BANJO FITTING Technical Field Banjo fittings are widely used to make fluid connections when fluid must be supplied to a component through a 90 degree change of direction or other similar reorientation of fluid flow. Banjo fittings are so named because of their shape, which usually includes a tube brazed onto a round component, giving rise to a substantially banjo-shaped assembly. Unlike other components that perform the same function, banjo fittings can be readily assembled with power tools and offer inherent assembly benefits in applications where time to assemble and ease of access to components are important considerations. Background Art Figures 1A and 1 B show a prior art banjo fitting 100 comprised of a block 118 with an opening 120 through which a bolt 102 is inserted. The combination of block 118 and bolt 102 is assembled to make a fluid connection by tightening the bolt 102 to a fluid port 104 of a component. When assembled, a passageway 112 through the block 118 is placed in fluid communication with the port 104 through a passageway 114 in the bolt 102. To minimize leakage, copper washers 116 are generally placed on opposite sides of the block 118 to provide a high pressure seal on both sides of the block 118 when the bolt 102 is tightened. One drawback of the prior art banjo fitting 100 is the extent of assembly that is required. Specifically, because separate washers 116 are used, the bolt 102 must first be inserted through one washer, then the block 118, and then a second washer prior to tightening the bolt 102 to the port 104. Pre-assembly of the washersi 16, block 118 and bolt 102 is not feasible in the prior art banjo fitting 100. Accordingly, the washers 116 may become separated or lost during assembly. Another drawback of the prior art banjo fitting design 100 is the need to widen or hollow out a central chamber 110 of the block 118. Because the bolt 102 of the prior art banjo fitting 100 is turned during tightening, the bolt passageway 114 may not be directly aligned with the block passageway 112 at the conclusion of assembly. To overcome this problem of misalignment, the central chamber 110 of the block 118 is hollowed out or widened so that the bolt passageway 114, regardless of angular orientation, is always in fluid communication with the block passageway 112 through the central chamber 110. The process of widening or hollowing out the central chamber 110 of the block 118 is expensive and time consuming. Accordingly, a new banjo fitting is desired that addresses the problems associated with the prior art design. Disclosure of the Invention According to a first aspect, a new banjo fitting is provided having a saddle washer pair that clamps around the banjo block to keep the washer pair in place. As a result, the block/washer combination forms a single sub-assembly such that an installer can place the block/washer combination into position with one hand and tighten it down with the other hand. This design significantly simplifies assembly and furthermore keeps the washers from sliding off during shipment. In one embodiment, at lease one washer of the washer pair includes a tab that is folded over to retain the washer pair in place when clipped onto the banjo block. The tab may engage a flat surface on the block to prevent the washer pair from rotating on the block. According to a second aspect, a new banjo fitting is provided having a clocking feature. Clocking refers to positioning a component, the banjo block in this case, in a specific orientation while the component is tightened into place. The new banjo fitting's clocking feature is accomplished by extending at least one wall of the banjo block such that the extended wall prevents the block from turning as the banjo fitting is tightened into place. As a result of this clocking feature, the fluid passageways in the banjo fitting will remain aligned throughout tightening down of the fitting, thereby reducing manufacturing costs by eliminating the need to widen or hollow out the central chamber of the block. Brief Description of the Drawings The features of the invention, and its technical advantages, can be seen from the following description of the preferred embodiments together with the claims and the accompanying drawings, in which: Figure 1A is a perspective view of a prior art banjo block and bolt; Figure 1 B is a perspective view of an assembled prior art banjo fitting; Figure 2A is a top view of a banjo block according to one embodiment; Figure 2B is a cross-sectional view of the banjo block of Fig. 2A; Figure 3A is a perspective view of a saddle washer pair according to one embodiment; Figure 3B is a cross-sectional view of the saddle washer pair of Fig. 3A; Figure 4A is a perspective view of a banjo fitting stud and cap according to one embodiment; Figure 4B is a perspective view of the saddle washer of Fig. 3A clipped to the banjo block of Fig. 2A; and Figure 4C is a perspective view of an assembled banjo fitting according to one aspect. - A - Detailed Description of Preferred Embodiments In one embodiment, a banjo fitting is provided comprising a banjo block 10, a saddle washer pair 12, a stud 38 and a cap 60. The block 10 and saddle washer pair 12 together comprise a block/washer sub-assembly 6, as depicted in Fig. 