RU2003116053A - INKJET PRINTING HEAD AND METHOD FOR ITS OPERATION - Google Patents

Claims (20)

1. An inkjet printhead having a plurality of droplet generators that selectively eject ink in response to activation, comprising first and second droplet generators located in the printhead, wherein each of the first and second droplet generators is configured to be connected to an excitation current source, a control device configured to include a periodic address signal and first and second periodic resolution signals, the control device is configured to react the first periodic permission signal and the periodic address signal to enable activation of the first droplet generator under the influence of the excitation current, the control device is configured to respond to the second periodic resolution signal and the periodic address signal to enable activation of the second droplet generator under the action of the excitation current, in which the device The control is designed so that only one of the first and second droplet generators is turned on at the same time. 2. The head according to claim 1, in which the control device is configured to generate the control signal of the address and the first resolution signal before the excitation current for the first droplet generator, and in which the control device is configured to generate the control device of the second resolution signal before the excitation current for second droplet generator. 3. The head according to claim 1, in which the control device is configured to activate the first droplet generator in the period of time after turning on the address signal and the first permission signal. 4. The head according to claim 1, in which the control device is configured to activate the second droplet generator in the period of time after turning on the address signal and the second permission signal. 5. The head according to claim 1, in which the excitation currents are created by the first and second sources of excitation currents, while the first excitation current source is connected to the first droplet generator, and the second excitation source is connected to the second droplet generator. 6. The head according to claim 1, in which the control device is made in the form of the first and second control devices, wherein the first control device is connected to the first droplet generator, and the second control device is connected to the second droplet generator. 7. The head according to claim 1, further comprising a cartridge housing, wherein the ink jet head is installed in the cartridge housing. 8. The head according to claim 1, in which the control device is responsible for ensuring that the first and second periodic enable signals are not included at the same time in order to activate at one and the same time only one of the first and second droplet generators. 9. The head according to claim 1, additionally containing a pair of contacts of the excitation currents configured to connect to a source of field current, a plurality of address contacts configured to connect a plurality of periodic address signals to a source, first and second resolution contacts configured to connect to the source of the first and second periodic resolution signals, and a plurality of droplet generators, wherein each of the plurality of droplet generators is connected to a pair of contacts of the excitation currents, and each one of the droplet generators is connected to at least one of the plurality of contacts of the address, in which during each address, as a result of the action of the periodic address signal, permission is given to sequentially activate more than one droplet generator based on the first and second resolution signals, resolution droplet generators are activated based on the presence of a field current from a field current source. 10. The head according to claim 1, additionally containing a pair of contacts of the excitation currents configured to connect to a source of field current, a plurality of address contacts configured to connect to a corresponding plurality of sources of periodic address signals, wherein the plurality of address signals form a repeating combination of address signals , only one of the many address signals acts at one time, and each of the many address signals has a frequency f, the first and second enable contacts, made with the possibility of connecting the first and second periodic resolution signals to the source, while each of the first and second resolution signals has an activation frequency higher than f, and only one of the first and second resolution signals acts at one time, and a lot of droplet generators are made so that only one droplet generator from a plurality of droplet generators is given permission to activate based on signals at the first and second resolution pins and signals at a plurality of address pins ca, and each of the many droplet generators is activated in the case of the presence of resolution and excitation current at the contacts of the excitation currents. 11. The head according to claim 9 or 10, in which the set of address contacts is equal to 13 address contacts. 12. The head of claim 10, in which the set of address contacts is n, and in which each of the first and second periodic address signals has an activation frequency that is greater than (2 × n) f. 13. A method of operating an inkjet printhead, comprising generating a periodic combination of address signals for each of a plurality of address contacts, generating a periodic combination of resolution signals for each of a plurality of resolution contacts, and selectively generating an excitation current for each of the plurality of contacts of the excitation currents, wherein a plurality of generators drops selectively activate based on the generated periodic combination of address signals, the formation of a periodic combination of signal resolution and selectively generated excitation current with the aim of selectively releasing ink to a printing medium, where the droplet generators are arranged into subgroups of droplet generators, and only one droplet generator from the subgroup is activated at the same time. 14. The method according to item 13, in which the periodic combination of enable signals has a period that is less than the period related to each periodic combination of address signals from the periodic combination of address signals. 15. The method according to item 13, in which a plurality of droplet generators are arranged in groups of droplet generators, wherein each group of droplet generators is connected to a common excitation current source, and individual droplet generators within each group of droplet generators are arranged in pairs of droplet generators, each pair droplet generators are connected to one address pin from a plurality of address contacts. 16. The method according to item 13, in which each subgroup of drop generators is formed from a pair of drop generators. 17. The method according to clause 15 or 16, in which each individual droplet generator in a pair of droplet generators receives a different resolution signal from a periodic combination of resolution signals. 18. The method according to item 13, in which the periodic combination of the resolution signals is a pair of periodic resolution signals, and the set of resolution contacts is a pair of resolution contacts. 19. The method according to p, in which a pair of periodic permission signals do not work at the same time. 20. The method according to item 13, in which each subgroup of drop generators is connected to the contact of the address signal from the set of contacts of the address.