CN110968329A

CN110968329A - Burner and operation method and burning system thereof

Info

Publication number: CN110968329A
Application number: CN201911193654.XA
Authority: CN
Inventors: 张志伟; 张大宇; 沙金; 潘艳姣
Original assignee: BOE Technology Group Co Ltd; Hefei BOE Optoelectronics Technology Co Ltd
Current assignee: BOE Technology Group Co Ltd; Hefei BOE Optoelectronics Technology Co Ltd
Priority date: 2019-11-28
Filing date: 2019-11-28
Publication date: 2020-04-07

Abstract

The invention provides a burner, an operation method thereof and a burning system, and relates to the technical field of program burning. The burner includes: the reading module is used for reading a plurality of programs to be burned; the memory is used for storing various programs to be burned; the connector is used for connecting a burning interface of the device to be burned; the human-computer interaction module is used for providing a plurality of storage options and sending the information of the storage options selected by the user to the processor; the system is also used for providing a plurality of burning options and sending the burning option information selected by the user to the processor; the processor is used for storing the program to be burned into the memory according to the storage option information selected by the user; and the device is also used for determining a program to be burned matched with the burning option information according to the burning option information selected by the user, and burning the program to be burned matched with the burning option information to the device to be burned through the connector. The invention is suitable for the burner.

Description

Burner and operation method and burning system thereof

Technical Field

The invention relates to the technical field of program burning, in particular to a burner and an operation method and a burning system thereof.

Background

Liquid Crystal Displays (LCDs) have become the mainstream products of displays due to their small size, low power consumption, no radiation, and the like. A driver board of a liquid crystal display needs to burn programs such as a Power Management Integrated Circuit (PMIC) Code and a Timing Controller (TCON) Code to normally operate.

Currently, a PC (Personal Computer) or a lighting device is often used to perform fixed-point burning. When a PC or a lighting machine is adopted for burning, as the PMIC Code and the TCON Code are two completely different programs, two burning software are required to complete the burning. This undoubtedly increases the operation time, reduces the production efficiency, and further greatly reduces the productivity.

Disclosure of Invention

The embodiment of the invention provides a burner, an operation method thereof and a burning system, wherein the burner can burn various different programs, so that the operation time is saved, the production efficiency is improved, and the productivity is greatly increased.

In order to achieve the above purpose, the embodiment of the invention adopts the following technical scheme:

in one aspect, a burner is provided, the burner comprising: the device comprises a reading module, a memory, a plurality of connectors, a man-machine interaction module and a processor; the reading module, the memory, the connector and the human-computer interaction module are respectively connected with the processor;

the reading module is used for reading a plurality of programs to be burned;

the memory is used for storing a plurality of programs to be burned;

the connector is used for connecting a burning interface of equipment to be burned, and each connector is matched with one burning interface;

the human-computer interaction module is used for providing a plurality of storage options and sending the information of the storage options selected by the user to the processor; the processor is also used for providing a plurality of burning options and sending the burning option information selected by the user to the processor, wherein the burning options correspond to the storage options one by one;

the processor is used for storing the program to be burned to the memory according to the storage option information selected by the user; and the device is also used for determining the program to be burned matched with the burning option information according to the burning option information selected by the user, and burning the program to be burned matched with the burning option information to the device to be burned through the connector.

Optionally, the human-computer interaction module is a keyboard;

the keyboard includes:

a plurality of storage keys for providing a plurality of said storage options;

and the burning keys are used for providing a plurality of burning options and correspond to the storage keys one by one.

Optionally, the human-computer interaction module is further configured to provide an open/close option and send information of the open/close option selected by the user to the processor; the processor is also used for opening/closing the burner according to the opening/closing option information selected by the user.

Optionally, the human-computer interaction module is further configured to provide a reset option and send reset option information selected by a user to the processor; the processor is also used for resetting the burner according to the reset option information selected by the user.

Optionally, the burner further includes:

and the prompt information module is connected with the processor and is used for prompting the reading module to read the progress state information of the program to be burned and the connection state information of the connector and the equipment to be burned.

Optionally, the prompt information module is a display screen.

