JP2014054779A - Printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a printer or the like which can perform efficient mounting detection and electric power control.SOLUTION: A printer includes: a printing material storing body 100 having a storage device 203 for storing printing material information; a processing part 310 for controlling reading/writing of data from/in the storage device 203; a power supply part 320 for supplying electric power to the storage device 203; and a control circuit 330 to be connected with a first body side power terminal CVDD and a body side mounting detecting terminal CCO. The control circuit 330 outputs a mounting detecting signal to a control node NA based on a voltage level of the body side mounting detecting terminal CCO. The processing part 310 performs the mounting detection of the printing material storing body 100 based on the mounting detecting signal from the control node NA. The processing part 310 outputs a control signal to the control node NA after detecting the mounting of the printing material storing body 100. The control circuit 330 supplies or does not supply a first power voltage VDD based on the control signal.

Description

  The present invention relates to a printing apparatus and the like.

  Some ink cartridges (printing material containers) used in ink jet printing apparatuses are provided with a storage device for storing information such as ink color and ink consumption. In such a printing apparatus, when a user installs an ink cartridge, a contact failure between terminals may occur, and it is necessary to supply power to the storage device after detecting that the ink cartridge has been securely installed.

  To deal with this problem, for example, Patent Document 1 discloses a technique for controlling the power supply of a memory card by a signal for detecting the attachment of the memory card. However, this method has a problem such as wasteful power consumption because the power supply continues while the memory card is mounted.

Japanese Patent Laid-Open No. 63-240615

  According to some aspects of the present invention, it is possible to provide a printing apparatus and the like capable of efficient mounting detection and power control.

  One embodiment of the present invention includes a storage device that stores printing material information, a storage device terminal, a first power supply terminal, a second power supply terminal, and a mounting detection terminal, and is detachable from the printing apparatus. A printing material container, a main body side storage device terminal, a first main body side power supply terminal, a second main body side power supply terminal, a main body side mounting detection terminal, and the mounting of the printing material container. And a processing unit that is connected to the storage device terminal when the printing material container is mounted and controls reading or writing of data with respect to the storage device, and a power source for the storage device. A power supply unit to supply, and a control circuit connected to the first main body side power supply terminal and the main body side mounting detection terminal, the control circuit based on the voltage level of the main body side mounting detection terminal, Control no between the processing unit and the control circuit A mounting detection signal is output to the processing unit, and the processing unit detects mounting of the printing material container based on the mounting detection signal from the control node, and the processing unit mounts the printing material container. After detection, the control circuit outputs a control signal to the control node, and the control circuit outputs the control signal from the power supply unit to the first main body side power supply terminal based on the control signal from the control node. The present invention relates to a printing apparatus that supplies or does not supply a first power supply voltage.

  According to an aspect of the present invention, the processing unit detects the mounting of the printing material container based on the mounting detection signal from the control circuit, and controls the control circuit after detecting the mounting of the printing material container. By outputting the signal, the first power supply voltage can be supplied or not supplied. As a result, it is possible to efficiently detect the mounting of the printing material container and control the power supply to the storage device.

  In the aspect of the invention, the processing unit may include an input / output circuit connected to the control node, and the processing unit may include the input / output circuit when detecting mounting of the printing material container. After setting the input mode, receiving the mounting detection signal from the control node, and detecting the mounting of the printing material container, the input / output circuit is set to the output mode, and the control node A control signal may be output.

  In this way, the processing unit can detect the mounting of the printing material container and control the power supply to the storage device via one input / output circuit, so that the circuit configuration of the processing unit is simplified. You can do it.

  In the aspect of the invention, the processing unit periodically switches the input / output circuit from the output mode to the input mode to detect the mounting of the printing material container, and after the mounting detection, The entry output circuit may be set to the output mode.

  In this way, for example, when the user replaces the printing material container, the processing unit can periodically perform mounting detection. By doing so, the processing unit can notify the user when a contact failure between the terminals or the like occurs during the replacement work, so that the user can reliably attach the printing material container.

  In the aspect of the invention, the control circuit may not supply the first power supply voltage to the first main body side power supply terminal when the control signal is at a first voltage level. When the control signal is at the second voltage level, the first power supply voltage may be supplied to the first main body side power supply terminal.

  According to this configuration, the processing unit can supply or not supply the first power supply voltage by outputting a control signal to the control circuit.

  In one aspect of the present invention, the processing unit sets the control signal to the second voltage level after detecting the mounting of the printing material container, and reads data from the storage device. The control signal may be set to the first voltage level after the write control is performed and the data read or write control for the storage device is finished.

  According to this configuration, the first power supply voltage can be supplied during a period when the processing unit accesses the storage device, and the first power supply voltage can be disabled during a period when the processing unit does not access. In this way, power consumption can be reduced. In addition, memory errors of the storage device due to the influence of noise or the like can be reduced. As a result, it is possible to realize a printing apparatus with high efficiency and high reliability.

  In one embodiment of the present invention, the control circuit includes a first resistance element provided between an output node of the power supply unit and the control node, and between the control node and the body-side mounting detection terminal. A second resistance element provided between the output node of the power supply unit and the first main body side power supply terminal, and is turned on / off based on the control signal from the control node. And a switch element.

