RU119141U1 - PROGRAMMER OF TELEVISION MEMORY ICs - Google Patents

Abstract

1. Programmer of memory chips, containing a single-crystal microcontroller, a quartz resonator, a USB connector, a connector for connecting programmable memory chips, characterized in that the microcontroller is connected to the USB connector with its USB signal and power outputs, the clock signals of the microcontroller are connected to a quartz resonator, to additional pins of the microcontroller are connected to the pins of the connector for connecting programmable memory microcircuits, while all structural and component elements are located by soldering on a single printed circuit board connected to the computer's USB port using a detachable connection, and the power of the structural elements is supplied from the USB bus. ! 2. A programmer according to claim 1, characterized in that it contains an indicator based on LEDs, the outputs of which are connected to additional outputs of the microcontroller. ! 3. Programmer according to claim 1, characterized in that it contains an indicator based on a sound-emitting element, the outputs of which are connected to additional outputs of the microcontroller. !4. The programmer according to claim 1, characterized in that it contains an indicator based on LEDs and an indicator based on a sound-emitting element, the outputs of which are connected to additional outputs of the microcontroller. ! 5. The programmer according to claim 1, characterized in that it has the ability to output signals from the additional pins of the microcontroller to a device intended for external connections. ! 6. The programmer according to claim 1, characterized in that it has the ability to output signals from additional pins of the microcontroller to a device intended for external connections,

Description

Programmer of television memory chips

The utility model relates to the field of electronic devices for programming integrated circuits and can be used in the repair of household radio equipment.

A large number of electronic devices for programming microchips are known. Most of them have a wide range of supported microcircuits, are available in various cases and have various technical and design characteristics. As a rule, programmers of memory microchips read and write data and implement various service functions, such as light indication and sound alarm, as well as the ability to connect external devices, various combinations of these capabilities are also implemented.

The universal programmer TRITON is known, information about which is available on the website http://www.triton-prog.ru/index.php?aux_page=aux_progr. This programmer is designed to program a wide range of microcircuits, including memory microcircuits, it has a housing with a contact device, a USB interface, a power source and is controlled by a computer.

The disadvantages of this device are the increased dimensions, the need for an external power source, the presence of a large number of supported microcircuits that the telemaster does not need in everyday work, as well as the increased complexity and cost associated with this. Also, this device does not allow direct connection to a computer without an adapter cable.

The well-known universal programmer of the PICkit 2 developer is available on the website http://www.trt.ru/products/microchip/prog5.htm. This programmer also allows you to program a large number of microcircuits, has a housing, a USB interface, works without an external power source under computer control.

The disadvantages of this device are the presence of a large number of supported microcircuits that the telemaster does not need in everyday work, as well as the increased complexity and cost associated with this. This programmer also does not allow direct connection to a computer without an adapter cable and does not allow directly connecting a programmable chip to its connector.

The closest analogue prototype of this utility model is the PICkit 2 developer programmer.

The technical task of the utility model is to create a single-board electronic device for programming memory chips, as well as expanding the arsenal of chip programmers.

The technical result that ensures the fulfillment of the technical task is to execute the programmer in the form of a single board with components, provide, when the programmer is directly connected to the computer’s USB port, the functionality typical (typical) for chip programmers, eliminating the need to use an additional power source for the programmer to work.

The essence of the utility model is that the programmer of television memory chips consists of a single circuit board with electronic components installed on it, a microcontroller, a USB connector, a connector for directly connecting programmable memory chips, an external connector, light and sound indicators. This programmer is small in size and allows both direct connection to a computer’s USB port, and through a standard adapter cable, receives power from the USB port.

The structural diagram of a utility model is shown in the drawing of figure 1.

The appearance of the model is shown in figure 2.

The core of the system is microcontroller 3, which receives commands, exchanges data with a computer via the USB interface, and also generates signals necessary for programming a memory chip. The signals of the USB interface bus are fed to the microcontroller 3 via the USB connector 2, and the generated voltages and signals necessary for programming the memory chip are output to the connector 7. The microcontroller operates synchronously with the clock signal, for the formation of which a quartz resonator 1 is connected to the microcontroller.

To increase the usability of the programmer, a light indication device 5 made on the basis of LEDs can be connected to the microcontroller.

For additional convenience in use, a sound alarm device 6 made on the basis of piezoelectric, piezoelectric or electrodynamic sound emitters can be connected to the microcontroller.

To further expand the functionality of the programmer, the signals from the microcontroller can be output to the connector for external connections 4, to which, for example, an external programmer can be connected to provide programming of the microcontroller 3 with a working program, or external connectors for connecting programmable memory chips made in different cases.

The utility model works as follows:

When the model is connected via the USB connector 2 to the USB port of the computer, the microcontroller 3 receives the supply voltage, as a result of which the clock generator based on the internal elements of the microcontroller and the quartz resonator 1 starts working. After the start of the generation of the clock signal, the microcontroller starts the work program. The work program provides the writing and reading of internal registers and memory cells of the microcontroller in such a way that the USB and serial interface hardware modules located in the microcontroller form the necessary control and data signals in accordance with standard exchange protocols. The memory microcircuit intended for programming is connected to the socket 7, to which the programming and control signals generated by its internal serial interface module are supplied from the microcontroller 3, which provide data recording and reading in accordance with the algorithm and protocol required by the memory microcircuit.

Data transfer between the memory microcircuit and the microcontroller is carried out through the internal memory of the microcontroller. Information for writing to the memory chip can be written to this memory via the USB interface, and information that was read from the memory chip can be read and transferred to the computer from the internal memory of the microcontroller.

