JP2015019190A - Image forming apparatus and image forming method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming apparatus that is highly convenient and quickly returns from a power-saving state even with the inclusion of USB ports.SOLUTION: External devices 2a and 2b are connected to USB ports 100a and 100b. Connection detection units 110a and 110b detect the connection state as to whether the external devices 2a and 2b are connected to the USB ports 100a and 100b, respectively, from an optical sensor, switch, and the current/voltage of VBUS line. At the time of return from a power-saving state, when the external devices 2a and 2b are detected by the connection detection units 110a and 110b, a power-saving processing unit 120 waits for the response from the external devices 2a and 2b. When the external devices 2a and 2b are not detected by the connection detection units 110a and 110b, the power-saving processing unit 120 causes an image forming apparatus to return from the power-saving state without waiting for the response from the external devices 2a and 2b.

Description

  The present invention relates to an image forming apparatus and an image forming method, and more particularly to an image forming apparatus and an image forming method that can be connected to an external device by a USB (Universal Serial Bus).

Conventionally, there are image forming apparatuses such as multifunction peripherals (MFPs) capable of printing documents and images.
Some of these image forming apparatuses have a USB (Universal Serial Bus) port and can be connected to an external device.
USB communicates with external devices using a 5V power line called VBUS, a GND line, and D + and D− lines as signal lines.
The image forming apparatus is supplied with power by VBUS when an external device is connected to the USB port. The external device initializes itself and makes a response to pull up the D + or D− line. The image forming apparatus detects the connection of the external device by detecting a response from the external device.
Although the response from the external device is within one second according to the USB standard, there is actually a response that takes several seconds. For this reason, the image forming apparatus needs to monitor the state of the USB port all the time.

Referring to Patent Document 1, as an electronic device for early detection of connection of a peripheral device connected by USB (hereinafter referred to as “external device”), a connection means for connecting an external device, and an external device via the connection means A communication unit that communicates with the device, a power supply unit that supplies power to the external device via the connection unit, and a current monitoring unit that monitors a current supplied from the power supply unit to the peripheral device. An electronic device characterized by recognizing a connection of an external device when the current value of the above exceeds a threshold value is disclosed.
According to the technology, the connection of the external device can be detected by the drive current generated by the connection of the external device, and the use of the external device can be started quickly.

JP 2011-118768 A

  However, in the conventional technology, when returning from the power saving state, it is necessary to wait for a response from the external device even when the external device is not connected. There was a problem of being bad.

  The present invention has been made in view of such a situation, and an object thereof is to provide an image forming apparatus that solves the above-described problems.

The image forming apparatus of the present invention includes a USB port to which an external device is connected, a connection detection unit that detects a connection state of the external device to the USB port, and the connection detection unit upon return from the power saving state. And power saving processing means for returning without waiting for a response from the external device when no external device is detected.
The image forming apparatus of the present invention includes a plurality of the USB ports and the connection detection means, and stores external device connection information for storing the connection of the external device to each USB port when shifting to the power saving state. Information storage means, and the power saving processing means corresponds to the USB port to which the external device was not connected at the time of transition to the power saving state according to the connection information of the external device connection information storage means. The connection detection unit is configured to detect the external device when returning from the power saving state.
In the image forming method of the present invention, the image forming method by the image forming apparatus detects the connection state of the external device to the USB port when returning from the power saving state, and if the external device is detected, the external device In the case where the external device is not detected, the return process is continued without waiting for the response from the external device.

  According to the present invention, when an external device connected to the USB port is not detected, it is configured not to wait for a response from the external device, thereby speeding up the return from the power saving state and improving usability. A good image forming apparatus can be provided.

1 is a system configuration diagram according to an embodiment of an image forming apparatus of the present invention. FIG. 2 is a block diagram illustrating a control configuration of the image forming apparatus illustrated in FIG. 1. FIG. 2 is a schematic diagram of the image forming apparatus illustrated in FIG. 1. It is a flowchart of the power saving transition process which concerns on embodiment of this invention. It is a flowchart of the power saving return process which concerns on embodiment of this invention.