  In this way, when the printing material container is mounted, a voltage divided by the first resistance element and the second resistance element is generated at the control node, and the printing material container is not In the case of mounting, the voltage of the control node rises to the first power supply voltage. As a result, the processing unit can determine mounting or non-mounting based on the voltage of the control node. In addition, the processing unit can control power supply to the storage device by turning on and off the switch element by a control signal.

  In one embodiment of the present invention, the first power supply voltage is VDD, the second power supply voltage is VSS, the resistance value of the first resistance element is RA1, and the resistance value of the second resistance element is RA2. In this case, the voltage given by (VDD−VSS) × RA2 / (RA1 + RA2) + VSS may be lower than the input threshold voltage of the processing unit.

  In this way, when the printing material container is mounted, the voltage generated at the control node is lower than the input threshold voltage of the processing unit, so the processing unit is mounted with the printing material container. Can be detected.

  In one embodiment of the present invention, the control circuit includes a first resistance element provided between an output node of the power supply unit and the control node, the output node of the power supply unit, and the body side mounting. Based on the control signal from the control node, provided between the second resistance element provided between the detection terminal, the output node of the power supply unit and the first main body side power supply terminal. Between the first switch element that is turned on / off, the third resistance element having one end connected to the control node, and the other end of the third resistance element and the second body-side power supply terminal And a second switch element that is turned on / off based on the voltage of the body-side mounting detection terminal.

  In this way, when the printing material container is mounted, the voltage of the control node rises to the first power supply voltage, and when the printing material container is not mounted, the first resistance A voltage divided by the element and the third resistance element is generated at the control node. As a result, the processing unit can determine mounting or non-mounting based on the voltage of the control node. In addition, the processing unit can control power supply to the storage device by turning on and off the first switch element by a control signal.

  In one embodiment of the present invention, the first power supply voltage is VDD, the second power supply voltage is VSS, the resistance value of the first resistance element is RA1, and the resistance value of the third resistance element is RA3. In this case, the voltage given by (VDD−VSS) × RA3 / (RA1 + RA3) + VSS may be lower than the input threshold voltage of the processing unit.

  In this way, when the printing material container is not mounted, the voltage generated at the control node is lower than the input threshold voltage of the processing unit, so the processing unit is not mounted with the printing material container. Can be detected.

  According to another aspect of the present invention, there is provided a printing material container including a storage device that stores printing material information, a storage device terminal, a first power supply terminal, a second power supply terminal, and a mounting detection terminal. A printing apparatus detachably mounted, the main body side storage device terminal, the first main body side power supply terminal, the second main body side power supply terminal, the main body side mounting detection terminal, and the printing material container. And a processing unit that is connected to the storage device terminal when the printing material container is mounted and controls reading or writing of data with respect to the storage device, and the storage device. A power supply unit for supplying power, and a control circuit connected to the first main body side power supply terminal and the main body side mounting detection terminal, wherein the control circuit is based on a voltage level of the main body side mounting detection terminal. Between the processing unit and the control circuit A mounting detection signal is output to the control node, and the processing unit detects mounting of the printing material container based on the mounting detection signal from the control node, and the processing unit detects the printing material container. After detecting attachment, the control circuit outputs a control signal to the control node, and the control circuit supplies the power supply unit to the first main body side power supply terminal based on the control signal from the control node. The first power supply voltage from the printer is supplied or not supplied.

The perspective view which shows the principal part of a printing apparatus. 2A and 2B are perspective views showing the appearance of the ink cartridge and the cartridge mounting portion. FIG. 3A shows a configuration example of a substrate. FIG. 3B is a view from the side of the substrate. 1 is a configuration example of a printing apparatus. The figure explaining operation | movement of a process part and a control circuit. An example of the flowchart of the process of the attachment detection by a process part, and the access to a memory | storage device. An example of a flowchart of attachment detection by a processing unit when replacing an ink cartridge. The modification of a control circuit. The figure explaining operation | movement of the modification of a control circuit.

  Hereinafter, preferred embodiments of the present invention will be described in detail. The present embodiment described below does not unduly limit the contents of the present invention described in the claims, and all the configurations described in the present embodiment are indispensable as means for solving the present invention. Not necessarily.

1. Printing Apparatus FIG. 1 is a perspective view showing a main part of a printing apparatus according to this embodiment. The printing apparatus 1000 includes a cartridge mounting unit 1100 to which an ink cartridge (printing material container) 100 is mounted. The cartridge mounting portion 1100 is also referred to as “cartridge holder” or simply “holder”. In the example shown in FIG. 1, a black cartridge (printing material container) is detachably mounted on the cartridge mounting portion 1100 by the user. In addition, a print head is mounted on the holder 1100, and printing is executed by the drive unit 50 moving the holder 1100 in the scanning direction (+ Y and −Y directions).

  2A and 2B are perspective views illustrating the appearance of the ink cartridge 100 and the ink cartridge holder 1100. FIG. The XYZ axes in FIGS. 2A and 2B correspond to the XYZ axes in FIG. The ink cartridge is also simply referred to as “cartridge”. The cartridge 100 has a substantially rectangular parallelepiped appearance. The cartridge 100 has an engagement lever 62 for positioning with the holder, and an ink supply port 110 for supplying ink to the print head. A substrate 200 is provided below the engagement lever 62 (−Z direction side). A non-volatile storage device 203 for storing information related to ink is mounted on the substrate 200.

