TWI338280B - Pop-up digital multi-media array processing device - Google Patents

Description

IX. INSTRUCTIONS: FIELD OF THE INVENTION The present invention relates to a digital multimedia device, and more particularly to a touch-tone digital display multimedia array processing device for displaying an enlarged image by touch. [Prior Art] As a tool for artistic creation, digital technology has gradually become a trend since the end of the last century. If the work is the crystallization of the artist's creativity, then digital technology is a tool to help the artist's infinite imagination. With the rapid advancement of information technology and the paradigm shift of the knowledge economy, the digital content industry has become an area of information technology that is quite promising in innovation and application. In the era of rapid Internet access, digital technology is gradually affecting all aspects of human life. The meaning of various life functions may be qualitatively changed. It is precisely because of the evolution of digital technology that it leads to a new human life, which we call "digital life J; on the one hand, it converts devices that support traditional living functions into more convenient and efficient digital devices, on the other hand, it is digital. Technology derives a new quality of life. Therefore, digital life is both a traditional and a transformation of innovation, and it contains a change that has both human and technological significance. Digital life technology is to create a smart, perceptible, global The living space allows people who live in it to fully enjoy the benefits of digital technology. Therefore, important technical areas supporting digital life include: the exchange of information transmission technology information is the foundation of human life. Digital life will be based on one Global 1338280 information transmission network of sexuality, aggregation, universal access, mobility, etc. Digital cognitive technology cognition is based on the sensory information obtained by human beings, under the influence of self-knowledge and internal emotions, external events or The self-identification produced by the self-question, and according to the reaction or decision-making The operation of the life-related digital devices must have the cognitive ability of "personification" to enable human-computer interaction. Digital media processing technology Digital information in life, including audio and video images and text, will be presented and transmitted in a digital manner, so media processing technology is an important part. In this digital age full of computer information, all the changes and thinking are more than multiplied. "Digital Life refers to all aspects of human life, including food, when the Internet and multimedia technologies are becoming more and more popular. Clothing, housing, travel, education, and music will have the influence of Digital Technology, and its connotation will change qualitatively. The application of information technology will also be extended from pure professional operation to public operation. The changes in human life patterns will have significant human and scientific significance, and there are many issues to be studied. These research topics include cultural topics, legal topics, and educational topics in addition to engineering and technical topics. Subjects, art and entertainment topics, and psychology and the Duhui project. Therefore, it is necessary to combine research in multiple fields to promote the development of high-quality digital life. It will also have great industrial and human values. The purpose of the invention is to control the block 6 p38280 by touching the map. The execution processing of the road enables the viewer to immediately see that the enlarged image of the block touched has reached a one-touch effect. According to the above (4) of the present invention, a one-touch display digital multimedia array processing device is proposed. , including - an item, a "contact sensing unit, a multiplexer, a data control unit, a trigger circuit, and a display unit. The item is provided with (4) images and is distinguished by a plurality of blocks. The contact sensing list The array is arranged on the back of each block of the article, and a certain block of the article touches the external force, and then the contact sensing unit under the block is activated. The edge multiplexer is electrically connected to the contact sensing unit. The multiplexer has a decoding circuit and a control circuit. The data control unit is electrically connected to the multiplexer, and has a ut a data extractor for amplifying the image of each block in the block, and a pulse generator. The trigger circuit is electrically connected to the data control unit for triggering the data output by the data control unit The display unit is electrically connected to the trigger circuit for displaying an enlarged image in a certain block of the article. According