JP2004185194A - Recording device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce power consumption in a standby state in a USB device having a main power source and a sub power source. <P>SOLUTION: Power switching means handle the main power source, the sub power source and a USB interface part, determining means determine the voltage of the sub power source, and detecting means detect the voltage at the USB interface part. The power switching means are switched based on the determination result of the determining means and the detection result of the detecting means. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a recording apparatus that operates by connecting to a host computer via a USB interface.
[0002]
[Prior art]
In a personal computer or the like, when a period of time during which an input device (for example, a keyboard or a mouse) is not operated continues for a predetermined time, it is determined that the computer is not in use, and the CRT monitor is switched to a low power consumption mode to switch the device to a low power consumption mode. Power consumption.
[0003]
Similarly, in an electronic device (for example, a printer or a scanner) used by connecting to a host computer through a USB interface, if no communication is performed with the host computer for a certain period of time, a low power consumption mode is set. To reduce the power consumption of the device.
[0004]
For example, power saving in a standby state of the ink jet printer will be specifically described.
[0005]
First, the configuration of the control system of the inkjet printer will be described.
[0006]
FIG. 2 is a block diagram showing a configuration of a control system of the ink jet printer.
[0007]
In this block diagram, reference numeral 101 denotes a host computer. A system program manages the execution states of various application programs based on a predetermined OS. A printer control program (printer driver) for transmitting image data to a printer is provided by the host computer. Operates on system programs.
[0008]
Reference numeral 102 denotes an inkjet printer, and reference numeral 103 denotes a system control unit of the inkjet printer 102.
[0009]
An interface 104 for taking in image data from the host computer 101 uses a parallel (Centro I / F) or serial (USB I / F) interface.
[0010]
Reference numeral 105 denotes an operation unit on which a start switch for bringing the printer into a printable state and a light-emitting LED for visually confirming that the printer is in a printable state are mounted.
[0011]
Reference numeral 106 denotes a CPU; 107, a program ROM for storing a control program executed by the CPU 106; and 108, a dynamic RAM (DRAM) for temporarily storing various data (such as the image data and print data to be transferred to the head). A system control IC 109 converts image data from the host computer 101 into print data and transfers the print data to the recording head 110.
[0012]
111 is a carrier motor for transporting the recording head 110, and 112 is a paper transport motor for transporting the recording paper.
[0013]
Reference numerals 113 and 114 denote motor drivers for driving the carrier motor 111 and the paper transport motor 112. The motor drivers 113 and 114 are controlled by the system control IC 210 together with print data processing so that an image is formed on the paper when a printing operation is performed.
[0014]
Reference numeral 115 denotes a main power supply for supplying power for driving the system control unit 113, the recording head 110, and the motor drivers 113 and 114.
[0015]
The power control in the printer apparatus 102 is performed by the system control IC 109. After the printing operation is completed and the apparatus enters the standby state, there is no key input to the operation unit 105 for a certain period of time, and further, the communication with the host computer 101 is not performed. When there is no communication between them, each unit is controlled so that the printer device 102 itself shifts to the low power consumption mode. For example, the power consumption of the CPU 106 and the system control IC 109 is reduced by cutting off the power to the recording head 110 and various sensors, or reducing or stopping the operation clock in the CPU 106 and the system control IC 109. . (However, it is necessary to make it possible to detect the key input from the operation unit 105 and the data transmitted from the host computer 101.) In order to further reduce the power consumption, the main power supply is required. In some cases, a control signal is sent from the system control IC 109 to the main power supply 115 so that the drive power supplied to the apparatus is switched to a minimum level at which the CPU 106 and the system control IC 109 operate. .
[0016]
If the printer 102 is in the low power consumption mode and receives a key input from the operation unit 105 or receives data from the host computer 101, the CPU 106 and the system control IC 109 are first switched to the low power consumption mode. The mode is shifted from the mode to the normal mode, and then the system control IC 109 controls the main power supply 115 so that the regular drive power is output, and the power is also input to the various sensors and the recording head 110. Thereafter, a predetermined operation is performed in response to the action to the printer device 102.
[0017]
Further, in order to save power, some devices have a secondary battery that can be charged and discharged as a sub power source separately from the main power source.For example, when the device enters a standby state, the main power source supplies power to the device. In some cases, the power consumed by the main power supply is reduced to almost zero by performing the operation using the sub power supply. When such a sub power supply uses a secondary battery, the secondary battery discharges and the voltage value decreases with the passage of time.