Based on the characteristic stages of the programming process of the memory chip, for example, the beginning or end of a write, read data, microcontroller 3 generates signals that are fed to the indicator

devices 5, 6 and provide the formation of the corresponding indication and signaling signals.

The work program is loaded into the microcontroller by programming using an external programmer prior to installing the microcontroller on a printed circuit board, or by connecting an external programmer to the external connection 4, to which electrical connections with the microcontroller's service pins through which it is possible to carry out such programming are output.

Beginning and completion of the basic functions of the programmer, configuration and setting of operating modes is carried out according to the commands sent via the USB port from the control program running on a computer. Through the same port, data is transmitted to the programmer for programming the memory microcircuit, and information transmitted from the memory microcircuit is also transmitted for display on the computer screen.

The microcontroller 3 under the control of the work program, having received the command or data, decodes the command, generates the necessary control signals for its execution and carries out the reception and transmission of the necessary data in the right direction.

The verification of the correctness of writing data to a programmable memory chip is carried out by the user using a computer control program that reads data from the memory chip and compares it with those that were sent earlier for recording and issues a decision on the success of the recording process.

Memory chips made in a standard eight-pin DIP plastic case can be connected to this model. Such microcircuits are used in TVs as storage devices. To carry out the necessary operations with a memory microcircuit, the user needs to connect the microcircuit to connector 7, connect the programmer to the computer’s USB port, and use the computer control program to enter the necessary commands. Moreover, since the list, composition and sequence of commands for programming each specific microcircuit is determined by software, in this programmer it is possible to select only a few classes of memory microcircuits used in televisions and not support other microcircuits, which ensures the simplicity of the device and the utility model.

Since this model does not have a case, and the dimensions of the design and type of connector allow you to directly connect the model to a computer USB port, such a solution, in comparison with the prototype and analogs, significantly improves the overall dimensions of the device, increases reliability, reduces cost and increases efficiency and usability.

Depending on the desired degree of simplification of the design, the utility model can be manufactured in the absence of some elements, for example, a light signaling device, an audio signaling device, or a connector for external connections.

Thus, a single-board electronic device for programming memory chips used in televisions was created, and the arsenal of chip programmers was expanded.

When implementing the model in the version with no LED indicator, an audible signaling device and a connector for external connections, the model writes the necessary data to the plug-in programmable microcircuit, reads the recorded data from the plug-in programmable microcircuit, provides operation without an additional power source and directly connects the programmer to the computer without using a connecting cable, implemented as a compact single-board design, and also provides direct Remote connection of a memory chip.

When executing the model according to the options, including an LED indicator, an audible warning device and a connector for external connections, or a combination thereof, the model provides a light indication of the operation process, an audible alarm of the operation process, the ability to connect external electronic devices, or an appropriate combination of these technical results.

Claims (16)

1. A memory chip programmer containing a single-chip microcontroller, a quartz resonator, a USB connector, a connector for connecting programmable memory chips, characterized in that the microcontroller is connected to a USB connector with its USB signal and power outputs, the microcontroller clock outputs are connected to a quartz resonator, to additional the terminals of the microcontroller are connected to the terminals of the connector for connecting programmable memory chips, while all the structural and component elements are located I'm soldering on a single printed circuit board that plugs into the computer’s USB port using a plug-in connection, and the power to the structural elements comes from the USB bus. 2. The programmer according to claim 1, characterized in that it contains an indicator based on LEDs, the terminals of which are connected to additional outputs of the microcontroller. 3. The programmer according to claim 1, characterized in that it comprises an indicator based on a sound-emitting element, the terminals of which are connected to additional terminals of the microcontroller. 4. The programmer according to claim 1, characterized in that it contains an indicator based on LEDs and an indicator based on a sound-emitting element, the terminals of which are connected to additional terminals of the microcontroller. 5. The programmer according to claim 1, characterized in that it has the ability to output signals from additional terminals of the microcontroller to a device designed for external connections. 6. The programmer according to claim 1, characterized in that it has the ability to output signals from the additional terminals of the microcontroller to a device designed for external connections, and also contains an indicator based on LEDs, the conclusions of which are connected to the additional terminals of the microcontroller. 7. The programmer according to claim 1, characterized in that it has the ability to output signals from additional outputs of the microcontroller to a device designed for external connections, and also contains an indicator based on a sound-emitting element, the findings of which are connected to additional outputs of the microcontroller. 8. The programmer according to claim 1, characterized in that it has the ability to output signals from additional outputs of the microcontroller to a device designed for external connections, and also contains an indicator based on LEDs and an indicator based on a sound-emitting element, the conclusions of which are connected to additional outputs of the microcontroller . 9. The programmer according to any one of claims 1 to 8, characterized in that the design has the ability to directly attach a programmable chip through a detachable connection. 10. The programmer according to any one of claims 1 to 8, characterized in that passive electronic components are used in the electrical circuits. 11. The programmer according to any one of claims 1 to 8, characterized in that the design uses semiconductor electronic components having the possibility of amplifying the current. 12. The programmer according to any one of claims 1 to 8, characterized in that the design has the ability to write data to a programmable memory chip via a serial digital interface. 13. The programmer according to any one of claims 1 to 8, characterized in that the design has the ability to read data from a programmable memory chip via a serial digital interface. 14. The programmer according to any one of claims 1 to 8, characterized in that the design has the possibility of light indication. 15. The programmer according to any one of claims 1 to 8, characterized in that the design has the possibility of an audible alarm. 16. The programmer according to any one of claims 1 to 8, characterized in that the design has the ability to connect external electrical circuits or electronic devices.