Hybrid load systems including a dynamic electronic load and passive resistive load modules
First Claim
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1. A hybrid load system comprising:
- a circuit;
a dynamic electronic load module connectable with said circuit for increasing the resistance of said circuit, said dynamic electronic load module comprising one or more field effect transistors (FET) that provide a variable resistance within a predetermined range;
a plurality of passive resistive modules connectable with said circuit for increasing the resistance of said circuit, each said passive resistive module having no field effect transistors (FET) and including one or more resistors that provide a fixed resistance level that remains constant, wherein each said passive resistive module has a switch that is opened for disconnecting said passive resistive module from said circuit for applying no resistance to said circuit and that is closed for connecting said passive resistive module with said circuit for adding the fixed resistance level of said passive resistive module to said circuit;
a central processing unit in communication with said dynamic electronic load module and said passive resistive modules, wherein said central processing unit controls the variable resistance from said dynamic electronic load module added to said circuit and how many switches on said passive resistive modules are closed, wherein the total resistance of said circuit equals the sum of said variable resistance from said dynamic electronic load module and the fixed resistance levels from said respective passive resistive modules connected with said circuit, and wherein the total resistance of said circuit increases by one of the fixed resistance levels of said respective passive resistive modules each time another one of said switches is closed, wherein to establish a desired resistance value n number of passive resistive module switches are closed to provide an effective resistance, wherein n=the number required to reduce the difference between the desired resistance value and the effective resistance to within the predetermined range of said dynamic electronic load module, and wherein said dynamic electronic module is controlled to provide the difference.
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Abstract
A hybrid load system includes a dynamic electronic load module, and a plurality of passive resistive modules coupled with the dynamic electronic load module. The hybrid system includes a control system in communication with the dynamic electronic load module and the passive resistive modules for determining when and how many of the passive resistive modules should be applied in parallel with the dynamic electronic load module for creating a desired load.
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Citations
16 Claims
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1. A hybrid load system comprising:
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a circuit; a dynamic electronic load module connectable with said circuit for increasing the resistance of said circuit, said dynamic electronic load module comprising one or more field effect transistors (FET) that provide a variable resistance within a predetermined range; a plurality of passive resistive modules connectable with said circuit for increasing the resistance of said circuit, each said passive resistive module having no field effect transistors (FET) and including one or more resistors that provide a fixed resistance level that remains constant, wherein each said passive resistive module has a switch that is opened for disconnecting said passive resistive module from said circuit for applying no resistance to said circuit and that is closed for connecting said passive resistive module with said circuit for adding the fixed resistance level of said passive resistive module to said circuit; a central processing unit in communication with said dynamic electronic load module and said passive resistive modules, wherein said central processing unit controls the variable resistance from said dynamic electronic load module added to said circuit and how many switches on said passive resistive modules are closed, wherein the total resistance of said circuit equals the sum of said variable resistance from said dynamic electronic load module and the fixed resistance levels from said respective passive resistive modules connected with said circuit, and wherein the total resistance of said circuit increases by one of the fixed resistance levels of said respective passive resistive modules each time another one of said switches is closed, wherein to establish a desired resistance value n number of passive resistive module switches are closed to provide an effective resistance, wherein n=the number required to reduce the difference between the desired resistance value and the effective resistance to within the predetermined range of said dynamic electronic load module, and wherein said dynamic electronic module is controlled to provide the difference. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A 100 KW hybrid load system comprising:
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a measurement circuit; a 12 KW dynamic electronic load module connectable with said measurement circuit for increasing the load on said measurement circuit, said dynamic electronic load module comprising field effect transistor (FET) circuits that provide a variable load within a range of load levels between 0-12 KW; a plurality of passive resistive modules connectable with said measurement circuit for increasing the load on said measurement circuit, each said passive resistive module having no field effect transistor (FET) circuits and including one or more resistors that provide a constant load of 12 KW, wherein each said passive resistive module has a switch that is opened for disconnecting said passive resistive module from said measurement circuit for applying zero load to said measurement circuit and that is closed for connecting said passive resistive module with said measurement circuit for adding said constant load of 12 KW to said measurement circuit; a central processing unit in communication with said dynamic electronic load module and said passive resistive modules, wherein said central processing unit controls the variable load of said dynamic electronic load module added to said measurement circuit and how many switches for said respective passive resistive modules are closed, wherein the total load on said measurement circuit equals the sum of said variable load from said dynamic electronic load module and the total number of said constant loads of 12 KW from said passive resistive modules connected with said measurement circuit, and wherein the total load on said measurement circuit increases by 12 KW each time another one of said switches is closed for connecting another one of said passive resistive modules to said measurement circuit, wherein to establish a desired load value n number of passive resistive module switches are closed to provide an effective load, wherein n=the number required to reduce the difference between the desired load value and the effective load to within the range of said dynamic electronic load module, and wherein said dynamic electronic module is controlled to provide the difference. - View Dependent Claims (10, 11, 12, 13)
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14. A method of testing a power source comprising:
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providing a measurement circuit; providing a dynamic electronic load module connectable with said measurement circuit for applying a load on said measurement circuit, said dynamic electronic load module having field effect transistor (FET) circuits that generate a variable load within a predetermined range; providing a plurality of passive resistive load modules having fixed load levels that remain constant, wherein each said passive resistive load module has a switch that is opened for disconnecting said passive resistive load module from said measurement circuit for applying no load on said measurement circuit and that is closed for connecting said passive resistive load module with said measurement circuit for adding said fixed load level of said passive resistive load module to said measurement circuit; closing one or more of said switches for connecting said passive resistive load modules associated with said closed switches to said measurement circuit for increasing the load on said circuit, wherein variable adjustments to said load are made using said dynamic electronic load module and fixed level adjustments to said load are made using said passive resistive load modules; and increasing said load on said measurement circuit by an increment equal to one of said fixed load levels each time another one of said switches is closed for connecting one of said passive resistive load modules with said measurement circuit establishing a desired load value; closing n number of passive resistive module switches to provide an effective load, wherein n=the number required to reduce the difference between the desired load value and the effective load to within the predetermined range of said dynamic electronic load module; and controlling said dynamic electronic module to generate the difference. - View Dependent Claims (15, 16)
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Specification