[0018]
As described in Japanese Patent Application Laid-Open No. H11-305880, regarding power saving in USB devices, it is assumed here that transmission from the host computer is restarted even when the host computer is turned off. Power is always supplied to the control unit.
[0019]
[Patent Document 1]
JP-A-11-305880
[0020]
[Problems to be solved by the invention]
However, in the above-described inkjet printer device, some power saving is performed at the time of standby as in the conventional example. However, in the industry, the movement of reducing the energy consumption at the time of standby (standby) of electronic devices is becoming active. Therefore, it is necessary to promote further power saving in the future. In order to respond to such demands, for example, various ICs and circuit blocks used in the device should be changed to those of a type that consumes less power during standby, or if the main power supply is consumed during standby. Measures could be taken to reduce the amount of electric power that is used. However, there is also a problem that the development period and cost increase for this purpose.
[0021]
Also, in power saving using a sub power supply, when the voltage value output by the sub power supply decreases to a voltage value necessary for operating the device, power is supplied from the main power supply. It is difficult to make the power consumed by the device as seen at all times zero by only the above-described configuration.
[0022]
Further, in the USB device, it is possible to reduce the power consumption of the USB device when the power supply of the host computer is turned off. Since normal power is supplied, when the power of the host computer is turned on, the power consumption is not reduced when the device is in the standby state.
[0023]
[Means for Solving the Problems]
The present invention, in order to achieve the above object, a USB interface that enables power supply from a host computer, a main power supply, and a recording device that operates by receiving power from any of a secondary battery, Interface power detection means for detecting the presence or absence of power input to the USB interface unit, and secondary battery voltage determination for detecting an output voltage of the secondary battery and determining whether the output voltage is higher than a predetermined voltage Means, power switching means for switching any one of the main power supply, the secondary battery, and the USB interface unit, and causing the power switching means to perform a first switching process for switching from the main power supply to the secondary battery. After that, the secondary battery voltage determining means performs the output voltage determining process, and if the output voltage is lower than the predetermined voltage, the interface Control means for causing a chair power detection means to perform the detection processing of the presence or absence of the power, and when the power is present, causing the power supply switching means to perform a second switching processing for switching from the secondary battery to the USB interface unit And
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
【Example】
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0025]
First, a configuration of a control system of a host computer and an electronic device (here, an ink jet printer device is taken as an example) related to the embodiment of the invention will be described.
[0026]
FIG. 1 is a block diagram showing a configuration of a control system of a host computer and an ink jet printer device according to an embodiment of the present invention. In FIG. 1, reference numeral 201 denotes a host computer, in which a system program manages the execution state of various application programs based on a predetermined OS. A printer control program (printer driver) that operates on the system program is for outputting image data created on various application programs to the printer device 202.
[0027]
Reference numeral 203 denotes a system control unit of the printer device 202, which controls each unit in the printer device 202.
[0028]
Reference numeral 204 denotes a USB control unit which can transmit and receive information according to a protocol conforming to the USB standard. A power detection unit 206 for detecting whether power is supplied is provided.
[0029]
Reference numeral 207 denotes a CPU; 208, a program ROM for storing each control program executed by the CPU 207; and 209, a storage unit for temporarily storing image data in a DRAM and print data to be transferred to a recording head.
[0030]
Reference numeral 210 denotes a system control IC 210, which mainly controls image data from the host computer 201 and converts the image data into print data, and transfers the print data to the print head. Heater drive control in the head, motor drive control for controlling driver ICs of various motors required to form a print image, time management in the system (set a specified time and elapse the time Timer control for performing an interrupt process for the CPU 207 every time).
[0031]
Reference numeral 211 denotes an operation unit on which a start switch for setting the printer in a printable state (ON LINE) and a light emitting LED for visually confirming that the printer is ready for printing are mounted.
[0032]
212 is a recording head. 213, a carrier motor for transporting the recording head 212; 214, a paper transport motor for transporting the recording paper;
[0033]
215 and 216 are motor drivers for driving the carrier motor 213 and the paper transport motor 214.