<Embodiment>
[System Configuration of Image Forming Apparatus 1]
The image forming apparatus 1 includes an image processing unit 11, a document reading unit 12, a document feeding unit 13, a transport unit (a paper feed roller 422, a transport roller 44, and a discharge roller 45), a network transmission / reception unit 15, an operation panel unit 16, an image. A forming unit 17 (image forming unit), a storage unit 19 and the like are connected to the control unit 10. In addition, the control unit 10 has two USB ports 100a and 100b (hereinafter referred to as “one of the external devices 2”, respectively) connected to the external devices 2a and 2b (hereinafter referred to as “external device 2”). Such a USB port is simply referred to as “USB port 100”). The control unit 10 detects that the external devices 2a and 2b are connected to the USB ports 100a and 100b, respectively. Connection detection units 110a and 110b (connection detection means. Hereinafter, any one of the connection detection units is shown. In this case, the connection detection unit 110 is simply connected.
The operation of each unit is controlled by the control unit 10.

The control unit 10 includes a general purpose processor (GPP), a central processing unit (CPU), a micro processing unit (MPU), a digital signal processor (DSP), a graphics processing unit (GPU), an application specific processor (ASIC). Information processing means such as a processor for a specific application).
The control unit 10 reads out a control program stored in the ROM or HDD of the storage unit 19, develops the control program in the RAM, and executes it to operate as each unit of a functional block described later. Further, the control unit 10 controls the entire apparatus according to predetermined instruction information input from the operation panel unit 16.

The image processing unit 11 is control arithmetic means such as a DSP (Digital Signal Processor) or a GPU (Graphics Processing Unit). The image processing unit 11 is a unit that performs predetermined image processing on image data, and performs various types of image processing such as enlargement / reduction processing, density adjustment, gradation adjustment, and image improvement processing.
The image processing unit 11 can also convert the image read by the document reading unit 12 into a file unit of a format such as PDF or TIFF and store the converted data in the storage unit 19 as print data.

The document reading unit 12 is a (scan) unit that reads a document such as a set sheet.
The document feeding unit 13 is a unit that transports a document read by the document reading unit 12.
The image forming unit 17 receives an image from a user terminal (not shown), stored in the storage unit 19, or read by the document reading unit 12 on a recording sheet according to a user output instruction. It is a means for forming.
The transport unit transports the recording paper from the paper feed cassette 421 (FIG. 3), causes the image forming unit 17 to form an image, and then transports the recording paper to the stack tray 50.
The operations of the document reading unit 12, the document feeding unit 13, the transport unit, and the image forming unit 17 will be described later.

The network transmission / reception unit 15 is a network connection unit including a LAN board and a wireless transceiver for connecting to an external network. The external network is a wired or wireless Internet, an intranet, a mobile phone network, or the like.
The network transmission / reception unit 15 transmits / receives data on a data communication line and transmits / receives voice signals on a voice telephone line.

  The operation panel unit 16 acquires instructions for various jobs of the image forming apparatus 1 by the user. It is also possible to input and change information of each user according to user instructions acquired from the operation panel unit 16.

The storage unit 19 is a storage unit that uses a semiconductor memory such as a ROM (Read Only Memory) or a RAM (Random Access Memory) or a recording medium such as an HDD (Hard Disk Drive).
The ROM and HDD of the storage unit 19 store a control program for controlling the operation of the image forming apparatus 1 and various data.
The storage unit 19 stores an area for storing print data such as PDL data transmitted from a user terminal (not shown) or scanned by the document reading unit 12 and image-processed by the image processing unit 11, and account settings. Include a storage area for each user, a storage folder area for each user, a storage area for temporary files, and the like. The storage unit 19 also stores a control program of the control unit 10, thumbnail images, data of various other files, and the like.

The USB device 100 is connected to the external device 2. The USB port 100 includes connectors for various USB hosts such as USB 1.1, 2.0, and 3.0, a connection control circuit, and the like. The connection control circuit of the USB port 100 includes a USB host unit that controls access to the external device 2, an N / W interface unit that controls communication with the external device, a USB interface unit, and the like.
External device 2 includes USB memory, various flash memory cards such as SD card / xD / memory stick, USB connected HDD, digital camera, video camera, mobile phone, smartphone, tablet, PDA (Personal Data Assistant), RFID for user authentication (Radio Frequency IDentification) Card reader. The external device 2 connected to the USB port 100 can also function as a storage unit in the same manner as the storage unit 19 depending on the type.

