RU200727U1 - HARDWARE STUDIO EMULATOR WITH GRAPHIC INFORMATION OUTPUT - Google Patents

Abstract

The utility model relates to information processing devices built on the basis of a microcontroller and can be used to train students in specialties and areas related to computing. The technical result is to increase the resolution of the device. The device contains a microcontroller unit with the necessary software, an amplifier unit, a switching power supply unit, a serial interface unit, a power driver unit, a display, a keyboard, and a graphic information output unit. 1 ill.

Description

The claimed technical solution relates to information processing devices based on a microcontroller.

At present, various educational and debugging devices are widely used in higher educational institutions to train students in specialties and areas related to computing technology. These devices are built around a variety of microprocessors. They allow you to study the architecture of the computer, the command system, the features of its operation and application.

The closest to the claimed technical solution is "Educational and debugging device" Electronics-580 "(Shirokov YF Microprocessor tools and systems / Shirokov YF, EN Osipov, VI Zhdanov, N.I. Gutovets // Educational and debugging device "Electronics-580 - 1985. - No. 2. - P. 80-84).

This device contains a microprocessor, an address buffer, a data buffer, a status word register, control logic, a decoder, a generator, ROM, RAM, a RAM data buffer, a PDA unit, a parallel interface, a keyboard, a display, and a power supply. The power supply generates three supply voltages and is made according to a compensation circuit. All components of the device are made on elements of low and medium degree of integration and discrete elements.

Disadvantages of the prototype: the device has low reliability, complex design, high power consumption.

An analogue of the proposed device is a hardware emulator of a training stand with a block of power drivers. Utility model patent No. 190102, G06F 11/00, G09D 23/00, etc. 06/18/2020

The emulator contains a microcontroller unit with the necessary software, an amplifier unit for coordinating information signals during indication, a display, a keyboard, a switching power supply unit, a serial interface unit, and a power driver unit.

The disadvantage of the analogue is that when building a complex computer system for controlling devices of automation systems, there is no possibility in real time to analyze the functioning of the implemented automatic control system (ACS). For this, it is convenient to use graphical dependences of signals at the output of the ACS control object. The considered analogue does not have technical means of displaying this analogue graphic information, its resolution is equal to 0.

To solve this problem, it is advisable to include a graphic information output module in the emulator, for example, a Nextion Enhanced color touch display model NX8048K050_011R (https: /amperka.ru/product/display-nextion-enhanced-nx8048k050). Its size is 5 inches diagonally, the resolution is 800 × 480 pixels. Connection to the emulator is carried out via a standard UART interface with a speed of up to 115200 baud (up to 92160 bps). These characteristics are quite sufficient for the initial analysis of the ACS operation.

The technical result is expressed in increasing the resolution of the device.

The technical result is achieved by the fact that a hardware emulator of a training stand with a power driver block containing a microcontroller block with the necessary software, an amplifier block, a switching power supply, a serial interface block, a power driver block, a display, a keyboard, where the first information output of the microcontroller block is connected to the amplifier unit, the output of which is connected to the display input, the second information output of the microcontroller unit is connected to the keyboard input, the output of which is connected to the information input of the microcontroller unit, the third information output of the microcontroller unit is connected to the information input of the serial interface unit, the fourth information output of the microcontroller unit is connected to the information the input of the power driver unit, the output of the switching power supply unit is connected to the power inputs of the microcontroller unit, amplifier unit, display, keyboard, serial interface unit and power driver unit, the graphic information output unit is turned on, the fifth information output of the microcontroller unit is connected to the information input of the graphic information output unit, the output of the pulse power supply is connected to the supply inputs of the graphic information output unit.

The hardware emulator of a training stand with a block for outputting graphic information contains the following blocks:

1 - microcontroller block,

2 - amplifier block,

3 - display,

4 - power supply unit,

5 - keyboard,

6 - block of serial interfaces,

7 - power driver block,

8 - block for outputting graphic information.

A schematic diagram of a hardware emulator of a training stand with a graphic information output unit is shown in Fig. Double arrows show the passage of information signals, and single arrows indicate power lines. A feature of the claimed device is that the functions of the training and debugging device are expanded by introducing a graphical information output unit 8 into the device. The amplifier unit 2 is designed to increase the load capacity of the output port of the microcontroller unit 1 connected to the display 3 of the training stand. The microcontroller unit 1 contains the required amount of permanent and random access memory, as well as the required number of input-output ports for communicating with display 3, keyboard 5, serial interface unit 6, power driver unit 7 and graphic information output unit 8 of the training stand. The switching power supply 4 generates the supply voltage required for the operation of electronic devices.

The device operates as follows. Microcontroller block 1 performs hardware emulation, i.e. from the point of view of a user or a student, work on the hardware emulator of the educational stand on microcontroller 1 is completely identical to work on the "Educational and debugging device" Electronics-580 ". Using the keyboard 5, machine codes of commands of the developed program are entered. The entered information is reflected on the display 3 of the device. Then the user launches the entered program for execution. The program can work in three modes: step by step, with stops at control points, in real time. The result of the program execution, as well as the contents of the storage elements and the memory of the device, is reflected on the digital symbolic display. If necessary, preliminary debugging of the program can be performed in the first or second operating modes. It is possible to connect external electronic devices, for example, a personal computer, to the device and organize information exchange with them through the block of serial interfaces 6 for the purposes of debugging the emulator software. Through the power driver unit 7, it is possible to send control actions to the power devices of automatic control and automation systems. To display graphic information (for example, graphs of the dependence of signals on time) for the purpose of debugging and analyzing the functioning of the implemented ACS, the graphic information output unit 8 is used.

To implement all of the above features, the hardware emulator has the appropriate software.

Due to the addition of a block for outputting graphic information in comparison with the analogue, there is an increase in the resolution of the device.

Claims (1)

A hardware emulator of a training stand with a graphic information output unit containing a microcontroller unit with the necessary software, an amplifier unit, a switching power supply unit, a serial interface unit, a power driver unit, a display, a keyboard, where the first information output of the microcontroller unit is connected to the amplifier unit, the output of which is connected to the display input, the second information output of the microcontroller unit is connected to the keyboard input, the output of which is connected to the information input of the microcontroller unit, the third information output of the microcontroller unit is connected to the information input of the serial interface unit, the fourth information output of the microcontroller unit is connected to the information input of the power driver unit, the output switching power supply unit is connected to the power inputs of the microcontroller unit, amplifier unit, display, keyboard, serial interface unit and power driver unit, characterized in that, for the purpose of To increase the resolution of the device, the graphic information output unit is turned on, the fifth information output of the microcontroller unit is connected to the information input of the graphic information output unit, the output of the switching power supply is connected to the supply inputs of the graphic information output unit.

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