to the above object of the present invention, an input interface and an output interface are further included. The input interface is connected thereto. Between the multiplexer and the data extractor, the name input interface is connected between the control circuit of the multiplexer and the data extractor of the data control unit π. The output interface is connected to the control circuit of the multiplexer Between the pulse generator and the data control unit of the data control unit. The invention places the contact sensor on the back side of the article, and when the touch sensor is touched, the signal processing and control of the multiplexer, the input interface and the output interface are used and processed. The data built into the data control unit is triggered by the trigger circuit 7 1338280, so that the magnified image of the block that is touched by the item can be displayed through the display, and the effect and purpose of the touch can be achieved. Embodiments Referring to Figure 1, a block diagram of a circuit of the present invention is shown. An embodiment of the touch-point display digital multimedia array processing device of the present invention comprises an article 100, a plurality of contact sensing units i 1 , a multiplexer 120 , an input interface 130 , an output interface 14 , and a The data control unit 150, a trigger circuit 160, and a display unit 17A. Referring to Fig. 2, a front view of the article 1 is shown. Referring to Fig. 3, there is shown a rear view in which three contact sensing units 11 are closely arranged on the back side of the article 1 . Refer to Figures 2 and 3. In this embodiment, the item i is a famous painting which draws a plurality of images to be connected in series to form a landscape. Moreover, this famous picture has a plurality of blocks 丨〇丨, and in this embodiment, there are two blocks 101. Referring to Fig. 4, there is shown a schematic diagram showing a magnified image 1〇〇 of the cell block 1〇2 in Fig. 2 by the display unit 170 of Fig. 1. Refer to Figure 3. In this embodiment, three contact sensing units 11 〇, which are generally referred to as a touch sensor panel, are provided corresponding to the above three blocks 1 〇 ]. Each of the contact sensing units 11 is composed of 80 array-array contact sensors Π 1 (sensor), and has a total of 240 sensors. The contact sensors η are arranged in an array and are closely placed on the back of each block 1〇 of the article 100. Since each of the contact sensing units 8 110 is provided with 80 pieces of contact sensors n丨, the three corresponding parts of the item 1〇〇 correspond to the contact sensing unit 110 in the block 1〇1 The cell block 102 of each contact sensor 111. In Fig. 2, the cell block 1 〇 2 range of the image is enlarged, and in fact, at least six contact sensors m connected to the array in Fig. 3 are provided. That is, when one of the contact sensors 111 is touched (or two or more of them are simultaneously pressed), a triggering action can be formed, and the purpose of enlarging the image of the block 102 in Fig. 2 is achieved. In addition, the image of the item 100 can be a flat image or a stereo image. The three-dimensional image includes three-dimensionally crafted and engraved crafts, or crafts of any sculpture. Refer to Figures 2 and 4. Therefore, as long as the hand touches a certain cell block 1〇2 of the item 100, a corresponding contact sensor 111' can be triggered to cause the image of the cell block 102 to display the cell block 102 via the display unit 17A. The image 100 is enlarged to further achieve the object of the present invention. As for the detailed use cases and results, detailed later. In the present embodiment, although the above-described contact sensing unit 110 is provided with three groups, the number of the contact sensing units 10 is increased or decreased depending on the size of the different famous paintings (items 100). Moreover, the number of contact sensors 111 of each contact sensing unit 110 is not the design focus of the present case. The number of contact sensors in each contact sensing unit 丨1 亦可 can also be changed in response to different usage requirements. In practical use, the contact sensing unit u 〇 has been modularized, so that the contact sensing unit 110 of a certain size number (ie, the contact sensor ιη) can be replaced as needed. In addition, the above-mentioned modularized contact 1338280 sensor single s 110' includes a sensing distance in addition to the number of sheets and the overall area. This sensing distance means the distance between the user's fingertips and the article 100. In accordance with the thickness of 1G () of different items (thickness of famous paintings or thick products of Weiyi), appropriate specifications can be selected to meet the needs of use and achieve the desired effect. Refer to Figure 1. The trigger circuit 160 is electrically connected to the data control unit 15 for triggering the data output by the data control unit 15 .

