Method of cleaning fluid dispenser by applying suction force and vibrating meniscus

What is claimed is: 1. A method of cleaning a dispenser including a plurality of nozzles with a faceplate and a plurality of jetting units for jetting a material from the plurality of nozzles, wherein each of the plurality of nozzles has one of the plurality of jetting units, the method comprising: applying a suction force onto a surface of the faceplate using a suction apparatus; translating the suction apparatus relative to the faceplate such that a portion of nozzles from the plurality of nozzles being exposed to the suction force changes; and vibrating each meniscus of the portion of nozzles being exposed to the suction force by the suction apparatus by operating the jetting units, wherein the suction force is applied without the surface and the suction apparatus being in contact, and wherein, in the vibrating, each meniscus associated with nozzles from the plurality of nozzles that are not being exposed to the suction force is not vibrated, wherein the suction apparatus includes a rectangular orifice with lips that surround the rectangular orifice, the suction apparatus includes a characteristic width, which is a sum of a narrowest width of the rectangular orifice and twice a width of the lips, wherein, in the vibrating, the characteristic width is less than an excited width of the dispenser, the excited width referring to a width of the portion of nozzles with their associated menisci being vibrated while being exposed to the suction force. 2. The method according to claim 1 , wherein a number of nozzles associated with the portion of nozzles being exposed to the suction force is less than a total number of the plurality of nozzles. 3. The method according to claim 1 , wherein the faceplate has a non-wetting coating. 4. The method according to claim 1 , wherein the dispenser is a piezoelectric jetting type dispenser. 5. The method according to claim 1 , wherein, in the vibrating, each meniscus being exposed to the suction force by the suction apparatus is vibrated by applying a voltage to the jetting unit for each nozzle that is exposed to the suction force. 6. The method according to claim 5 , wherein, in the vibrating, the voltage applied to the jetting units corresponding to the portion of nozzles is the minimum amount of voltage required to vibrate each meniscus without causing the material to be jetted from the portion of nozzles. 7. The method according to claim 1 , wherein, in the vibrating, the portion of nozzles being exposed to the suction force by the suction apparatus is vibrated so that the portion of nozzles moves in a direction perpendicular to a dispensing direction. 8. The method according to claim 1 , wherein, in the vibrating, a non-jetting waveform is applied to the jetting units corresponding to the portion of nozzles being exposed to the suction force by the suction apparatus. 9. The method according to claim 1 , wherein, in the vibrating, no material is jetted into a process module from the portion of nozzles being exposed to the suction force by the suction apparatus. 10. The method according to claim 1 , wherein each nozzle from the plurality of nozzles forms a meniscus, wherein the meniscus is a curved upper surface of the material in the nozzle. 11. The method according to claim 1 , wherein, in the vibrating, each meniscus of the portion of nozzles is vibrated while the portion of nozzles is exposed to the suction force by the suction apparatus, so that a force applied by the jetting units to the material in the exposed portion of nozzles is below a threshold required to jet the material from the exposed portion of nozzles. 12. The method according to claim 1 , wherein the narrowest width of the rectangular orifice is 0.5 mm. 13. A dispensing system, comprising: a dispenser configured to jet a material, including a faceplate with a plurality of nozzles and a plurality of jetting units for jetting the material from the plurality of nozzles, wherein each of the plurality of nozzles has one of the plurality of jetting units; a suction apparatus for applying a suction force onto the faceplate, wherein the suction apparatus includes a rectangular orifice with lips that surround the rectangular orifice, the suction apparatus includes a characteristic width, which is a sum of a narrowest width of the rectangular orifice and twice a width of the lips; one or more processors; and one or more memories storing instructions, when executed by the one or more processors, causes the dispensing system to: applying the suction force onto a surface of the faceplate using the suction apparatus; translating the suction apparatus relative to the faceplate such that a portion of nozzles from the plurality of nozzles being exposed to the suction force changes; and vibrating each meniscus of the portion of nozzles being exposed to the suction force by the suction apparatus by operating the jetting units, wherein the suction force is applied without the surface and the suction apparatus being in contact, and wherein, in the vibrating, each meniscus associated with nozzles from the plurality of nozzles that are not being exposed to the suction force is not vibrated, and the characteristic width is less than an excited width of the dispenser, the excited width referring to a width of the portion of nozzles with their associated menisci being vibrated while being exposed to the suction force. 14. The dispensing system according to claim 13 , wherein the narrowest width of the rectangular orifice is 0.5 mm. 15. A method of making an article, comprising: cleaning a dispenser including a faceplate with a plurality of nozzles and a plurality of jetting units for jetting a material from the plurality of nozzles, wherein each of the plurality of nozzles has one of the plurality of jetting units, the cleaning including: applying a suction force onto a surface of the faceplate using a suction apparatus; translating the suction apparatus relative to the faceplate such that a portion of nozzles from the plurality of nozzles being exposed to the suction force changes; and vibrating each meniscus of the portion of nozzles being exposed to the suction force by the suction apparatus by operating the jetting units, wherein the suction force is applied without the surface and the suction apparatus being in contact; jetting the material onto a substrate using the dispenser; forming a pattern or a layer of the jetted material on the substrate; and processing the formed pattern or layer to make the article, wherein, in the vibrating, each meniscus associated with nozzles from the plurality of nozzles that are not being exposed to the suction force is not vibrated, wherein the suction apparatus includes a rectangular orifice with lips that surround the rectangular orifice, the suction apparatus includes a characteristic width, which is a sum of a narrowest width of the rectangular orifice and twice a width of the lips, wherein, in the vibrating, the characteristic width is less than an excited width of the dispenser the excited width referring to a width of the portion of nozzles with their associated menisci being vibrated while being exposed to the suction force. 16. The method of making an article according to claim 15 , wherein the narrowest width of the rectangular orifice is 0.5 mm.