Z-fold flexible blanket solar array

What is claimed is: 1. An apparatus, comprising: a foldable solar array foldable in a first direction in an accordion manner to form a stowed pack having a plurality of folds; and a deployable frame structure, the deployable frame structure directly connected to a first end in the first direction of the foldable solar array and to a second end in the first direction of the foldable array, the deployable frame structure including: a T-shaped yoke structure having a central member and a cross-member arm, the cross-member arm attached to the foldable solar array at the first end and the central member configured to mount to a spacecraft; a T-shaped end structure having a central member and a cross-member arm, the cross-member arm of the T-shaped end structure attached to the foldable solar array at the second end; a plurality of rigid beams, including a first rigid beam, a second rigid beam, and one or more additional rigid beams; and a plurality of hinges connecting the T-shaped yoke structure, the plurality of rigid beams, and the T-shaped end structure into a Z-fold structure, the plurality of hinges including a first hinge directly connecting a first end of the first rigid beam to the T-shaped yoke structure, a second hinge directly connecting a first end of the second rigid beam to an end of the central member of the T-shaped end structure, and a plurality of additional hinges connecting the plurality of rigid beams end to end, the plurality of hinges configured to: fold the deployable frame structure into a stowed configuration in which the stowed pack is stored between the cross-member arm of the T-shaped yoke structure and the cross-member arm of the T-shaped end structure and in which the plurality of rigid beams are folded up between the cross-member arm of the T-shaped yoke structure and the cross-member arm of the T-shaped end structure; and unfold and extend the deployable frame structure away from the spacecraft in the first direction into a deployed configuration in which the foldable solar array is tensioned between the cross-member arm of the T-shaped yoke structure and the cross-member arm of the T-shaped end structure. 2. The apparatus of claim 1 , the deployable frame structure further including: a first solar array on a surface of the cross-member arm of the T-shaped end structure, the first solar array configured to be facing outward from a surface of the spacecraft to which the apparatus is attached when the deployable frame structure is in the stowed configuration. 3. The apparatus of claim 2 , wherein the foldable solar array has a first side with photovoltaic cells mounted thereupon and, where in the deployed configuration, the first side of the foldable solar array faces in a same direction as the first solar array. 4. The apparatus of claim 3 , the deployable frame structure further including: a second solar array on a surface of the cross-member arm of the T-shaped yoke structure, the second solar array configured to be facing in the same direction as the first side of the foldable solar array. 5. The apparatus of claim 1 , wherein one or more of the hinges includes: a spring configured to extend the deployable frame structure. 6. The apparatus of claim 1 , wherein one or more of the hinges includes: a motor configured to extend the deployable frame structure. 7. The apparatus of claim 1 , wherein the foldable solar array has a first side with photovoltaic cells mounted thereupon and a second side, and where, in the deployed configuration, the deployable frame structure is below the second side. 8. The apparatus of claim 1 , wherein the foldable solar array includes a first foldable solar array part foldable in a first direction in an accordion manner to form a first stowed pack having a plurality of folds a second foldable solar array part foldable in a first direction in an accordion manner to form a second stowed pack having a plurality of folds, wherein at least a portion of the deployable frame structure is located between the first foldable solar array part and the second foldable solar array part in both the stowed configuration and the deployed configuration. 9. The apparatus of claim 8 , wherein: the cross-member arm of the T-shaped yoke structure includes a first arm and a second arm; the cross-member arm of the T-shaped end structure includes a first arm and a second arm; and wherein, in the stowed configuration, the arms of the T-shaped yoke structure and the arms of the T-shaped end structure are rotated inward toward the central member of the T-shaped yoke structure and the T-shaped end structure, respectively. 10. The apparatus of claim 9 , wherein the deployable frame structure further includes: a plurality of arm hinges, including: an arm hinge connecting the T-shaped yoke structure's first arm and central member; an arm hinge connecting the T-shaped yoke structure's second arm and central member; an arm hinge connecting the T-shaped end structure's first arm and central member; and an arm hinge connecting the T-shaped end structure's second arm and central member, wherein the arm hinges include a spring configured to rotate the T-shaped yoke structure's first arm and second arm toward the T-shaped yoke structure's central member and to rotate the T-shaped end structure's first arm and second arm toward the T-shaped end structure's central member. 11. The apparatus of claim 9 , wherein the deployable frame structure further includes: a plurality of arm hinges, including: an arm hinge connecting the T-shaped yoke structure's first arm and central member; an arm hinge connecting the T-shaped yoke structure's second arm and central member; an arm hinge connecting the T-shaped end structure's first arm and central member; and an arm hinge connecting the T-shaped end structure's second arm and central member, wherein the arm hinges include a motor configured to rotate the T-shaped yoke structure's first arm and second arm toward the T-shaped yoke structure's central member and to rotate the T-shaped end structure's first arm and second arm toward the T-shaped end structure's central member. 12. An apparatus, comprising: a foldable solar array foldable in a first direction in an accordion manner to form a stowed pack having a plurality of folds; and a deployable frame structure connected to the foldable solar array, including: a T-shaped yoke structure having a cross-member arm directly attached to the foldable solar array at a first end in the first direction, the T-shaped yoke structure configured to mount to a spacecraft; a T-shaped end structure having a cross-member arm directly attached to the foldable solar array at a second end in the first direction, the T-shaped end structure having a first solar array on a surface of the cross-member arm; a plurality of rigid beams, including a first rigid beam, a second rigid beam, and one or more additional rigid beams; and a plurality of hinges connecting the T-shaped yoke structure, the plurality of rigid beams, and the T-shaped end structure, the plurality of hinges including a first hinge directly connecting a first end of the first rigid beam to the T-shaped yoke structure, a second hinge directly connecting a first end of the second rigid beam to an end central member of the T-shaped end structure, and a plurality of additional hinges connecting the plurality of rigid beams end to end, the deployable frame structure configured to: fold into a stowed configuration in which the stowed pack is stored between the cross-member arm of the T-shaped yoke structure and the cross-member arm of the T-shaped end structure and in which the first solar array fa