The connection detection unit 110 physically detects a connection state indicating whether or not the external device 2 is connected to each USB port 100.
The connection detection unit 110 includes an optical sensor such as an infrared ray that detects insertion of the connector of the USB port 100, a switch, or a current detection circuit or voltage detection circuit that detects the current of the VBUS line. When the connection detection unit 110 is a current detection circuit, for example, when a voltage is applied to the VBUS of the USB port 100, the external device 2 is connected within a few milliseconds to a few hundred milliseconds depending on the presence or absence of the current that flows. It is possible to detect the connection state as to whether or not the connection has been made.

In the above-described example, two USB ports and each connection detection unit are described. However, the number of USB ports of the image forming apparatus 1 is arbitrary, and it is only necessary that a corresponding connection detection unit is provided. A configuration in which a connection detection unit is provided in each port of an external USB hub connected to the USB port is also possible.
In the image forming apparatus 1, the control unit 10 and the image processing unit 11 may be integrally formed, such as a CPU with a built-in GPU or a chip-on-module package.
The control unit 10 and the image processing unit 11 may include a RAM, a ROM, a flash memory, and the like.
Further, the image forming apparatus 1 may include a FAX transmission / reception unit that performs facsimile transmission / reception.

[Control Configuration of Image Forming Apparatus 1]
With reference to FIG. 2, the control configuration of the image forming apparatus 1 of the present embodiment will be described based on functional blocks.
The image forming apparatus 1 includes a plurality of USB ports 100 and a connection detection unit 110, and a power saving processing unit 120 (power saving processing means).
In addition, the storage unit 19 stores connection information 500a and 500b (hereinafter, when any connection information is indicated, it is simply referred to as “connection information 500”) and a detection order list 510.

In the example of FIG. 2, the external device 2a is connected to the USB port 100a. The external device 2b is connected to the USB port 100b.
The connection detection unit 110a detects the external device 2a connected to the USB port 100a, and the connection detection unit 110b detects the external device 2b connected to the USB port 100b. At this time, the connection detection unit 110a reads the connection information 500a stored in the storage unit 19, and when the external device 2a is connected at the time of shifting to the power saving state, the detection of the external device 2a is postponed. And Similarly, the connection detection unit 110b reads the connection information 500b stored in the storage unit 19, and when the external device 2b is connected at the time of shifting to the power saving state, the detection of the external device 2b is postponed. And As a result, it is possible to detect the external device 2 from the connection detection unit 110 corresponding to the USB port 100 to which the external device 2 was not connected at the time of shifting to the power saving state.

The power saving processing unit 120 waits for a response from the external device 2 when the external device 2 is detected by the connection detection unit 110 when returning from the power saving state, and when the external device 2 is not detected. Returns without waiting for a response from the external device 2. In the example of FIG. 2, the power saving processing unit 120 determines whether or not to wait for a response from the external devices 2a and 2b based on the detection of the external devices 2a and 2b from the connection detection units 110a and 110b.
In addition, the power saving processing unit 120 causes the connection detection unit 110a to store the connection information 500a of the external device 2a to the USB port 100a in the storage unit 19 and the connection detection unit 110b to the USB port when shifting to the power saving state. Connection information 500b of the external device 2a to 100b is stored in the storage unit 19.
In addition, the power saving processing unit 120 uses the connection information 500a and 500b stored in the storage unit 19 from the connection detection unit 110 corresponding to the USB port 100 to which the external device 2 is not connected when shifting to the power saving state. First, the external device 2 is detected.

  The connection information 500 is information indicating whether or not the external device 2 is connected to each USB port 100 and stored in the storage unit 19 when shifting to the power saving state. The connection information 500a is information on the external device 2a to the USB port 100a. The connection information 500b is information on the external device 2b to the USB port 100b.

The detection order list 510 is data such as a queue indicating the order of which USB port 100 causes the connection detection unit 110 to detect the external device 2 when returning from power saving. For example, the detection order list 510 includes a queue such as the order of addresses of the storage unit 19 corresponding to the USB port 100 as an initial value.
For the USB port 100 indicated in the connection information 500 that an external device is connected at the time of shifting to the power saving state, the detection order in the detection order list 510 is changed to be postponed. As a result, it is possible to detect the external device 2 from the connection detection unit 110 corresponding to the USB port 100 to which the external device 2 was not connected at the time of shifting to the power saving state.

Here, the control unit 10 and the image processing unit 11 of the image forming apparatus 1 function as the power saving processing unit 120 by executing the control program stored in the storage unit 19.
The storage unit 19 of the image forming apparatus 1 functions as an external device connection information storage unit that stores connection information 500 of the external device 2 connected to the USB port 100.
Each unit of the image forming apparatus 1 is a hardware resource for executing the image forming method of the present invention.

