KR100461069B1 - Driver Detection Circuit and Method of Printing Device - Google Patents

Abstract

The present invention relates to a driver detecting circuit and a method of a printing apparatus. The present invention relates to an operation and display unit for adjusting a function of a printing apparatus or displaying a processed result according to a user's selection, and outputting a drive enable signal and a drive signal. A control unit for determining whether or not it is normal by receiving the generated state detection signal of the printing apparatus, displaying the result of the judgment on the operation and display unit, and disabling a drive enable signal, and a drive enable signal output from the control unit. A driving power supply unit for receiving the output of the driving power or blocking the output of the driving power by disabling the drive enable signal; a driving element unit for receiving the driving power supplied to the driving power supply unit; Drive power is supplied by receiving output drive signal. And a detector for controlling the enable / disable of the drive element, and a detector for detecting an output signal generated from an output of the driver and outputting a status detection signal. Blocking the portion has the effect of preventing expensive motors or heads from being damaged.

Description

Driver Detection Circuit and Method of Printing Device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driver detecting circuit and a method of a printing apparatus, and more particularly, to detect a driving unit of a printing apparatus for sensing a power output of a driving unit of a printing apparatus to prevent damage to a driving element by turning off the driving power when an abnormal phenomenon occurs. It relates to a circuit and a method.

In general, the configuration of the internal circuit of the printing apparatus to which the inkjet injection method is applied includes a control unit, a carriage return (hereinafter abbreviated as CR) driver, a line feed (hereinafter abbreviated LF) driver, and a head driver. And a solenoid drive unit and a power supply unit for supplying power to the drive unit.

In the conventional printing apparatus having such a configuration, the CR driving unit, the LF driving unit, the head driving unit, and the solenoid driving unit are supplied with driving power from the power supply unit at the same time as the power is turned on, The drive power was supplied after the reset was completed.

The output port of each driver until the printing device system is reset and the initialization is completed, and the output port of each driver is maintained when the initialization is completed after maintaining the high impedance state. Is enabled.

At this time, although the phenomenon is different depending on the circuits of the respective driving units, the driving transistor or the FET may be turned on under the influence of pull-up resistance in a high impedance state. As a result, even when there is no driving signal, the output port of each driving unit is turned on to be damaged.

That is, in case of supplying driving power after power-on of the system, expensive parts such as motors, heads, etc. driven by the respective driving units are generated when the output-side components of the driving unit have an abnormality due to a short. When the driving transistor or the FET is broken and the driving transistor or the FET is burned, and the driving transistor or the FET is on even when there is no driving signal, the driving transistor and the driving transistor are driven by each driving transistor. There is a problem that the motor, the head, the solenoid (Solenoid) and the like is overheated and broken.

Therefore, in order to solve the above problems, the present invention detects an output of a driving unit of a printing apparatus using a detection unit, determines a detected result from the control unit, displays an error generated when an error occurs, and simultaneously cuts off the driving power supply unit. An object of the present invention is to provide a driver detecting circuit and a method of a printing apparatus for protection.

In order to achieve the above object, the present invention provides an operation and display unit for controlling a function of a printing apparatus according to a user's selection or displaying a processed result, and outputting a drive enable signal and a drive signal. A control unit which reads a state detection signal, reads it to determine whether it is normal, displays a judgment result on the operation and display unit, and disables a drive enable signal; and a drive enable signal output from the control unit. A driving power supply unit for receiving output of driving power or blocking output of driving power by disabling a drive enable signal, a driving element unit for receiving driving power supplied to the driving power supply unit, and the control unit Received the drive signal from the drive signal Sensing the output signal generated from the output terminal of the driving element portion enable / disable the drive and the drive unit for controlling the enable (Enable / Disable) and characterized by consisting of a detecting section for outputting a status detection signal.

According to another aspect of the present invention, a drive enable signal port disable step for disabling the output of the drive enable signal of the controller and a drive enable signal port disable step for disabling the output of the drive enable signal of the controller in the drive enable signal port disable step. In this case, all phase off steps for turning off all phases of the driving element portion and all phases of the driving element portion for all phase off steps are turned off. The low level of the read state detection signal is read when the state detection signal is read by the controller in the state detection signal port read step and the state detection signal port read step. Step for determining the state detection signal for setting the flag according to the flag and setting the flag, and the state detection signal. In the call discrimination and flag set step, if the result of the discrimination of the state detection signal is an error, an error display step of displaying the generated error is included.

Hereinafter, the present invention will be described with reference to FIGS. 1 to 2.