4B. The cap 60 mates with and is received on the stud 38 to secure the block/washer sub-assembly 6 to the stud 38. Referring to Figs. 2A and 2B, the block 10 includes a central opening 16 through the block 10, a fluid passageway 18 in communication with the central opening 16, at least one flat outer surface 17 and walls 20 and 22 that extend from the sides 14 of the block 10 to form a channel 23. In another embodiment a single wall may be used. The fluid passageway 18 may be connected to a fluid source (not shown) for providing fluid to a component through the banjo fitting. Referring to Fig. 4A, the stud 38 comprises a post portion 46 and a base portion 44 that may be integrally formed together or otherwise rigidly attached. The distal ends of the post portion 46 and the base portion 44 may include outer threads for coupling the stud 38 to other components as described below. The cap 60 may include mating threads for threaded engagement on the end of the post portion 46. The stud 38 further includes a fluid passageway 40 that extends axially through the base portion 44 and intersects one or more radial fluid ports 42 located in the post portion 46. In operation, the base portion 44 of the stud 38 may be mounted to a hydraulic component (not shown), as in the prior art, such that the fluid passageway 40 is in fluid communication with the component. The base portion 44 of the stud 38 also includes at least one flat 36 to ensure proper alignment between the block 10 and the stud 38 and to provide the aforementioned clocking feature. Specifically, the block 10 and the base portion 44 may be dimensioned such that the block 10 cannot be seated over the base portion 44 unless the flat 36 on the base portion 44 is turned to face one of the walls 20 or 22 that extend from the block 10. In a preferred embodiment, the base portion 44 includes two diametrically opposed flats that face walls 20 and 22, respectively, when the block 10 is seated over the base portion 44. In this embodiment, the base portion 44 of the stud 38 will fit within the channel 23 on the block 10 only at particular angular orientations. Referring to Figs. 3A and 3B, the saddle washer pair 12 includes a lower washer 24 and an upper washer 26 connected by a link 28. Either the lower washer 24 or the upper washer 26 may include a tab 34 that extends from the washer diametrically opposite the link 28. When the washer pair 12 is formed as shown in Fig. 3B to partially surround the block 10 as shown in Fig. 4B, both washers 24, 26 can be maintained in the proper position on the block 10 during shipping and installation. In particular, the tab 34 may engage the flat outer surface 17 of the block 10 to prevent the washer pair 12 from rotating on the block 10. Although the saddle washer pair 12 of the preferred embodiment comprises just one tab, one skilled in the art can appreciate the fact that a saddle washer pair comprising two tabs may also be used. The washer pair 12 may be made of aluminum, copper, brass, or any other suitable washer material. Improved corrosion resistance, however, has been found with the use of aluminum washers. To assemble the banjo fitting, the block/washer sub- assembly 6 is placed on the stud 38 such that the post portion 46 of the stud 38 passes through the central opening 16 of the block 10 and the saddle washer pair 12. The base portion 44 of the stud 38 may already be rigidly mounted to a component such as a hydraulic actuator. Before the block/washer sub-assembly 6 can be completely seated on the stud 38, however, the walls 20 and 22 of the block 10 must be aligned with the flat 36 on the base portion 44 of the stud 38. In this manner, proper alignment of the fluid passageway 18 in the block 10 with the port 42 in the stud 38 is ensured. This permits passage of fluid to and from the bolt passageway 40 through the block passageway 18. Once the block 10 is completely seated on the stud 38, the cap 60 is tightened down on the protruding post portion 46 of the stud 38 to secure the block/washer sub-assembly 6 and provide a fluid seal. Interference between the walls 20 and 22 of the block 10 and the base portion 44 of the stud 38 will prevent relative rotation such that the block/washer sub-assembly 6 will be maintained in the correct angular orientation even as the cap 60 is tightened onto the post portion 46 of the stud 38. In other words, the block 10 is clocked during this tightening operation and there is no need for a fastening apparatus to keep the block 10 from turning as the cap 60 is tightened. In another embodiment, the central opening 16 in the block 10 may be widened to facilitate the passage of fluid around the post portion 46 in the block 10. Usually the central opening 16 is widened by casting or milling the central opening 16 with a concave annular space or cavity similar to the central chamber 110 of the prior art banjo fitting shown in Fig. 1. Pursuant to a further embodiment, the central opening 16 in the block 10 can merely have a diameter that is greater than the outer diameter of the stud 38 in the region of the fluid port 42 to facilitate the passage of fluid around this region of the post portion 46. It is to be understood that the washers 24 and 26 will be wide enough to ensure their sealing effect.