[Operation of Image Forming Apparatus 1]
Next, the operation of the image forming apparatus 1 according to the embodiment of the present invention will be described with reference to FIG.
The document reading unit 12 is arranged on the upper part of the main body unit 14, and the document feeding unit 13 is arranged on the upper side of the document reading unit 12. The stack tray 50 is disposed on the recording paper discharge port 41 side formed in the main body unit 14, and the operation panel unit 16 is disposed on the front side of the image forming apparatus 1.

The document reading unit 12 includes a scanner 12a, a platen glass 12b, and a document reading slit 12c. The scanner 12 a includes an exposure lamp, a CCD (Charge Coupled Device), a CMOS (Complementary Metal Oxide Semiconductor) imaging sensor, and the like, and is configured to be movable in the document transport direction by the document feeder 13.
The platen glass 12b is an original table made of a transparent member such as glass. The document reading slit 12 c has a slit formed in a direction orthogonal to the document transport direction by the document feeding unit 13.

When reading a document placed on the platen glass 12b, the scanner 12a is moved to a position facing the platen glass 12b, and reads the document while scanning the document placed on the platen glass 12b to obtain image data. The acquired image data is output to the main body unit 14.
When reading the document conveyed by the document feeding unit 13, the scanner 12a is moved to a position facing the document reading slit 12c, and the document feeding unit 13 conveys the document through the document reading slit 12c. The document is read in synchronization with the operation to acquire image data, and the acquired image data is output to the main body unit 14.

The document feeding unit 13 includes a document placement unit 13a, a document discharge unit 13b, and a document transport mechanism 13c. The originals placed on the original placement unit 13a are sequentially fed out one by one by the original conveyance mechanism 13c, conveyed to a position facing the original reading slit 12c, and then discharged to the original discharge unit 13b.
The document feeding unit 13 is configured to be retractable, and the upper surface of the platen glass 12b can be opened by lifting the document feeding unit 13 upward.

The main body 14 includes the image forming unit 17, and includes a paper feeding unit 42, a paper conveyance path 43, a conveyance roller 44, and a discharge roller 45. The paper feed unit 42 includes a plurality of paper feed cassettes 421 that store recording papers of different sizes or orientations, and a paper feed roller 422 that feeds the recording papers one by one from the paper feed cassette 421 to the paper transport path 43. Yes. The paper feed roller 422, the transport roller 44, and the discharge roller 45 function as a transport unit. The recording paper is conveyed by this conveyance unit.
The recording paper fed to the paper transport path 43 by the paper feed roller 422 is transported to the image forming unit 17 by the transport roller 44. Then, the recording paper on which recording is performed by the image forming unit 17 is discharged to the stack tray 50 by the discharge roller 45.

  The image forming unit 17 includes a photosensitive drum 17a, an exposure unit 17b, a developing unit 17c, a transfer unit 17d, and a fixing unit 17e. The exposure unit 17b is an optical unit including a laser device, a mirror, a lens, an LED array, and the like. The exposure unit 17b outputs light or the like based on image data to expose the photosensitive drum 17a, and the surface of the photosensitive drum 17a is statically exposed. An electrostatic latent image is formed. The developing unit 17c is a developing unit that develops the electrostatic latent image formed on the photosensitive drum 17a using toner, and forms a toner image based on the electrostatic latent image on the photosensitive drum 17a. The transfer unit 17d transfers the toner image formed on the photosensitive drum 17a by the developing unit 17c to a recording sheet. The fixing unit 17e heats the recording paper on which the toner image is transferred by the transfer unit 17d to fix the toner image on the recording paper.

[Power Saving Transition Process by Image Forming Apparatus 1]
Next, with reference to FIG. 4, the power saving transition process according to the embodiment of the image forming apparatus 1 of the present invention will be described.
In the power saving transition process, when the image forming apparatus 1 shifts to power saving by a user instruction or a timer (not shown), the connection information 500 of the external device 2 connected to the USB port 100 is stored in the storage unit 19. Remember.
In this process, the control unit 10 mainly executes a program stored in the storage unit 19 using hardware resources in cooperation with each unit.
Hereinafter, the power saving transition process will be described step by step with reference to the flowchart of FIG.

