KR19990009583A - Multi-access ROM Emulator Using Computer - Google Patents

Abstract

The present invention relates to a ROM EMULATOR, and more particularly, a plurality of ROM emulators are connected to one serial port of a computer, and optionally a read / write of data is provided to one ROM emulator. The present invention relates to a multi-access ROM emulator using a computer.

The ROM emulator of the multiple access method using this computer is a ROM emulator connected to an output port of a computer and receiving data directly from the computer to perform a role of a ROM. Signal connection means for switching a signal line to be applied to a signal input terminal of the emulator or to a ROM emulator of a later stage; Connection control means for decoding a control signal applied from a computer and controlling a switching operation of the signal connection means; It is possible to connect multiple ROM emulators to one serial port (or printer port) and to selectively read / write data between one ROM emulator and a computer.

Description

Multi-access ROM Emulator Using Computer

The present invention relates to a ROM EMULATOR, and more particularly, a plurality of ROM emulators are connected to one serial port of a computer, and optionally a read / write of data is provided to one ROM emulator. The present invention relates to a multi-access ROM emulator using a computer.

The automation of systems that have come naturally with the development of electronic technology has necessitated the provision of microprocessors with their own control functions. When developing a device using such a microprocessor, there is also a need for a memory that stores the operating program of the microprocessor in advance.

As a memory for storing such a program, a ROM is often used. In order to write a program in the ROM, the following process is usually required.

a. Create program data,

b. Mount the ROM on the ROM program machine,

c. Start ROM program equipment to write data to ROM,

d. Break out of ROM from the ROM program

e. ROM on the development machine,

f. Power on the development equipment,

g. Delete the ROM data.

In fact, the above process (a ~ g) has to be repeated several tens or hundreds of times until the final program data is completed in the development process of the program of a specific device. Due to this, the developer's development efficiency is reduced.

To solve this problem, a development device called a ROM emulator has been implemented. The ROM emulator not only has a communication function with a computer, but also refers to a device that performs program functions directly by receiving program data from a computer.

In general, the ROM emulator communicates with a computer through several methods. First, communication is performed using the printer's printer port, communication is performed using the computer's serial port (RS232), or a separate communication with the computer. The circuit board is mounted and used.

Next, a general ROM emulator will be described with reference to a conventional ROM emulator.

1 is a block diagram showing the configuration of a conventional ROM emulator.

Looking at the configuration, the line receiver 101 connected to the serial port (RS232) of the computer and converts the voltage signal output from the computer (not shown) into a logic circuit voltage, and the applied logic circuit voltage to the serial port voltage of the computer And a line driver 103 that converts the signal to a computer (not shown).

And a communication control unit 105 which communicates with a computer (not shown) through the line receiver 101 or the line driver 103 to manage various operations of the ROM emulator, a memory 111 that stores program data, Romprobe 113 is installed in the ROM socket of the development device.

In addition, the bus gate 109 opens and closes the signal bus 115 between the ROM probe 113 and the memory 111, and the signal bus 117 opens and closes between the communication control unit 105 and the memory 111. It is configured to include a bus gate 107.

The operation of the conventional ROM emulator by the above configuration will be described.

First, the user connects the data input / output terminal of the ROM emulator 100 (that is, the input / output terminal of the line receiver 101 and the line driver 103) to the serial port RS232 of the computer, and simultaneously the ROM socket of the development device. Romprobe 113 is connected to the (not shown).

Although the input and output terminals of the ROM emulator 100 are described as being connected to the serial port of the computer, the connection diagram using the printer port of the computer or a separate communication circuit board is mentioned as shown in FIG. Of course it is possible.

After installing the ROM emulator by the above process, the process of storing data in the ROM emulator is performed as follows.

