Liquid discharge head substrate, liquid discharge head, and printing apparatus

What is claimed is: 1. A liquid discharge head substrate comprising: a discharge unit including a discharge element configured to generate energy for discharging a liquid from an orifice and a discharge control circuit configured to control the discharge element; and a first voltage generation circuit configured to supply, to the discharge control circuit, a first driving voltage for driving the discharge control circuit, wherein the discharge unit includes a first node having a voltage correlated with a voltage to be supplied to the discharge element, and the first voltage generation circuit controls the first driving voltage based on a comparison result of the voltage of the first node and a first reference voltage supplied from outside of the liquid discharge head substrate. 2. The substrate according to claim 1 , comprising a plurality of the discharge units, wherein the plurality of discharge units includes a monitoring unit where the voltage of the first node is supplied to the first voltage generation circuit and a liquid discharge unit where the voltage of the first node is not supplied to the first voltage generation circuit, and the first voltage generation circuit supplies the first driving voltage to each of the plurality of discharge units. 3. The substrate according to claim 2 , wherein a driving signal for controlling driving of the discharge control circuit is supplied to each of the plurality of discharge units, a monitoring signal not corresponding to image data is supplied, as the driving signal, to the monitoring unit, and a discharge signal corresponding to the image data is supplied, as the driving signal, to the liquid discharge unit. 4. The substrate according to claim 3 , wherein a first sample-and-hold circuit is included between the first voltage generation circuit and the first node of the monitoring unit, and the first voltage generation circuit holds the voltage of the first node in the first sample-and-hold circuit in a state in which the monitoring signal is supplied to the control circuit of the monitoring unit, and then switches the signal supplied to the control circuit of the monitoring unit to the discharge signal. 5. The substrate according to claim 4 , wherein the discharge control circuit further includes a second driving transistor, the first driving transistor, the discharge element, and the second driving transistor are connected in this order, and the discharge element is connected to a first main electrode of the second driving transistor and a second power supply is connected to a second main electrode of the second driving transistor. 6. The substrate according to claim 5 , wherein each of the first driving transistor and the second driving transistor operates as a source follower for the discharge element. 7. The substrate according to claim 5 , further comprising a second voltage generation circuit configured to supply a second driving voltage for driving the second driving transistor, wherein the discharge unit includes a second node having a voltage correlated with a voltage to be supplied to the discharge element, and the second voltage generation circuit controls the second driving voltage based on a comparison result of the voltage of the second node and a second reference voltage supplied from outside of the liquid discharge head substrate. 8. The substrate according to claim 7 , comprising a plurality of the discharge units, wherein the voltage of the second node in at least one discharge unit of the plurality of discharge units is supplied to the second voltage generation circuit, and the second voltage generation circuit supplies the second driving voltage to each of the plurality of discharge units. 9. The substrate according to claim 7 , wherein the second node is a portion where the discharge element and the first main electrode of the second driving transistor are connected to each other. 10. The substrate according to claim 1 , wherein the discharge control circuit includes a first driving transistor configured to drive the discharge element and a control circuit configured to control an electrical connection of the first driving transistor by switching whether to supply, to the first driving transistor, the first driving voltage supplied from the first voltage generation circuit. 11. The substrate according to claim 10 , wherein a first main electrode of the first driving transistor is connected to the discharge element, and a second main electrode of the first driving transistor is connected to a first power supply. 12. The substrate according to claim 10 , wherein the first node is a portion where the discharge element and the first main electrode of the first driving transistor are connected to each other. 13. The substrate according to claim 10 , wherein the first node is a portion where a control electrode of the first driving transistor and the control circuit are connected to each other. 14. The substrate according to claim 10 , wherein the first node is a portion where the first driving voltage is supplied from the first voltage generation circuit. 15. The substrate according to claim 1 , wherein the first voltage generation circuit includes a first comparison circuit configured to compare the voltage of the first node with the first reference voltage, and the first voltage generation circuit controls the first driving voltage such that the voltage of the first node approaches the first reference voltage. 16. The substrate according to claim 1 , wherein the first reference voltage is supplied from a liquid discharge apparatus. 17. A liquid discharge head substrate comprising: a discharge unit including a discharge element configured to generate energy for discharging a liquid from an orifice and a discharge control circuit configured to control the discharge element; and a first voltage generation circuit configured to supply, to the discharge control circuit, a first driving voltage for driving the discharge control circuit, wherein the first voltage generation circuit controls the first driving voltage based on a comparison result of a voltage of one terminal of the discharge element and a first reference voltage supplied from outside of the liquid discharge head substrate, and wherein the one terminal of the discharge element has a voltage correlated with a voltage to be supplied to the discharge element. 18. A liquid discharge head comprising: a liquid discharge head substrate and a liquid supply unit, wherein the liquid discharge head substrate comprises: a discharge unit including a discharge element configured to generate energy for discharging a liquid from an orifice and a discharge control circuit configured to control the discharge element; and a first voltage generation circuit configured to supply, to the discharge control circuit, a first driving voltage for driving the discharge control circuit, the discharge unit includes a first node having a voltage correlated with a voltage to be supplied to the discharge element, the first voltage generation circuit controls the first driving voltage based on a comparison result of the voltage of the first node and a first reference voltage supplied from outside of the liquid discharge head substrate; and the liquid supply unit is configured to supply a liquid to the liquid discharge head substrate. 19. A printing apparatus comprising: a liquid discharge head which comprising a liquid discharge head substrate and a liquid supply unit, and a driving unit, wherein the liquid d