The display unit 170 is electrically connected to the trigger circuit 16 for amplifying the image of the block ι〇1 (cell block 1〇2) in an array of the objects 1 for display to the user for viewing. . The display unit 〖70 may be selected from any one of a projector, a liquid crystal display, a plasma display, a flat panel display, and a television. In the present embodiment, a porjector is used to project an enlarged image outward by a projector (Porjector) for viewing. Referring to Fig. 5, there is shown a schematic diagram of a circuit for trigger charging of the contact sensing unit of the present invention.

Referring to Fig. 6, a circuit diagram of the contact sensing unit Η 本 of the present invention is shown. Refer to Figures 5 and 6. The contact control unit 11 is a single-channel charge transfer (QT) sensor (or simply a single-channel charge transfer), that is, a touch sensor. The charge transfer sensor detects the body's dielectric to change the polarity of the capacitor for use as a switch for charging transfer capacitor contacts. Here, each contact sensing unit 110 is composed of a microprocessor 112 (or integrated circuit: 1C; this microprocessor 112 is generally referred to as MPU, or wafer, chip) and 10 plurality of contact sensors 111. The composition is shown in Fig. 6 as a single block with a plurality of contact sensors 111. In a hardware circuit, the contact sensors 111 are formed by a plurality of contacts arranged in an array arrangement on a circuit board (PCB) (not shown). This is a conventional technique. Let me repeat. In operation and use, when contacted by fingertips or palms, the human body naturally generates several hundred microfarads (Zf) to the local environment (CX3), and the capacitance between the surface sensor and the contact sensor 111 and the ground. (Cxi) forms a loop [Kirch〇ffs Laws in this electrical system. When the human body is near the electrode sensing area of the contact sensor 111, the charging and discharging effects of the capacitors (cxi, CX2, and Cx3) are generated. At this time, the chip generates an output signal to enter the measuring circuit. The charge on the contact sensor 111 is fixed by measuring the charge during one or more subsequent charge and transfer cycles. Charge transfer is performed using a MOSFET transistor microprocessor control switch (not shown) in burst mode. Therefore, as long as an object approaches the sensing area of the touch sensor 111 or directly contacts the surface of the contact sensor U1, a trigger is formed to determine that the contact sensor 丨u is touched. Refer to Figure 1. The multiplexer 120 is electrically connected to the contact sensing electrical units n〇. The multiplexer 120 has a decoding circuit pi and a control circuit 122. Referring to Fig. 7, a combined side view of the hardware circuit of the multiplexer 120 is shown. In this figure, it is only for explaining the combination mode of the actual hardware. As for the detailed hardware layout of the women's clothing, it is not the focus of the present invention, and there is no description here. The combination of the multiplexers 120 is formed by combining three circuit boards (pCB) 123, 1338280 124, 125 with a plurality of bolts 126 and a plurality of studs 127, and the invention has been described in FIG. 24 接触 contact sensors (1111). Refer to Figures 1 and 7. In addition, the circuit base plate 23 at the top receives the input signal of the first to eighth lines of the contact sensor 111 and connects the circuit substrate 124 and the circuit substrate 125 through the control circuit 122. In order to receive the data of all the contact sensors (sens〇r) 1丨i, and then output the signal together with the output signal of the circuit substrate 123 to the input interface 130 as an input signal of the computer (PC) to determine the triggered Which one is the sensor 111? The intermediate circuit substrate 124 is an input signal for receiving the 81st to 160th lines of the contact sensor 111, and transmits the data to the circuit substrate 125 through the control circuit 122. The bottom circuit substrate 125 receives an input signal of the 161st to 240th lines of the contact sensor (11), and transmits the data to the circuit board 123 through the control circuit 125. Referring to Fig. 8, a circuit diagram showing the operation of the signal of the single block circuit substrate (123 or 124 or 125) of Fig. 7 is shown. Refer to Figures 1, 7, and 8. When 80 sensor signals (corresponding to a certain piece of contact sensing unit 110) are input (that is, entered from the signal of Fig. 1) to the multiplexer 120, the first transmission is transmitted to the decoding circuit 丨 21 to be converted into

