Systems and methods for fluid ratio control

The invention claimed is: 1. A multi-component fluid delivery system, comprising: a proportioner system comprising two or more fluid pumps and configured to deliver fluids from the two or more fluid pumps into a spray gun to spray a foam, a first fluid pump of the two or more fluid pumps; a second fluid pump of the two or more fluid pumps, wherein the first and the second fluid pumps are not mechanically coupled to each other; and a first motor controller configured to control the first fluid pump and a second motor controller configured to control the second fluid pump; and a control system comprising a processor configured to: derive a slip ratio for the first fluid pump and the second fluid pump; and apply a master-slave motor control to deliver a specified fluid ratio via the first and the second fluid pumps based on the slip ratio, wherein the slip ratio comprises a differential slip ratio having a difference in slip between the first fluid pump and the second fluid pump, wherein the processor is configured to apply the master-slave motor control by selecting one of the first or the second motor controller as a master controller and the other of the first or the second master controller as a slave controller, wherein both the first motor controller and second motor controller are configured to receive a signal directly from the control system. 2. The system of claim 1 , wherein the processor is configured to derive the slip ratio via an indirect measurement, a direct measurement, or a combination thereof. 3. The system of claim 2 , wherein the indirect measurement comprises a fluid pressure measurement, and wherein the direct measurement comprises a fluid flow measurement. 4. The system of claim 1 , wherein the slip ratio comprises a slip volume Q with Q(t)=Pf×Ff×∫ΔP 1/2 dt where t comprises a sample time period, Pf=Pump Factor experimentally measured, Ff=Fluid Factor experimentally measured, ΔP=Po−Pi, Po=Outlet pressure, and Pi=Inlet pressure. 5. The system of claim 1 , wherein the slip ratio comprises a slip volume Q determined via displacement of the first and the second fluid pumps at a zero-flow pressurized state. 6. The system of claim 1 , wherein the processor is configured to apply the master-slave motor control to provide for the same fluid pressure at a first outlet of the first fluid pump and at a second outlet of the second fluid pump. 7. The system of claim 1 , wherein the first fluid pump is configured to be fluidly connected to a foam dispensing gun via a first hose at a first hose inlet of the foam dispensing gun, and wherein the second fluid pump is configured to be connected to the foam dispensing gun via a second hose at a second hose inlet of the foam dispending gun, and wherein the processor is configured to apply the master-slave motor control to provide for equal fluid pressure between the first and the second hoses, between the first and the second hose inlets, between the first hose and the second hose inlet, between the second hose and the first hose inlet, or a combination thereof. 8. The system of claim 1 , wherein the slave motor controller is configured to control a slave velocity of a slave controller motor drive by factoring the slip ratio to a master velocity of a master controller motor drive. 9. A method, comprising: deriving a slip ratio for a first fluid pump and a second fluid pump, wherein the first the second fluid pumps are included in a proportioner system configured to deliver fluids from the first and the second pumps into a spray gun to spray a foam, and wherein the first and the second fluid pumps are not mechanically coupled to each other, wherein a first motor controller configured to control the first fluid pump and a second motor controller configured to control the second fluid pump, wherein the processor is configured to apply the master-slave motor control by selecting one of the first or the second motor controller as a master controller and the other of the first or the second master controller as a slave controller, wherein both the first motor controller and second motor controller are configured to receive a signal directly from a control system; and applying a master-slave motor control to deliver a specified fluid ratio via the first and the second fluid pumps based on the slip ratio, wherein the slip ratio comprises a differential slip ratio having a difference in slip between the first fluid pump and the second fluid pump. 10. The method of claim 9 , wherein deriving the slip ratio comprises applying an indirect measurement, and wherein the indirect measurement comprises a fluid pressure measurement. 11. The method of claim 9 , wherein the slip ratio comprises a slip volume Q with Q(t)=Pf×Ff×∫ΔP 1/2 dt where t comprises a sample time period, Pf=Pump Factor experimentally measured, Ff=Fluid Factor experimentally measured, ΔP=Po−Pi, Po=Outlet pressure, and Pi=Inlet pressure. 12. The method of claim 9 , wherein the slip ratio comprises a slip volume Q determined via displacement of the first and the second fluid pumps at a zero-flow pressurized state. 13. A tangible, non-transitory, computer-readable medium comprising instructions that when executed by a processor cause the processor to: derive a slip factor for a first fluid pump and a second fluid pump, wherein the first the second fluid pumps are included in a proportioner system configured to deliver fluids from the first and the second pumps into a spray gun to spray a foam, and wherein the first and the second fluid pumps are not mechanically coupled to each other, wherein a first motor controller is configured to control the first fluid pump and a second motor controller is configured to control the second fluid pump: and provide for a master-slave motor control to deliver a specified fluid ratio via the first and the second fluid pumps based on the slip factor, wherein the slip factor comprises a differential slip ratio having a difference in slip between the first fluid pump and the second fluid pump, wherein the processor is configured to apply the master-slave motor control by selecting one of the first or the second motor controller as a master controller and the other of the first or the second master controller as a slave controller, wherein both the first motor controller and second motor controller are configured to receive a signal directly from a control system. 14. The media of claim 13 , wherein deriving the slip factor comprises applying an indirect measurement, and wherein the indirect measurement comprises a fluid pressure measurement. 15. The media of claim 13 , wherein the slip factor comprises a slip volume Q with Q(t)=Pf×Ff×∫ΔP 1/2 dt where t comprises a sample time period, Pf=Pump Factor experimentally measured, Ff=Fluid Factor experimentally measured, ΔP=Po—Pi, Po=Outlet pressure, and Pi=Inlet pressure. 16. The media of claim 13 , wherein the slip factor comprises a slip volume Q determined via displacement of the first and the second fluid pumps at a zero-flow pressurized state.