Optionally, the burner further includes: and the power supply module is respectively connected with the reading module and the processor and is used for supplying power to the reading module and the processor.

Optionally, the burner further includes: and the debugging module is connected with the processor and used for debugging the program to be burned.

Optionally, the reading module is a radio frequency identifier.

An embodiment of the present invention provides a burner, including: the device comprises a reading module, a memory, a plurality of connectors, a man-machine interaction module and a processor; the reading module, the memory, the connector and the human-computer interaction module are respectively connected with the processor; the reading module is used for reading a plurality of programs to be burned; the memory is used for storing a plurality of programs to be burned; the connector is used for connecting a burning interface of equipment to be burned, and each connector is matched with one burning interface; the human-computer interaction module is used for providing a plurality of storage options and sending the information of the storage options selected by the user to the processor; the processor is also used for providing a plurality of burning options and sending the burning option information selected by the user to the processor, wherein the burning options correspond to the storage options one by one; the processor is used for storing the program to be burned to the memory according to the storage option information selected by the user; and the device is also used for determining the program to be burned matched with the burning option information according to the burning option information selected by the user, and burning the program to be burned matched with the burning option information to the device to be burned through the connector. The burner is provided with the reading module, the memory, the various connectors, the human-computer interaction module and the processor, so that various different programs can be burned, the operation time is saved, the production efficiency is improved, and the productivity is greatly increased.

In another aspect, a burning system is provided, which includes: the device comprises a carrier for storing a program to be burned and the burner.

Optionally, the carrier is a radio frequency identification tag.

The embodiment of the invention provides a burning system which can realize burning of various different programs, so that the operation time is saved, the production efficiency is improved, and the productivity is greatly increased.

In another aspect, an operating method including the burner described above is provided, where the method includes:

connecting a carrier storing a program to be burned and a reading module;

selecting a storage option in a human-computer interaction module to store the program to be burned into a memory;

connecting a device to be burned and a connector, wherein the connector is matched with a burning interface of the device to be burned;

and selecting a burning option corresponding to the storage option in the human-computer interaction module so as to burn the program to be burned to the device to be burned.

The embodiment of the invention provides an operation method of a burner, which is simple and easy to execute and has short operation time.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a writer according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of another burner according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a keyboard according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, "a plurality" means two or more, and "a plurality" means two or more unless specifically defined otherwise.

Example one

An embodiment of the present invention provides a burner, as shown in fig. 1, the burner includes: the device comprises a reading module 1, a memory 2, a plurality of connectors 3, a human-computer interaction module 4 and a processor 5; the reading module 1, the memory 2, the connector 3 and the human-computer interaction module 4 are respectively connected with the processor 5.

The reading module is used for reading a plurality of programs to be burned.

The type of the program to be burned is not limited herein. If the recorder is used for recording a program (Code) of a driving board of a liquid crystal display, the program to be recorded may be a PMIC Code or a TCON Code. The reading mode is not limited, and the reading mode can be a wireless transmission mode or a wired transmission mode, and is determined according to the structure of the reading module and the structure of the carrier of the program to be burned. For example, if the carrier of the program to be burned is a Radio Frequency Identification (RFID) tag, the reading module may be a Radio Frequency identifier, and at this time, the reading module may read the program to be burned in a wireless transmission manner. If the carrier of the program to be burned is a USB (universal serial Bus) mobile hard disk, the reading module may be an interface matching the USB mobile hard disk, and at this time, the reading module may read the program to be burned by adopting a wired transmission manner.

The memory is used for storing various programs to be burned.

The type and capacity of the memory are not limited, and may be determined according to actual conditions. By way of example, the Memory may be a ROM (Read Only Memory), such as: flash (Flash memory); it may also be a RAM (Random Access Memory), such as: ferroelectric memories (FRAM, Ferroelectric RAM). The ferroelectric memory may be selected in consideration of market supply and cost performance.

The connector is used for connecting the burning interface of the device to be burned, and each connector is matched with one burning interface.

The type of the connector is not limited, and needs to be determined according to a burning interface of the device to be burned. For example, if the device to be burned is a driving board of a liquid crystal display, the burning interfaces of the PMIC Code and the TCON Code are both I²C (Inter-Integrated Circuit bus), the connector can be selected to match I²The type of the C interface.

