JP3757306B2 - Multi-function device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a multi-function device, and more particularly to a multi-function device having a function of processing a video signal.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a multi-function device (multi-function device) having a printing function using a laser printer or a color ink-jet printer, a scanner function using a CCD, a copying function, a fax function, and a connection function with a personal computer is known.
[0003]
The multi-function device has a built-in memory, and various data are stored in the memory corresponding to various functions. For example, the built-in memory is used for FAX reception data memory, FAX transmission data memory, answering machine recording memory, answering machine response message memory, printer buffer memory, scanner buffer memory, image data storage memory Has been.
[0004]
The inventor has considered adding a function of inputting a video signal to perform video capture processing and outputting image data to a personal computer to the multi-function device as described above. In this case, the NTSC system is often used as the video signal. In this NTSC system, one field is a basic unit, and one field is composed of two fields. That is, since the NTSC system is interlaced, it becomes a 1/2 screen. An FIR (Finite Impulse Response) filter can be used to extract color information and luminance information in the NTSC system.
[0005]
[Problems to be solved by the invention]
However, when the color signal is extracted by the FIR filter in the above one field, the capacity of the memory used may be the minimum capacity (1/2 screen), but there is a disadvantage that the quality of the color signal is poor. That is, since one field is 1/2 screen, the resolution is low and the processing by the FIR filter is limited. Therefore, when one field signal is extracted by the FIR filter, the adjacent color information is compared and extracted. There is a disadvantage that the quality is not good.
[0006]
Next, if one screen is composed of one frame, that is, two fields, when a color signal is extracted by the FIR filter, a larger memory capacity is required than the one field, but the memory capacity is relatively small (1 The image quality is moderate. That is, the resolution is good, but the processing by the FIR filter is limited in terms of resolution and quality as in the case of one field.
[0007]
Further, in the case of an NTSC still image, if one screen is composed of two frames, that is, four fields, a color signal is extracted by the difference between the two screens. In the NTSC system, the phase is shifted by 180 degrees between the screens. Therefore, if the difference is taken, a large color signal can be obtained. For this reason, the image quality is good due to the effect of the frame difference, but there is a problem that the memory capacity needs to be increased.
[0008]
As described above, when a large amount of memory is required for each function of the multi-function device, taking a large amount of memory for conversion processing of video signals into image data is an inefficient use of the memory. In addition, if a dedicated memory is provided for image data, a high-speed and large-capacity memory is required for processing video signals, so a high-speed and large-capacity memory is expensive and the entire device There is a problem that leads to soaring.
[0009]
The present inventor made the present invention in view of the fact that a multi-function device uses a memory corresponding to various functions and rarely operates all the various functions simultaneously. is there.
[0010]
The present invention has been made to solve the above-described problems, and changes the conversion method to image data in accordance with the memory capacity that can be used in video signal processing, thereby effectively using the memory and improving the image quality of the image data. It is an object of the present invention to provide a multi-function device that can be configured at low cost.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, in the multi-function device of the invention according to claim 1, NTSC system Receiving means for receiving a video signal; converting means for converting the video signal received by the receiving means into image data; storing the image data converted by the converting means; and storing means used in other processing; Based on the detection means for detecting the usable capacity of the storage means, and the detection result of the detection means, Said Conversion method by conversion means Between a two-screen difference method that extracts color information and luminance information by a difference between two screens composed of two frames, and an FIR filter method that extracts color information and luminance information from one screen composed of one frame with an FIR filter. Switch Conversion method changing means.
[0012]
In the multi-function device configured as described above, the video signal is received by the reception unit, the conversion unit converts the video signal received by the reception unit into image data, and the storage unit stores the image data converted by the conversion unit. I do. The storage means is also used in other processes. The detection means detects the usable capacity of the storage means, and based on the detection result of the detection means, the conversion method change means The conversion method by the conversion means is a two-screen difference method for extracting color information and luminance information by a difference between two screens composed of two frames, and color information and luminance information from one screen composed of one frame by an FIR filter. Switch between taking FIR filter method .