[0034]
Reference numeral 217 denotes a main power supply in the printer device 202, which supplies drive power to each part in the printer device 202. The main power supply 217 can supply and stop the drive power by an external power supply control signal.
[0035]
Reference numeral 218 denotes a sub power supply, which includes a secondary battery. The sub power supply enables power supply to the system control unit 203 when the printer device 202 is in a standby state. Further, when the voltage value decreases, charging is performed by the power supply from the main power supply 217 or the USB interface. Monitoring of the voltage value of the sub power supply is performed by the system control IC 210.
[0036]
Reference numeral 219 denotes a power supply control unit that controls the main power supply 217 such as outputting / stopping power supply from the main power supply 217 according to a control signal from the system control IC 210. Further, control for switching between three power supplies of a 5 volt (5 V) power supply supplied from the host computer 201 through the USB interface, a 5 V power supply from the main power supply 217, and a 5 V power supply from the sub power supply 218 to output to the system control unit 203. Has also gone.
[0037]
Next, the main power supply 217 related to the embodiment of the present invention will be described in detail. In the embodiment of the present invention, a switching power supply is used as a main power supply.
[0038]
FIG. 3 is a circuit diagram showing details of the main power supply 217 related to the embodiment of the present invention.
[0039]
First, an AC input is supplied to an insulating transformer 304 via a filter circuit 301, a rectifier circuit 302, and a smoothing circuit 303, and is switched by an FET 305.
The insulating transformer 304 includes a primary winding 306, a secondary winding 307, and an auxiliary winding 308. The FET 305 is connected to the oscillation control circuit 309 via the resistor 308. The oscillation control circuit 309 is an IC for controlling the oscillation of the primary side of the insulating transformer 304, and its power supply Vdd is supplied by the auxiliary winding 310. A motor drive power supply VM, a print head drive power supply VH, and a system logic power supply VDD are supplied to each block from the secondary winding 306 of the insulating transformer 304 via first and second rectifying / smoothing circuits 311 and 312.
[0040]
Further, a current detection circuit 313 is connected to the first rectification / smoothing circuit 311, and an overvoltage detection circuit 314 is connected to the first and second rectification / smoothing circuits 311 and 312.
[0041]
The output signals of the current detection circuit 313 and the overvoltage detection circuit 314 are fed back to the oscillation control circuit 309 via the photocouplers 315 and 316.
[0042]
The oscillation control circuit 309 is configured to perform PWM control using the secondary current, and to shut off VM, VH, and VDD when an overvoltage is detected by the overvoltage detection circuit 314.
[0043]
The power control signal is input to the oscillation control circuit 309 via the photocoupler 317. That is, when the power control signal is at a low level, the transistor 318 is turned on and a current flows through the photocoupler 317. Then, the photocoupler 317 performs current-voltage conversion, inputs a low-level signal to the input port IN1 of the oscillation control circuit 309, and then the output port OUT1 of the oscillation control circuit 309 oscillates based on the low-level signal. The side oscillates through the FET 305 to supply power to the secondary side.
[0044]
On the other hand, when the power supply control signal is at a high level, the transistor 318 is turned off, so that a high-level signal is input to the input port IN1 of the oscillation control circuit 309. The output port OUT1 of the oscillation control circuit 309 does not oscillate due to the high-level signal, the FET 305 is turned off, the oscillation on the primary side is stopped, and the supply of power to the secondary side is stopped.
[0045]
319 to 321 are current limiting resistors, 322 and 323 are voltage dividing resistors, and the photocoupler 317 also insulates the primary side and the secondary side.
[0046]
Next, the operation of an electronic device (here, a printer device) related to the embodiment will be described in more detail.
[0047]
FIG. 4 is a flowchart of an operation from when the printer device 202 is turned on (AC power input) to when the printer device 202 shifts to a low power consumption mode (power key OFF_0W standby state) in a power key OFF state during standby.
[0048]
The printer device 202 is in a state of being connected to a host computer via a USB interface.
[0049]
First, in FIG. 4A, when AC power is applied to the main power supply 217 of the printer device 202 (S1), the power supply control signal from the power supply control unit 218 defaults to a low level signal ("L" output). Since there is, the oscillation control circuit 309 operates. In addition, the power supply control unit 218 sets the default of the control signal from the system control IC 210 so that the power from the main power supply 217 is input to the system control unit 203 (S2). Is supplied to each block of the system control unit 203 through the power supply control unit 218. A power supply for driving the motor and a power supply for driving the head can be supplied from the main power supply 217.