The number of the connectors is not limited, and the number of the same connector may include only one connector or a plurality of connectors, and may be customized according to the needs of the user.

The human-computer interaction module is used for providing a plurality of storage options and sending the information of the storage options selected by the user to the processor; and the processor is also used for providing a plurality of burning options and sending the burning option information selected by the user to the processor, wherein the burning options correspond to the storage options one to one.

The specific structure of the human-computer interaction module is not limited herein. By way of example, the human-computer interaction module may be a keyboard, a display screen, or the like. In view of cost reduction, a keyboard may be selected.

The structural form of the plurality of storage options and the plurality of burning options depends on the structure of the human-computer interaction module. For example, if the human-computer interaction module is a keyboard, the plurality of storage options may be a plurality of storage keys, the plurality of burning options may be a plurality of burning keys, and a user may implement human-computer interaction by pressing a key. If the human-computer interaction module is a display screen, the plurality of storage options can be a plurality of storage frames on the display screen, the plurality of burning options can be a plurality of burning frames, and a user can realize human-computer interaction in a mode of touching the option frames.

The meaning of the one-to-one correspondence of the burning options and the storage options is explained by taking the case that the man-machine interaction module is used for providing the two storage options and the two burning options. For convenience of description, the two storage options may be named as a first storage option and a second storage option, respectively, the burning option corresponding to the first storage option may be named as a first burning option, and the burning option corresponding to the second storage option may be named as a second burning option. The first burning options correspond to the first storage options one by one, namely, the program to be burned associated with the first burning options and the program to be burned associated with the first storage options are the same program. Similarly, the second burning options correspond to the second storage options one by one, that is, the program to be burned associated with the second burning option and the program to be burned associated with the second storage option are the same program. In summary, the one-to-one correspondence between the burning options and the storage options means: the program to be burned associated with the storage option and the program to be burned associated with the burning option are the same program.

The processor is used for storing the program to be burned into the memory according to the storage option information selected by the user; and the device is also used for determining a program to be burnt matched with the burning option information according to the burning option information selected by the user, and burning the program to be burnt matched with the burning option information to the device to be burnt through the connector.

The type and model of the processor are not limited herein, and may be determined according to actual requirements.

The burner can be regarded as a microcontroller and belongs to an embedded burner. Compared with the prior art, the burner has the following advantages:

first, in the prior art, the cost of both the PC and the lighting device is high, and the large number of additions increases the investment of the burning cost, one PC is about 5000 ￥, and the lighting device 10000-.

Secondly, in the prior art, the maintenance cost of the PC and the lighting device equipment is high. The burner provided by the invention is convenient to maintain and has low maintenance cost.

Thirdly, in the prior art, the PC and the lighting machine equipment have large volumes and need to occupy larger space; at the same time. The burner provided by the invention has small volume and small occupied space.

Fourth, in the prior art, when two codes are burned, two burning software corresponding codes need to be opened respectively for burning. The burner provided by the invention can realize the burning of various different programs, thereby saving the operation time, improving the production efficiency and further greatly increasing the productivity.

The recorder realizes recording of various different programs by arranging the reading module, the memory, the various connectors, the human-computer interaction module and the processor, thereby saving the operation time, improving the production efficiency and further greatly increasing the productivity; meanwhile, the device has the advantages of low price, small volume, convenient maintenance and low maintenance cost.

Optionally, in view of further reducing the cost, the human-computer interaction module is a Keyboard (Keyboard). The keyboard includes:

a plurality of storage keys for providing a plurality of storage options.

The arrangement of the keyboard is not limited herein, and may be customized according to the user. For example, fig. 3 is illustrated by taking the case that the keyboard includes two storage keys and two burning keys. Referring to fig. 3, the keypad includes: the device comprises an A storage key 11, a B storage key 12, an A burning key 13 and a B burning key 14, wherein the A burning key 13 corresponds to the A storage key 11 one by one, and the B burning key 14 corresponds to the B storage key 12 one by one. It should be noted that if the human-machine interaction module is also used to provide an on/off option and a Reset option, the keyboard may further include an on/off key (Power on/off)15 and a Reset key (Reset)16 shown in fig. 3.