[0013]
[0014]
[0015]
Claims 2 In the multi-function device of the invention according to claim 1 In addition to the configuration of the invention described in (2), the conversion method changing unit is configured such that the detection result of the usable capacity of the storage unit by the detection unit is equal to or greater than a first predetermined amount Said The conversion method is changed to a conversion method using a two-screen difference method.
[0016]
In the multi-function device configured as described above, when the detection result of the usable capacity of the storage unit by the detection unit is equal to or more than a first predetermined amount, the conversion method change unit changes the conversion method to a two-screen difference. Change to the conversion method using the method.
[0017]
And claims 3 In the multi-function device of the invention according to claim 1 Or 2 In addition to the configuration of the invention described in (2), the conversion method changing unit is configured such that the detection result of the usable capacity of the storage unit by the detection unit is less than a first predetermined amount and greater than or equal to a second predetermined amount. And 2 fields In the above Using FIR filter method Ru It is the structure characterized by changing to the conversion method.
[0018]
In the multi-function device configured as described above, when the detection result of the usable capacity of the storage unit by the detection unit is less than the first predetermined amount and greater than or equal to the second predetermined amount, the conversion method changing unit is , The conversion method is 2 fields In the above Using FIR filter method Ru Change to the conversion method.
[0019]
Claims 4 In the multi-function device of the invention according to claim 1 Thru 3 In addition to the configuration of any of the inventions described above, the conversion method changing unit has a detection result of the usable capacity of the storage unit by the detecting unit being less than a second predetermined amount and not less than a third predetermined amount. 1 field In the above Using FIR filter method Ru It is the structure characterized by changing to the conversion method.
[0020]
In the multi-function device configured as described above, when the detection result of the usable capacity of the storage unit by the detection unit is less than the second predetermined amount and greater than or equal to the third predetermined amount, the conversion method changing unit is , Conversion method 1 field In the above Using FIR filter method Ru Change to the conversion method.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the present embodiment, a case where a multi-function facsimile apparatus as a multi-function apparatus is used will be specifically described. FIG. 1 is a block diagram showing a schematic configuration of a multi-function facsimile apparatus as an embodiment of the multi-function apparatus according to the present invention.
[0022]
In general, the multi-function facsimile apparatus 2 as a multi-function apparatus is provided with an operation panel 56 as shown in FIG. A display unit (not shown), a fine lamp, a super fine lamp, a toner remaining amount display unit, and the like are provided on the rear portion (not shown) of the operation panel 56 of the main body of the multifunctional facsimile apparatus 2. A numeric keypad, a start key, a stop key, a copy key, and the like are provided. Further, various operation keys such as a set key, a clear key, a resolution key, a cursor key, and function keys are provided in the intermediate portion.
[0023]
Then, the state of the facsimile apparatus 2 and the operation procedure are displayed on the display. The numeric keypad is operated to select a function of the facsimile apparatus 2 in addition to the case of inputting the facsimile number of the facsimile apparatus 34 of the transmission destination shown in FIG. The start key is a key for instructing the start of the function, and the stop key is a key for instructing the stop of the function. The copy key is a key for instructing to start reading a document when the facsimile apparatus 2 is used as a copying machine. The cursor key is a key that is operated when the cursor in the display is moved or when a function is selected.
[0024]
The function key is a key for instructing the start of display of various functions that can be executed in the facsimile apparatus 2, and the selection of the function is performed by operating a numeric keypad, a cursor key, or the like. The set key is a key that is operated when instructing a decision to select a function or the like.