First, the user applies a control signal to the ROM emulator 100 to turn off the signal bus 115 between the memory 111 and the ROM probe 113 by using a computer input means (not shown). do. At this time, the signal is input to the line receiver 101 through the serial port of the computer, the line receiver 101 converts the signal sent from the computer to the ROM emulator 100 to the logic circuit voltage to the communication control unit 1 send. The communication controller 1 outputs a gate control signal for turning off the bus gate 109 according to an input signal.

At the same time, the user applies a control signal to the ROM emulator 100 to turn on the signal bus 115 between the communication control unit 105 and the memory 111 through an input means (not shown) of a computer. As in the above process, the applied signal is input to the line receiver 101 through the serial port of the computer, and the line receiver 101 converts the input signal to the communication controller 1 by converting the logic circuit voltage. The communication controller 1 outputs a gate control signal for turning on the bus gate 107 according to an input signal.

By the above process, the ROM probe 113 and the memory 11 are isolated from each other by signal, and the communication control unit 105 and the memory 111 are connected at the same time.

Next, the communication control section 105 temporarily inputs program data from a computer (not shown) through the line receiver 101, and inputs the input data into the memory (via the signal bus 117 using a write signal). 111). The memory 111 stores input data at a corresponding address.

When all the necessary program data is stored in the memory 111 by the above process, the control operation for using the ROM emulator 100 together with the ROM is performed.

For the control operation, a user signalically isolates the communication control unit 105 and the memory 111 through an input means (not shown) of a computer and at the same time, signally isolates the memory 111 and the romprobe 113. Outputs a control signal for coupling.

The control signal is input to the communication control unit 105 through the line receiver 101, the communication control unit 105 turns off the bus gate 107 and turns on the bus gate 109 according to the input signal. By this operation, the memory 111 and the ROM probe 5 are signally connected through the signal bus 115.

When the above operation is completed, the microprocessor (not shown) of the development device recognizes the ROM emulator 100 as if it were a ROM, and inputs a program stored in the memory 111 through the ROM probe 113, thereby Will perform the action.

In other words, the ROM emulator can receive the program data directly from the computer and play the role of a ROM, which greatly reduces the process of writing a program to the ROM when developing a device using a microprocessor. Could.

However, the conventional ROM emulator can connect only one ROM emulator per serial port (or printer port, etc.) of a computer. Thus, to use two or more ROM emulators simultaneously, you need as many serial ports as ROM emulators. However, since the number of serial ports of a computer is usually limited to 1,2, there is a problem that an additional serial port must be installed in the computer in order to use several ROM emulators at the same time.

Accordingly, an object of the present invention is to provide a multi-access ROM emulator using a computer capable of connecting a plurality of ROM emulators to one serial port of the computer.

Another object of the present invention is to provide a multi-access ROM emulator using a computer capable of selectively reading / writing data from a plurality of ROM emulators connected to one serial port of a computer.

In order to achieve the above object, a multi-access ROM emulator using a computer according to the present invention is connected to an output port of a computer, and receives data directly from the computer, and performs a role of a ROM emulator.

Signal connection means for switching a signal line so that a signal applied from an output port of the computer is applied to a signal input terminal of a ROM emulator or a rear ROM emulator;

And a connection control means for decoding the control signal applied from the computer and controlling the switching operation of the signal connection means.

The multiple access ROM emulator using a computer of the present invention is characterized in that a plurality of ROM emulators can be connected to one serial port of the computer.

In addition, the present invention is characterized in that it is possible to read / write data between one ROM emulator and a computer selectively among a plurality of connected ROM emulators.

1 is a block diagram showing a conventional ROM emulator;

2 is a block diagram showing the configuration of a multi-access ROM emulator using a computer according to the present invention;

3 is a configuration diagram connecting a plurality of ROM emulators according to the present invention to a serial port of a computer;

4 is an exemplary diagram of a transfer command applied from a computer to a connection controller;

5 is an exemplary diagram of a connection command applied from a computer to a connection controller;

FIG. 6 is a detailed circuit diagram according to an embodiment of the connection controller shown in FIG. 2. FIG.

