Unit dose dispensing systems and methods

What is claimed is: 1. A dispensing mechanism, comprising: a set of T-shaped vertical channels of a shape and size to receive cylindrical tops of a number of vials and hold the vials in vertical stacks; a connector for receiving electrical signals from a cabinet in which the dispensing mechanism is removably installed; an actuator that moves in response to the electrical signals; a plurality of gears driven by the actuator, each of the gears being coupled to a receiver positioned under a respective one of the T-shaped vertical channels and each receiver being of a shape and size to receive one of the vials; and a housing defining an opening at the bottom of the dispensing mechanism; wherein when the gears are driven, their respective receivers sequentially align with the T-shaped vertical channels, such that upon alignment, one of the vials drops into the respective receiver capturing the respective vial, and when one of the receivers holding a vial approaches a downward vertical orientation, a single vial drops from the downwardly-oriented receiver and through the opening. 2. The dispensing mechanism of claim 1 , wherein each of the receivers comprises a T-shaped blind slot of a shape and size to receive the cylindrical top of one of the vials. 3. The dispensing mechanism of claim 1 , wherein the connector carries electrical power to the dispensing mechanism, and carries bi-directional communication signals between the dispensing mechanism and a controller of the cabinet. 4. The dispensing mechanism of claim 1 , comprising at least three gears, one of the gears driving the others, the gears meshed such that their receivers reach the downward vertical orientation at evenly spaced angular intervals of the driving gear. 5. The dispensing mechanism of claim 1 , further comprising: a light emitter directed across the opening; and one or more receivers that detect light from the light emitter reflected from a far wall of the opening, the light emitter and the one or more receivers positioned such that the light detected by at least one of the one or more receivers is interrupted by the passage of a vial dispensed through the opening. 6. The dispensing mechanism of claim 1 , wherein the dispensing mechanism is configured to dispense vials having a diameter of about 22 millimeters, and is configured to dispense vials having a diameter of about 15 millimeters. 7. The dispensing mechanism of claim 1 , wherein the actuator comprises a motor, a solenoid, or a memory metal. 8. The dispensing mechanism of claim 7 , wherein the actuator is a motor, and wherein the dispensing mechanism further comprises a set of right-angle gears through which the motor drives the gears that are coupled to the receivers. 9. The dispensing mechanism of claim 7 , wherein the actuator is a stepper motor. 10. The dispensing mechanism of claim 1 , wherein: the T-shaped vertical channels are comprised in a cassette, and the connector, actuator, and gears are comprised in a dispenser; the cassette and dispenser are separable; and the cassette does not include any active electrical components. 11. The dispensing mechanism of claim 10 , wherein the dispenser is configured to automatically detect the installation and removal of the cassette on the dispenser. 12. The dispensing mechanism of claim 10 , wherein: the cassette includes a wirelessly-readable memory; and the dispenser includes a reader for reading the wirelessly-readable memory. 13. The dispensing mechanism of claim 12 , wherein the wirelessly-readable memory is also writeable wirelessly. 14. The dispensing mechanism of claim 12 , wherein the wirelessly-readable memory is readable via a near field communication (NFC) or radio frequency identification (RFID) protocol. 15. The dispensing mechanism of claim 12 , wherein the reader comprises an antenna, and wherein the dispenser is configured to automatically detect the installation and removal of the cassette on the dispenser using the antenna. 16. The dispensing mechanism of claim 10 , wherein the cassette further comprises a latch that retains vials within the cassette when the cassette is separated from the dispenser, and that permits the vials to reach the receivers when the cassette is assembled to the dispenser. 17. The dispensing mechanism of claim 10 , wherein the cassette displaces less than 30 cubic centimeters for each vial stored in the cassette at full capacity. 18. The dispensing mechanism of claim 1 , further comprising a sensor that directly measures motion of a mechanical component of the dispensing mechanism. 19. The dispensing mechanism of claim 18 , wherein at least one of the gears includes spokes that are reflective of infrared light, and wherein the sensor detects light reflected from the spokes. 20. The dispensing mechanism of claim 18 , wherein the sensor detects light reflected from the teeth of one of the gears.