Fluid filtration apparatus and method

What is claimed is: 1. A filter apparatus, comprising: a housing having a closed end and an open end, joined by a cylindrical sidewall defining a longitudinal axis extending from the closed end to the open end of the housing; a bypass filter, disposed within the housing adjacent the open end of the housing, having an outer periphery thereof spaced inward from the sidewall of the housing to form a space around the bypass filter for passage of fluid between the bypass filter and the sidewall, the bypass filter also having an inner periphery thereof forming an axially oriented through-bore of the bypass filter, the bypass filter further including a bypass filter media disposed between the inner and outer peripheries of the bypass filter, the bypass filter media having a bypass filter efficiency for removing particles of a given size from a fluid flowing radially inward through the bypass filter media from the space around the bypass filter to the central through-bore of the bypass filter; a full flow filter, disposed within the housing, adjacent the closed end of the housing, having an outer periphery thereof spaced inward from the sidewall of the housing to form a space around the full flow filter for passage of fluid between the full flow filter and the sidewall, the space between the full flow filter and the sidewall being connected in sealed fluid communication with the space between the bypass filter and the sidewall of the housing, the full flow filter also having an inner periphery thereof forming an axially oriented through-bore of the full flow filter connected in sealed fluid communication with the through-bore of the bypass filter, the full flow filter further including a full flow filter media disposed between the inner and outer peripheries of the full flow filter and having a full flow filter efficiency for removing particles of the given size from a fluid flowing radially inward through the full flow filter media from the annular space around the full flow filter to the through-bore of the full flow filter, with the full flow filter efficiency being higher than the bypass filter efficiency for removing particles of the given size; a flow balancing element, the flow balancing element being disposed within the bypass filter and having a generally tubular sidewall defining an interior of the flow balancing element, a full flow inlet disposed at a first end of the flow balancing element, the full flow inlet of the flow balancing element is without a sealing structure for a mounting adapter, a bypass inlet comprising an unimpeded orifice disposed in the sidewall of the flow balancing element that is sized to balance the amount of fluid received into the interior of the flow balancing element from the bypass filter, and an outlet disposed at a second end of the flow balancing element; and at the operating temperature, the portion of fluid filtered by the full flow filter that is exiting the flow balancing element will be larger than the portion of the fluid filtered by the bypass filter that is exiting the flow balancing element, and at a predetermined temperature below the operating temperature the portion of fluid filtered by the bypass filter that is exiting the flow balancing element will be larger than the portion of fluid filtered by the full flow filter that is exiting the flow balancing element. 2. The filter apparatus of claim 1 , wherein: the full flow filter includes a lower end plate thereof, adjacent the closed end of the housing, extending generally from the outer periphery to the inner periphery of the full flow filter and having an imperforate section thereof blocking fluid flow from entering the through-bore of the full flow filter; the full flow filter also includes an upper end plate thereof, adjacent the bypass filter, extending generally inward from the outer periphery of the full flow filter and defining an outlet of the through-bore of the full flow filter; the bypass filter includes a lower end plate thereof, adjacent the upper end plate of the full flow filter, extending generally inward from the outer periphery of the bypass filter and defining a full flow inlet of the bypass filter in sealed fluid communication with the through-bore of the bypass filter; the bypass filter also includes an upper end plate thereof, adjacent the open end of the housing, extending generally inward from the outer periphery of the bypass filter and defining an outlet of the through-bore of the bypass filter; the outlet of the full flow filter is sealingly connected to the full flow inlet of the bypass filter, and the flow balancing element sidewall being generally imperforate, spaced from the inner periphery of the bypass filter, and sealingly connecting the full flow inlet of the bypass filter to the outlet of the through bore of the bypass filter. 3. The filter apparatus of claim 2 , wherein the bypass flow inlet of the flow balancing element restricts the flow through the bypass filter media to a desired bypass flow portion of a total inlet flow of fluid to the filter apparatus. 4. The filter apparatus of claim 3 , further comprising a full flow restrictor sized to restrict fluid flow through the full flow media to a desired full flow portion of the total inlet flow of fluid to the filter apparatus, and wherein the bypass inlet of the flow balancing element and the full flow restrictor are sized for allowing a larger portion of the total inlet flow to pass through the bypass filter when the fluid is below a predetermined operating temperature of the filter apparatus, and restricting flow through the bypass filter to a smaller portion of the total inlet flow of fluid to the filter apparatus at the predetermined operating temperature of the filter apparatus. 5. The filter apparatus of claim 4 , wherein the full flow restrictor, full flow media, bypass inlet of the flow balancing element, and the bypass filter media are cooperatively configured in such a manner that, at the operating temperature the portion of fluid flowing through the full flow filter will be larger than the portion of the fluid flowing through the bypass filter, and at a predetermined temperature below the operating temperature the portion of fluid flowing through the bypass filter will be larger than the portion of fluid flowing through the full flow filter. 6. The filter apparatus of claim 2 , further comprising a full flow restrictor, sized to restrict the portion of fluid flowing through the full flow media to a desired full flow portion of a total inlet flow of fluid to the filter apparatus. 7. The filter apparatus of claim 6 , wherein a section of the sidewall of the flow balancing element defines the full flow restrictor. 8. The filter apparatus of claim 7 , wherein the full flow restrictor includes the bypass inlet of the flow balancing element. 9. The filter apparatus of claim 8 , further comprising a baseplate and spacer apparatus operatively attached between the open end of the housing and the upper end plate of the bypass filter for positioning the bypass and full flow filters within the housing, adapting the filter apparatus for spin-on attachment to a filter mounting structure, and defining a filter inlet of the filter apparatus. 10. The filter apparatus of claim 9 , wherein: the base plate includes an annular wall defining an upper edge and a lower edge of the baseplate, the upper edge of the baseplate being joined to the open end of the filter housing; the spacer includes an annular wall defining an upper and a lower end of the spacer, with the spacer extending between the lower edge of the base plate and the bypass filter element; and the upper end of the spacer, and the lower edge of the base plate are configured to form cor