[0025]
The resolution key is a key for selecting a resolution in the image reading device 22 of the facsimile apparatus 2 shown in FIG. The resolution is set to standard by default. In that case, neither the fine lamp nor the super fine lamp is lit. Fine is set by pressing the resolution key once and the fine lamp is turned on. When the button is pressed twice, the super fine is set, the fine lamp is turned off, and the super fine lamp is turned on. Further, when pressed three times, halftone is set, and both lamps are turned on to display the halftone setting. The gradation level of the halftone is set to a predetermined gradation (for example, 16 gradations and 32 gradations) by operating the function keys, numeric keys, cursor keys, and the like. The toner level indicator is off when the toner level is full, but flashes when near empty (approaching empty) and remains on when empty. Is done.
[0026]
Further, as shown in FIG. 1, the facsimile apparatus 2 according to the present embodiment is provided with a control unit 4. The control unit 4 includes a CPU 6 as a processing device, a RAM 8 as a memory (storage means), a ROM 10, and an EEPROM 12. In addition to the control circuit 14, a transmission / reception control circuit 16, a modem 18, a binarization circuit 20 and the like are provided.
[0027]
The control circuit 14 is provided with a reading control unit 48, a video control unit 50, a recording control unit 52, and a memory management unit 54. The recording control unit 52 is connected to the printer mechanism 42. The printer mechanism 42 may be of any type such as a leather printer type, an ink jet type, or a toner jet type. In addition, a color system is required for color image printing processing, and a color inkjet printer is particularly preferable. However, when a monochrome image printout is sufficient, a monochrome leather printer type, an ink jet type, or a toner jet type may be used.
[0028]
In addition, the control circuit 14 is provided with a DMAC (direcy memory access controller), a latch mechanism, a parallel / serial conversion circuit, and the like which are not shown. The DMAC performs direct memory access between the RAM 8 and the control circuit 14 and between the control circuit 14 and the recording control unit 52 without using the CPU 6. When a laser beam is detected by a beam detector BD (not shown), the DMAC issues a transfer data transmission request signal to the CPU 6. Thereby, the head address of the data to be transferred and the number of transfer data bytes are set in the DMAC by the CPU. The instructed data is transferred from the RAM 8 to the control circuit 14 byte by byte. The data is held by a latch mechanism, serially converted by a parallel / serial conversion circuit, and transferred to the recording control unit 52 side.
[0029]
The control circuit 14 is connected to an image reading device 22 and a speaker 24, and is connected to an external line 28 via a network control unit (hereinafter abbreviated as NCU) 26. In the present embodiment, a partner facsimile machine (hereinafter abbreviated as a partner device) 34 and a partner telephone 36 are connected to the external line 28 via a switch and external lines 30 and 32. The external lines 28, 30, and 32 include general subscriber telephone lines, ISDN lines, and dedicated lines.
[0030]
The binarization circuit 20 is a circuit that converts read image data read by the image reading device 22 such as the CCD sensor 46 into binarized data.
[0031]
In the image reading device 22, when the original is read by irradiating the original with light from the light source using the CCD sensor 46, uneven illumination on the original of the light source (for example, the central portion of the original is bright and the peripheral portion is May occur). Therefore, the output voltage value of the CCD sensor 46 may not accurately correspond to the shade of each pixel on the document. In order to cope with this inconvenience, in the facsimile apparatus 2, the threshold value is determined according to the unevenness of illuminance and the like, and is stored in a table in the threshold value data memory of the EEPROM 12. Transfer of threshold data from the EEPROM 12 to the control circuit 14 is also controlled by the DMAC.
[0032]
That is, the analog output voltage value supplied from the image reading device 22 such as the CCD sensor 46 is larger than the threshold value data (converted from the digital value to the analog signal in the binarization circuit 20). The dot data is created by setting it to 0 (white) if it is large and black (1) if it is small. Further, when halftone is selected by operating the resolution key on the operation panel 56, it is converted into dot data based on the dither matrix.
[0033]
When the multi-function device 2 and the partner device 34 are connected, the transmission / reception control circuit 16 exchanges communication-related information such as facsimile numbers of both sides and transmission parameters such as resolution with the partner device 34. Circuit.