(Step S101)
First, the control unit 10 performs connection information storage processing by the power saving processing unit 120.
The control unit 10 acquires, as connection information 500, whether or not the external device 2 is connected to each USB port 100, that is, “Yes” or “No” of the connection. At this time, the control unit 10 may create the connection information 500 from the data stored in the storage unit 19 as a result of actually communicating with the external device 2. The control unit 10 may confirm that the external device 2 is actually connected by the connection detection unit 110.
The control unit 10 stores the acquired connection information 500 in the storage unit 19 in association with the USB port 100. In the example of FIG. 2, the control unit 10 stores connection information 500a corresponding to the USB port 100a and connection information 500b corresponding to the USB port 100b in the storage unit 19.
When the connection information 500 is created from data stored in the storage unit 19 as a result of actual communication with the external device 2, the control unit 10 also stores the type and state of the USB device in the connection information 500. You may include and acquire.

(Step S102)
Next, the control unit 10 determines whether or not the power saving processing unit 120 has stored the connection information 500 of the USB port 100 for all ports.
If yes, that is, if the connection information 500 is stored in the storage unit 19 for all ports, the control unit 10 advances the process to step S103.
No, that is, when the connection information 500 is not yet stored for all the ports, the control unit 10 returns the process to step S101. And the control part 10 continues the process which memorize | stores about the port which has not memorize | stored the connection information 500 yet.

(Step S103)
When all the connection information 500 of the USB port 100 is stored, the control unit 10 causes the power saving processing unit 120 to perform power saving state transition processing.
Here, first, the control unit 10 disconnects all the external devices 2. For example, when the external device 2 is a USB memory, a USB external HDD, or the like, the control unit 10 writes the contents of the write-back cache and then turns off the power of the VBUS line. Depending on the setting of the storage unit 19, 5 V may be supplied to the VBUS line of the USB port 100 for USB charging.
In addition, the control unit 10 disconnects the power source of the image forming unit 17 and the like that consumes a large amount of power. On this basis, the control unit 10 itself also shifts to a sleep state where power consumption is low. At this time, the control unit 10 supplies power to the network transmission / reception unit 15 and recovery means such as a timer (not shown). Further, the control unit 10 saves the contents of the registers and the like, and the RAM of the storage unit 19 is made to hold the memory contents itself by self-refresh and the like, and the power supply of the HDD of the storage unit 19 is turned off. .
Thus, the power saving transition process according to the embodiment of the present invention is completed.

[Power Saving Return Processing by Image Forming Apparatus 1]
Next, with reference to FIG. 5, the power saving return processing according to the embodiment of the image forming apparatus 1 of the present invention will be described.
In the power saving return process, the connection information 500 stored in the storage unit 19 for each USB port 100 is read, the connection detection unit 110 detects the connection state of the external device 2, and the power saving state is restored at high speed.
In this process, the control unit 10 mainly executes a program stored in the storage unit 19 using hardware resources in cooperation with each unit.
Hereinafter, the power saving return process will be described step by step with reference to the flowchart of FIG.

(Step S200)
First, the control unit 10 performs an initialization process using the power saving processing unit 120.
The control unit 10 is activated from the power saving state by a signal from the network transmission / reception unit 15, a timer signal (not shown), a button on the operation panel 16, a user instruction signal by IC card authentication (not shown), or the like. Start returning.
The control unit 10 supplies power to each unit such as the image forming unit 17 and performs various initialization processes.
The control unit 10 restores the RAM and the like of the storage unit 19 from the self-refresh state, and supplies power to the HDD and the like of the storage unit 19. As a result, the storage unit 19 becomes readable and writable from the control unit 10.

(Step S201)
Next, the control unit 10 performs port power supply processing by the power saving processing unit 120.
The control unit 10 supplies power to the VBUS lines of all USB ports 100. Thereby, when the external device 2 is connected to the USB port 100, the activation is started.
Note that a signal such as a reset is transmitted to the USB port 100 that has been supplied with power to the VBUS line even in the power saving state due to the setting or the like.

(Step S202)
Next, the control unit 10 performs connection information read processing by the power saving processing unit 120.
The control unit 10 selects any one of the USB ports 100 in the order shown in the detection order list 510, and reads the connection information 500 corresponding to the selected USB port 100 from the storage unit 19.