  FIG. 3A shows a configuration example of the substrate 200 in the present embodiment. The surface of the substrate 200 is a surface exposed to the outside when the substrate 200 is mounted on the cartridge 100. FIG. 3B shows a view from the side of the substrate 200. A boss groove 201 is formed at the upper end of the substrate 200, and a boss hole 202 is formed at the lower end of the substrate 200.

  An arrow SD in FIG. 3A indicates the mounting direction of the cartridge 100 to the cartridge mounting portion 1100. This mounting direction SD coincides with the cartridge mounting direction (-Z direction) shown in FIGS. 2 (A) and 2 (B). The substrate 200 has a storage device 203 on the back surface, and a terminal group including nine terminals is provided on the front surface. Although not shown in the drawings, wiring for connecting the terminals and the storage device 203 and other wirings, and wiring for electrically connecting the wiring on the front surface and the wiring on the back surface of the substrate are provided on the front surface and the back surface of the substrate 200. Hall is arranged. The storage device 203 stores information relating to the cartridge 100 and information relating to ink contained in the cartridge 100 (printing material information, such as ink amount information, ink remaining amount, ink consumption amount, and the like). These terminals are formed in a substantially rectangular shape, and are arranged so as to form two rows substantially perpendicular to the mounting direction SD.

  The substrate 200 is provided with storage device terminals TRST, TSCK, TSDA, a first power supply terminal TVDD, a second power supply terminal TVSS, and a mounting detection terminal TCO. Note that the number of terminals and the terminal arrangement provided on the substrate 200 are not limited to those shown in FIG. 3A, and various modifications can be made.

  Of the two rows, an example on the front side in the mounting direction SD (a row located on the upper side in FIG. 3A) is referred to as an upper row A1 (first row), and a rear row in the mounting direction SD (FIG. 3). The lower column in (A) is referred to as a lower column A2 (second column). Note that these rows A1 and A2 can be considered to be rows formed by contact portions cp of a plurality of terminals. The contact group cp of the terminal group is such that when the cartridge is mounted on the printing apparatus, the connector 65 provided in the holder for connecting the printing apparatus main body 300 and the circuit board 200 contacts the terminal group of the circuit board 200. Part.

The terminals TCO, TRST, and TSCK that form the upper row A1, and the terminals TVDD, TVSS, and TSDA that form the lower row A2 have the following functions (uses), respectively.
<Upper row A1>
(1) Mounting detection terminal TCO
(2) Reset terminal TRST
(3) Clock terminal TSCK
<Lower row A2>
(4) First power supply terminal (power supply terminal) TVDD
(5) Second power supply terminal (ground terminal) TVSS
(6) Data terminal TSDA
The mounting detection terminal TCO is used when detecting whether or not the ink cartridge 100 is correctly mounted on the cartridge mounting portion 1100, as will be described later. The storage device terminals TRST, TSCK, and TSDA are terminals for the storage device 203 and are also referred to as “memory terminals”. The first power supply terminal TVDD and the second power supply terminal TVSS are terminals for supplying power to the storage device 203.

  FIG. 4 shows a configuration example of the printing apparatus 1000 of the present embodiment. The printing apparatus 1000 of this configuration example includes a printing apparatus main body 300 and a printing material container (ink cartridge) 100. The printing apparatus main body 300 includes main body side storage device terminals CRST, CSCK, CSDA, a first main body side power supply terminal CVDD, a second main body side power supply terminal CVSS, a main body side mounting detection terminal CCO, a processing unit 310, and a power supply unit. 320 and a control circuit 330. The printing material container 100 includes a storage device 203, storage device terminals TRST, TSCK, TSDA, a first power supply terminal TVDD, a second power supply terminal TVSS, and a mounting detection terminal TCO. Note that the printing apparatus 1000 of the present embodiment is not limited to the configuration shown in FIG. 4, and various modifications such as omitting some of the components, replacing them with other components, and adding other components. Implementation is possible.

  By mounting the printing material container 100 on the cartridge mounting portion 1100 (FIG. 1), the main body side storage device terminals CRST, CSCK, CSDA, the first main body side power supply terminal CVDD, and the second main body side power supply terminal CVSS. The body side mounting detection terminal CCO is electrically connected to the storage device terminals TRST, TSCK, TSDA, the first power supply terminal TVDD, the second power supply terminal TVSS, and the mounting detection terminal TCO of the printing material container 100, respectively. Is done. The mounting detection terminal TCO is electrically connected to the second power supply terminal TVSS through wiring provided in the circuit board 200.

  The storage device 203 includes a nonvolatile memory such as a flash memory or an EEPROM.