[0050]
When power is supplied to the system control unit 203, the CPU 207 and the system control IC 210 start initialization processing (S3), and enter a key input waiting state (power key OFF_standby state) after completion (S4). At this time, the system control IC 210 starts a timer process (S5) and performs time counting until a certain time T1 (for example, one minute) elapses.
[0051]
When the power key on the operation unit 211 is pressed within the time period T1, an ON signal is output from the operation unit 211 (S7), and the ON signal is input to the input port of the system control IC 210. When the system control IC 210 detects the power key ON input, it performs a power ON processing sequence such as initialization of the recording head and various motors (S8), and turns on the power LED on the operation unit 211 after the end (S9). After that, it enters a state of waiting for data reception from the host computer 201 and a key input (S10) (power key ON_standby state).
[0052]
If there is no key input to the operation unit 211 for a time period T1 or more, as illustrated in FIG. 4B, after the timer processing ends, the system control IC 210 itself, the operation clock of the CPU 207, and the operation clock of the USB control unit 204 At low speed (S11). By reducing the operation clock (reducing the frequency of the operation clock), the power consumption of the system control unit can be reduced. Next, the 5V power supply is switched from the main power supply to the sub power supply (a switching control signal for switching the power supply to the system control unit 203 from the main power supply 217 to the sub power supply 218 to the power control means 219) (S12).
[0053]
Thereafter, a high-level power control signal is sent to the main power supply 217 (S13), and all the power outputs of the 5V power supply, the motor drive power supply, and the head drive power supply are stopped (S14).
[0054]
In this way, the printer device 202 shifts to the low power consumption mode “power key OFF — 0W standby state” (S15), and consumes the power consumption of the printer device 202 as viewed from the main power supply 217 during standby on the primary side of the main power supply 217. Value (a value close to 0 W).
[0055]
In this state, the system control IC 210 monitors the voltage value of the sub power supply 218 (S16). However, if the system control IC 210 recognizes that the voltage value of the sub power supply 218 has decreased to the minimum voltage value at which the system control unit 203 can operate ( In YES, the power detection means 206 first checks whether or not power is being supplied from the host computer 201 to the printer device 202 via the USB interface 204 (S17).
[0056]
If the power detection signal from the power detection unit 206 has been confirmed (YES), a switching control signal is sent to the power control unit 219 to supply 5 V power to the system control unit 203 from the sub power supply 218 to the USB interface 204. (S18).
[0057]
At this time, the power consumption of the system control unit 203 is set to a power supply amount (500 mA or less) according to the USB standard.
[0058]
Further, when 5 V power is supplied to the system control unit 203 from the USB interface, the power is also supplied to the sub power supply and charging is performed at the same time. If the system control IC recognizes that a predetermined voltage value (about 5 V) sufficient to operate the control unit 203 or more has been reached (YES), the power supply control unit is notified to the system control unit 203. A switching control signal is output to switch the 5V power supply from the USB interface to the sub power supply (S20).
[0059]
As described above, in the low power consumption mode, the 5 V power supply to the system control unit 203 is alternately performed by the sub power supply and the USB interface, so that the time during which the 5 V power supply is performed from the USB interface is shortened as much as possible. They consume as little power as possible.
[0060]
Further, even when the 5V power supply of the printer device 202 is supplied from the host computer 201, the power consumption of the host computer 202 is increased by that amount, but the main power supply 217 of the printer device 202 is driven and supplied. In comparison with the case where power is supplied from the single power supply of the host computer 201 to the entire system including the printer device 202, the efficiency of power consumption is improved, so that the power consumption of the entire system is reduced.
[0061]
By the way, in the "power key OFF_0W standby state", the system control IC 210 detects a key input from the operation unit 211, transmits a power switching signal and a main power output signal to the power control unit 219, and a power detection signal from the power detection unit 206. Monitoring is enabled.
[0062]
Therefore, when the key input from the operation unit 211 is detected, the state shifts to the “power key ON_standby state”.