Explanation of symbols for the main parts of the drawings

1,25: line receiver 3,23: line driver

5: communication control unit 7,9: bus gate

11: memory 13: ROM probe

15, 17: signal bus 19: connection control unit

21: Signal connector 27: Connection cord comparator

29: RS flip-flop 31: Shift register

33: Transfer code comparator 200,201, ...., 20N: ROM emulator

Hereinafter, a multi-access ROM emulator using a computer of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the configuration of a ROM access emulator using a computer according to the present invention. 3 shows a configuration in which a plurality of ROM emulators according to the present invention are connected to a serial port of a single computer.

Describe the configuration. As shown in FIG. 2, a communication control unit 5 which communicates with a computer 300 (see FIG. 3) and controls all operations of the ROM emulator 200, a memory 11 that stores program data, and developments. It includes a romprobe 13 installed in the romso socket (not shown) of the device.

The line receiver 1 converts a signal output from the serial port of the computer 300 into a logic circuit voltage and transmits the signal to the communication controller 5 and the logic circuit voltage output from the ROM emulator 200. And a line driver 3 for converting the signal voltage into a signal voltage that can be input from the serial port.

In addition, the bus gate 9 for opening and closing the signal bus 15 between the ROM probe 13 and the memory 11 and the signal bus 7 between the communication control unit 5 and the memory 11 are opened and closed. The bus gate 7 is included.

A signal connector 21 for transmitting a signal output from the serial port of the computer 300 to the communication controller 5 or the ROM emulator 201 connected to the next stage (see FIG. 3) and the connection command of the computer are decoded. A signal is converted into a connection controller 19 for controlling the signal connector 21 and a signal output from the signal connector 21 at the rear end of the signal connector 21 to the ROM emulator 201 at the rear end. A multi-access ROM emulator using a computer including a line driver 23 and a line receiver 25 for converting a signal in order to apply a signal applied from the later ROM emulator 201 to the signal connector 21. Is composed.

A plurality of ROM emulators are connected to each other by alternately connecting line drivers and line receivers.

Next, the operation of the multiple access ROM emulator using the computer of the present invention having the above configuration will be described in detail.

As shown in FIG. 3, a plurality of ROM emulators 200, 201, ..., 20N are connected to one serial port of the computer, and among the connected ROM emulators, a specific ROM emulator functions as a ROM of a development device. To do this you have to select one ROM. In other words, it is necessary to control the signal connection between the communication control unit of a ROM emulator and the serial port of a computer.

Next, a process of signalingly connecting the serial port of the computer 300 and the communication control unit 5 of the N-th ROM emulator will be described.

First, between the computer 300 and the connection control unit 19, how the connection command (0000000011) is configured and how the transfer command (000000001) is configured, as shown in Figs. do.

Since the computer 300 does not know which terminal the switching state of the signal connector 21 of each ROM emulator is currently connected to, the computer 300 performs an initialization operation of controlling the signal connector 21 of all the ROM emulators to a transfer state. That is, the transfer command (0000000001) set for the initialization operation of the signal connector 21 is outputted to the serial port.

The transfer command (0000000011) output from the computer 300 is input to the connection controller 19 through the line receiver 1 of the first ROM emulator 200. At this time, the connection controller 19 reads that the input command is a transfer command, and sends a control signal according to the transfer to the signal connector 21.

The signal connector 21 switches the switch SW1 connected to the output terminal of the line receiver 1 and the switch SW2 connected to the input terminal of the line driver 3 in a switched state.

That is, the switch SW1 is in a state where the terminals a and b are connected, and the switch SW2 is in a state where the terminals a 'and b' are connected.

When the signal connector 21 is switched, the switch SW1 of the signal connector 21 connects the line receiver 1 and the line driver 23, and the other switch SW2 is the line driver 3. And line receiver 25 are connected.