  The processing unit 310 includes, for example, a CPU, a storage unit, and a communication processing unit. The processing unit 310 performs control such as mounting detection as to whether or not the printing material container 100 is mounted on the printing apparatus main body 300, printing processing of the printing apparatus 1000, and reading and writing of the storage device 203. The processing unit 310 is connected to the main body side storage device terminals CRST, CSCK, and CSDA, and is electrically connected to the storage device terminals TRST, TSCK, and TSDA of the printing material container 100 when the printing material container 100 is attached. Connected. Then, data reading or writing control is performed on the storage device 203 of the printing material container 100. The processing unit 310 detects the mounting of the printing material container 100 based on a mounting detection signal from a control node NA between itself and a control circuit 330 described later, and detects the mounting of the printing material container 100. The control signal is output to the control node NA.

  The processing unit 310 includes an input / output circuit (I / O circuit) 312 connected to the control node NA. When detecting whether or not the printing material container 100 is attached to the printing apparatus main body 300, the processing unit 310 sets the input / output circuit 312 to the input mode, and an attachment detection signal from the control node NA. Receive. Then, after detecting the mounting of the printing material container 100, the input / output circuit 312 is set to the output mode, and a control signal is output to the control node NA.

  The input / output circuit 312 includes an input circuit (input buffer) and an output circuit (output buffer) configured by, for example, CMOS transistors, and is set to an input mode or an output mode by a mode setting signal from the processing unit 310. The input / output circuit 312 operates as an input circuit when set to the input mode, and operates as an output circuit when set to the output mode.

  For example, when the user replaces the printing material container 100, the processing unit 310 switches the input / output circuit 312 from the output mode to the input mode periodically (every predetermined time). Wear detection is performed, and after the wear detection, the input / output circuit 312 can be set to the output mode.

  Further, the processing unit 310 sets the input / output circuit 312 to the input mode before executing access to the storage device 203 or immediately after the printing apparatus 1000 is turned on, and detects the mounting of the printing material container 100. Execute. After the attachment detection, the input / output circuit 312 can be set to the output mode.

  The operation unit 1300 is an input device for a user to perform various instructions (for example, an instruction for ink cartridge replacement) and settings, and includes a display unit for performing various notifications to the user. The operation unit 1300 is connected to the processing unit 310 and notifies the processing unit 310 of an instruction from the user, or displays a notification to the user based on the instruction from the processing unit 310.

  The power supply unit 320 outputs the first power supply voltage VDD to the output node NB, and supplies power (first power supply voltage VDD) to the storage device 203 of the printing material container 100 via the control circuit 330. The output node NB is between the power supply unit 320 and the control circuit 330.

  The control circuit 330 is connected to the first main body side power supply terminal CVDD and the main body side mounting detection terminal CCO. The control circuit 330 outputs a mounting detection signal to the control node NA based on the voltage level of the main body side mounting detection terminal CCO. The control circuit 330 supplies or does not supply the first power supply voltage VDD from the power supply unit 320 to the first main body side power supply terminal CVDD based on the control signal from the processing unit 310.

  Specifically, when the control signal is at the first voltage level (high potential level, H level), the control circuit 330 does not apply the first power supply voltage VDD to the first main body side power supply terminal CVDD. When the control signal is at the second voltage level (low potential level, L level), the first power supply voltage VDD is supplied to the first main body side power supply terminal CVDD.

  The control circuit 330 includes a first resistance element R1, a second resistance element R2, and a P-type transistor (switch element in a broad sense) TP. The first resistance element R1 is provided between the output node NB of the power supply unit 320 and the control node NA. The second resistance element R2 is provided between the control node NA and the main body side attachment detection terminal CCO. The P-type transistor TP is provided between the output node NB of the power supply unit 320 and the first main body side power supply terminal CVDD, and is turned on / off based on a control signal from the control node NA.

  When the mounting of the printing material container 100 is detected, the input / output circuit 312 is set to the input mode by the processing unit 310. When the printing material container 100 is not mounted, the voltage V (NA) of the control node NA is pulled up to the first power supply voltage VDD output from the power supply unit 320 by the first resistance element R1. . As a result, when the printing material container 100 is not mounted, the control circuit 330 outputs a mounting detection signal of H level (VDD level) to the control node NA.

  On the other hand, when the printing material container 100 is mounted, the main body side mounting detection terminal CCO is electrically connected to the second main body side power supply terminal CVSS via the mounting detection terminal TCO of the printing material container 100. Connected. By doing so, the voltage at the main body side attachment detection terminal CCO is set to the second power supply voltage VSS, so that the voltage at the control node NA is divided by the first resistance element R1 and the second resistance element R2. Voltage. In this divided voltage VA, the first power supply voltage is VDD, the second power supply voltage is VSS, the resistance value of the first resistance element R1 is RA1, and the resistance value of the second resistance element R2 is RA2. In the case given by:

VA = (VDD−VSS) × RA2 / (RA1 + RA2) + VSS (1)
The resistance values RA1 and RA2 are set so that the voltage VA is lower than the input threshold voltage of the input / output circuit 312 of the processing unit 310. By doing so, the input / output circuit 312 can recognize the input voltage VA as L level. As a result, when the printing material container 100 is mounted, the control circuit 330 can output an L level mounting detection signal to the control node NA.

  The input threshold voltage is a reference voltage for determining the voltage level (logic level) of the input signal, that is, the H level / L level when the input / output circuit 312 is set to the input mode. For example, when the input threshold voltage is VTH and the input signal voltage is VIN, the input / output circuit 312 determines that the input signal is H level when VIN> VTH, and inputs when VIN <VTH. The signal is determined to be L level.