[0034]
Further, the modem 18 modulates a digital signal into an analog signal and outputs it to the external lines 28, 30 and 32 via the NCU 26, and demodulates the analog signal input from the external line 28 via the NCU 26 into a digital signal. Is. Therefore, a modulation / demodulation mechanism is provided. In addition to the modulation / demodulation mechanism, a voice synthesis mechanism for synthesizing voice, a modem reception data buffer, a modem transmission data buffer, and the like are also provided.
[0035]
When 8-bit data is stored in the modem reception data buffer in the modem 18, the data is read by the control unit 4 by interruption and stored in the FAX side reception data buffer in the RAM 8. This FAX-side received data buffer changes depending on the usable capacity of the RAM 8. The NCU 26 automatically receives a call from the partner device 34 when receiving data, and automatically makes a call to the partner when transmitting data.
[0036]
A RAM 8 as a memory (storage device) includes a FAX side reception data buffer, a FAX side transmission data buffer, a read image data buffer, a VTR data buffer for storing A / D converted NTSC signals, an answering machine recording memory, an answering machine Telephone response message memory, encoding buffer, decoding buffer, recording unit input data buffer, recording unit output data buffer, communication related information memory, one-line dot data buffer, destination dial memory, report recording request flag, transmission Medium flag, transmission temporary buffer, recording flag, leading edge flag, decoding management table, recording instruction flag, one-page recording end flag, recording end detection flag, paper or status detection flag, no recording paper status detection flag, recording wait flag , Recurrence required flag, no cartridge detection flag, Coded page counter, recording page counter, recording line number counter, decoding management page pointer, recording management page pointer, PC side input data buffer, PC data recording request flag recording temporary buffer, recording buffer, FAX section input data buffer A FAX section output data buffer, a FAX data recording request flag, an image reading data recording request flag, a recording / transmission flag, a transmission only flag, and the like are provided.
[0037]
Further, the RAM 8 is provided with a recording end data memory, a paper or status data memory, a no recording paper status data memory, and a no cartridge status data memory. Further, the program memory in the ROM 10 includes a message output program, an automatic report request generation program, a report recording control program, a reception interrupt program, a decoding program, an interrupt A, B, C program, a recording one-line interruption program, a code Program, data interrupt transmission program, pattern memory storing pattern for converting character data to dot data, parallel data recording program, one-page recording start processing program, one-page recording end processing program, decoding FAX section An output program, a toner remaining amount corresponding recording control program, a toner remaining amount interrupt detection program, a FAX apparatus state corresponding output control program, and the like are stored.
[0038]
The EEPROM 12 is provided with a no-cartridge flag, an empty flag, a near empty flag, and the like in addition to the above-described threshold data memory and a registration dial memory for storing a telephone number of a destination to which the facsimile apparatus 2 status information is transmitted. Yes.
[0039]
The recording control unit 52 is connected to a toner remaining amount detection device, a recording paper sensor, a BD sensor, an upstream sensor (front end sensor), a downstream sensor (discharge sensor), and the like, which are not shown, and a laser emission unit and a drive circuit. A drum motor is connected via The photosensitive drum and the rotating shaft are rotated synchronously by the drum motor.
[0040]
The control circuit 14 is connected to a personal computer (PC) 40 via a PC interface 38. In the PC 40, image data is input using a keyboard or the like and stored in the image data memory of the RAM. Recording is instructed by key operation on the keyboard according to the display on the display. The PC 40 stores character data and dot data as image data in the image data memory, and outputs the character data and dot data to the facsimile apparatus 2.
[0041]
In the facsimile apparatus 2 configured as described above, the image data output from the PC 40 is recorded, transmitted to the partner apparatus 34, received image data transmitted from the partner apparatus 34 and received by the facsimile apparatus 2, and the CCD sensor 46. The read image data read by the image reading device 22 including the image data according to the above, the image data converted from the video signal input from the VTR 44 to the video signal input terminal 60, the image data corresponding to the processing communication related information, etc. Is done.