In this way, the state of the signal connector 21 is connected in the direction of the later ROM emulator, and as a result, a connection is made with the serial port of the computer 300 and the connection controller 21 of the second ROM emulator 201. For convenience of explanation, the same reference numerals are used among the devices having the same functions included in each ROM emulator.

At this time, the computer outputs a switching command (0000000001) once again, and the switching signal is input to the connection controller 19 through the line receiver 1 of the second ROM emulator 201. The connection controller 19 recognizes that the input command is a transfer command, and controls the state of the signal connector 21 to the transfer state, and by this control operation, the signal connector 21 of the second ROM emulator 201 is also rear end. It is connected in the ROM Emulator direction.

When the transfer command is repeated as many as the total number of ROM emulators connected by the above operation, the serial port of the computer 300 is connected to the ROM emulator 20N located at the end. In other words, the signal connectors 21 of all the ROM emulators are switched. The operation up to this point is an initialization operation of controlling the signal connector of each ROM emulator in a switched state.

In this state, the computer 300 outputs the connection command (0000000011) once as shown in FIG. By the connection command, the connection control unit 19 of all ROM emulators simultaneously receives the connection command, and simultaneously switches the signal connector 21 in the direction of the communication control unit 5 thereof.

Therefore, the signal connector 21 of the first ROM emulator 200 is switched to the connected state (ac, a'-c 'connection), and the communication control unit 5 of the serial port of the computer 300 and the first ROM emulator 200. ) Is connected, but all signal connections between the second ROM emulator are blocked.

Next, when the computer 300 outputs the transfer command once, since only the first ROM emulator is connected to the serial port of the computer, the transfer command is input. Therefore, the signal connector 21 of the first ROM emulator 200 is input. ) Is switched to the transfer state.

By this operation, the serial port of the computer 300 is connected to the communication control unit 5 of the second ROM emulator 201 through the signal connectors 21 (ab, a'-b ') of the first ROM emulator 200. Connected with This is because the signal connector 21 of each ROM emulator is set in the direction of its communication controller 5 in the previous step.

When the N-1 transfer command is output through the above process, the signal connector 21 of the ROM emulator up to N-1 is transferred, and the last Nth ROM emulator 20N is the signal connector (N) in the previous step. 21 is set in the direction of the communication control unit 5, so that it is connected to the serial port of the computer.

That is, after the initialization operation, in order to connect the communication control unit 5 of the N-th ROM emulator 20N and the computer serial port, it is sufficient to output (N-1) times of switching commands.

When the specific ROM emulator desired by the user and the serial port of the computer 300 are connected as described above, a process for storing a program in the memory 11 is performed.

The following process is the same as in the related art, but in brief, first, the bus gate 9 is turned off and the other bus gate 7 is turned on using the gate control signal of the communication controller 5. The on-operated bus gate 7 connects the memory 11 and the communication control unit 5 via the signal bus 17.

Then, the communication control unit 5 receives the program data from the serial port of the computer 300 through computer communication and temporarily stores it, and then stores the program data at the corresponding address of the memory 11 through the signal bus 17.

When all the necessary program data is stored in the memory 11 by this operation, the communication control unit uses the gate control signal to isolate the communication control unit 5 and the memory 11 signally, and at the same time, the memory 11 and the romprobe. (13) is signalically combined. This operation is achieved by turning off the busgate 7 and turning on the other busgate 9.

When the above operation is completed, the microprocessor (not shown) of the development device recognizes the ROM emulator like a ROM, and reads a program stored in the memory 11 through the ROM probe 13 and the signal bus 15. Come and do the action.

Next, FIG. 6 will be described.

FIG. 6 shows an embodiment of a detailed circuit diagram of the connection controller 19 shown in FIG.

The configuration includes a shift register 31 for converting serial data of a computer input through the line receiver 1 into parallel data, a switching code comparator 33 for decoding whether the parallel data is a transfer code, and the parallel data. A connection code comparator 27 for deciding whether the connection code is a connection code, and an RS flip flop 29 for receiving an output signal from the switching code comparator 33 and the connection code comparator 27 and outputting a transfer / connection signal. It is composed.