Optionally, in order to realize the on/off of the burner, the human-computer interaction module is further configured to provide an on/off option and send information of the on/off option selected by the user to the processor; the processor is also used for opening/closing the burner according to the opening/closing option information selected by the user.

The structural form of the opening/closing options depends on the structure of the man-machine interaction module. For example, if the human-computer interaction module is a keyboard, the open/close option may be an open/close option key, and the user may implement human-computer interaction by pressing the key. If the human-computer interaction module is a display screen, the opening/closing option can be an opening/closing option box on the display screen, and a user can realize human-computer interaction in a mode of touching the option box.

Optionally, in order to reset the burner, the human-computer interaction module is further configured to provide a reset option and send reset option information selected by the user to the processor; the processor is also used for resetting the burner according to the reset option information selected by the user.

The structural form of the reset option depends on the structure of the human-computer interaction module. For example, if the human-computer interaction module is a keyboard, the reset option may be a reset option key, and the user may implement human-computer interaction by pressing the key. If the human-computer interaction module is a display screen, the reset option can be a reset option on the display screen, and a user can realize human-computer interaction in a mode of touching an option box.

Optionally, in order to facilitate a user to determine an operating state of the burner, so as to enhance user experience, the burner further includes:

The specific structure of the prompting information module is not limited, and the prompting information module may be an LED (Light emitting diode) lamp, a display screen, or the like.

Therefore, when the reading module reads the program to be burned, the user can directly acquire the progress state information of the program to be burned read by the reading module, and the user is helped to arrange the next operation; when the connector is connected with the device to be burned, the user can visually obtain the connection state information to ensure the successful connection, and the next operation is facilitated.

Optionally, the prompt information module is a display screen. The type of display screen is not limited herein. It may be an LCD display, an OLED (Organic Light-Emitting Diode) display, etc. If the display screen is an OLED display screen, 0.96OLED can be adopted. Wherein 0.96 represents one type.

Optionally, the burner further includes: and the power supply module is respectively connected with the reading module and the processor and used for supplying power to the reading module and the processor. Of course, the power supply module can also supply power to other modules which need power sources and are included in the burner. For example, if the recorder further includes a prompt information module, and the prompt information module is a display screen, the power supply module may further be connected to the display screen, and configured to supply power to the display screen.

Optionally, in order to facilitate a user to modify a program to be burned, the burner further includes: and the debugging module is connected with the processor and used for debugging the program to be burned. The specific structure of the debugging module is not limited, and may be a JTAG (joint test Action Group) interface.

Optionally, the reading module may be a radio frequency identifier, so that the burner may provide a wireless communication transmission mode to obtain the program to be burned, thereby further simplifying the operation.

The following describes the present invention in detail by taking the device to be burned as a driving board of a liquid crystal display, the program to be burned as PMIC Code and TCONCode, the memory as a ferroelectric memory, the human-computer interaction module as a keyboard, the reading module as a radio frequency identifier, and the prompt information module as a display screen as examples. Referring to fig. 2, the burner includes:

a first Connector (Connector1)21 and a second Connector (Connector2)22, a ferroelectric memory 20, a keyboard 23, a Radio Frequency Identification (RFID) device 24, a debugging module (Debug)25, a display screen 26, a power supply module 27, and a processor 5.

The radio frequency identifier 24 is connected to the processor 5 and is used for reading various programs to be burned.

The ferroelectric memory 20 is connected to the processor 5 through an SPI (Serial Peripheral Interface) for storing a plurality of programs to be burned.

The first connector 21 is connected to the processor 5 and is used for connecting a burning interface of a driving board of the liquid crystal display. The program to be burned transmitted by the first connector is PMIC Code, and the burning interface of the drive board of the liquid crystal display is I²C interface, first connector selectable matching I²The type of the C interface.

The second connector 22 is connected to the processor 5 and is used for connecting to a programming interface of a driving board of the liquid crystal display. The program to be burned transmitted by the second connector is TCON Code, and the burning interface of the drive board of the LCD is I²C interface, second connector selectable matching I²The type of the C interface.