  As described above, when the mounting of the printing material container 100 is detected, the processing unit 310 sets the input / output circuit 312 to the input mode, so that the mounting detection signal from the control circuit 330, that is, the voltage V ( The presence or absence of wearing can be detected based on NA). Specifically, the processing unit 310 determines that the printing material container 100 is not attached when the voltage V (NA) of the control node NA is at the H level. On the other hand, when the voltage V (NA) of the control node NA is at the L level, it is determined that the printing material container 100 is mounted.

  After the processing unit 310 detects the mounting of the printing material container 100, the input / output circuit 312 is set to the output mode and outputs a control signal to the control node NA. When the control signal is at the H level (first voltage level), the P-type transistor TP is turned off, so that the first power supply voltage VDD is not supplied to the first main body side power supply terminal CVDD. On the other hand, when the control signal is at L level (second voltage level), the P-type transistor TP is turned on, so that the first power supply voltage VDD is supplied to the first main body side power supply terminal CVDD. The

  After detecting the mounting of the printing material container 100, the processing unit 310 sets the control signal to the L level (second voltage level), thereby supplying the first power supply voltage VDD to the storage device 203 and storing it. Data read or write control can be performed on the device 203. Then, after the control of data reading or writing to the storage device 203 is completed, the supply of the first power supply voltage VDD can be stopped by setting the control signal to the H level (first voltage level). it can.

  As described above, according to the printing apparatus 1000 of the present embodiment, the first power supply voltage VDD is supplied during the period in which the processing unit 310 accesses the storage device 203, and the first power supply voltage VDD is not applied during the period in which the processing unit 310 does not access. Can be a supply. In this way, power consumption can be reduced. In addition, memory errors of the storage device 203 due to the influence of noise or the like can be reduced.

2. Processing Unit and Control Circuit FIG. 5 is a diagram for explaining operations of the processing unit 310 and the control circuit 330. In FIG. 5, the mounting / non-mounting of the printing material container 100, the input / output mode of the input / output circuit 312, the supply / non-supply of the first power supply voltage VDD, the voltage V (NA) of the control node NA and the first The voltage V (CVDD) of the main body side power supply terminal CVDD is shown.

  When the processing unit 310 detects the mounting of the printing material container 100, the input / output circuit 312 is set to the input mode. When the printing material container 100 is not attached, the control circuit 330 sets the voltage V (NA) of the control node NA to the H level. Then, the processing unit 310 determines that the printing material container 100 is not attached.

  Next, when the printing material container 100 is mounted, the control circuit 330 sets the voltage V (NA) of the control node NA to VA. This voltage VA is a voltage given by equation (1). As described above, since VA is lower than the input threshold voltage of the input / output circuit 312, the input / output circuit 312 recognizes the voltage VA as L level, and as a result, the processing unit 310 is attached to the printing material container 100. Judge that it has been.

  After detecting the mounting, the input / output circuit 312 is set to the output mode, and the processing unit 310 outputs the H level as a control signal. That is, the voltage V (NA) of the control node NA is set to the H level. By setting V (NA) to the H level, the first power supply voltage VDD is not supplied.

  Next, when the processing unit 310 needs to access the storage device 203, the processing unit 310 sets the input / output circuit 312 to output an L level as a control signal. That is, the voltage V (NA) of the control node NA is set to L level. By setting V (NA) to the L level, the first power supply voltage VDD is supplied to the storage device 203. During the period in which the first power supply voltage VDD is supplied to the storage device 203, the processing unit 310 can read data from or write data to the storage device 203.

  After the processing unit 310 finishes reading or writing data to the storage device 203, the input / output circuit 312 returns the control signal to the H level. When the voltage V (NA) of the control node NA returns to the H level, the first power supply voltage VDD is not supplied.

  FIG. 6 is an example of a flowchart of the process of attachment detection and access to the storage device 203 by the processing unit 310. This process is executed immediately after the printing apparatus 1000 is turned on or when the processing unit 310 accesses the storage device 203.

  First, the processing unit 310 sets the input / output circuit 312 to the input mode (step S1), and detects the mounting of the ink cartridge (printing material container) 100 (step S2). When the ink cartridge 100 is mounted, the processing unit 310 sets the input / output circuit 312 to the output mode (step S3). If the ink cartridge 100 is not attached, the attachment detection is repeated.

  After setting the input / output circuit 312 to the output mode (step S3), the processing unit 310 outputs the H level (first voltage level) VH to the control node NA (step S4). Thus, the first power supply voltage VDD is not supplied.

  Next, the processing unit 310 outputs an L level (second voltage level) VL to the control node NA (step S5), and supplies the first power supply voltage VDD to the storage device 203. Then, the processing unit 310 accesses the storage device 203 to read or write data (step S6).

  After the reading or writing of data to the storage device 203 is completed, the processing unit 310 outputs the H level VH to the control node NA (step S7). Thus, the first power supply voltage VDD is not supplied.

  FIG. 7 is an example of a flowchart of attachment detection by the processing unit 310 when the ink cartridge 100 is replaced.

