Liquid ejection head substrate, liquid ejection head, and liquid ejection apparatus

What is claimed is: 1. A liquid ejection head substrate comprising: electrothermal conversion elements that apply heat to a liquid; an upper electrode part in which a plurality of upper electrodes that protect the electrothermal conversion elements are formed at positions where the upper electrodes come into contact with the liquid; a counter electrode part which is provided to correspond to the upper electrode part and in which a plurality of counter electrodes are formed to be electrically connectable to the upper electrodes via the liquid; and a generation unit that generates a voltage to be applied to the upper electrode part and the counter electrode part, wherein a plurality of the upper electrode parts and a plurality of the counter electrode parts are provided, wherein the generation unit comprises a plurality of digital-analog converters which set a voltage to output based on an input signal and applies the voltage to each combination of the upper electrode part and the counter electrode part corresponding to the upper electrode part by using a different one of the digital-analog converters, and wherein the plurality of digital-analog converters selectively apply a voltage to the upper electrode part and the counter electrode part corresponding to each other via a switch unit. 2. The liquid ejection head substrate according to claim 1 , wherein the generation unit is connected to the upper electrode part and the counter electrode part via through-hole technologies, and the through-hole technologies are formed near an electrode connectable to an external configuration. 3. The liquid ejection head substrate according to claim 1 , wherein the counter electrode part is provided on at least one side of the upper electrode part in a direction intersecting with a direction in which the upper electrode part extends and extends parallel to the upper electrode part with a predetermined gap interposed therebetween. 4. The liquid ejection head substrate according to claim 1 , wherein the upper electrodes contain a material capable of being eluted into the liquid through an electrochemical reaction. 5. The liquid ejection head substrate according to claim 1 , wherein the upper electrodes and the counter electrodes contain iridium. 6. A liquid ejection head comprising: a liquid ejection head substrate having electrothermal conversion elements that apply heat to a liquid, an upper electrode part in which a plurality of upper electrodes that protect the electrothermal conversion elements are formed at positions where the upper electrodes come into contact with the liquid, a counter electrode part which is provided to correspond to the upper electrode part and in which a plurality of counter electrodes are formed to be electrically connectable to the upper electrodes via the liquid, and a generation unit that generates a voltage to be applied to at least one of the upper electrode part and the counter electrode part, wherein a plurality of the upper electrode parts and a plurality of the counter electrode parts are provided, wherein the generation unit comprises a plurality of digital-analog converters which set a voltage to output based on an input signal and applies the voltage to each combination of the upper electrode part and the counter electrode part corresponding to the upper electrode part by using a different one of the digital-analog converters, wherein the plurality of digital-analog converters selectively apply a voltage to the upper electrode part and the counter electrode part corresponding to each other via a switch unit, and wherein the liquid ejection head boils the liquid with heat energy exerted by the electrothermal conversion elements, and ejects the liquid from ejection ports with force of bubbles generated by the boiling. 7. A liquid ejection apparatus comprising: a liquid ejection head substrate having electrothermal conversion elements that apply heat to a liquid, an upper electrode part in which a plurality of upper electrodes that protect the electrothermal conversion elements are formed at positions where the upper electrodes come into contact with the liquid, a counter electrode part which is provided to correspond to the upper electrode part and in which a plurality of counter electrodes are formed to be electrically connectable to the upper electrodes via the liquid, and a generation unit that generates a voltage to be applied to at least one of the upper electrode part and the counter electrode part, wherein a plurality of the upper electrode parts and a plurality of the counter electrode parts are provided, wherein the generation unit comprises a plurality of digital-analog converters which set a voltage to output based on an input signal and applies the voltage to each combination of the upper electrode part and the counter electrode part corresponding to the upper electrode part by using a different one of the digital-analog converters, wherein the plurality of digital-analog converters selectively apply a voltage to the upper electrode part and the counter electrode part corresponding to each other via a switch unit, and wherein the liquid ejection apparatus performs predetermined processing by boiling the liquid with heat energy exerted by the electrothermal conversion elements, and using the liquid ejected with force of bubbles generated by the boiling from a liquid ejection head that ejects the liquid from ejection ports. 8. The liquid ejection apparatus according to claim 7 , wherein the liquid is ink, and the liquid ejection head records information by ejecting the ink to a recording medium.