16 bits are given to the control circuit 122. Then, it is transmitted to the computer (PC) via the control circuit 122 for transmission to the USB adapter (ie, the input interface 130 and the output interface 140). In FIG. 8 , 80 (80 1^3) signals of 80 contact sensors 111 (36118〇18) of each contact sensing unit 11 are transmitted to the decoding circuit 121 of FIG. The operation of control circuit 122. In the present embodiment, the multiplexer 120 is composed of 15 ICs 74150 (ie, wafers 210). Referring to FIG. 7, each of the circuit substrates 123, 124, and 125 has five ICs (ie, wafers 210). A total of 15). Each ic 74150 is a 16-to-1 data selector (multiplexer, also known as data selector), which can use one of the 16 bits (clock signal) control signal to select one of the 16-bit input signals. For output. Each 1C 74150 has 16 lines to 1 line Data Input and 4 lines Data seleCt. Indicates that each IC 74150 can correspond to 16 contact sensors 111 (16 * 5 = 80 bits; 80 bits * 3 blocks of circuit board = 240 bits' to correspond to 240 contact sensors in) Therefore, 5 ICs will have 5 bhs output to the battery (PC), and 4 bits will input clock from the computer (PC) to the control circuit 122. Refer to Figures 1, 2 and 4. The data control unit 15 is electrically connected to the multiplexer 120. The data control unit 15A has a data selectr 151 having an enlarged pattern 100' of each of the cell blocks 1〇2 in the block 100 of the article 100, and A clock generator 152. Referring to Fig. 9, a hardware top view of a USB I/O control card (general serial input/output bus control) 200 is shown in the input interface 13 〇 and the output interface 140. In this embodiment, two USB control cards 200 (one output and one input are used, both of which have the same appearance), and FIG. 9 is a top view of a single-block USB I/O control card. Refer to Figures 1 and 9. The input interface j 3〇 is a universal serial input control circuit (USB Input). The output interface MO is a universal serial bus output control circuit (USB Output). This input interface 130 and the output interface 14 are commonly referred to as USB 1/〇. The input interface 13 is connected between the control circuit 122 of the oxime device 120 and the data extractor 151 of the data control unit i5 。. The output interface 14 is coupled between the control circuit 122 of the multiplexer and the pulse generator 152 of the data control unit wo. Here, the two pieces of USB I/O control card 200 are used to complete the operation of the entire data β, and the data of the data selector 151 is read by the input interface 13〇. The signal from the pulse generator (cl〇ck) 152 is passed back to the control circuit 122 via the output interface 14 to confirm the transmission. Because the USB I/O interface is hot-swappable, and each port is connected with a lifting resistor (not shown), it is suitable for the function and features of the low-level drive controlled body. Therefore, the present invention selects two sets of USB I/O interfaces for generating a 4 bits clock generator (152) and a 16 Mts data selector (data picker 151). The data capture device i5i and the pulse generator 152 select a set of USBI/〇 control cards 2, i.e., an input interface 13A and an output interface 140. In addition to speed and functionality, it also increases convenience. Therefore, the present invention can realize the performance of up to 16 bits/bit by using the USB to efficiently transmit the data of the data extractor 151. It also simplifies the simplification of program writing. The USB "◦ control card can be used to monitor computers (PCs) through general development programs (such as VB, VC, and Delphi). 1338280 Refer to Figure 9. The USB I/O control card 200 includes a USB chip 201, a USB connector (USB) 202, an I/O pin (JP4) 203, a 1/0 pin (JP2) 204, and an I/O pin. (JP1) 205, an I/O pin (JP6) 206, an I/O pin (JP7) 207, and a power LED (POWER LED) 208. Referring to Fig. 10, the pin configuration diagram of the I/O pin (JP4) 203 is shown. This I/O pin (JP4) 203 includes PORT 1 and P0RT2. Referring to Fig. 11, a pin configuration diagram of the I/O pin (JP2) 204 is shown. PORT 1 of this I/O pin (JP2) 204 is connected in parallel with PORT 1 of I/O pin (JP4) 203 and PORT 1 of I/O pin (JP6) 206. Referring to Fig. 12, the pin configuration diagram of the I/O pin (JP1) 205 is shown. PORT 2 of this I/O pin (JP1) 205 and PORT 2 of I/O pin (JP4) 203 and I/O pin (JP7) 207 PORT 2 are connected in parallel with each other. Referring to Fig. 13, a pin configuration diagram of the I/O pin (JP6) 206 is shown. PORT 1 of this I/O pin (JP6) 206 is connected in parallel with the PORT 1 of the I/O pin (JP4) 203 and the I/O pin (JP2) 204 PORT 1. Referring to Fig. 14, a pin configuration diagram of the I/O pin (JP7) 207 is shown. PORT 2 of this I/O pin (JP7) 207 and PORT 2 of I/O pin (JP4) 203 and I/O pin (JP1) 205 PORT 2 are connected in parallel with each other. Referring to Fig. 9, when the data passes through the USB I/O control card 200, the power LED (POWER LED) 208 remains in the light-on state in the startup state; when there is data for transmission, the power LED (POWER LED) ) 208 exhibits a blinking illumination state. Referring to Figure 15, a flow chart showing the operation of the data capture device (data 15 1338280 selector) of the present invention is shown. In the process 301, the link driver is executed first. For example, in process 302, the data written to the USB I/O control card (Write date to USB I/O) and the data read from the USB I/O control card (Read date form USB I/O) are executed. Use, the control process. As for the present invention, the data extractor uses the Delphi software to execute the operating program, and the Delphi program is as follows: TForml - class(TForm) • ... private { Private declarations } public { Public declarations }