  First, the processing unit 310 receives an instruction to replace the ink cartridge from the user, detects that the cover of the holder 1100 (not shown) is opened, and controls to move the holder 1100 to the replacement position of the ink cartridge 100. It performs (step S11).

  Next, the processing unit 310 sets the input / output circuit 312 to the input mode (step S12), and detects the mounting of the ink cartridge 100 (step S13). If it is not worn, the user is notified that it is not worn (step S14). This notification is performed, for example, by displaying a message on the display unit of the operation unit 1300. After the notification, the process proceeds to step S15. On the other hand, if the ink cartridge 100 is mounted, the process proceeds to step S15 without notification.

  In the next step S15, the processing unit 310 sets the input / output circuit 312 to the output mode, and outputs the H level VH to the control node NA (step S16). Thus, the first power supply voltage VDD is not supplied.

  Next, the processing unit 310 starts a timer (step S17). This timer is provided in the processing unit 310 and operates based on a clock supplied to the processing unit 310. When the ink cartridge 100 is replaced, mounting detection is executed at predetermined time intervals (periodically), and this timer is used to measure the predetermined time. The predetermined time can be set to 100 ms, for example.

  Next, the processing unit 310 determines whether or not the replacement work by the user has been completed (step S18). Whether or not the replacement operation has been completed can be determined by the processing unit 310 detecting whether the user has closed the cover 1200 of the cartridge mounting unit 1100 or the user has pressed the replacement end button. .

  If the replacement work has not been completed, the processing unit 310 determines whether or not the time measured by the timer has passed a predetermined time (step S19). If the predetermined time has not elapsed, the process returns to step S18. If the predetermined time has elapsed, the process returns to step S12 to detect the attachment again.

  After the mounting detection is repeated every predetermined time in this way, when the replacement work is completed, the processing unit 310 performs control to move the carriage to the home position (step S20).

  As described above, according to the printing apparatus 1000 of the present embodiment, when the user replaces the ink cartridge 100, the processing unit 310 can perform mounting detection every predetermined time. By doing so, the processing unit 310 can notify the user when a contact failure between the terminals or the like occurs during the replacement operation, so that the ink cartridge 100 can be reliably mounted. In addition, during the period when the attachment detection is not performed, the processing unit 310 can not supply the first power supply voltage VDD, so that power consumption can be reduced.

3. Modified Example of Control Circuit FIG. 8 shows a modified example of the control circuit 330 of the present embodiment. The control circuit 330 shown in FIG. 8 includes a first resistance element R11, a second resistance element R12, a third resistance element R13, a P-type transistor TP (first switching element in a broad sense), an NPN-type bipolar transistor TB. (Second switching element in a broad sense).

  The first resistance element R11 is provided between the output node NB of the power supply unit 320 and the control node NA. The second resistance element R12 is provided between the output node NB of the power supply unit 320 and the main body side attachment detection terminal CCO. The third resistance element R13 has one end connected to the control node NA and the other end connected to the collector of the NPN bipolar transistor TB. The P-type transistor TP is provided between the output node NB of the power supply unit 320 and the first main body side power supply terminal CVDD, and is turned on / off based on a control signal from the control node NA. The NPN bipolar transistor TB is provided between the other end of the third resistance element R13 and the second main body side power supply terminal CVSS, and is turned on / off based on the voltage of the main body side detection terminal CCO. The collector of the bipolar transistor TB is connected to the other end of the third resistance element R13, the base is connected to the main body side detection terminal CCO, and the emitter is connected to the second main body side power supply terminal CVSS.

  When the mounting of the printing material container 100 is detected, the input / output circuit 312 is set to the input mode. When the printing material container 100 is not attached, the main body side attachment detection terminal CCO is pulled up to the first power supply voltage VDD output from the power supply unit 320 via the second resistance element R12. Then, since the bipolar transistor TB is turned on, a current flows through the first and third resistance elements R11 and R13. As a result, the voltage V (NA) of the control node NA becomes a voltage divided by the first resistance element R11 and the third resistance element R13. In this divided voltage VA, the first power supply voltage is VDD, the second power supply voltage is VSS, the resistance value of the first resistance element R11 is RA1, and the resistance value of the third resistance element R13 is RA3. In the case given by:

VA = (VDD−VSS) × RA3 / (RA1 + RA3) + VSS (2)
The resistance values RA1 and RA3 are set so that the voltage VA is lower than the input threshold voltage of the input / output circuit 312 of the processing unit 310. By doing so, the input / output circuit 312 can recognize the input voltage VA as L level. As a result, when the printing material container 100 is not mounted, the control circuit 330 can output an L level mounting detection signal indicating non-mounting to the control node NA.

  On the other hand, when the printing material container 100 is mounted, the main body side mounting detection terminal CCO is electrically connected to the second main body side power supply terminal CVSS via the mounting detection terminal TCO of the printing material container 100. Connected. By doing so, the voltage of the main body side attachment detection terminal CCO is set to the second power supply voltage VSS, so that the bipolar transistor TB is turned off. Then, control node NA is pulled up to first power supply voltage VDD, and voltage V (NA) of control node NA is set to H level. As a result, when the printing material container 100 is mounted, the control circuit 330 can output an H level mounting detection signal to the control node NA.

