KR19980014279A - How to adjust the scanning speed of the scanner - Google Patents

Abstract

The present invention relates to a method of adjusting the speed of a scanner based on a data rate between a scanner and a main computer to avoid accumulation of image data in a memory buffer of the scanner. The present invention includes the following process.

(1) transmit the experimental data packet from the scanner to the main computer, taking time with the time recorder;

(2) the experimental data packet is fully received and processed by the main computer and is recognized by the scanner;

(3) stopping the time recorder to calculate the time used for transmission of the experimental data packet;

(4) calculate the experimental data rate based on the size of the experimental data packet and the time used to transmit it; And

(5) Adjust the scanning speed of the scanner based on the data transmission rate.

Description

How to adjust the scanning speed of the scanner

The present invention relates to a scanner, and more particularly, to a method of adjusting a scanning speed of a scanner.

Scanners are typically used to scan documents into a computer at an office or the like. The scanner generally includes one scanning module mounted on a shaft operatively capable of scanning a document placed on the scanner; A stepping motor for stepping the scanning module step by step; A memory buffer for storing image data scanned from a document; And a single control unit that controls the operation of the scanner and communicates with the main computer connected to the scanner. At each step in which the step motor operates, a line of the document is scanned by the scanning module and it is stored in the memory buffer as image data. Then, the control unit transfers the image data stored in the memory buffer to the main computer through the input / output cable.

The transfer rate of data transferred from the scanner to the main computer is determined by the communication protocol between the scanner and the main computer, the highest scanning speed of the scanner, and the processing speed of the main computer. If the data rate is higher than the scanning speed of the scanner, the scanning speed of the scanner will remain at the highest speed until the document is fully scanned. However, if the bit rate is slower than the scanning rate, the image data is accumulated in the memory buffer, which may result in the capacity of the memory buffer being exhausted by scanning only a portion of the document. In order to avoid the risk of loss of image data, the scanning module must stop its operation when this happens. Then, when the image data accumulated in the memory buffer is completely transferred to the main computer, then the scanning module resumes scanning the document from the position where it was stopped by the control unit.

There is one general problem that occurs when the stepper motor resumes operation to move the scanning module. In general, the first few steps lead to severe shaking and unstable motion of the scanning module, which results in poor quality of the scanning module's output during this period. In order to solve such a problem, two conventional methods have been proposed. The first method is to move the scanning module backward by a predetermined step and advance the stepping motor therefrom. If the scanning motor reaches a position where the scanning motor has stopped before, the movement of the scanning module will be stabilized at this time. Therefore, the image data from this time is selected and stored in the memory buffer Will be. This method can solve the instability problem of the scanning module, but it has a problem that it causes a delay in the overall scanning speed of the scanner because the scanning module must be moved back and forth. In addition, this method may adversely affect the quality of the image data formed at the previous stop position because it does not exactly coincide with the previously stopped position.

The second method is to increase the size of the memory buffer so that it can store more image data in the memory buffer, thus allowing the document to be continuously scanned without any temporary halt of the scanning module. Increasing the memory buffer to solve the problem is a straightforward and easy method, but it has two drawbacks: That is, it increases the cost and complexity of the scanner. To increase the size of the memory buffer at low cost, a dynamic random access memory (DRAM) chip is generally used. In order to use this DRAM chip, an extra memory refreshing circuit must be installed, which makes the memory circuit of the scanner more complicated. In addition, increasing the memory buffer may not actually be a solution to the problem. Scanners used in recent years are generally designed to enable high resolution color image scanning. And, this scan forms a huge amount of image data in a very short time. It is not reasonable to solve this problem simply by increasing the size of the memory buffer. This is because the increased cost of the scanner does not justify the benefits.

SUMMARY OF THE INVENTION The present invention has been made in order to overcome the limitations of the prior art and it is an object of the present invention to provide a scanner capable of controlling a scanning speed of a scanner according to a transfer rate between a scanner and a main computer, It is to suggest a method.

One advantage of the present invention is that the problem of the accumulation of image data in the memory buffer can be largely avoided since the scanning speed of the scanner is adjusted according to the transfer rate between the scanner and the main computer. Problems caused by re-activating the scanning module can also be avoided, and there is no need to increase the memory buffer capacity of the scanner.

1 is a block diagram according to the function of a conventional conventional optical scanner connected to a main computer 12. [ The scanner 10 includes a scanning module 14 for scanning the contents of a document line by line and having a charge coupled device (CCD) therein; A step motor 18 for moving the scanning module 14 step by step; A control unit 20 for controlling operation of the scanner 10 and for controlling communication with the main computer 12; A memory buffer 22 for storing image data formed in the scanning module 14 and connected to the control unit 20; And a time recorder 24.

2 is a flowchart illustrating a process of adjusting the scanning speed of the scanner shown in FIG. This entire process 30 generally begins before scanning a new document, and consists of the following steps.