[0063]
If the power detection signal from the power detection unit 206 is not detected (when the host computer is turned off or the USB interface cable is disconnected) (NO in S17), the system control IC 210 sends the power control signal to the power control unit 219. An instruction is issued, and a low-level power control signal is output to the main power supply 218 (S21). The main power supply restarts the output of the power (S22). Further, a switching control signal is transmitted to supply 5 V power to the system control unit 203 from the main power supply 218 (S23), and shift to the “power key OFF_standby state” (S24).
[0064]
FIGS. 5A and 5B are flowcharts of the operation of the printer device 202 from the transition from the “power key ON_standby state” to the low power consumption mode “power key ON_0W standby state”.
[0065]
First, the system control IC 210 starts the timer process immediately after the power key of the operation unit 211 is pressed after the AC power is turned on and the printer device 202 enters the “power key ON_standby state” (S32), and the predetermined time T2 Time counting is performed until (for example, 5 minutes) has elapsed.
[0066]
If the data signal is not received from the host computer 201 even after the time T2 has elapsed (YES in S33), the system control IC 210 stops the timer, and then operates the operation clock of the system control IC 210, the CPU 207, and the USB control unit 204. At low speed (S34). Thereby, the power consumption of the system control unit can be reduced.
[0067]
Next, the system control IC issues an instruction to the power supply control unit 219, and switches the power supply to the system control unit 203 from the main power supply 217 to the sub power supply 218 (S35). Thereafter, by sending a high-level power control signal to the main power supply 217 (S36), all power supply outputs of the 5V power supply, the motor drive power supply, and the head drive power supply are stopped (S37).
[0068]
In this way, the printer device 202 shifts to the low power consumption mode “power key ON_0W standby state” (S38), and reduces the power consumption of the printer device 202 as viewed from the main power supply 217 during power-on standby to a value close to almost 0 W. can do.
[0069]
In the “power key ON_0W standby state”, as in the “power key OFF_0W standby state”, the output to the FET of the oscillation control circuit 309 on the primary side of the main power supply 218 is not oscillating, and the supply of power to the secondary side is stopped. Therefore, when viewed from the main power supply 217 in the two standby states, the power consumption of the printer device 202 is at the same level.
[0070]
Also, the 5V power supply to the system control unit 203 is performed while the sub power supply and the USB interface are alternately switched by the system control IC 210 similarly to the “power key OFF — 0W standby state”. When 5 V power is supplied to the system control unit 203 from the USB interface, the power consumption of the system control unit 203 is set to the power supply amount (500 mA or less) according to the USB standard.
[0071]
In this “power key ON_0W standby state”, the system control IC 210 monitors a data signal from the host computer 210, detects a key input from the operation unit, and outputs a power switching signal and a main power output control signal to the power control unit 219. The transmission and monitoring of the power detection signal from the power detection means 206 are enabled.
[0072]
When a signal or a command is input from the host computer 201, the system control IC 210 sends a power supply switching signal to the power supply control unit 219 so that the power supply to the system control unit 203 is switched to the main power supply 218.
[0073]
Then, the operation clock signals of the system control IC 210, the CPU 207, and the USB control unit 204 are returned to the normal operation state (operating frequency), and the image data from the host computer 201 is converted into print data (record data). The printer device 202 is controlled so as to execute a printing operation sequence for accurately printing on paper by controlling various motors.
[0074]
Also, when the power key is pressed to turn off the power from the “power key ON_0W standby state”, the power key signal from the operation unit 211 is recognized by the system control IC 210, and the system shifts to the “power key OFF_standby state”. I do.
[0075]
Now, in a state where the power detection signal from the power detection unit 206 is not detected (when the power of the host computer is turned off or the USB interface cable is disconnected and the detection signal from the power detection unit is reduced; NO in S41), The system control IC 210 outputs a switching signal to the power control unit 219. As a result, the power supply is switched from the sub power supply to the main power supply (S47).
[0076]
FIG. 6 is a flowchart of control from the end of the printing operation (recording operation) of the printer device 202 to the transition to the low power consumption mode during standby.
[0077]
When the printing operation sequence of the printer device 202 is completed, the system control IC 210 starts a timer process (S61) and performs time counting until a certain time T2 (for example, 5 minutes) elapses.