  As described above, when the mounting of the printing material container 100 is detected, the processing unit 310 sets the input / output circuit 312 to the input mode, so that the mounting detection signal from the control circuit 330, that is, the voltage V ( The presence or absence of wearing can be detected based on NA). Specifically, the processing unit 310 determines that the printing material container 100 is not attached when the voltage V (NA) of the control node NA is at the L level. On the other hand, when the voltage V (NA) of the control node NA is at the H level, it is determined that the printing material container 100 is mounted.

  After detecting the mounting of the printing material container 100, the input / output circuit 312 is set to the output mode and outputs a control signal to the control node NA. When the control signal is at the H level, the P-type transistor TP is turned off, so that the first power supply voltage VDD is not supplied to the first main body side power supply terminal CVDD. On the other hand, when the control signal is at the L level, the P-type transistor TP is turned on, so the first power supply voltage VDD is supplied to the first main body side power supply terminal CVDD.

  After detecting the mounting of the printing material container 100, the processing unit 310 sets the control signal to the L level, thereby supplying the first power supply voltage VDD to the storage device 203 and transferring the data to the storage device 203. Control of reading or writing can be performed. Then, after the control of data reading or writing to the storage device 203 is completed, the supply of the first power supply voltage VDD can be stopped by setting the control signal to the H level.

  FIG. 9 is a diagram for explaining the operation of a modified example (FIG. 8) of the control circuit 330. In FIG. 9, the mounting / non-mounting of the printing material container 100, the input / output mode of the input / output circuit 312, the supply / non-supply of the first power supply voltage VDD, the voltage V (NA) of the control node NA and the first The voltage V (CVDD) of the main body side power supply terminal CVDD is shown.

  When the mounting of the printing material container 100 is detected, the input / output circuit 312 is set to the input mode. When the printing material container 100 is not attached, the control circuit 330 sets the voltage V (NA) of the control node NA to VA. This voltage VA is a voltage given by equation (2). As described above, since VA is lower than the input threshold voltage of the input / output circuit 312, the input / output circuit 312 recognizes the voltage VA as L level, and the processing unit 310 does not have the printing material container 100 mounted. Judge.

  Next, when the printing material container 100 is mounted, the control circuit 330 sets the voltage V (NA) of the control node NA to the H level. Then, the processing unit 310 determines that the printing material container 100 is mounted.

  After detecting the mounting, the input / output circuit 312 is set to the output mode and outputs an H level as a control signal. That is, the voltage V (NA) of the control node NA is set to the H level. By setting V (NA) to the H level, the first power supply voltage VDD is not supplied.

  Next, the input / output circuit 312 outputs an L level as a control signal. That is, the voltage V (NA) of the control node NA is set to L level. By setting V (NA) to the L level, the first power supply voltage VDD is supplied to the storage device 203. During the period in which the first power supply voltage VDD is supplied to the storage device 203, the processing unit 310 can read data from or write data to the storage device 203.

  After the processing unit 310 finishes reading or writing data to the storage device 203, the input / output circuit 312 returns the control signal to the H level. When the voltage V (NA) of the control node NA returns to the H level, the first power supply voltage VDD is not supplied.

  As described above, according to the printing apparatus 1000 of the present embodiment, the first power supply voltage VDD is supplied during the period when the processing unit 310 accesses the storage device 203, and the first power supply voltage during the period when the processing unit 310 does not access. VDD can be not supplied. In this way, power consumption can be reduced. In addition, memory errors of the storage device 203 due to the influence of noise or the like can be reduced.

  Furthermore, when the user replaces the ink cartridge 100, the processing unit 310 can perform mounting detection at predetermined time intervals. By doing so, the processing unit 310 can notify the user when a contact failure between the terminals or the like occurs during the replacement operation, so that the ink cartridge 100 can be reliably mounted. In addition, during the period when the attachment detection is not performed, the processing unit 310 can not supply the first power supply voltage VDD, so that power consumption can be reduced.

  Further, by providing the control circuit 330, mounting detection and power supply control can be performed via the single input / output circuit 312, so that the circuit configuration of the processing unit 310 can be simplified.

  As described above, according to the printing apparatus 1000 of the present embodiment, it is possible to realize a printing apparatus with high power efficiency and high reliability.

  As described above, the printing apparatus 1000 according to this embodiment has been described. However, the printing apparatus 1000 according to this embodiment is not limited to the above-described one. For example, a plurality of ink cartridges (printing material containers) each including a storage device. It may be a printing apparatus using Alternatively, an off-carriage printing apparatus in which the cartridge holder and the print head are separate and the cartridge holder is fixed to the printing apparatus may be used.

  Although the present embodiment has been described in detail as described above, it will be easily understood by those skilled in the art that many modifications can be made without departing from the novel matters and effects of the present invention. Accordingly, all such modifications are intended to be included in the scope of the present invention. For example, a term described at least once together with a different term having a broader meaning or the same meaning in the specification or the drawings can be replaced with the different term in any part of the specification or the drawings. Further, the configuration and operation of the printing apparatus are not limited to those described in this embodiment, and various modifications can be made.