(Step S203)
Next, the control unit 10 determines whether or not the port is connected by the power saving processing unit 120. When the connection information 500 is acquired in the power saving transition process (FIG. 4) described above, that is, when the control unit 10 shifts to the power saving state, the external device 2 corresponding to the selected USB port 100 is connected. If yes, it is determined as Yes. Similarly, the control unit 10 determines No when the external device 2 corresponding to the USB port 100 selected at the time of shifting to power saving is not connected. In addition to this, the control unit 10 determines the connection of the external device 2, and also determines No for the USB port 100 whose order has been deferred once in the deferred order process described below.
In the case of Yes, the control part 10 advances a process to step S204.
In No, the control part 10 advances a process to step S205.

(Step S204)
When the external device 2 is connected to the selected USB port 100 at the time of shifting to power saving, the control unit 10 causes the power saving processing unit 120 to perform post-order processing.
The control unit 10 changes the order of the USB port 100 to which the external device 2 has already been connected so that it becomes the last in the queue of the detection order list 510. As a result, the control unit 10 detects the external device 2 from the connection detection unit 110 corresponding to the USB port 100 to which the external device 2 was not connected at the time of shifting to the power saving state, as will be described later. . In the example of FIG. 2, when the external device 2a is not detected, the control unit 10 continues the recovery process without waiting for a response from the external device 2a. Similarly, when the external device 2b is not detected, the return process is continued without waiting for a response from the external device 2b.
Thereafter, the control unit 10 returns the process to step S202 and proceeds with the process for the USB port 100 in the next order. As a result, while waiting for a response from the external device, it is possible to detect the USB port 100 connection that is highly likely not to be connected to the external device 2, and the time required for recovery can be shortened.

(Step S205)
When the external device 2 is not connected to the selected USB port 100 at the time of shifting to power saving or has been deferred, the control unit 10 causes the connection detection unit 110 to perform external device connection detection processing. .
The connection detection unit 110 displays the connection state as to whether or not the external device 2 corresponding to the selected USB port 100 is connected, changes in the signal of the optical sensor, changes in the signal due to on / off of the switch, VBUS line It is detected based on the presence or absence of current and voltage change.
Note that the connection detection unit 110 may detect the connection of the external device 2 before supplying power to the VBUS line.

(Step S206)
Next, the control unit 10 determines whether the connection of the external device 2 is detected by the power saving processing unit 120.
The control unit 10 determines Yes when the corresponding connection detection unit 110 detects that the external device 2 is connected to the selected USB port 100. The control unit 10 determines No when the external device 2 is not detected.
In the case of Yes, the control part 10 advances a process to step S208.
In No, the control part 10 advances a process to step S207.

(Step S207)
When the connection of the external device 2 is not detected to the selected USB port 100, the control unit 10 performs the external device disconnection process by the power saving processing unit 120.
The control unit 10 turns off the power supply to the VBUS line of the selected USB port 100. Further, the control unit 10 stores the connection information 500 corresponding to the USB port 100 in the storage unit 19 with “None” as to whether or not the connection information 500 is connected.
Thereafter, the control unit 10 advances the process to step S212.

(Step S208)
When the connection of the external device 2 is detected to the selected USB port 100, the control unit 10 performs a response waiting process using the power saving processing unit 120.
The control unit 10 waits for a predetermined time longer than one second until there is a response that the D + or D− line of the selected USB port 100 is pulled up. The predetermined time may be set to a time of about 5 seconds to 10 seconds, which is longer than before. That is, since the control unit 10 detects that the external device 2 is connected by the connection detection unit 110, the control unit 10 may wait for a response longer than before, and reliably wait for a response from the external device 2. It becomes possible.
In the example of FIG. 2, the control unit 10 waits for a response from the external device 2 a when the power saving processing unit 120 detects the external device 2 a by the connection detection unit 110 a. Similarly, when the external device 2b is detected by the connection detection unit 110b, the power saving processing unit 120 waits for a response from the external device 2b.
Note that the control unit 10 may continue the activation process by operating another thread during the response waiting time. At this time, the control unit 10 reads the type of the external device 2 connected at the time of shifting to the power saving state in the connection information 500, and preferentially returns to the response time of the external device 2 that seems to be slow in response. Processing may proceed.

(Step S209)
Next, the control unit 10 determines whether the power saving processing unit 120 has received a response from the external device 2.
The control unit 10 determines Yes when there is a response from the external device 2 connected to the selected USB port 100 while waiting for a predetermined time. The control unit 10 determines No when there is no response from the external device 2.
In the case of Yes, the control part 10 advances a process to step S210.
In No, the control part 10 advances a process to step S211.

