUMPING INSERTION threshold. To restore a newpumping, it is necessary that this vacuum increases above the PUMPING DISCONNECTIONthreshold.
STEP MOTOR RESET POSITION - The reset position is the reference position of the stepmotor with cold oxygen sensor to which you return in certain system operating conditions(outside the Lambda control). It is important this value is near to the step motor positionduring the normal driving conditions (§4.3.5).
RICHNESS (RICC%) - With the word "richness" we define the time percentage duringwhich the oxygen sensor signal is rich (above a certain threshold for oxygen sensor with notinverted signal). Through the entry to the variable RICC% it is possible to imput theRICHNESS percentage of the emulated oxygen sensor signal (§4.3.3).
SYSTEM SETUP - Restore of the initial values (set by the manufacturer) of all theparameters and variable values of the system. It involves the loss of the values set until thatmoment.
-71 -
EcoGas
NOTE*: To simplify the passage between the two systems the ECO GAS Ecu has thepossibility of feeding both the solenoid valves by only using the green cable of the sheath A(as in the Lambda Gas I.B. system).
NOTE **: The Diagnostic Box is the diagnosis and setting instrument for the Lambda GasI.B. system but it can not be used for the ECO GAS as well as the ECO GAS handly computercan not be used for the Lambda Gas I.B. system.
CONNECTION OR INSTALLATION
SHEATH G: WHITE/VIOLET
SHEATH A: WHITE/RED
SHEATH A: BLUE BLUE
LAMBDA GAS ACTUATOR
STEP MOTOR
INDUCTION MANIFOLDVACUUM CONNECTION
DIAGNOSIS AND SETTINGINSTRUMENTS
Eco Gas
DO NOT CONNECT
LPG REDUCER SOLENOID VALVE(SEE NOTE *)
DO NOT CONNECTDO NOT CONNECT
DO NOT INSTALL
INSTALL BETWEEN REDUCERAND MIXER
INSTALL AND CONNECT WITHTHE IDLING RUBBER HOSE
HANDLY COMPUTER(SEE NOTE **)
LAMBDA GAS I.B.
THROTTLE POTENTIOMETER (TPS)
DO NOT CONNECT
LAMBDA GAS ACTUATORLAMBDA GAS ACTUATOR
INSTALL BETWEEN REDUCER AND STEP MOTOR
INSTALL BETWEEN LAMBDA GAS ACTUATORAND MIXER
DO NOT INSTALL
DIAGNOSTIC BOX(SEE NOTE **)
Appendix "B"Interchangeability with the Lambda Gas I.B. system
The LAMBDA GAS system is born and has been entirely developped by BRC until its lastand definitive version called LAMBDA GAS I.B..
The ECO GAS system, with microprocessor, represents the completion of the lambdacontrol systems range BRC is able to offer to his technicians, range which is unique of itskind.
As they pratically "grow up all together", the two systems have various analogies bothfrom the functional and structural point of view. Many parts of these projects have beenstudied in a parallel way in such a way to create a synergy between this two systems in orderto contain the production costs and to invest more for the quality of the components.
There are also various advantages for the installation:- reduction for the spare parts stock;- continuity of the installation method; it allows to transfer the acquired experience from a
system to another;- system interchangeability.The following table lists the difference for the installation of the two systems:
-72 -
EcoGas
Appendix "C"Cars with carburettor engines
The ECO GAS Ecu is prearranged for the installation on carburettor cars, too: in this caseit is necessary to select via software, with the handly computer, the different options in theparameters setting.
Obviously it is necessary the car has an oxygen sensor installed.All the potentiality of the system with microprocessor are valid: lambda control functions,
diagnosis and setting, check-up, level indication, changeover and safety car.
INSTALLATION
The connection plans shown in the chapter 2 for the sheath A and B are still valid. Thereare variations for the connections which refer to injection cars own functions and notnecessary. In particular:
Sheath C (par. 2.3.8.) Orange and Violet cut and insulateSheath D (par. 2.3.9.) Orange and Violet cut and insulateSheath E (par. 2.3.10.) Light blue emulated oxygen sensor signal
Yellow oxygen sensor signalSheath F (par. 2.3.11.) White and White/Orange cut and insulateSheath G (par. 2.3.12.) Black engine earth
White/Green Petrol solenoid valve feedingWhite/Violet cut and insulate
CHANGEOVER FUNCTION
For the change-over switch position, see § 1.3.3.2
SETTING
The system setting is the same of the electronic injection one except for the oxygen sensoremulation (here not necessary) and for the binded choise of some parameters.
-73 -
EcoGas
Appendix "D"Cars with Turbo engine
The ECO GAS system includes a TURBO version expecially studied for turbo cars.
code 06LB 0000 1531 ECO GAS "Turbo" devicecode 06LB 0000 1591 ECO GAS "Turbo" Electronic Control Unit
The difference immediately verifiable is the two unions for the pressure sensor connectionon the electronic control unit: in fact it is necessary to elaborate a differential pressure signalin order to quantify the turbine effect.
Selecting "TURBO" during parameters setting the Ecu will automatically refer to adifferent mapping for the carburation control, expressly studied to allow an high driving andvery good performance for this type of car.
INSTALLATION
For the reducer installation, please refer to the usual turbo installations, withcompensation on the 2nd stage diaphragm.
Code 01RD00301000 LPG AT90T Turbo reducerCode 01RM00030004 CNG Turbo reducer without manometer
For the pressure sensor connection, identify the two points for the convertion (see picturein the next page):
- A1 on the induction manifold (after the throttle body) to be connected to the union "A";- B1 between the turbine and the mixer to be connected to the union "B".
For the connections we suggest to use the following items:
- code 21RG99020001 "2 ways fork in nylon for idling",- code 22TB00060001 "idling rubber pipe 5x10,5,- code 21RG03010005 "idling nozzle M5x0,8.
-74 -
EcoGas
ENGINE
EEEEccccoooo
GGGGaaaassss
A
MIXER
INTE
RCOO
LER
(Eve
ntua
l)
AIR FLOW METER(Eventual)
AIR FILTER
B
A1B1
TURBO PRESSURE
INDUCTION MANIFOLD
-75 -
EcoGas
GENERAL SYSTEMSTATUS PAGE
BRCGAS EQUIPMENTS
RPM
conversion vacuum valuecalculated after the throttle
body
step motor position oxygen sensorconversion value
it appears during thepumping
it appears during thecut off
M = the oxygensensor shows the
mixture is leanR = the oxygen sensorshows the mixture is
richIf the oxygen sensor showsa value between the richand lean mixture, the letter
"R" and "M" are notdisplayed
PAGE-UPback to the previous
page
PAGE-DOWNto the next page
NEXTyou change the option
(i.e. from SI to NO)
PLUSAdd one unit to the
displayed value
MINUSSubtract one unit tothe displayed value
ENTERConfirm the choice
displayed.The choised parameters are
confirmed and youautomatically enter the next
page