[0042]
In the facsimile apparatus 2 of the present embodiment, in order to simplify the description of the above components, when the image data captured from the CCD sensor 46 remains in the RAM 8, the video signal input terminal 60 from the VTR 44. An example in which processing for converting color information, luminance information, and extracted image data from the NTSC signal input to the image data will be described.
[0043]
This embodiment will be described with reference to FIGS. FIG. 2 is a flowchart showing an example of processing for converting color information, luminance information, and extracted image data from the NTSC signal input to the video signal input terminal 60.
[0044]
As shown in the block diagram of FIG. 1, the CCD sensor 46 is controlled by a reading control unit 48 of the control circuit 14. Data captured by the CCD sensor 46 is stored in the RAM 8 via the memory management unit 54. When data in the RAM 8 is output to the printer 42, the data is output to the printer 42 via the recording control unit 52. On the other hand, in the case of FAX output, the data stored in the RAM 8 is subjected to FAX code compression by the transmission / reception control circuit 16 and output to the partner apparatus 34 via the modem 18 and the NCU 26.
[0045]
Here, when the data captured by the CCD sensor 46 is still stored in the RAM 8, it is converted into image data in which color information and luminance information are extracted from the NTSC signal input to the video signal input terminal 60. The case where is done will be described.
[0046]
The video signal input terminal 60 is connected to the video control unit 50, and an NTSC video signal input from the external VTR 44 to the video signal input terminal 60 is A / D converted (analog / digital converted) by the memory management unit 54. ) To be taken into the VTR data buffer of the RAM 8. The video signal after A / D conversion captured in the VTR data buffer of the RAM 8 is processed by changing the conversion method to image data according to the memory capacity available for video capture (extraction of color information and luminance information). Is done.
[0047]
Here, the memory capacity that can be used for video capture (extraction of color information and luminance information) refers to the remaining capacity of the storage area of the RAM 8 excluding the capacity already used in other processes. In the present embodiment, since the data captured by the CCD sensor 46 is already stored in the RAM 8, the usable memory capacity in the storage area of the RAM 8 is reduced accordingly.
[0048]
In other words, the memory management unit 54 manages the FIR filter processing so that the number of fields in the FIR filter processing is increased according to the memory capacity that can be used for video capture of video signals (extraction of color information and luminance information). In the present embodiment, the field is described as an example of 240 × 840 = 201600 bytes. That is, if the field is 240 × 840 = 201600 bytes, the memory capacity required for video capture is 240 × 840 = 201600 bytes for one field, 1 frame = 1 field × 2 = 403200 bytes, 2 frames = 1 frame. X2 = 806400 bytes.
[0049]
In this embodiment, when the memory capacity of the RAM 8 is 1 megabyte, for example, 100 Kbytes are used for the common area, and the remaining 900 Kbytes are used for other various functions and video capture processing. Here, the memory used in the common area is a basic memory area necessary for operating each function of the multi-function device targeted by the present invention.
[0050]
A predetermined procedure for memory management when the memory required for the field is as described above will be described with reference to the flowchart of FIG. Although the capture button is not shown, it is provided on the operation panel 56.
[0051]
First, it is determined whether or not the capture button has been pressed (S1). If the capture button has been pressed (S1: YES), it is determined whether or not video input has been performed (S2). If the capture button is not pressed (S1: No), the process waits until the capture button is pressed (S1 becomes Yes).
[0052]
When a video is input (S2: YES), a memory capacity usable for video capture is acquired (S3). That is, here, the remaining memory capacity that is not used in the RAM 8 when the filtering process is performed on the capacity of the NTSC signal that is input as video is obtained as the memory capacity that can be used for video capture. Here, when there is no video input (S2: No), the process of step S1 and step S2 is repeated until there is a video input (S2: YES).