OpenLink · TOpenLinkDevice ; WriteData : TWritelOData ; ReadData : TReadlOData ; CloseDev : TCloseDevice ;

FuncPtr : TFarProc ;

Function LoadAndRunDLLProcedure) : byte ;

Procedure GetData i

Function GetlnputData : string ;

Function ByteToBinary( p : integer ) : string ; 16 1338280

Function HexToBinary( z : string ) : string ; Function IO_Output(Portl, Port2 : string) : boolean : function IO_Input : string ; procedure GetProcess ; end ° Referring to Fig. 16, a wiring diagram of the multiplexer of the present invention is shown. Referring to Fig. 17, there is shown a combination diagram of the entire system of the touch-sensitive digital display array processing apparatus of the present invention. Refer to Figures 16 and 17. The multiplexer 120 of the present invention further comprises two 40 pins IDE (Intelligent Drive Electronics, ie, smart driver 220), and five IC 74150 (ie, wafer 210) 'three 16 pins IDE (Intelligent Drive Electronics, ie, wisdom) Type driver 230) and one 4 pins IDE (Intelligent Drive Electronics, smart driver 240). The five 1C 74150 data selectors correspond to the sensors (Sensors) 111, so they are connected to 80 Sensors in sequence, and all five 1C VCCs are connected together, and the five GNDs are all connected together. The remaining 4 control pins are all connected to the USB in of the 4 pins IDE (the smart drive 240), while the 5 1C outputs are sequentially connected to the 1 to 5 pins of the USB out, and the remaining 2 16 The pins IDE (i.e., the smart driver 230) is connected to the circuit board 124 and the circuit board 125 (see Fig. 7). Referring to Figures 3 and 17, the use case of this embodiment of the present invention is to closely arrange three touch sensing units (Touch Panels) 110 on the article 100 (famous painting). Each contact sensing unit 110 is composed of 80 pieces of contact sensing 17 1338 280 sensors, a total of 240 contact sensors lll, so there will be 240 bits of data. Refer to Figures 16 and 17. Each of the touch sensor panels 110 is connected to an 80-to-1 data selector (ie, the circuit substrate 123, the circuit substrate 124, and the circuit substrate 125) by using two 40-pin IDEs (ie, smart driver 220). The computer (pc) transmits 4 bits of control signals via USB to the 80-to-1 data selector, and the 80-to-1 data selector transmits 15 bits of data to the computer (PC) via the USB adapter. A computer (PC) is connected to the display unit 170. Referring to Fig. 4, a certain block 102 of a certain block 101 of the article 100 (name painting) is enlarged and projected outward to present the enlarged image 100'' for viewing by the user. Refer to Figures 1, 3 and 7. The circuit board 123, the circuit board 124, and the circuit board 125 are connected in series, and all the sensors (Sensors) 111 are connected to the IDE (Smart Driver 220) of the 40 pins of Fig. 16. The circuit board 124 and the circuit board 125 are output to the circuit board 123 by the bus bar 128. The 16 pins above the 16th diagram is the output of the control circuit 122, which is connected to the USB connector 202 for input to a computer (PC). The lower 4 pins of the IDE (Smart Driver 240) are input from the computer (PC) to the circuit boards 123, 124, and 125 through the USB connector 202. Refer to Figure 18 for a schematic diagram of the control interface of the USB I/O Input Control. Refer to Figure 19 for a schematic diagram of the control interface of the USB I/O Output Control (usb I/O Output Control). 