Transfer valves

What is claimed is: 1 . A transfer valve, comprising: a spool comprising a first circumferential flow channel at a first axial position of the spool and a second circumferential flow channel at a second axial position of the spool, wherein the first circumferential flow channel and the second circumferential flow channel have different circumferential positions and are defined only partially circumferentially; and a sleeve disposed over the spool, the sleeve including at least three windows defined through the sleeve at an axial position of the sleeve, each window having a different circumferential position on the sleeve, wherein the spool is configured to translate within the sleeve between a first position and a second position, wherein the first circumferential flow channel of the spool is configured to fluidly connect a first plurality of the at least three windows in the first position, and the second circumferential flow channel is configured to connect a second plurality of the at least three windows in the second position, wherein the first plurality of windows is different by at least one window from the second plurality of windows. 2 . The valve of claim 1 , wherein the first plurality of the at least three windows includes a first window and a second window, wherein the second plurality includes the second window and a third window. 3 . The valve of claim 1 , wherein the spool further includes an at least partially axial channel portion that connects the first circumferential flow channel and the second circumferential flow channel. 4 . The valve of claim 1 , wherein the spool includes an anti-rotation slot defined in a portion thereof for receiving an anti-rotation pin, the slot being dimensioned to allow translation between the first position and the second position, but to prevent rotation of the spool within the sleeve. 5 . The valve of claim 1 , wherein the sleeve includes a pin hole defined therethrough and configured to receive the anti-rotation pin. 6 . The valve of claim 1 , further comprising the anti-rotation pin disposed in the pin hole of the sleeve and in the anti-rotation slot of the spool. 7 . The valve of claim 1 , further comprising a housing disposed over the sleeve that includes a port for each of the at least three windows. 8 . The valve of claim 7 , further comprising at least one seal disposed between the sleeve and the housing such that each window is fluidly isolated between the sleeve and the housing. 9 . The valve of claim 8 , wherein the at least one seal includes at least one ladder seal. 10 . The valve of claim 1 , wherein the spool includes a plurality of sets of first and second circumferential flow channels in different axial positions. 11 . The valve of claim 10 , wherein the spool includes one or more seal channels defined therein between the plurality of sets of first and second circumferential flow channels. 12 . The valve of claim 11 , further comprising a seal disposed in each seal channel. 13 . The valve of claim 12 , wherein the seals are ring seals. 14 . An aircraft hydraulic system, comprising a transfer valve, the transfer valve comprising: a spool comprising a first circumferential flow channel at a first axial position of the spool and a second circumferential flow channel at a second axial position of the spool, wherein the first circumferential flow channel and the second circumferential flow channel have different circumferential positions and are defined only partially circumferentially; and a sleeve disposed over the spool, the sleeve including at least three windows defined through the sleeve at an axial position of the sleeve, each window having a different circumferential position on the sleeve, wherein the spool is configured to translate within the sleeve between a first position and a second position, wherein the first circumferential flow channel of the spool is configured to fluidly connect a first plurality of the at least three windows in the first position, and the second circumferential flow channel is configured to connect a second plurality of the at least three windows in the second position, wherein the first plurality of windows is different by at least one window from the second plurality of windows. 15 . The system of claim 14 , wherein the first plurality of the at least three windows includes a first window and a second window, wherein the second plurality includes the second window and a third window. 16 . A method of actuating a transfer valve comprising: axially moving a spool between a first position and a second position relative to a sleeve surrounding the spool; and altering fluidic communication between a first plurality of circumferentially defined windows and a second plurality of circumferentially defined windows in the same axial position as the first plurality of circumferentially defined windows through the axial movement of the spool.