[0053]
When the memory capacity that can be used for video capture is acquired (S3), it is next determined whether or not the usable memory capacity is 806400 bytes or more (S4). In the case of 806400 bytes or more (S4: YES), processing by the two-frame difference method is set (S5).
[0054]
If the usable memory capacity is less than 806400 bytes (S4: NO), it is determined whether the usable memory capacity is 403200 bytes or more (S6). If the available memory is 403200 bytes or more (S4: No, S6: YES), a two-field FIR filter is set (S7).
[0055]
When the usable memory capacity is less than 403200 bytes (S4: No, S6: NO), it is determined whether the usable memory capacity is 201600 bytes or more (S8). When the usable memory capacity is 201600 bytes or more (S4: No, S6: No, S8: YES), a one-field FIR filter is set (S9).
[0056]
Then, after setting the image processing conditions, color information and luminance information are captured as digital data (S11), and then the process returns to step S1. Note that the color information and luminance information captured in S11 are output to the personal computer (PC) 40 via the PC interface 38.
[0057]
If the available memory is less than 201600 bytes (S4: No, S6: No, S8: No), an error message is displayed because the minimum memory capacity is insufficient (S10), and the process of step S1 Return to.
[0058]
As described above, in the case of the NTSC system, color information and luminance information are extracted using an FIR filter. At this time, signal processing is changed according to the memory capacity that can be used for video capture processing of a video signal. For example, when the memory capacity is small (in this embodiment, less than 403200 bytes and more than 201600 bytes), the color signal is extracted by the FIR filter with a minimum of one field.
[0059]
Also, when there is a certain margin in the memory compared to the case of 1 field (in the case of this embodiment, less than 806400 bytes and 403200 bytes or more), it is possible to cope by configuring one screen, that is, 2 fields. can do. Furthermore, when there is a lot of memory (in this embodiment, the usable memory capacity is 806400 bytes or more), one screen can be composed of two frames, that is, four fields. Processing for extracting signals can be performed, and processing with good image quality (frame difference effect) can be performed. Note that one screen can be composed of two frames in the case of a still image.
[0060]
As described above, in the multi-function device, a memory is used corresponding to various functions. However, since all of the various functions rarely operate at the same time, the memory capacity of the memory included in the multi-function device Since the signal processing for conversion into image data is changed according to the usable memory capacity, color information and luminance information are extracted in an optimal state according to the usable memory capacity. Therefore, the memory can be effectively used. For this reason, unlike a memory in which a predetermined capacity is set in advance for processing a video signal, it is possible to effectively use the memory to improve the video image quality and to configure the apparatus at a low cost.
[0061]
When the capture button (switch) is pressed, the presence / absence of input of image information is detected. When the input of image information is detected, the usable memory capacity is detected and a signal corresponding to the usable memory capacity is detected. Since it is configured to perform video capture of the video signal after determining the processing mode, when the capture button is not pressed or when image information is not input, the operation related to video processing is not activated, and other than video signal processing It is possible to secure sufficient memory for other functions.
[0062]
In the above embodiment, the case where the video capture process is performed when the image data captured from the CCD sensor 46 remains in the RAM 8 is described. However, the present invention is not limited to this, and the memory of the RAM 8 is used by the various functions described above. This is the same when video capture is performed. In the above embodiment, an example in which 1 megabyte is used as a memory is shown. However, the present invention is not limited to this, and a memory of 2 megabytes or more may be used. Further, the RAM 8 is described as an example of the memory, but the present invention is not limited to this, and a predetermined additional RAM or the like can be used. Furthermore, although the video signal has been described in the case of the NTSC system, it can be processed in the same manner as in the above embodiment even in the case of the PAL system and the SECOM system.