1 is a block diagram showing a driver detecting circuit of a printing apparatus according to the present invention, and FIG. 2 is a detailed circuit diagram of a driver detecting circuit of a printing apparatus according to an embodiment of the present invention. As shown in the drawing, the operation and display unit 10 for controlling the function of the printing apparatus 10 or displaying the processed result according to the user's selection, and the drive enable signal DRV_EN and the drive signal DRV_SIG are displayed. After receiving the status detection signal (STATUS_RD) of the printing device, which is generated by output, it is read to determine whether it is normal and displayed on the operation and display unit 10, and the drive enable signal DRV_EN is displayed. The controller 20 to enable and the drive enable signal DRV_EN output from the controller 10 are applied to output the drive power or to output the drive power by disabling the drive enable signal DRV_EN. A driving power supply unit 30 for blocking the driving power supply unit 30, a driving device unit 40 for receiving the driving power supplied to the driving power supply unit 30, and an output from the control unit 20. The driving unit 50 controls the enable / disable of the driving device unit 40 to which the driving power is applied by receiving the live signal DRV_SIG, and is generated from an output terminal of the driving unit 50. The detection unit 60 detects an output signal and outputs a state detection signal STATUS_RD.

During this configuration, the driving power supply unit 30 receives the drive enable signal DRV_EN output from the control unit 20, inverts and outputs the inverted buffer U1, and is inverted and output from the buffer U1. And a resistor Q1 for turning on the drive enable signal DRV_EN and a transistor Q1 turned on according to the drive enable signal DRV_EN that is induced and applied through the resistor R1. ) Is a resistor R2 for receiving and inducing a drive signal DRV_SIG output from the controller 20, and a transistor Q2 for receiving and receiving a drive signal DRV_SIG applied through the resistor R2. The detection unit 60 includes a resistor R3 for receiving and inducing a DC power supply Vcc, and a DC power supply Vcc applied through the resistor R3 according to the output state of the driving unit 50. ON / OFF status detection signal (ST It consists of a wired OR coupled diode D1 and diode D2 to generate ATUS_RD.

A control method for controlling the driver detecting circuit of the printing apparatus having the above configuration will be described with reference to FIG. 3.

3 is a flowchart illustrating a method of detecting a driving unit of a printing apparatus according to the present invention. As shown, the start step (S11) to prepare a check for detecting the presence or absence of the abnormal phenomenon of the printing apparatus 10, and the drive enable signal of the control unit 10 when the preparation is completed in the start step (S11) The drive enable signal DRV_EN port disable step S12 for disabling the output of the DRV_EN and the drive enable signal DRV_EN port disable step S12. When the output of the enable signal DRV_EN is disabled, all phase off steps S13 for turning off all phases of the driving device 40, and all phase off steps S13. When all phases of the driving device unit 40 are turned off, the control unit 20 detects the state detection signal STATUS_RD generated by the detection unit 60. S14), and the state detection signal (STATUS_RD) In the read step S14, when the state detection signal STATUS_RD is read by the control unit 10, the flag Flag according to the low level of the read state detection signal STATUS_RD. Is determined by the state detection signal STATUS_RD and the flag set step S15, and the state detection signal STATUS_RD is determined and the state detection signal STATUS_RD is determined in the flag set step S15. Is an error, an error display step S16 indicating an error that has occurred and the state detection signal STATUS_RD of the state detection signal STATUS_RD and the flag set step S15 are determined. When the determination result is normal or an error is displayed in the error display step S16, it is composed of an end step S17 for terminating the output detection of the driving unit 50.

In this configuration, the determination and flag set step S15 of the state detection signal STATUS_RD is performed by the controller 10 in response to the state detection signal STATUS_RD in the state detection signal STATUS_RD port read step S14. When reading, the low level determination step S15a of the first state detection signal STATUS_RD determining whether the read state detection signal STATUS_RD is a low level, and If the state detection signal STATUS_RD is not at the low level as a result of the determination of the low level determination step S15a of the first state detection signal STATUS_RD, the first error flag for setting an error flag is set. ) If the state detection signal STATUS_RD is at the low level as a result of the determination of the step S15b and the first state detection signal STATUS_RD at the low level determination step S15a, the output of the drive signal DRV_SIG of the controller 10 is performed. Drive signal (DRV_SIG) output port enable Step S15c and the drive signal DRV_SIG output port enable step S15c enable the output of the drive signal DRV_SIG of the control unit 10 to enable the drive unit 50 to drive the drive unit 50 from the drive unit 50. A low level determination step S15d of the second state detection signal STATUS_RD determining whether the state detection signal STATUS_RD outputted from the detection unit 60 for detecting an output state is a low level; A second error plateau step S15e for setting an error flag if the state detection signal STATUS_RD is not at a low level as a result of the determination of the low level determination step S15d of the second state detection signal STATUS_RD; If the state detection signal STATUS_RD is at the low level as a result of the determination of the low level determination step S15d of the state detection signal STATUS_RD, it is composed of a normal set up step S15f for setting a normal flag.