18 1338280 In this embodiment, there are two USB I/O control cards. Figure 18 is a dialog box for the main control program, which actively controls the 19th figure. That is, in normal operation, Figure 19 does not need to type any value, and the function of each dialog button in Figure 19 is used as a test or error debugging. Refer to Figure 18. The 16-bit data output from this USB I/O (Universal Serial Bus Input/Output) input control card (USB I/O Input Control) is the result of transmission to the PC via the USB connector 202. When the drive 1 is turned on, the input/output control is turned on to start the search. At this time, 埠 l (part 1) and 埠 2 (part 2) of the write input/output (write I/O) are both set to 0x_. When you start clicking to start reading data (ie Polling I/O Starting), you will enter the reading program and click Stop to read the data (ie Polling I/O Stopping) to pause reading. The display box 401 is information for displaying the respective sensors. In this embodiment, each sensor-bit is scanned once every 0.2 seconds, and finally displayed in binary, and a total of 16x24 bits are generated. Among them, when you click the read speed test, you will get the speed of the test. When you click on the drive (ci〇se device), the start of a certain control card is stopped. Press ciear to stop all execution actions. Refer to Figure 19. For the Universal I/O Output Control (USB I/O Output Control), if you want to read the data of the control card, you must first open this private mode. Both 埠1 (part 1) and 埠2 (part 2) of the write input/output (write I/O) in this figure are set to 0x_. Then click to turn on the drive 0 (output), which is responsible for providing the clock to the control card. The pc will record the clock value when reading the data and the value output from the control card to determine which sensor has the trigger. And when the write speed test (^ with speed test) is selected, the speed of writing the test is immediately obtained. When you click on the drive (cl〇se device), the start of a certain control card is stopped. Referring to Fig. 20, a schematic diagram of the entity of the flash memory (FlaSH) test is shown.

Refer to Figure 20. At this point, the data extractor will generate the result as a Text flles (original file) 'This text files back to the trigger circuit (trigger) to perform 'we use flash as a trigger here (see Figure 1, trigger circuit 160 ) to test, for example, the content of the text file (original file) is: a=0 Oooooooooooi 1 1〇;

b=l Oooiooooooooooo; c=0 0〇〇〇〇〇〇〇〇〇〇〇〇〇〇; d=0 〇00〇00〇〇〇〇〇〇〇〇〇; e=0 00〇〇〇〇〇 〇〇〇〇〇〇〇〇; f=〇〇00〇〇0〇〇〇〇〇〇〇〇〇; g=o 〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇; h=0 〇 00〇00〇〇〇〇〇〇〇〇〇; i=〇000〇〇〇〇〇〇〇〇〇〇〇〇; j=〇00〇〇〇〇〇〇〇〇〇〇〇〇〇; k= 0 0〇〇〇〇〇〇〇〇〇〇〇〇〇〇; 1=0 〇00〇〇0〇〇〇〇〇〇〇〇〇; m=0 〇00〇0〇〇〇〇〇〇〇〇 〇〇; n=0 〇00〇00〇〇〇〇〇〇〇〇〇; 20 1338280 0=0 0 0 0 0 Ο Ο 0 〇ο ο ο ο 〇Ο 0. The value read by Flash can go to the 13th, 14th, and 5th digits of the a" item. If it is 1", it means that in the (10) mountain, the first (1)... is remembered, that is, the first! The first and fifth digits of the 93, 209, and 225 contact sensors (the café/cafe has trigger...b) are Γ1", and the second and third coffee of the second dock are output. , that is, the second