[0063]
【The invention's effect】
As described above, in the multi-function device according to the first aspect of the present invention, the receiving means NTSC system The video signal is received, the converting means converts the video signal received by the receiving means into image data, and the storage means can store the image data converted by the converting means. Although the storage means is also used in other processes, the detection means detects the capacity that can be used for the process of converting the video signal into image data among the capacity of the storage means, and the detection result of the detection means On the basis of the conversion method change means Between a two-screen difference method that extracts color information and luminance information by a difference between two screens composed of two frames, and an FIR filter method that extracts color information and luminance information from one screen composed of one frame with an FIR filter. Switch be able to. Accordingly, it is possible to extract color information and luminance information from the video signal by an optimum method in accordance with the free capacity of the storage means, that is, the capacity that can be used for the processing for converting the video signal into image data. Therefore, the memory of the storage unit can be effectively used, and the image quality of the image data can be improved and the multi-function device can be configured at low cost.
[0064]
[0065]
Claims 2 In the multifunction device of the invention according to In addition to the effect of the invention according to claim 1, When the detection result of the usable capacity of the storage unit by the detection unit is equal to or more than the first predetermined amount, the conversion method changing unit changes the conversion method. Said The conversion method using the two-screen difference method can be changed.
[0066]
And claims 3 In the multifunction device of the invention according to In addition to the effect of the invention according to claim 1 or 2, When the detection result of the usable capacity of the storage unit by the detection unit is less than the first predetermined amount and greater than or equal to the second predetermined amount, the conversion method changing unit changes the conversion method to 2 fields. In the above Using FIR filter method Ru The conversion method can be changed.
[0067]
Claims 4 In the multifunction device of the invention according to In addition to the effect of the invention according to any one of claims 1 to 3, When the detection result of the usable capacity of the storage means by the detection means is less than the second predetermined amount and greater than or equal to the third predetermined amount, the conversion method changing means changes the conversion method to one field. In the above Using FIR filter method Ru The conversion method can be changed.
[0068]
Therefore, in the multi-function device of the present invention, it is possible to convert a video signal into image data by an optimal conversion method based on the usable capacity of the storage means. Therefore, the memory of the storage unit can be effectively used, and the image quality of the image data can be improved and the multi-function device can be configured at low cost.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a multi-function device according to an embodiment of the present invention.
FIG. 2 is a flowchart illustrating an example of processing related to image conversion of the multi-function device according to the embodiment of the invention.
[Explanation of symbols]
2 Multifunctional facsimile machine
4 Control unit
6 CPU
8 RAM
10 ROM
12 EEPROM
14 Control circuit
20 Binary circuit
34 Counterpart facsimile machine (partner unit)
44 VTR
46 CCD sensor
48 Reading controller
50 Video control unit
52 Recording control unit
54 Memory Management Department
56 Operation panel
60 Video signal input terminal

Claims (4)

Receiving means for receiving an NTSC video signal;
Conversion means for converting the video signal received by the receiving means into image data;
Storage of image data converted by the conversion means and storage means used in other processing;
Detection means for detecting a usable capacity of the storage means;
Based on the detection result of the detecting means, and two screens difference method to retrieve the color information and the luminance information by two screens a difference of consisting of conversion method two frames by the conversion means, from one screen composed of one frame A multi-function device comprising conversion method changing means for switching between FIR filter method for extracting color information and luminance information with an FIR filter . The conversion method change means a detection result of the available capacity of the storage means by said detecting means, when was the first predetermined amount or more, changing the conversion method using the two screens difference method The multi-function device according to claim 1 . The conversion method changing means, the detection means available space detection result of said storage means according to the first less than the predetermined amount, when was the second predetermined amount or more, the FIR filter method with two fields multifunctional device according to claim 1 or 2, characterized in that to change the conversion method Ru used. The conversion method change means a detection result of the available capacity of the storage means by said detecting means is less than the second predetermined amount, in the case it was a third predetermined amount or more, the one field FIR filter method multifunctional device according to any one of claims 1 to 3, characterized in that to change the conversion method Ru used.

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