(Step S210)
When there is a response from the external device 2, the control unit 10 causes the power saving processing unit 120 to perform external device communication processing.
After receiving the response, the control unit 10 transmits a reset signal from the selected USB port 100 to the external device 2 and performs communication such as device configuration. The control unit 10 acquires device information such as a device descriptor from the external device 2. The acquired information may be stored in the storage unit 19 and used for the connection information 500.
Further, the control unit 10 sets the presence / absence of connection of the connection information 500 corresponding to the USB port 100 to “present” and stores it in the storage unit 19.
Thereafter, the control unit 10 advances the process to step S212.

(Step S211)
When there is no response from the external device 2, the control unit 10 performs an error notification process using the power saving processing unit 120.
If there is no response from the external device 2 even after a predetermined time has elapsed, the control unit 10 determines that the external device 2 is faulty or a cable is defective, and notifies the operation panel unit 16 of an error display. The control unit 10 may transmit error information from the network transmission / reception unit 15 to an external terminal (not shown), a server, or the like.

(Step S212)
Here, the control unit 10 determines whether the power saving processing unit 120 has detected connections of all ports.
When the connection detection unit 110 detects the connection of the external device 2 for all the USB ports 100, the control unit 10 determines Yes. The control unit 10 determines No when the detection has not been completed for all the USB ports 100 yet.
In the case of Yes, the control part 10 advances a process to step S213.
In No, the control part 10 returns a process to step S202, and continues a process about the other USB port 100. FIG.

(Step S213)
When the connection of all the USB ports 100 is detected, the control unit 10 performs a return process.
After the initialization of each unit is completed, the control unit 10 restores the saved register, jumps to the address for the operation after the restoration of the control program developed on the RAM of the storage unit 19 that can be read out, and the like. . Thereby, the image forming apparatus 1 returns from the power saving state and continues the process before shifting to the power saving state.
Thus, the power saving return process according to the embodiment of the present invention is completed.

With the configuration described above, the following effects can be obtained.
Conventionally, although the technique of Patent Document 1 separately prepares a means for detecting connection of an external device, at the time of returning from the power saving state, even if the external device is not connected, the external device is at most about several seconds long. I had to wait for a response. For this reason, it takes time to return from the power saving state, and the convenience of the user is impaired.
On the other hand, the image forming apparatus 1 according to the present invention has a USB port 100 to which the external device 2 is connected, a connection state of the external device 2 to the USB port 100, a current / voltage of a photo sensor, a switch, a VBUS line, and the like. When the connection detection unit 110 detects that the external device 2 is not detected by the connection detection unit 110 when returning from the power saving state, the power saving state is restored without waiting for a response from the external device 2. And a power processing unit 120.
With this configuration, the image forming apparatus 1 according to the present embodiment does not have to wait for several seconds until a response is received when the external device 2 is not connected. For this reason, it becomes possible to return from the power saving state at high speed, and the convenience for the user can be improved.

In the conventional apparatus, when returning from the power saving state, if it takes longer than 1 second, which is the upper limit of the original response waiting time, after the power is supplied to the VBUS line, the external device responds. In some cases, it could not be detected in the process. In that case, it was erroneously detected that the external device did not exist or was removed during the power saving mode.
In contrast, when the connection detection unit 110 detects that the external device 2 is connected, the image forming apparatus 1 of the present embodiment is longer than the conventional device until there is a response from the external device 2. Wait for hours. For this reason, even if it is the external apparatus 2 with a slow response at the time of a return | restoration from a power saving state, it can prevent misdetection and can connect reliably.

Further, the image forming apparatus 1 of the present invention includes a plurality of USB ports 100 and connection detection units 110, and stores connection information 500 of the external device 2 to each USB port 100 at the time of shifting to the power saving state. A storage unit 19 is provided, and the external device 2 is detected from the connection detection unit 110 corresponding to the USB port 100 to which the external device 2 has not been connected at the time of shifting to the power saving state by the connection information 500 of the storage unit 19. It is characterized by.
With this configuration, it is possible to detect the external device 2 first by the connection detection unit 110 for the USB port 100 that is highly likely not connected to the external device 2 when returning from the power saving state. become. Therefore, it is possible to reliably detect the connection of the USB port 100 to which the external device 2 is not connected before the USB port 100 to which the other external device 2 is connected returns a response. As a result, it is possible to shorten the useless waiting time and speed up the start-up without reliably waiting for a response.
In addition, for example, it is possible to avoid a situation in which the external device 2a is connected to the USB port 100a while waiting for a response from the USB port 100b, thereby delaying activation. In addition, the power to the VBUS line of the connection detection unit 110 and the USB port 100 to which the external device 2 is not connected can be quickly cut off, and the power consumption can be suppressed.

