Control system for a flexible fuel internal combustion engine

What is claimed is: 1. A control system for an engine comprising: a first fuel injector; a first connection connected with the first fuel injector; a first control unit connected with the first connection and programmed to generate a first pulse width, which in operation is delivered to the first fuel injector over the first connection to actuate the first fuel injector to introduce a first fuel; a second fuel injector; a second connection connected with the second fuel injector; a second control unit connected with the second connection and programmed to generate a second pulse width, which in operation is delivered to the second fuel injector over the second connection to actuate the second fuel injector to introduce a second fuel; and a communication bus allowing the first and second control units to exchange information; wherein the first control unit is further programmed to determine a total fuel energy amount to be introduced by the first and second fuel injectors and to transfer the total fuel energy amount to the second control unit over the communication bus, wherein the second control unit is further programmed to determine a first fraction of the total fuel energy amount to be from the first fuel and a second fraction of the total fuel energy amount to be from the second fuel. 2. The control system of claim 1 , wherein the first control unit is further programmed to determine the first pulse width as a function of the first fraction of the total fuel energy amount, and the second control unit is further programmed to determine the second pulse width as a function of the second fraction of the total fuel energy amount. 3. The control system of claim 1 , wherein at least one of: the first fuel is a liquid fuel and the second fuel is a gaseous fuel; the first fuel is one of gasoline, diesel, ethanol and mixtures of these fuels; and the second fuel is at least one of butane, ethane, hydrogen, methane, propane and natural gas and mixtures of these fuels. 4. The control system of claim 1 , wherein the communication bus is a dedicated link between the first control unit and the second control unit. 5. A control system for an engine comprising: a first fuel injector; a first connection connected with the first fuel injector; a first control unit connected with the first connection and programmed to generate a first pulse width, which in operation is delivered to the first fuel injector over the first connection to actuate the first fuel injector to introduce a first fuel; a second fuel injector; a second connection connected with the second fuel injector; a second control unit connected with the second connection and programmed to generate a second pulse width, which in operation is delivered to the second fuel injector over the second connection to actuate the second fuel injector to introduce a second fuel; and a communication bus allowing the first and second control units to exchange information; wherein the first control unit is further programmed to determine a total fuel energy amount to be introduced by the first and second fuel injectors and to transfer the total fuel energy amount to the second control unit over the communication bus, wherein the second control unit is further programmed to determine a first fraction of the total fuel energy amount to be from the first fuel and a second fraction of the total fuel energy amount to be from the second fuel, and wherein the first control unit transfers the total fuel energy amount to the second control unit over the communication bus, and the total energy amount is one of a first quantity of the first fuel and a second quantity of the second fuel. 6. The control system of claim 5 , wherein the second control unit transfers at least one of the first fraction and the second fraction to the first control unit over the communication bus. 7. The control system of claim 6 , wherein the first control unit is further programmed to calculate a third quantity of the first fuel to be injected by the first fuel injector. 8. The control system of claim 7 , wherein the first control unit is further programmed to calculate a fourth quantity of the second fuel to be injected by the second fuel injector, and the first control unit transfers the fourth quantity to the second control unit over the communication bus. 9. The control system of claim 7 , wherein the second control unit is further programmed to calculate a fourth quantity of the second fuel to be injected by the second fuel injector. 10. The control system of claim 5 , wherein the second control unit is further programmed to calculate a third quantity of the first fuel to be injected by the first fuel injector and a fourth quantity of the second fuel to be injected by the second fuel injector, and the second control unit transfers the third quantity to the first control unit over the communication bus. 11. The control system of claim 1 , wherein the second control unit transfers injection timing information to the first control unit over the communication bus. 12. A control system for an engine comprising: a first fuel injector; a first connection connected with the first fuel injector; a first control unit connected with the first connection and programmed to generate a first pulse width, which in operation is delivered to the first fuel injector over the first connection to actuate the first fuel injector to introduce a first fuel; a second fuel injector; a second connection connected with the second fuel injector; a second control unit connected with the second connection and programmed to generate a second pulse width delivered over the second connection to actuate the second fuel injector to introduce a second fuel; and a communication bus allowing the first and second control units to exchange information; wherein the first control unit is further programmed to determine a total fuel energy amount to be introduced by the first and second fuel injectors and to transfer the total fuel energy amount to the second control unit over the communication bus; wherein the second control unit is further programmed to determine a first fraction of the total fuel energy amount to be from the first fuel and a second fraction of the total fuel energy amount to be from the second fuel, and wherein the second control unit transfers at least one of the first fraction and the second fraction to the first control unit over the communication bus. 13. The control system of claim 12 , wherein the first control unit is further programmed to calculate a third quantity of the first fuel to be injected by the first fuel injector and a fourth quantity of the second fuel to be injected by the second fuel injector, and the first control unit transfers the fourth quantity to the second control unit over the communication bus. 14. A control system for an engine comprising: a first control unit programmed to generate a first pulse width to actuate a first fuel injector to introduce a first fuel; a. second control unit programmed to generate a second pulse width to actuate a second fuel injector to introduce a second fuel; and a communication line allowing the first and second control units to exchange information; wherein the first control unit is further programmed to: determine a fuel mass as a function of engine operating conditions representative of a first quantity or the first fuel and a second quantity of the second fuel whereby a first energy amount of the first quantity equals a second energy amount of the second quantity within a predetermined range of tolerance; and transfer the fuel mass to the second