Abstract: A method of inspecting a discharge state of a nozzle prevents wrongly determining that discharge is normal even though fluid droplets are not discharged normally. In a fluid droplet discharge device such as an inkjet printer, a momentary induced current is produced when a charged ink droplet 17c lands on a head cap 31 with a potential difference. A voltage change detection unit 39 detects the induced current as a voltage change. A decision unit 40 determines that the ink discharge state is normal if the maximum amplitude L of the voltage change detected by the voltage change detection unit 39 in a first period S is greater than or equal to a first threshold value Q. If the amplitude of voltage change detected in a third period U after the specific period has passed goes to a second threshold value R, a decision cancellation unit 41 determines that noise is contained in the voltage change.

Abstract: A printing control method for a serial inkjet printer prevents paper dust that is dispersed by the air current produced by a vacuum platen from adhering to the ink nozzle area. An inkjet head that prints while moving along the width of the vacuum platen is moved to a position where the ink nozzle area is outside of a first or second retraction position separated a first distance from the first and second paper edge positions of the recording paper, and the recording paper is then advanced. Paper dust and other dust particulate does not adhere to the ink nozzle area when the paper is advanced because the ink nozzle area does not stop in the first and second paper edge positions of the recording paper where paper dust and other dust particulate can be made airborne by the air current produced by the vacuum platen.

Abstract: An inkjet printer and a head cleaning method for an inkjet printer reduce the time required for head cleaning while also reducing needless ink consumption. The control unit 30 of the printer 1 confirms if a timer AID flag, impact detection flag, startup process flag, AID hold flag, or cover closed flag is set before executing the cleaning process a first time. If any one of the flags is set, the possibility that there are numerous defective nozzles in the printer 1 is high, and a stronger or more intense cleaning process (CL1 or CL2) is executed. Whether cleaning process CL1 or CL2 executes is determined according to the number of defective nozzles detected in the first nozzle check. If no flag is set, the weakest cleaning process (CL0) is executed.

Abstract: When the paper loaded in a printer is changed to a different type of paper, the paper setting in the printer can be easily updated without a paper mismatch error occurring. When the paper is replaced or the paper setting is changed in the printer 1, the cover 3 is first opened, the roll paper 12 is removed from the roll paper compartment 11, and the cover 3 is then closed. A paper settings update command from the host device 32 is received and executed when no roll paper is loaded. After the command is executed, the cover 3 is opened, new roll paper 12 is loaded, and the cover 3 is closed. The printer 1 then indexes the newly loaded paper for printing, and executes a paper identification process to determine if the newly loaded paper matches the content of the current paper settings.

Abstract: A printer that uses roll paper as the printing medium and has a manual feed button and an automatic paper cutter detects if the manual feed button was operated. If the manual feed button was operated, the paper is advanced a prescribed length, and the paper is cut by the automatic paper cutter after advancing the paper stops.

Abstract: The printer is connected to an interface device and communicates through the interface device with external devices, and has a detector that detects a prescribed operation of the printer, a controller that receives a query signal sent from the interface device, and confirms the reception status of the query signal after the detector detects the prescribed operation, wherein the controller determines the operating status of the interface device based on the query signal reception status confirmed by the controller.

Abstract: Firmware stored in a printer such as an inkjet printer can be rewritten by executing a firmware rewriting process which is not dependent upon the internal processing status of the printer. A printer 1 for executing a printing process based on print data sent from a host computer has a rewriting unit 38 for executing a firmware rewriting process, a print unit 37 for executing processes other than the firmware rewriting process, a rewrite command interpreting unit 32 for detecting a rewrite command that precedes the transmission of rewrite data required for the firmware rewriting process, and a control unit 36 for executing the firmware rewriting process with a priority over all other processes when a rewrite command is detected.

Abstract: The present invention provides an information processing device includes: a biometrics device, an interface control unit for controlling the biometrics device, a first storage unit for concealing a user identifier and user authentication information, a second storage unit for storing a program executed by the information processing device, and a processor for releasing the concealment of the first storage unit based on the program stored in the second storage unit and acquiring biometrics information inputted from the biometrics device, so as to compare it with the user authentication information. Thus, it is possible to prevent lowering of user-friendliness and increase of the cost when using an external authentication device in a laptop type personal computer and to provide an authentication control configuration and an authentication procedure optimal for an information processing device such as a laptop type personal computer.

Abstract: A printer and printer control method can report information about ink consumption to the host computer. The printer 100 is in communication with a host computer 300, and prints according to print jobs sent from the host computer 300. The printer 100 has a job data memory 190 for storing information about each print job. A receiver 110 receives the print jobs from the host computer 300. A print controller 150 controls printing on paper using a predetermined ink according to the print job. A printing evaluator 175 evaluates the result of printing a print job. A ink shot count converter 170 calculates the number of ink shots used to print the print job. A job data manager 180 stores the job ID for the print job and the ink shot count used to print the print job linked to the print result determined for printing the print job in the job data memory 190.