Pump control design toolbox technique for variable speed pumping applications

What we claim is: 1. An apparatus for providing variable speed pump control in a hydronic pump system having a system flow and pressure requirement, comprising: a signal processor or processing module configured to: receive signaling containing information about a system characteristic curve (Sys) for the hydronic pump system, a system flow and pressure requirement for the hydronic pump system, and real time changes by a pump operator to at least one control parameter to adjust the performance of the hydronic pump system; and determine corresponding signaling containing information about a design/redesign of a pump curve (DPC), a system curve (DSC) and a control curve (CCC) to adjust the performance of the hydronic pump system to correspond with the system characteristic curve (Sys), the system flow and pressure requirement and the real time changes of the hydronic pump system, based upon the signaling received. 2. The apparatus according to claim 1 , wherein the apparatus includes, or forms part of, a pump control design toolbox configured with a combination of the signal processor or processing module and a display for providing display functionality related to the pump control design toolbox. 3. The apparatus according to claim 1 , wherein the signal processor or processing module is configured to provide the corresponding signaling as display control signaling; and the apparatus comprises a display that responds to the display control signaling and provides display signaling containing information about: at least one of the system characteristic curve (Sys) and the system flow and pressure requirement for the hydronic pump system; and a pump control design toolbox set up screen having the at least one control parameter to adjust the performance of the hydronic pump system. 4. The apparatus according to claim 3 , wherein the display is a touchscreen display for the pump operator to touch in order to make the real time changes by the pump operator to the at least one control parameter to adjust the performance of the hydronic pump system. 5. The apparatus according to claim 3 , wherein the display responds to the display control signaling and provides the pump curve (DPC), the system curve (DSC) and the control curve (CCC). 6. The apparatus according to claim 3 , wherein the display control signaling contains information about the system curve (DSC) and the pump curve (DPC); and the display provides the system curve (DSC) and the pump curve (DPC) in real time for viewing by the pump operator. 7. The apparatus according to claim 3 , wherein the display responses to the display control signaling and provides one or more of the following: pump pressure in psi, pump flow in gpm, pump power in kW and pump motor speed n in rpm. 8. The apparatus according to claim 3 , wherein the display responds to the display control signaling and provides a pump control design toolbox set up screen that includes one or more drop down menus to enter or select setup data by the pump operator, including the at least one control points for defining the pump curve (DPC), the system curve (DSC) and the control curve (CCC). 9. The apparatus according to claim 1 , wherein the at least one control parameter includes a “set point” parameter and a control “curve shape” parameter; and the real time changes by the pump operator include an adjustment to either the “set point” parameter, or the control “curve shape” parameter, or both the “set point” parameter and the control “curve shape” parameter. 10. A method for providing variable speed pump control in a hydronic pump system having a system flow and pressure requirement, comprising: receiving in a signal processor or signal processing module signaling containing information about a system characteristic curve (Sys), a system flow and pressure requirement for the hydronic pump system, and real time changes by a pump operator to at least one control parameter to adjust the performance of the hydronic pump system; and determining in the signal processor or signal processing module corresponding signaling containing information about a design/redesign of a pump curve (DPC), a system curve (DSC) and a control curve (CCC) to adjust the performance of the hydronic pump system to correspond with the system characteristic curve (Sys), the system flow and pressure requirement and the real time changes of the hydronic pump system, based upon the signaling received. 11. The method according to claim 10 , wherein the method comprises configuring the signal processor or signal processing module in, or as part of, a pump control design toolbox having a display for providing display functionality related to the pump control design toolbox. 12. The method according to claim 10 , wherein the method comprises: configuring the signal processor or processing module to provide the corresponding signaling as display control signaling; and responding with a display to the display control signaling and providing display signaling containing information about: at least one of the system characteristic curve (Sys) and the system flow and pressure requirement for the hydronic pump system; and a pump control design toolbox set up screen having the at least one control parameter to adjust the performance of the hydronic pump system. 13. The method according to claim 12 , wherein the method comprises: using as the display a touchscreen display for the pump operator to touch in order to make the real time changes by the pump operator to the at least one control parameter to adjust the performance of the hydronic pump system. 14. The method according to claim 12 , wherein the method comprises: responding with the display to the display control signaling and providing the pump curve (DPC), the system curve (DSC) and the control curve (CCC). 15. The method according to claim 12 , wherein the method comprises: including in the display control signaling information about the system curve (DSC) and the pump curve (DPC); and providing from the display the system curve (DSC) and the pump curve (DPC) in real time for viewing by the pump operator. 16. The method according to claim 12 , wherein the method comprises: responding with the display to the display control signaling and providing one or more of the following: pump pressure in psi, pump flow in gpm, pump power in kW and pump motor speed n in rpm. 17. The method according to claim 12 , wherein the method comprises: responding with the display to the display control signaling and providing a pump control design toolbox set up screen that includes one or more drop down menus to enter or select setup data by the pump operator, including the at least one control points for defining the pump curve (DPC), the system curve (DSC) and the control curve (CCC). 18. The method according to claim 10 , wherein the method comprises: including as the at least one control parameter a “set point” parameter and a control “curve shape” parameter; and including as the real time changes by the pump operator an adjustment to either the “set point” parameter, or the control “curve shape” parameter, or both the “set point” parameter and the control “curve shape” parameter. 19. A pump control design toolbox for providing variable speed pump control in a hydronic pump system having a system flow and pressure requirement, comprising: a display having pump control design toolbox set up screen configured to display information about: a system characteristic curve (Sys) for the