Patent application number | Description | Published |
20090319729 | Method of accessing stored information in multi-framed data transmissions. - The present invention discloses a method of accessing stored information in multi-framed data transmissions, comprising at least one control interface and at least one elastic store, wherein the control interface accesses the elastic store through a mailbox communications method. The control interface accesses the elastic store via the mailbox communications method, which comprises: (a) setting a address for a data location within said elastic store; (b) setting a request to read from, or write to, said data location within said elastic store; (c) issuing a “GO_” signal to retrieve data information from said data location within said elastic store, by writing said “GO_” signal to said microprocessor, which causes a circuit to read from said requested data location within said elastic store; (d) waiting for a possible, but not to be expected, de-assertion of a busy signal to be issued from said data location within said elastic store, and then; and then (e) reading back the value of said data information to said control interface. Where a busy signal occurs, the microprocessor must wait and issue a subsequent “GO_” signal to retrieve the data information from the data location; where a busy signal does not occur the “GO_” signal causes the circuit to read from the requested data location and send the data information back to the microprocessor, where the data information is stored in a user-accessible register. | 12-24-2009 |
20120275462 | METHOD OF ACCESSING STORED INFORMATION IN MULTI-FRAMED DATA TRANSMISSIONS - The present invention discloses a method of accessing stored information in multi-framed data transmissions, comprising at least one control interface and at least one elastic store, wherein the control interface accesses the elastic store through a mailbox communications method. The control interface accesses the elastic store via the mailbox communications method, which comprises: (a) setting a address for a data location within said elastic store; (b) setting a request to read from, or write to, said data location within said elastic store; (c) issuing a “GO ______” signal to retrieve data information from said data location within said elastic store, by writing said “GO ______” signal to said microprocessor, which causes a circuit to read from said requested data location within said elastic store; (d) waiting for a possible, but not to be expected, de-assertion of a busy signal to be issued from said data location within said elastic store, and then; and then (e) reading back the value of said data information to said control interface. Where a busy signal occurs, the microprocessor must wait and issue a subsequent “GO ______” signal to retrieve the data information from the data location; where a busy signal does not occur the “GO ______” signal causes the circuit to read from the requested data location and send the data information hack to the microprocessor, where the data information is stored in a user-accessible register. | 11-01-2012 |
Patent application number | Description | Published |
20090102905 | Transport system for providing a continuous supply of solid ink to a melting assembly in a printer - A solid ink printer includes a solid ink transportation control system that helps ensure a continuous supply of solid ink to a melting device within a printer. The solid ink transportation control system includes an ink loss measurement circuit configured to identify an accumulated ink mass loss of ink from an ink reservoir in a printer and to generate an ink supply replenish signal in response to the accumulated ink mass loss reaching an accumulated loss threshold, a drive motor electrically coupled to the ink loss measurement circuit, the drive motor being configured to operate in response to the ink supply replenish signal, and an ink stick drive train coupled to the drive motor, at least a portion of the ink stick drive train moving towards a melting assembly in the printer in response to the operation of the drive motor. | 04-23-2009 |
20100079512 | Ink Conductivity Fault Tolerant Mode - A method of operating an imaging device comprises measuring an ink conductivity of an ink volume in an ink reservoir of an imaging device. The imaging device is operated in a conductivity fault tolerant mode in response to the measured ink conductivity being outside of a predetermined ink conductivity operational range. In the conductive fault tolerant mode, at least one parameter of a melt duty cycle for the ink reservoir is set to a corresponding conductivity fault tolerant (CFT) level. | 04-01-2010 |
20100110117 | Ink Conductivity Recovery Method for An Imaging Device - A method for restoring ink conductivity of ink in an ink reservoir comprises detecting an ink conductivity of an ink volume in an ink reservoir, and comparing the detected ink conductivity to a predetermined ink conductivity operational range. A flush routine is performed in response to the measured ink conductivity being outside of the predetermined ink conductivity operational range. The flush routine includes: disabling ink supply operations to the ink reservoir; emptying the ink reservoir of ink; refilling the ink reservoir with ink; measuring an ink conductivity of an ink volume in the refilled ink reservoir; and comparing the detected ink conductivity to the predetermined ink conductivity operational range. The imaging device is returned to a normal operating mode in response to the measured ink conductivity being within the predetermined ink conductivity operational range after a flush routine has been performed. | 05-06-2010 |
20100182357 | Ink Stick Jam Detection and Recovery System and Method - An ink jam detection and recovery system for use in a phase change ink imaging device includes an ink stick conveyance configured move ink sticks in a forward direction toward a melt plate at a melt end of an ink stick feed path and a reverse direction away from the melt plate. A sensor system is configured to generate a first signal indicative of whether an ink stick is present at the melt plate. A controller is configured to receive the signal and to actuate the ink stick conveyance to move in at least one of the forward direction and the reverse direction in response to the first signal indicating that no ink stick is present at the melt plate. | 07-22-2010 |
20100192685 | Apparatus And Method For Detecting Ink In A Reservoir - A method detects the level of ink in a printhead reservoir by monitoring the power drawn by a thermistor positioned within the printhead reservoir. The method includes dissipating power in a thermistor in an ink reservoir, controlling the power dissipated in the thermistor to maintain the thermistor at a temperature that is a fixed differential above a reservoir temperature, measuring a parameter that corresponds to the power dissipated in the thermistor, and comparing the measured parameter to a predetermined value to detect ink in the reservoir contacting the thermistor. | 08-05-2010 |
20100321427 | Open Loop Print Speed Control - A method enables adjustment of a print speed for a phase change ink imaging device with reference to an ink level sensor in a print head reservoir indicating an open loop or a closed loop state. The adjustment may also be made with reference to a measured image density, which may be a rolling solid area coverage average. | 12-23-2010 |