By the above configuration, the operation of the connection controller 19 will be described.

When a control (transfer or connect) signal is output from the serial port of the computer 300, this signal is input to the shift register 31 through the line receiver 1. At this time, since the input signal is serial data, it is converted into parallel data by the shift register 31.

The parallel data output from the shift register 31 is input to the switching code comparator 33 and the connection code comparator 27 of the digital logic comparator. At this time, since the input signal is serial data, it is converted into parallel data by the shift register 31.

The parallel data output from the shift register 31 is input to the switching code comparator 33 and the connection code comparator 27 of the digital logic comparator. At this time, each comparator compares the input parallel data with the reference signal according to the transfer code and the reference signal according to the connection code.

If the input parallel data is a switching signal, the data is outputted from the switching code comparator 33, and a signal is applied to the input terminal R of the RS flip-flop 29, and the switching signal from the RS flip-flop 29 Outputs

When the input parallel data is a connection signal, the data is output from the connection code comparator 27, and a signal is applied to the input terminal S of the RS flip-flop 29, and the connection signal is transmitted from the RS flip-flop 29. Output

In this process, the connection controller 19 outputs a connection or transfer signal, and this signal controls the operation of the switches SW1 and SW2 of the signal connector 21.

As described above, the multi-access ROM emulator using a computer according to the present invention receives the program data directly from the computer in the process of program development of the development equipment using the microprocessor, thereby performing the role of the ROM, thereby receiving the final program data. This has the advantage of reducing development time to acquisition.

In particular, the present invention can connect multiple ROM emulators to one serial port (or printer port) and optionally read / write data between one ROM emulator and a computer, thereby providing additional serial ports to the computer. There is an effect that can minimize the economic burden to install.

Claims (7)

In a ROM emulator connected to an output port of a computer and receiving data directly from the computer to perform a role of a ROM, Signal connection means for switching a signal line so that a signal applied from an output port of the computer is applied to a signal input terminal of a ROM emulator or a rear ROM emulator; And a connection control means for decoding a control signal applied from a computer and controlling the switching operation of the signal connection means. The method of claim 1, A multi-transmission ROM emulator, wherein a voltage signal flows between a computer output port and a ROM emulator, and between a ROM emulator and a ROM emulator, and a logic voltage signal flows inside the ROM emulator. The method of claim 2, Between the output port of the computer and the signal connection means, between the signal connection means and the ROM emulator of the rear stage, a line receiver for converting a signal applied from the computer into a logic voltage signal, and a line driver, respectively Multi-access ROM emulator using a computer. The method of claim 3, The connection control means includes: a shift register for converting input serial data into parallel data; A multi-access ROM emulator using a computer including a comparison unit for comparing whether input data is data according to a transfer code or data according to a connection code. The method of claim 4, wherein The output port of the computer, a serial port ROM emulator using a computer, characterized in that using a serial port. The method of claim 4, wherein The output port of said computer uses a printer port, ROM emulator of a multiple access method using a computer. Communication control means for communicating with a computer to control the overall operation of the ROM emulator; A memory for storing program data; A rom probe installed at a rom socket of the development machine; A first bus gate for opening and closing a signal bus between the rom probe and a memory; A second bus gate for opening and closing a signal bus between the communication control unit and a memory; A line receiver for converting a voltage of the output port of the computer into a logic voltage signal; A line driver for converting a logic voltage signal output from the communication controller into a serial port signal voltage of a computer; Signal connection means for connecting a signal output from the serial port of the computer to a communication controller or a ROM emulator at a rear stage; Connection control means for decoding a control signal applied from a computer and controlling a switching operation of the signal connection means; And a line driver and a line receiver for converting a signal between the signal connection means and a later stage ROM emulator.