In addition, the error display step S16 may include a first display of the error generated when the error flag is set in the set step S15b through the operation and display unit 10. Second external display step S16b for displaying, via the operation and display unit 10, an error generated when the error flag is set in the external display step S16a and the second error flag in the set step S15e. It consists of.

Looking at the present invention having such a configuration in more detail as follows.

Preparation for detecting the output of the drive unit 50 of the printing apparatus 10 is made (S11). When the preparation is completed, the output of the drive enable DRV_EN output through the output port P1 of the controller 20 is disabled (S12). When the output port P1 of the control unit 20 is disabled, the driving power supply unit 30 that receives and outputs the DC power Vpp is turned off.

Since the driving power supply 30 is turned off, the coil L of the driving element 40 is turned off. That is, only the coil L is shown in the driving device portion 40 shown in FIG. 2 for the sake of simplicity, but the head, the motor, the solenoid (not shown), etc. are omitted, and thus the heating element is omitted. have.

Therefore, when the driving power supplied from the driving power supply unit 30 is cut off, phases of all the elements in the driving element unit 40 are turned off (S13). When the phase (Phase) of the mode element in the drive element unit 40 is turned off, the detection unit 60 supplied with the direct current power source (Vcc), the applied direct current power source (Vcc) flows to the drive unit (50). . That is, in the DC power supply Vcc, current flows to the driving unit 50 through two diodes D1 and D2 connected by wired OR.

At this time, the diodes D1 and D2 are connected only to the diode D1 corresponding to one coil L1 in order to briefly show the driving element portion 40, but are omitted in the actual driving element portion 40. More diodes are needed depending on the head, motor, and the like.

As described above, it is determined whether the state detection signal STATUS_RD generated as the current flows to the ground of the driving unit 50 through the detection unit 60 is at a low level (S15a). That is, the state detection signal STATUS_RD generated through the detection unit 60 is applied through the output port P3 of the control unit 20 to determine the level of the applied state detection signal STATUS_RD.

As a result of the determination, if the level of the state detection signal STATUS_RD is not low, the control unit 20 sets an error flag (S15b). When an error flag in the control unit 20 is set, the control unit 20 generates an error signal to the operation and display unit 10 according to the set error flag and displays it for the user to recognize (S16a). . At the same time, the control unit 20 turns off the driving power supply unit 30 by disabling the output of the drive enable signal DRV_EN with an error.

On the contrary, if the level of the state detection signal STATUS_RD applied to the output port P3 of the controller 20 is low, the controller 20 generates the drive signal DRV_SIG through the output port P2. Will print. The output drive signal DRV_SIG is applied to the base terminal of the transistor Q2 through the resistor R2 of the driver 50. At this time, as the output drive signal DRV_SIG is a high level signal, the transistor Q2 is turned on.

At the same time, the control unit 20 applies the drive enable signal DRV_EN to the buffer U1 of the driving power supply unit 30 through the output port P1. At this time, as the drive enable signal DRV_EN applied to the buffer U1 has a high level, the buffer U1 inverts the applied signal and outputs the low level. The drive enable signal DRV_EN according to the low level output through the buffer U1 is applied to the base terminal of the transistor Q1 through the resistor R1 to turn on the transistor Q1.

As the transistor Q1 is turned on, driving power supplied from the driving power supply unit 30 is applied to the driving element unit 40. The driving element unit 40 is enabled and the driving element unit 40 which receives the driving power supplied from the driving power supply unit 30 is enabled (S15c). As such, when the output of the driving unit 50 is enabled, the detection unit 60 generates a state detection signal STATUS_RD detecting the output of the driving unit 50 to be applied through the output port P3 of the control unit 20. do.

The controller 20 that receives the state detection signal STATUS_RD generated by the detection unit 60 while the driver 50 is enabled determines whether the applied state detection signal STATUS_RD is at a low level (S15d). ). As a result of the determination, if the state detection signal STATUS_RD is not at the low level, the control unit 20 sets an error flag (S15e), and then generates and displays an error signal to the operation and display unit 10 (S16b).