And the 66th contact sensor has a trigger. Therefore, the image of the flash connected to the η 193, 2 (four) 225 is _u_), that is, the contact sensors 111 that the viewer actually touches the five cell blocks 1 〇 2 .

According to the above, in the era of digitalization full of computer information, all the changes and thinking are not only counted in multiples. The impact of all digital technologies on life will be influenced by the factor technology (DigitalTechn〇1〇gy). Make its content change qualitatively. The touch-sensing digital-sensing array processing device of the present invention combines a service platform (service network platf0rms) and a mediation circuit and a sensor network (sens〇r networks) to provide viewers and pictures. The scene produces interactive behavior, in order to understand the connotation of famous paintings, in order to promote the arrival of high-quality digital life application service system. It is worth mentioning that the quality of life pursued by the people of Europe and the United States. In the era of digital information, in order to achieve such an ideal, countries have developed "life-creative" emerging industries. "It sells products that are not real images, but the "creative" that combines technology and art, and applies digital media technology to 1338280. Digital media art creation and life creative space design allow creativity to happen and be implemented in our everyday living space. In response to the advent of such a creative era, we will select the collection of paintings for interactive activation. This work is expressed by connecting the collection of famous paintings through a projector (or other display device) and projecting (displaying) them on a long table (screen). With the “pop_up” digital media sensing array processing technology, the people interact with the scene to understand the meaning of the famous painting. The viewer selects the action through the palm (fingertip), the computer will The motion recognition discriminates the position of the palm. At this time, the interactive magnified image will be displayed in detail, and the details of the local painting will be described in detail, so as to obtain more connotation knowledge in the painting. Efficacy, as long as the θ ring, sound device, you can 'synchronize the music' at the same time as the p〇p-Up image, or make it display the voice description of the image. In this way, the present invention has been described as an embodiment of the present invention. The present invention has been disclosed in the above embodiments, and is not intended to limit the present invention. Any person skilled in the art without departing from the spirit and scope of the present invention. The scope of protection of the present invention is defined by the scope of the appended claims. The above and other objects and features of the present invention are provided for the purpose of the present invention. The advantages and the embodiment of the month b are more obvious and easy to understand, and the detailed description of the drawings is as follows: 22 1338280 Fig. 1 is a block diagram of a touch-and-display digital multimedia array processing device of the present invention. A front view of the article is shown. Fig. 3 is a rear view showing the three contact sensing units closely arranged on the back side of the article. Fig. 4 is a schematic diagram showing the image of the cell block without 帛i map+ being enlarged. 5 is a schematic diagram showing a circuit for trigger charging of a contact sensing unit. Fig. 6 is a circuit diagram showing a contact sensing unit. Fig. 7 is a combined side view showing a hardware circuit of a multiplexer. Figure 8 is a circuit diagram showing the operation of a single circuit board signal in Figure 7. Figure 9 is a hardware top view of the USB I/O control card. Figure 10 shows the I/O pin (JP4). Pin configuration diagram. Figure 11 shows the pin configuration diagram of the I/O pin (JP2). Figure 12 shows the pin configuration of the I/O pin (jpi). The pin position map of the I/O pin (JP6) is shown. The figure shows the pin position map of the I/O pin (JP7). Figure 15 shows the figure. A flowchart of the operation of the data selector to execute the program. 23 1338280 Figure 16 is a combination diagram of the entire system of the touch-sensitive digital-sensing array processing device of the present invention. The circuit diagram of the multiplexer of the present invention is shown in Fig. 18. Fig. 18 is a schematic diagram showing the control interface of the USB I/O input control card. The 19th is a USB I/O output control card. (USB I/O Output Control) control interface diagram. Figure 20 shows the physical diagram of the FLASH (flash memory) test.