[0078]
If a new data signal is not received from the host computer after the time T2 has elapsed (YES in S63), the system control IC 210 stops the timer, and thereafter operates the system control IC 210 itself, the CPU 207, and the operation clock in the USB control unit 204. At low speed (S64). Next, a switching control signal for switching the power supply to the system control unit 203 from the main power supply 217 to the sub power supply 218 is output to the power control unit 219 (S65), and the high-level power control is performed. A signal is sent to the main power supply 217 (S66), and all power outputs of the 5V power supply, the motor drive power supply, and the head drive power supply are stopped (S67).
[0079]
As described above, the printer device 202 shifts to the low power consumption mode “power key ON_0W standby state” (S68).
[0080]
When the printer device 202 is in a low power consumption mode (“power key ON — 0 W standby state” or “power key OFF — 0 W standby state”) in which the 5 V power is supplied to the system control unit 203 from the 5 V power supply by the USB interface 204, the host computer 201 When the suspend signal is transmitted from the printer, the power consumption of the printer device is set to 500 μA or less, which is the standard of the power supply of USB, so as to further reduce the power consumption. FIG. 7 is a flowchart illustrating the operation of the printer device 202 in this case.
[0081]
When the printer device 202 is in the low power consumption mode state (“power key ON — 0W standby state” or “power key OFF — 0W standby state”, S71), the internal operation clocks of the system control IC 210, the CPU 207, and the USB control unit 204 are low-speed clocks. It is working.
[0082]
When a suspend signal is sent from the host computer 201 (YES in S72), the USB controller 205 first recognizes the signal and transmits suspend information to the system control IC 210.
[0083]
Next, the system control IC 210 stops the internal operation clocks of the system control IC 210 itself and the CPU 207, and the internal operation clock is set to a low speed so that the USB control unit 204 can recognize the resume signal sent from the host computer 201. It is left as it is (S73).
[0084]
At this time, the power supply to the sub power supply 218 is stopped to reduce the power supplied by the host computer 201 as much as possible (S74).
[0085]
Such a state is a “minimum power consumption mode” in which the power consumed by the printer device 202 during standby is the lowest, and the power consumed by the system control unit 203 is 500 μA or less.
[0086]
In this lowest power consumption mode, the internal operation clock is stopped, but the system control IC 210 monitors the resume signal from the USB controller 205, detects a key input from the operation unit 211, and supplies power to the power control unit 219. Monitoring of the power detection signal from 206 is possible (S75).
[0087]
For example, when a resume signal is transmitted from the host computer 201 (YES in S76), the USB controller 206 in the USB control unit 204 recognizes that the resume signal has been transmitted, and transmits the information to the system. Notify the control IC 210.
[0088]
Then, the system control IC 210 and the CPU 207 are set to low speed operation (S77). Further, the power supply to the sub power supply 218 is restarted, and the state shifts to the low power consumption mode state (S78).
[0089]
If the key input from the operation unit 211 is detected, if the state in the low power consumption mode before shifting to the “minimum power consumption mode” is “power key ON_0W standby state”, “power key OFF_standby state ”. Alternatively, if the state in the low power consumption mode before shifting to the “minimum power consumption mode” is “power key OFF — 0W standby state”, the state shifts to “power key ON_standby state”.
[0090]
Further, when the power detection signal from the power detection unit 206 is not detected (when the host computer is turned off or the USB interface cable is disconnected), the system control IC 210 controls the power control unit 219 to perform low-level power control. A signal is sent to the main power supply 218, a main power output control signal is transmitted so that all outputs from the main power supply 218 are enabled, and the 5 V power supply to the system control unit 203 is switched to the main power supply 218. If the state in the low power consumption mode before sending the switching control signal and shifting to the “minimum power consumption mode” is “power key ON_0W standby state”, “power key ON_standby state” is set to “power key OFF_0W standby state”. "Power key OFF_Stan" Than is to shift to Lee state ".
[0091]
FIG. 8 is a perspective view of the ink jet printer described in the present embodiment. A recording head 1005 is mounted on a carriage 1004 and can reciprocate in a longitudinal direction along a shaft 1003. The ink ejected from the recording head reaches the recording material 1002 whose recording surface is regulated by the platen 1001 at a minute interval from the recording head, and forms an image thereon.