At the same time, the control unit 20 turns off the driving power supply unit 30 by disabling the output of the drive enable signal DRV_EN with an error. On the contrary, if the state detection signal STATUS_RD is at a low level, the controller 20 sets a normal flag (S15f).

As shown in FIG. 4, the result is normal and error according to the drive enable DRV_EN, the drive signal DRV_SIG, and the state detection signal STATUS_RD which are output from the controller 20. Detects a Short or Open state that is in the Error state.

As described above, the present invention, by detecting the output of the drive unit of the printing apparatus using a detection unit to determine whether there is an abnormality is displayed to the outside when an abnormality occurs and at the same time that the expensive motor or head is damaged by cutting off the drive power supply unit It is effective to prevent.

1 is a block diagram showing a driver detecting circuit of a printing apparatus according to the present invention;

2 is a detailed circuit diagram of a driver detecting circuit of a printing apparatus according to an embodiment of the present invention;

3 is a flowchart illustrating a method of detecting a driving unit of a printing apparatus according to the present invention;

4 is a truth table according to the present invention.

＊ Explanation of symbols on the main parts of the drawings ＊

10: display unit 20: control unit

30: drive power supply 40: drive element

50: driver 60: detector

Claims (7)

Read operation by adjusting the function of the printing device or displaying the processed result according to the user's choice, and by receiving the drive enable signal and the drive signal and outputting the status detection signal of the printing device. By determining whether it is normal, displaying the result of the judgment on the manipulation and display unit, and disabling a drive enable signal, and receiving a drive enable signal output from the controller to output drive power or drive in A drive power supply for blocking the output of the drive power by disabling the enable signal, a drive element unit for receiving the drive power supplied to the drive power supply, and a drive signal output from the control unit The driving element of the driving device And a detector for controlling an enable / disable and a detector for detecting an output signal generated from an output of the driver and outputting a status detection signal. The method of claim 1, The driving power supply unit may include a buffer U1 receiving and inverting a drive enable signal output from the controller, a resistor R1 for inducing a drive enable signal inverted and output from the buffer U1, And a transistor (Q1) turned on in response to a drive enable signal induced and applied through the resistor (R1). The method of claim 1, The driving unit includes a resistor R2 for receiving and driving a drive signal output from the controller, and a transistor Q2 for receiving and receiving a drive signal applied through the resistor R2. Driver detection circuit. The method of claim 1, The detection unit is configured to generate a state detection signal by turning on / off a resistor (R3) receiving and directing DC power and DC power applied through the resistor (R3) according to the output state of the driving unit. WiredOR) A driver detecting circuit of a printing apparatus, characterized in that it is composed of a coupled diode (D1) and a diode (D2). The drive enable signal port disable step of disabling the output of the drive enable signal of the controller and the output of the drive enable signal of the controller are disabled in the drive enable signal port disable step. The control unit detects the state detection signal generated by the detection unit when all phase off steps for turning off a phase and all phases of the driving device unit are turned off during all phase off steps. If the control unit reads the state detection signal in the read step and the state detection signal port read step, the flag is flagged according to the low level of the read state detection signal. Discrimination of the state detection signal and flag set step of determining the state detection signal and the state detection signal Driving the detecting method of the printing apparatus includes an error (Error) display step for displaying the error (Error) is determined when the result is an error (Error) generating a detection signal in the state flag set step. The method of claim 5, wherein The determination and flag set step of determining the state detection signal may include determining whether the read state detection signal is at a low level when the state detection signal is read by the controller in the state detection signal port read step. A first error flag for setting an error flag is set if the low level determination step of the first state detection signal and the low level determination step of the first state detection signal are not the low level of the state detection signal. A drive signal output port enable step for enabling an output of a drive signal of a controller if the state detection signal is low level as a result of the set step and the low level determination step of the first state detection signal; In the signal output port enable step, when the output of the drive signal of the controller is enabled and the driver is enabled, the driver Low level determination step of the second state detection signal for determining whether the state detection signal outputted from the detection unit for detecting the output state from the low level and low level determination step of the second state detection signal A second error plate set step of setting an error flag if the sense signal is not at a low level, and a normal flag set to set a normal flag if the state detection signal is at a low level as a result of the determination of the low level determination step of the second state detection signal; A driving unit detection method of a printing apparatus, characterized by comprising a step. The method of claim 5, wherein The error display step may include a first external display step of displaying an error generated when an error flag is set in a set step through an operation and display unit, and the second error flag. And a second external display step of displaying an error generated through an operation and display unit when an error flag is set in a set step.

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