Folded fluid channel for a fluid dynamic bearing

We claim: 1. A motor comprising: a first fluid sealing system comprising a first air-fluid interface connected to a first axial end of a bearing, wherein: the bearing is defined between a stationary component and a rotatable component, the rotatable component comprises a hub, the stationary component comprises a shaft, and the shaft is stationary with respect to a hard drive base plate; and a second fluid sealing system comprising a second air-fluid interface connected to a second axial end of the bearing, wherein: the first fluid sealing system comprises a first folded fluid channel and the second fluid sealing system comprises a second folded fluid channel, the first and the second folded fluid channels defined by facing surfaces of the stationary component and the rotatable component, wherein the first folded fluid channel comprises a first and a second axially extending portions, and a radially extending portion, wherein the radially extending portion radially extends outward from the first axially extending portion and wherein the second axially extending portion axially extends downward from the radially extending portion toward the hard drive base plate, the first fluid sealing system forms an active pumping seal for pumping fluid when the stationary component and the rotatable component are relatively rotating, and wherein fluid flows in the first axially extending portion during rotation of the rotatable component relative to the stationary component, the first folded fluid channel occupies a portion of the same axial space as the bearing, and is positioned radially outboard of the bearing. 2. The motor as in claim 1 , wherein: the bearing comprises an asymmetric fluid sealing system, the active pumping seal is a grooved pumping seal at the first fluid sealing system, and the second fluid sealing system comprises a capillary seal. 3. The motor as in claim 1 , wherein: the active pumping seal of the first fluid sealing system is a grooved pumping seal, and grooves are on at least one of an axially extending portion of a facing surface of the first folded fluid channel and a radially extending portion of a facing surface of the first folded fluid channel. 4. The motor as in claim 1 , wherein: the first fluid sealing system further forms a capillary seal on an axially extending portion of a facing surface of the first folded fluid channel when the rotatable component is stationary, and the active pumping seal is formed on a radially extending portion of a facing surface of the first folded fluid channel when the stationary component and the rotatable component are relatively rotating. 5. The motor as in claim 1 , further comprising top grooves having an asymmetric groove pattern formed at the first axial end of the bearing, and bottom grooves having an asymmetric groove pattern formed at the second axial end of the bearing, wherein the bottom grooves are formed with an asymmetric leg that is longer than an asymmetric leg of the top grooves. 6. The motor as in claim 1 , wherein the shaft is attached to a top cover. 7. The motor as in claim 1 , further comprising a single thrust surface formed by grooves on at least one radially extending facing surface of the stationary component and the rotatable component, wherein the single thrust surface is operable to provide a force to separate the rotatable component from the stationary component. 8. The motor as in claim 1 , further comprising: a limiter formed by facing surfaces of the stationary component and the rotatable component, wherein the limiter is operable to limit axial movement of the rotatable component with respect to the stationary component. 9. The motor as in claim 1 , further comprising a recirculation passageway formed through the rotatable component, wherein the recirculation passageway fluidly connects the first axial end of the bearing with the second axial end of the bearing. 10. The motor as in claim 1 , wherein: the rotatable component further comprises a sleeve, and the sleeve and the hub have facing surfaces shaped with an axial and a radial step engagement. 11. An apparatus comprising: a fluid dynamic bearing defined between a stationary component and a rotatable component, wherein: the rotatable component comprises a hub, the stationary component comprises a shaft, and the shaft is stationary with respect to a hard drive base plate; a first fluid sealing system comprising a first air-fluid interface disposed at a first axial end of the fluid dynamic bearing, wherein: the first fluid sealing system comprises; a first folded fluid channel defined by facing surfaces of the stationary component and the rotatable component, wherein the first folded fluid channel comprises a first and a second axially extending portions, and a first radially extending portion, wherein the first radially extending portion radially extends outward from the first axially extending portion and wherein the second axially extending portion axially extends downward from the first radially extending portion toward the hard drive base plate, and wherein fluid flows in the first axially extending portion during rotation of the rotatable component relative to the stationary component; the first folded fluid channel is positioned in the same axial space as the bearing, and the first folded fluid channel is positioned radially outboard of the bearing; and a second fluid sealing system comprising a second air-fluid interface disposed at a second axial end of the fluid dynamic bearing, wherein the second fluid sealing system comprises a second folded fluid channel defined by facing surfaces of the stationary component and the rotatable component. 12. The apparatus of claim 1 , further comprising a grooved pumping seal at the first axial end of the fluid dynamic bearing, and a capillary seal at the second axial end of the fluid dynamic bearing. 13. The apparatus of claim 1 , further comprising a grooved pumping seal comprising grooves on at least one of an axially extending portion of a facing surface of the first folded fluid channel and a radially extending portion of a facing surface of the first folded fluid channel. 14. The apparatus of claim 1 , further comprising a capillary seal at the first axially extending channel portion. 15. The apparatus of claim 1 , further comprising: top grooves having an asymmetric groove pattern formed at the first axial end of the bearing; and bottom grooves having an asymmetric groove pattern formed at the second axial end of the bearing, wherein the bottom grooves are formed with an asymmetric leg that is longer than an asymmetric leg of the top grooves. 16. The apparatus of claim 1 , further comprising an active pumping seal formed on a radially extending portion of a facing surface of the first folded fluid channel. 17. The apparatus of claim 1 , further comprising a thrust surface formed by grooves on at least one radially extending facing surface of the stationary component and the rotatable component. 18. The apparatus of claim 1 , further comprising a limiter attached to at least one of the shaft and a top cover, wherein the limiter is positioned to face a surface of the rotatable component. 19. The apparatus of claim 1 , further comprising a recirculation passageway defined through the rotatable component. 20. The apparatus of claim 1 , wherein the rotatable component comprises a sleeve, and wherein further the sleeve and the hub have