[Main component symbol description] 100 : Item 101 · Block H0 : Contact sensing unit 112 : Microprocessor 120 : Multiplexer 122 : Control circuit 124 : Circuit board 126 : Stud 128 : Bus bar 140 : Output interface 151 : data extractor 160 : trigger circuit 100 , : enlarged image 102 : cell block 111 : contact sensor 113 : data selector 121 : decoding circuit 123 : circuit substrate 125 : circuit substrate 127 : bolt 130 : input interface 150 : Data Control Unit 152 : Pulse Generator 170 : Display Device 24 1338280 200 : USB I/O Control Card 201 : USB Chip 202 : USB Connector 203 : I/O Pin 204 : I/O Pin 205 : I/O Pin 206: I/O pin 207: I/O pin 208: power indicator 210: chip 220: smart driver 230: smart driver 240: smart body 301: flow 302: flow 401: display box 25

Claims (1)

1338280 • &lt; More than 0 years of 曰 曰 本 本 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 Block; an array of contact sensing units arranged on the back of each block of the article, one of the blocks of the article is touched by an external force, and then the contact sensing unit under the block is activated; a multiplexer' The contact sensing unit is electrically connected, and the multiplexer is configured to perform decoding control on the signal sent by the contact sensing unit; a data control unit is electrically connected to the multiplexer and has an built-in item a data capture device for amplifying the pattern of each block, and a pulse generator; a trigger circuit electrically connected to the data control unit for triggering data output by the data control unit; and a display unit, and the The trigger circuit is electrically connected to display a magnified image in a certain block of the item. 2. The touch-point display digital multimedia array processing device according to claim 1, wherein the image of the article is a flat type. 3. The oscillating display digital multimedia array processing device as described in the scope of the patent scope of the invention, wherein the image of the article is stereoscopic. 4. For example, the application of the touch-and-display digital multimedia 26 array processing device as described in item 3 of the application (4), the article is the process 5, as described in the patent application range, the touch-sensitive multimedia binary two-column processing The device further includes an input interface and an output interface, and the input is connected between the multiplexer and the data extractor. ^, as described in item 5 of the scope of the patent of the towel 4, the touch-point display digital multimedia: the column processing device 'the multiplexer has a decoding circuit, and: the element=input interface is connected to the control circuit of the multiplexer and the data The control material control unit is connected to the (4) circuit of the device and the capital. 7. As described in claim 6 of the patent application scope, the anchor array processing device touches the display digital multimedia input control circuit. Bus (USB) output control circuit. Λ 1 丨 丨 疋 'Universal tandem bus (USB) array processing is specifically described in the first item - touch-and-display digital multimedia, in the contact sensing unit has a plurality of. 9. If the patent application scope array processing device is connected to the τ display digital multimedia device. ^ _ 疋 has a plurality of pieces of contact sensing 27 1338280 ι 〇 如 申请 如 如 如 如 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体 媒体</ br> </ br> </ br> </ br> </ br> </ br> </ br> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> </ RTI> 12. The patent-area media array processing device, wherein one of the ones of the items is touched, and the display device is a plasma display. 13. The patent-area media array processing apparatus, wherein one of the ones of the items is touched, and the display device is a flat display. One of the items mentioned in the item is a plurality of digits. The display device is a television. 14. The patent-scoped media array processing device, wherein: a touch-point display multimedia array processing device as described in claim 1 of the patent application, wherein the execution flow of the data extractor is first executed Link driver (Write Driver to USB I/O) and data read from the USB 1/〇 control card (Read date form USB I/O) To execute the control process used. 28