Step 31 sends a number of scanning parameters, such as resolution, color / gray mode, etc., to the scanner 10 from the main computer 12;

Step 32 Update the scanner 10 using the scanning parameters;

Step 33 Transmit the test data packet from the scanner 10 to the main computer 12 while measuring the time with the time recorder 24; The size of this experimental data packet is determined according to the scanning parameters transmitted in main computer 12;

Step 34: Receive and process experimental data packets in main computer 12; The main computer 12 accepts and processes experimental data packets in a manner that accepts and processes general data packets formed by scanning a document;

Step 35 After the experimental data packet is completely received and processed by the main computer 12, it is recognized by the scanner 10;

Step 36 Stop the time recorder 24 and calculate the time used to transmit the experimental data;

Step 37 Calculate the data rate based on the size of the experimental data packet and the time taken to transmit the experimental data packet;

Adjusting the scanning speed of the scanner 10 based on the data rate of step 38; Step 39 Start scanning the document using the newly adjusted scanning speed.

1 is a block diagram according to the function of a conventional optical scanner connected to a main computer.

FIG. 2 is a flowchart illustrating a process of adjusting the scanning speed of the scanner shown in FIG. 1 according to the present invention.

Until the experimental data packet is completely received and processed by the main computer 12, the transmission and receipt of the experimental data packet in steps 33 and 34 proceed in parallel. The time recorder 24 is used to calculate the time required to transmit the experimental data packet in the entire process 30. Other time measuring devices such as a desk clock can also be used for this purpose. Originally, the experimental data packet was created to test the data rate between the main computer 12 and the scanner 10 before scanning the actual document. However, the data transmission rate can be obtained by transmitting the general data packet by the same method. When scanning an actual document, a user can obtain a data rate using a general data packet instead of an experimental data packet, and adjust the scanning speed of the scanner using the obtained data rate.

In each step of the stepper motor 18, one line on the document is scanned by the scanning module 14 by the use of a CCD (charge coupled device) 16. The scanning speed of the scanner 10 is determined by the stepping speed of the stepping motor 18 moving the scanning module. When calculating the stepping speed of the scanner 10, the scanning module 14 is used to first determine the number of lines required to form the experimental data packet, and the number of the calculated lines and the time used to transmit the experimental data packet To determine the stepping speed of the step motor 18. [

One factor that must be taken into account when determining the stepping speed of the stepper motor 18 is to have a synchronization between the stepper motor 18 and the charge coupled device (CCD) 20. A charge coupled device (CCD) 20 periodically detects light transmitted from a document that should be scanned for a predetermined exposure time. After each exposure time elapses, the charge coupled device (CCD) refreshes the analog memory element in its interior for the next exposure. If the stepping speed of the stepper motor 18 is synchronized with the exposure time of the CCD (charge coupled device) 20, it will be very simple to extract data from the CCD 20. One method for achieving synchronism between the stepper motor 18 and the CCD 20 is to calculate the time taken to move one step of the stepper motor and to equalize this time and the total exposure time, Simultaneous control between the two becomes easier.

The entire process 30 of the present invention can be used in various ways to properly control and determine the speed of the scanner. Because it takes tens of milliseconds (1/1000) seconds to test the processing speed and transfer rate of the main computer, we recommend that you perform this procedure 30 before actually scanning the document. This is a time that the scanner user can hardly feel. This process 30 not only makes it possible to avoid the problems caused by the two prior arts described above but also provides a means to solve the above-mentioned problems, which are caused by inconsistency of the scanner speed, very efficiently, easily and inexpensively will be.

Claims (5)

A method for controlling a scanning speed of a scanner to which a time recorder is connected to a main computer, comprising the steps of: (1) transmit the experimental data packet from the scanner to the main computer, taking time with the time recorder; (2) the experimental data packet is fully received and processed by the main computer and is recognized by the scanner; (3) stop the timer and calculate the time used for transmission of the experimental data packet; (4) calculating the experimental data rate based on the size of the experimental data packet and the time used to transmit it; And (5) Adjust the scanning speed of the scanner based on the data transmission rate. The method according to claim 1, wherein the scanner includes one scanning module for scanning a document and one stepping motor for moving the scanning module step by step, so that the stepping speed of the stepping motor, which moves the scanning module, So that the speed is determined. 3. The method of claim 2, wherein the number of lines required to form the experimental data packet is calculated first and the time used for the number of computed lines and the transmission of the experimental data packet is used. 4. The method of claim 3, wherein the scanning module includes a charge coupled device (CCD) that periodically detects light transmitted from a document during a predetermined exposure time, and wherein the stepping speed of the stepping motor is greater than the exposure time of a charge coupled device (CCD) And to have concurrency. The method according to claim 4, wherein the time taken for the stepping motor to move one step is equal to the total exposure times.