In the above-described embodiment, it is described that the queue of the detection order list 510 is changed in the power saving return process of FIG. However, the control unit 10 may prepare a queue of the detection order list 510 depending on whether or not each USB port 100 is connected during the power saving transition process of FIG.
The control unit 10 can also include the type and state of the external device 2 in the connection information 500. Thereby, the control unit 10 further determines the order of detection of the connection state by the connection detection unit 110 according to the type of the external device 2 for the USB port 100 to which the external device 2 is connected at the time of shifting to the power saving state. It becomes possible to change. For example, when the external device 2 is a device with a slow response, such as a USB external HDD, the control unit 10 can reduce the response waiting time as a result by slowing the connection detection order. Become. Similarly, the control unit 10 stores the time from when the power is supplied to the VBUS to when there is a response from the external device 2 in the connection information 500, and sets the queue of the detection order list 510. May be.
Further, the control unit 10 may be configured to detect responses from a plurality of external devices 2 using another thread or the like. In such a configuration, the connection detection order of the connection state by the connection detection unit 110 is set to be faster for devices with a slow response, such as HDDs, so that other external devices 2 can be connected while waiting for a response. Detection, recovery, and the like can be performed, and the time until recovery from the power saving state can be further shortened.
Further, when there is a response from the external device 2 connected to another USB port 100 while waiting for a response and the control unit 10 fails to detect the response, the control unit 10 transmits a reset signal or the like to obtain a response again. Also good.
Further, after the connection detection unit 110 detects the connection of the external device 2, the control unit 10 may supply power to the VBUS to the USB port 100 in which the connection is detected. In addition, the control unit 10 may supply power to the VBUS separately after detecting connection to each USB port 100, without supplying power to the VBUS to all the USB ports 100 all at once.

  The present invention can also be applied to an information processing apparatus having a USB other than the image forming apparatus. That is, a configuration using a network scanner, a server in which the scanner is separately connected via USB, or the like may be used.

  Further, the configuration and operation of the above-described embodiment are examples, and it goes without saying that they can be appropriately modified and executed without departing from the gist of the present invention.

DESCRIPTION OF SYMBOLS 1 Image forming apparatus 2, 2a, 2b External apparatus 10 Control part 11 Image processing part 12 Original reading part 12a Scanner 12b Platen glass 12c Original reading slit 13 Original feeding part 13a Original placing part 13b Original discharge part 13c Original conveyance mechanism 14 Main unit 15 Network transmission / reception unit 16 Operation panel unit 17 Image forming unit 17a Photosensitive drum 17b Exposure unit 17c Development unit 17d Transfer unit 17e Fixing unit 19 Storage unit 41 Discharge port 42 Paper feed unit 43 Paper conveyance path 44 Conveyance roller 45 Discharge roller 50 Stack tray 100, 100a, 100b USB port 110, 110a, 110b Connection detection unit 120 Power saving processing unit 421 Paper feed cassette 422 Paper feed roller 500, 500a, 500b Connection information 510 Detection order list

Claims (3)

A USB port to which an external device is connected;
Connection detecting means for detecting a connection state of the external device to the USB port;
An image forming system comprising: a power saving processing unit configured to return without waiting for a response from the external device when an external device is not detected by the connection detecting unit when returning from the power saving state. apparatus. A plurality of the USB ports and the connection detection means are provided,
External device connection information storage means for storing connection information of the external device to each USB port at the time of transition to the power saving state,
The power saving processing means, from the connection detection means corresponding to the USB port to which the external device was not connected at the time of transition to the power saving state, based on the connection information of the external device connection information storage means, The image forming apparatus according to claim 1, wherein the external device is detected when returning from the power saving state. In an image forming method by an image forming apparatus,
When returning from the power saving state, the connection status of the external device is detected on the USB port.
When the external device is detected, it waits for a response from the external device, and when the external device is not detected, the return processing is continued without waiting for a response from the external device. Image forming method.

Images