50 drive unit, 62 engaging lever, 65 connector,
100 ink cartridge (printing material container), 110 ink supply port 200 substrate, 201 boss groove, 202 boss hole, 203 storage device,
300 printer main body, 310 processing unit, 312 input / output circuit, 320 power supply unit,
330 control circuit,
1000 printing device, 1100 cartridge mounting unit, 1300 operation unit,
TCO attachment detection terminal, TRST reset terminal, TSCK clock terminal,
TSDA data terminal, TVDD first power supply terminal, TVSS second power supply terminal,
NA control node, NB output mode

Claims (10)

Printing material storage that has a storage device that stores printing material information, a storage device terminal, a first power supply terminal, a second power supply terminal, and a mounting detection terminal, and is detachably mounted on the printing device Body,
A main body side storage device terminal;
A first main body side power supply terminal;
A second main body side power supply terminal;
The main body side mounting detection terminal;
A processing unit that detects mounting of the printing material container and is connected to the storage device terminal when the printing material container is mounted, and controls reading or writing of data to the storage device; ,
A power supply for supplying power to the storage device;
A control circuit connected to the first main body side power supply terminal and the main body side mounting detection terminal,
The control circuit includes:
Based on the voltage level of the body side mounting detection terminal, output a mounting detection signal to a control node between the processing unit and the control circuit,
The processor is
Based on the mounting detection signal from the control node, the mounting detection of the printing material container is performed,
The processor is
After detecting the mounting of the printing material container, a control signal is output to the control node,
The control circuit includes:
A printing apparatus that supplies or does not supply the first power supply voltage from the power supply unit to the first main body side power supply terminal based on the control signal from the control node. In claim 1,
The processor is
An input / output circuit connected to the control node;
The processor is
When detecting the mounting of the printing material container, the input / output circuit is set to an input mode, and the mounting detection signal is received from the control node,
After detecting the mounting of the printing material container, the input / output circuit is set to an output mode, and the control signal is output to the control node. In claim 2,
The processor is
The input / output circuit is periodically switched from the output mode to the input mode to detect the mounting of the printing material container,
The printing apparatus, wherein the input / output circuit is set to the output mode after the mounting detection. In any one of Claims 1 thru | or 3,
The control circuit includes:
When the control signal is at a first voltage level, the first power supply voltage is not supplied to the first main body side power supply terminal,
The printing apparatus, wherein the first power supply voltage is supplied to the first main body side power supply terminal when the control signal is at a second voltage level. In claim 4,
The processor is
After detecting the mounting of the printing material container, the control signal is set to the second voltage level to control data reading or writing with respect to the storage device,
The printing apparatus, wherein the control signal is set to the first voltage level after the control of reading or writing data to the storage device is completed. In any one of Claims 1 thru | or 5,
The control circuit includes:
A first resistance element provided between an output node of the power supply unit and the control node;
A second resistance element provided between the control node and the body-side mounting detection terminal;
And a switch element provided between the output node of the power supply unit and the first main body side power supply terminal and turned on / off based on the control signal from the control node. Printing device. In claim 6,
When the first power supply voltage is VDD, the second power supply voltage is VSS, the resistance value of the first resistance element is RA1, and the resistance value of the second resistance element is RA2,
A printing apparatus, wherein a voltage given by (VDD−VSS) × RA2 / (RA1 + RA2) + VSS is lower than an input threshold voltage of the processing unit. In any one of Claims 1 thru | or 5,
The control circuit includes:
A first resistance element provided between an output node of the power supply unit and the control node;
A second resistance element provided between the output node of the power supply unit and the body-side mounting detection terminal;
A first switch element provided between the output node of the power supply unit and the first main body side power supply terminal and turned on / off based on the control signal from the control node;
A third resistance element having one end connected to the control node;
A second switch element provided between the other end of the third resistance element and the second body-side power supply terminal and turned on / off based on a voltage of the body-side mounting detection terminal; A printing apparatus characterized by the above. In claim 8,
When the first power supply voltage is VDD, the second power supply voltage is VSS, the resistance value of the first resistance element is RA1, and the resistance value of the third resistance element is RA3,
A printing apparatus, wherein a voltage given by (VDD−VSS) × RA3 / (RA1 + RA3) + VSS is lower than an input threshold voltage of the processing unit. Printing apparatus in which a printing material container having a storage device for storing printing material information, a storage device terminal, a first power supply terminal, a second power supply terminal, and a mounting detection terminal is detachably mounted. Because
A main body side storage device terminal;
A first main body side power supply terminal;
A second main body side power supply terminal;
The main body side mounting detection terminal;
A processing unit that detects mounting of the printing material container and is connected to the storage device terminal when the printing material container is mounted, and controls reading or writing of data to the storage device; ,
A power supply for supplying power to the storage device;
A control circuit connected to the first main body side power supply terminal and the main body side mounting detection terminal,
The control circuit includes:
Based on the voltage level of the body side mounting detection terminal, output a mounting detection signal to a control node between the processing unit and the control circuit,
The processor is
Based on the mounting detection signal from the control node, the mounting detection of the printing material container is performed,
The processor is
After detecting the mounting of the printing material container, a control signal is output to the control node,
The control circuit includes:
A printing apparatus that supplies or does not supply the first power supply voltage from the power supply unit to the first main body side power supply terminal based on the control signal from the control node.

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