Method of manufacturing an ink-jet printhead

What is claimed: 1. A method of manufacturing an ink jet printhead comprising: providing a silicon substrate including active ejecting elements; providing a hydraulic structure layer for defining hydraulic circuits through which ink flows; providing a silicon orifice plate having a plurality of nozzles for ejection of said ink; and assembling said silicon substrate with said hydraulic structure layer and said silicon orifice plate; wherein providing said silicon orifice plate comprises: providing a silicon wafer having a planar extension delimited by a first and a second surface opposite to each other; performing a thinning step at said second surface so as to remove from said second surface a central portion having a preset height, said silicon wafer being formed, following said thinning step, by a base portion having a planar extension and a peripheral portion extending, from said base portion transversally with respect to the planar extension of said base portion; forming in said silicon wafer a plurality of through holes, each defining respective nozzle for ejection of said ink; and forming, before said thinning step, one or more reference cavities at said first surface that have a length longer than the thickness of said base portion. 2. A method of manufacturing an ink jet printhead comprising: providing a silicon substrate including active ejecting elements; providing a hydraulic structure layer for defining hydraulic circuits through which ink flows; providing a silicon orifice plate having a plurality of nozzles for ejection of said ink; and assembling said silicon substrate with said hydraulic structure layer and said silicon orifice plate; wherein providing said silicon orifice plate comprises: providing a silicon wafer having a planar extension delimited by a first and a second surface opposite to each other; performing a thinning step at said second surface so as to remove from said second surface a central portion having a preset height, said silicon wafer being formed, following said thinning step, by a base portion having a planar extension and a peripheral portion extending, from said base portion transversally with respect to the planar extension of said base portion; and forming in said silicon wafer a plurality of through holes, each defining a respective nozzle for ejection of said ink, wherein each of said nozzles comprises a top portion and a bottom portion axially aligned to said top portion, wherein the step of forming in said silicon wafer a plurality of through holes comprises: a top portion etching step wherein a plurality of cylindrical cavities are formed in said silicon wafer at said first surface, at least a part of each of said cylindrical cavities defining the top portion of a respective nozzle, each cylindrical cavity having a first longitudinal end at said first surface, and a second longitudinal end opposite to said first longitudinal end; and a bottom portion etching step wherein a bottom portion is formed at the second end of at least a part of said cylindrical cavities, thereby obtaining said nozzles, and wherein an alignment of said bottom portion etching step with said top portion etching step is performed by forming reference cavities in said base portion and using said reference cavities as an alignment reference. 3. A method of manufacturing an ink jet printhead comprising: providing a silicon substrate including active ejecting elements; providing a hydraulic structure layer for defining hydraulic circuits through which ink flows; providing a silicon orifice plate having a plurality of nozzles for ejection of said ink; and assembling said silicon substrate with said hydraulic structure layer and said silicon orifice plate; wherein providing said silicon orifice plate comprises: providing a silicon wafer having a planar extension delimited by a first and a second surface opposite to each other; performing a thinning step at said second surface so as to remove from said second surface a central portion having a preset height, said silicon wafer being formed, following said thinning step, by a base portion having a planar extension and a peripheral portion extending, from said base portion transversally with respect to the planar extension of said base portion; and forming in said silicon wafer a plurality of through holes, each defining respective nozzle for ejection of said ink, wherein each of said nozzles comprises a top portion and a bottom portion axially aligned to said top portion, wherein the step of forming in said silicon wafer a plurality of through holes comprises: a top portion etching step wherein a plurality of cylindrical cavities are formed in said silicon wafer at said first surface, at least a part of each of said cylindrical cavities defining the top portion of a respective nozzle, each cylindrical cavity having a first longitudinal end at said first surface, and a second longitudinal end opposite to said first longitudinal end; and a bottom portion etching step wherein a bottom portion is formed at the second end of at least a part of said cylindrical cavities, thereby obtaining said nozzles, wherein said top portion etching step comprises masking the first surface with a first mask before forming the plurality of cylindrical cavities and said bottom portion etching step comprises masking the second surface with a second mask, after the thinning and before forming the bottom portion. 4. The method according to claim 3 , wherein the alignment of said bottom portion etching step with said top portion etching step is performed by using as reference said second end of said cylindrical cavity. 5. The method according to claim 3 , wherein the top portion etching step comprises a dry etching step and the bottom portion etching step comprises a wet etching step. 6. A method of manufacturing an ink jet printhead comprising: providing a silicon substrate including active ejecting elements; providing a hydraulic structure layer for defining hydraulic circuits through which ink flows; providing a silicon orifice plate having a plurality of nozzles for ejection of said ink; and assembling said silicon substrate with said hydraulic structure layer and said silicon orifice plate; wherein providing said silicon orifice plate comprises: providing a silicon wafer having a planar extension delimited by a first and a second surface opposite to each other; performing a thinning step at said second surface so as to remove from said second surface a central portion having a preset height, said silicon wafer being formed, following said thinning step, by a base portion having a planar extension and a peripheral portion extending, from said base portion transversally with respect to the planar extension of said base portion; and forming in said silicon wafer a plurality of through holes, each defining a respective nozzle for ejection of said ink, wherein each of said nozzles comprises a top portion and a bottom portion axially aligned to said top portion, wherein the step of forming in said silicon wafer a plurality of through holes comprises: a top portion etching step wherein a plurality of cylindrical cavities are formed in said silicon wafer at said first surface, at least a part of each of said cylindrical cavities defining the top portion of a respective nozzle, each cylindrical cavity having a first longitudinal end at said first surface, and a second longitudinal end opposite to said first longitudinal end; and a bottom portion etching step wherein a bottom portion is formed at the first end of at least a part of said cylindrical cavities, thereby obtaining said nozzles, wherein said top portion etching step comprises masking the first surface with a first mask before forming the plur