Fluid ejection device including recirculation system

What is claimed is: 1. A fluid ejection device comprising at least one recirculation system, said recirculation system comprising: a drop generator; a recirculation channel including an inlet channel to direct fluid in a first direction, an outlet channel to direct fluid in a second direction opposite the first direction, and a connection channel between the inlet channel and the outlet channel; and a fluid feedhole that communicates with the drop generator via the inlet channel and the outlet channel, wherein the recirculation channel is asymmetrical with reference to the drop generator such that a length of the inlet channel between the drop generator and the fluid feedhole is different than a length of the outlet channel between the drop generator and the fluid feedhole. 2. The fluid ejection device according to claim 1 wherein the drop generator includes a firing chamber and a firing element. 3. The fluid ejection device according to claim 2 wherein the firing element is a resistor. 4. The fluid ejection device according to claim 1 wherein the drop generator includes a nozzle. 5. The fluid ejection device according to claim 1 wherein the recirculation system further comprises an auxiliary resistor. 6. The fluid ejection device according to claim 1 comprising a plurality of recirculation systems each including recirculation channels comprising an inlet channel, an outlet channel and a connection channel. 7. The fluid ejection device according to claim 1 wherein the recirculation system further comprises particle tolerant architectures. 8. The fluid ejection device according to claim 1 wherein the recirculation system further comprises non-moving part valves. 9. The fluid ejection device according to claim 1 wherein the recirculation system comprises a plurality of drop generators, each containing a firing chamber and a firing element. 10. The fluid ejection device according to claim 1 wherein the recirculation system comprises a plurality of drop generators, at least an auxiliary resistor, non-moving part valves and particle tolerant architecture. 11. The fluid ejection device according to claim 1 wherein the recirculation channel includes, in series, the inlet channel, the connection channel, and the outlet channel. 12. An inkjet pen comprising a fluid ejection device such as defined in claim 1 . 13. The fluid ejection device according to claim 1 , wherein the drop generator is located in the inlet channel. 14. The fluid ejection device according to claim 1 , wherein the length of the inlet channel to the drop generator is shorter than the length of the outlet channel from the drop generator. 15. A method for inducing printing fluid flow in a recirculation system of a fluid ejection device, comprising at least one of applying a sub-TOE energy or full energy pulse to an auxiliary resistor and applying a sub-TOE energy pulse to a firing element of a drop generator, wherein the recirculation system comprises: the drop generator; a recirculation channel including an inlet channel to direct fluid in a first direction, an outlet channel to direct fluid in a second direction opposite the first direction, and a connection channel between the inlet channel and the outlet channel; and a fluid feedhole that communicates with the drop generator via the inlet channel and the outlet channel, wherein the recirculation channel is asymmetrical with reference to the drop generator such that a length of the inlet channel between the drop generator and the fluid feedhole is different than a length of the outlet channel between the drop generator and the fluid feedhole. 16. A method of jetting printing fluid drops from a fluid ejection device, comprising inducing a printing fluid flow in a recirculation system of the fluid ejection device by applying an energy sufficient to enable printing fluid to drop by an orifice of a drop generator of the recirculation system, wherein the recirculation system comprises: the drop generator; a recirculation channel including an inlet channel to direct fluid in a first direction, an outlet channel to direct fluid in a second direction opposite the first direction, and a connection channel between the inlet channel and the outlet channel; and a fluid feedhole that communicates with the drop generator via the inlet channel and the outlet channel, wherein the recirculation channel is asymmetrical with reference to the drop generator such that a length of the inlet channel between the drop generator and the fluid feedhole is different than a length of the outlet channel between the drop generator and the fluid feedhole. 17. The method of claim 16 , further comprising at least one of applying a sub-TOE energy or full energy pulse to an auxiliary resistor of the recirculation system and applying a sub-TOE energy pulse to a firing element of the drop generator. 18. A fluid ejection device comprising at least one recirculation system, said recirculation system comprising: a drop generator; a recirculation channel including an inlet channel to direct fluid in a first direction, an outlet channel to direct fluid in a second direction opposite the first direction, and a connection channel between the inlet channel and the outlet channel; a fluid feedhole that communicates with the drop generator via the inlet channel and the outlet channel; and an auxiliary resistor, wherein the recirculation channel is asymmetrical with reference to the drop generator such that a length of the inlet channel between the drop generator and the fluid feedhole is different than a length of the outlet channel between the drop generator and the fluid feedhole. 19. The fluid ejection device according to claim 18 wherein the drop generator includes a firing chamber, a nozzle, and a firing element. 20. The fluid ejection device according to claim 18 comprising a plurality of recirculation systems each including recirculation channels comprising an inlet channel, an outlet channel and a connection channel. 21. The fluid ejection device according to claim 18 wherein the recirculation system further comprises particle tolerant architectures and non-moving part valves. 22. The fluid ejection device according to claim 18 wherein the recirculation channel includes, in series, the inlet channel, the connection channel, and the outlet channel.