[0092]
An ejection signal is supplied to the recording head via a flexible cable 1019 in accordance with image data. Reference numeral 1014 denotes a carriage motor for scanning the carriage 1004 along the shaft 1003. Reference numeral 1013 denotes a wire for transmitting the driving force of the motor 1014 to the carriage 1004. Reference numeral 1018 denotes a transport motor that is coupled to the platen roller 1001 and transports the recording material 1002.
[0093]
As described above, examples of the embodiments of the present invention are listed below.
[0094]
[Embodiment 1]
A recording device that operates by receiving power from any of a USB interface unit capable of supplying power from a host computer, a main power supply unit, and a secondary battery, and determines whether there is power input to the USB interface unit. An interface power detection unit for detecting, a secondary battery voltage determination unit for detecting an output voltage of the secondary battery and determining whether the output voltage is higher than a predetermined voltage, the main power supply, the secondary battery, Power supply switching means for switching any one of the USB interface units; and causing the power supply switching means to perform a first switching process for switching from the main power supply to the secondary battery. A voltage determination process is performed. If the output voltage is lower than the predetermined voltage, the interface power detection unit determines whether or not the power is present. A recording unit comprising: a control unit that causes a detection process to be performed, and when the power is present, causes the power supply switching unit to perform a second switching process of switching from the secondary battery to the USB interface unit. .
[0095]
[Embodiment 2]
The control unit, after the second switching process, causes the secondary battery voltage determination unit to perform the secondary battery determination process, if the output voltage is higher than the predetermined voltage, the power supply switching unit, The recording apparatus according to claim 1, wherein a third switching process for switching from the USB interface unit to the secondary battery is performed.
[0096]
[Embodiment 3]
The recording apparatus includes a control circuit for controlling the operation, and clock supply means for switching and outputting a plurality of clock signals to the control circuit, wherein the control means switches the clock supply means and outputs a low-frequency clock. The recording apparatus according to the first embodiment, which outputs a signal.
[0097]
[Embodiment 4]
The control means causes the interface power detection means to perform the processing of detecting the presence or absence of the power, and if the power is not present, causes the power supply switching means to perform a fourth switching processing of switching from the secondary battery to the main power supply. The recording apparatus according to the first embodiment, wherein the recording is performed.
[0098]
【The invention's effect】
As described above, according to the present invention, the power consumption in the standby state of the operating electronic device can be reduced more than before by receiving power supply through the main power supply, the sub power supply, and the USB interface.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a control system configuration of an ink jet printer device related to a conventional example of the present invention.
FIG. 2 is a block diagram showing a control system configuration of the ink jet printer device according to the embodiment of the present invention.
FIG. 3 is a circuit configuration diagram showing details of a main power supply related to the embodiment of the present invention;
FIG. 4 is a flowchart showing an operation of the printer device after power is turned on and before a shift to a low power consumption mode in a power key OFF state.
FIG. 5 is a flowchart showing an operation of the printer apparatus from a power key ON standby state to a transition to a low power consumption mode;
FIG. 6 is a flowchart showing the operation of the printer device from the end of the printing operation to the transition to the low power consumption mode.
FIG. 7 is a flowchart showing an operation of the printer device when a suspend signal is received in the low power consumption mode.
FIG. 8 is a perspective view of an inkjet printer.
[Explanation of symbols]
201 Host computer
202 inkjet printer
203 System control unit
204 USB control unit
205 USB communication unit
206 voltage detecting means
207 CPU
210 System control IC
211 Operation Department
217 Main power supply
218 Sub power supply
219 Power supply control means

Claims (1)

A USB interface unit that enables power supply from a host computer, a main power supply unit, and a recording device that operates by receiving power supply from any of a secondary battery,
Interface power detection means for detecting the presence or absence of power input to the USB interface unit;
A secondary battery voltage determination unit that detects an output voltage of the secondary battery and determines whether the output voltage is higher than a predetermined voltage.
Power supply switching means for switching any of the main power supply, the secondary battery, and the USB interface unit;
After causing the power supply switching unit to perform a first switching process of switching from the main power supply to the secondary battery, the secondary battery voltage determining unit is configured to perform the output voltage determination process, and the output voltage is set to the predetermined voltage. If the power is lower, the interface power detection unit performs the process of detecting the presence or absence of the power, and if the power is available, the power switching unit causes the power switching unit to switch from the secondary battery to the USB interface unit. And a control means for performing the following.

Images