Techniques for powder delivery in additive fabrication and related systems and methods

What is claimed is: 1 . A powder delivery apparatus for an additive fabrication system, the powder delivery apparatus comprising: a hopper configured to hold a powder; a trough adjacent to a build area of the additive fabrication system and configured to receive powder from the hopper, wherein the hopper is arranged to receive powder overflowing from the trough into the hopper; a powder conveyor arranged at least partially within the hopper and configured to convey powder from the hopper into the trough; an electro-optical sensor configured to produce at least one signal indicative of a level of the powder in the trough; and at least one processor configured to control motion of the powder conveyor based on the at least one signal produced by the electro-optical sensor to control the level of the powder in the trough. 2 . The powder delivery apparatus of claim 1 , wherein the electro-optical sensor is affixed to at least one interior side of the trough, and is configured to produce an optical sensing path across opposing sides of the trough. 3 . The powder delivery apparatus of claim 1 , wherein the electro-optical sensor includes a parallel axis/beam-break sensor configuration. 4 . The powder delivery apparatus of claim 1 , wherein the hopper comprises an agitating device placed within the interior of the hopper that is configured to rotate to distribute the powder within the hopper. 5 . The powder delivery apparatus of claim 1 , wherein the powder conveyor comprises a screw conveyor. 6 . The powder delivery apparatus of claim 5 , wherein the screw conveyor is at least partially arranged beneath the hopper. 7 . The powder delivery apparatus of claim 5 , wherein the screw conveyor comprises a first section coupled to an underside of the trough. 8 . The powder delivery apparatus of claim 5 , wherein the hopper is arranged below the trough. 9 . The powder delivery apparatus of claim 1 , wherein the electro-optical sensor is placed above the powder in the trough. 10 . A powder delivery apparatus for an additive fabrication system, the powder delivery apparatus comprising: a hopper configured to hold a powder; a trough adjacent to a build area of the additive fabrication system and arranged above the hopper, wherein the hopper is arranged to receive powder overflowing from the trough into the hopper; a regulating device configured to deliver powder from the trough to the build area of the additive fabrication system; and a powder conveyor arranged at least partially within the hopper and configured to convey powder from the hopper into the trough. 11 . The powder delivery apparatus of claim 10 , wherein the powder conveyor includes a screw conveyor. 12 . The powder delivery apparatus of claim 11 , wherein the screw conveyor is at least partially arranged beneath the hopper. 13 . The powder delivery apparatus of claim 11 , wherein the screw conveyor comprises a first section coupled to an underside of the trough. 14 . The powder delivery apparatus of claim 11 , wherein the hopper is arranged below an overflow port of the trough. 15 . The powder delivery apparatus of claim 10 , wherein an edge of the trough is positioned directly above the hopper. 16 . The powder delivery apparatus of claim 10 , wherein the hopper comprises an agitating device placed within the interior of the hopper that is configured to rotate to distribute the powder within the hopper. 17 . A powder delivery apparatus for an additive fabrication system, the powder delivery apparatus comprising: a hopper configured to hold a powder; a trough adjacent to a build area of the additive fabrication system and configured to receive powder from the hopper, wherein the hopper is arranged to receive powder overflowing from the trough into the hopper; a regulating device configured to deliver powder in the trough to the build area of the additive fabrication system; and at least one processor configured to measure a level of powder in the trough by measuring a force applied to the regulating device during its motion through the trough. 18 . The powder delivery apparatus of claim 17 , further comprising a force sensor configured to measure a resistance force applied to the regulating device. 19 . The powder delivery apparatus of claim 18 , wherein the at least one processor is configured to measure the level of powder in the trough by calculating the level of powder based on one or more sensor readings received from the force sensor. 20 . The powder delivery apparatus of claim 17 , wherein the at least one processor is configured to measure the level of powder in the trough by calculating the level of powder based on a measurement of back electromotive force (EMF) applied to the regulating device.