The keyboard 23 is connected to the processor 5, and is configured to provide the a storage key 11 and the B storage key 12, the a burning key 13 and the B burning key 14, the Power on/off key 15, and the Reset key (Reset)16 shown in fig. 3, and send the storage key information, the burning key information, the on/off key information, and the Reset key information selected by the user to the processor. The a memory key 11 and the a burn key 13 may correspond to a PMIC Code, and the B memory key 12 and the B burn key 14 may correspond to a TCON Code.

The display screen 26 is connected to the processor 5 through the SPI, and is configured to prompt the reading module to read progress status information of the program to be burned, and connection status information of the first connector and the second connector with the device to be burned, respectively.

And the power supply module 27 is respectively connected with the radio frequency identifier 24, the processor 5 and the display screen 26 and is used for supplying power to the radio frequency identifier 24, the processor 5 and the display screen 26.

The debugging module 25 is connected to the processor 5 through a Joint Test Action Group (JTAG) for debugging the program to be burned.

The processor 5 is used for storing PMIC Code to the ferroelectric memory according to A storage key information selected by a user; and the PMIC Code to be burned matched with the burning key information A is determined according to the burning key information A selected by the user, and is burned to a drive board of the liquid crystal display through the first connector.

The processor 5 is also used for storing the TCON Code into the ferroelectric memory according to the B storage key information selected by the user; and the controller is also used for determining the program to be burnt TCON Code matched with the B burning key information according to the B burning key information selected by the user, and burning the program to be burnt TCON Code matched with the burning key information to the drive board of the liquid crystal display through the second connector.

The processor 5 is also used for opening/closing the burner according to the opening/closing key information selected by the user; and the device is also used for resetting the burner according to the reset key information selected by the user.

The recorder realizes two different programs, thereby saving the operation time, improving the production efficiency and further greatly increasing the productivity; meanwhile, the device has the advantages of low price, small volume, convenient maintenance and low maintenance cost.

Example two

The embodiment of the invention provides a burning system, which comprises: a carrier for storing a program to be burned and a burner of the first embodiment.

The specific structure of the carrier is not limited here, and it may be a USB mobile hard disk, a radio frequency identification tag, etc.

The embodiment of the invention provides a burning system which can realize burning of various different programs, thereby saving the operation time, improving the production efficiency and further greatly increasing the productivity; meanwhile, the device has the advantages of low price, small volume, convenient maintenance and low maintenance cost.

For convenience of carrying, the carrier is a radio frequency identification tag. The radio frequency identification tag is an electronic tag, stores a program to be burned into the radio frequency identification tag, can materialize the program to be burned, and can improve the recognition degree of a burner for the program to be burned compared with the prior art that the program to be burned exists in a software state, thereby reducing the error rate.

It should be noted that, the burning system may further include a clamp for clamping the device to be burned. For example, the fixture may be a PCB (Printed Circuit Board) software fixture, and the size of the fixture may be customized according to the device to be burned. The clamp can also comprise a Cable (Cable) wire for connecting a burning interface of the device to be burned and a connector of the burner. The clamp belongs to a small tool and is low in cost.

EXAMPLE III

The embodiment of the invention provides an operation method of a burner comprising the first embodiment, and the method comprises the following steps:

and S01, connecting a carrier storing the program to be burned and a reading module.

The connection between the carrier and the read module is not limited here. The program reading module can be connected in a wireless transmission mode or a wired transmission mode, and the specific requirement is determined according to the structure of the reading module and the carrier structure of the program to be burned. For example, if the carrier of the program to be burned is a radio frequency identification tag, the reading module may be a radio frequency identifier, and at this time, the carrier storing the program to be burned and the reading module may be connected in a wireless transmission manner. If the carrier of the program to be burned is a USB mobile hard disk, the reading module can be an interface matched with the USB mobile hard disk, and at the moment, the carrier storing the program to be burned and the reading module can be connected in a wired transmission mode.

And S02, selecting a storage option in the human-computer interaction module to store the program to be burned into the memory.

And S03, connecting the device to be burned and the connector, wherein the connector is matched with the burning interface of the device to be burned.

S04, selecting the burning option corresponding to the storage option in the human-computer interaction module to burn the program to be burned to the device to be burned.

The embodiment of the invention provides an operation method of a burner, which is simple and easy to execute and has short operation time. The above description of the related structure related to the burner can refer to the first embodiment, and is not repeated here.

The following takes the writer shown in fig. 2 and 3 as an example to specifically describe the operation steps of writing pmicode and TCON Code of the driving board of the lcd.

S101, respectively burning the PMIC Code and the TCON Code into the two RFID electronic tags. For convenience of description, RFID-A denotes a carrier storing PMIC Code, and RFID-B denotes a carrier storing TCON Code.

Specifically, the PMIC Code and TCON Code binary burning files may be respectively sent to the RFID, and then burned into the two corresponding RFID tags.

And S102, enabling the RFID-A to be close to the radio frequency identifier, and automatically displaying the PMIC Code read state information on an OLED display screen. After the reading is finished, the operator presses an A storage key on the keyboard to store PMIC Code information on the RFID-A into a ferroelectric memory on the burner.

S103, enabling the RFID-B to be close to the radio frequency identifier, and automatically displaying the TCON Code reading state information on an OLED display screen. After the reading is finished, the operator presses a B memory key on the keyboard to store PMIC Code information on the RFID-B into a ferroelectric memory on the burner.

S104, connecting the driving plate of the liquid crystal display with the I of the clamp Cable wire²C burn interface and first connector, anchor clamps Cable line match LCD's drive plate I²And the program to be burned transmitted by the first connector is PMIC Code. The OLED display screen automatically displays the connection state information. After the connection is successful, an operator presses an A burning key on the keyboard to burn the PMIC Code into a driving board of the liquid crystal display.

S105, I for connecting driving plate of liquid crystal display through clamp Cable wire²C burn interface and second connector, anchor clamps Cable line match LCD's drive plate I²And C, the program to be burned transmitted by the burning interface and the second connector is TCONcode. The OLED display screen automatically displays the connection state information. After the connection is successful, an operator presses a B burning key on the keyboard to burn the TCON Code into a driving board of the liquid crystal display.

Thus, the Code burning of the driving board of the liquid crystal display is completed, the whole burning process is simple to operate, and the operation time is short. And repeating S104 and S105 for multiple times to complete Code burning of the driving boards of the multiple liquid crystal displays. Of course, the above-mentioned recording operation steps also include operations such as switching on and off, which are not described herein again.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A burner, comprising: the device comprises a reading module, a memory, a plurality of connectors, a man-machine interaction module and a processor; the reading module, the memory, the connector and the human-computer interaction module are respectively connected with the processor;

the reading module is used for reading a plurality of programs to be burned;

the memory is used for storing a plurality of programs to be burned;

2. The burner of claim 1, wherein the human-computer interaction module is a keyboard;

the keyboard includes:

a plurality of storage keys for providing a plurality of said storage options;

3. The burner of claim 1, wherein the human-computer interaction module is further configured to provide an on/off option and send information of the on/off option selected by the user to the processor; the processor is also used for opening/closing the burner according to the opening/closing option information selected by the user.

4. The burner of claim 1, wherein the human-computer interaction module is further configured to provide a reset option and send user-selected reset option information to the processor; the processor is also used for resetting the burner according to the reset option information selected by the user.

5. The burner of claim 1, further comprising:

6. The burner of claim 5, wherein the hint module is a display screen.

7. The burner of claim 1, further comprising: and the power supply module is respectively connected with the reading module and the processor and is used for supplying power to the reading module and the processor.

8. The burner of claim 1, further comprising: and the debugging module is connected with the processor and used for debugging the program to be burned.

9. The burner of any of claims 1-8, wherein the reading module is a radio frequency identifier.

10. A burn system, comprising: a carrier for storing a program to be burned and the burner of any one of claims 1-9.

11. The burning system of claim 10, wherein the carrier is a radio frequency identification tag.

12. A method of operation comprising the burner of claims 1-9, the method comprising:

connecting a carrier storing a program to be burned and a reading module;