CN111784939A - Electrical control system and self-service financial equipment - Google Patents

Abstract

The embodiment of the invention discloses an electrical control system, which is applied to financial self-service equipment, wherein the financial self-service equipment comprises at least one user operation port, and the system comprises: the main control unit is used for receiving an operation instruction corresponding to the user operation and generating a corresponding control instruction based on the operation instruction; the plurality of slave control units are respectively connected with the master control unit and the user operation ports and are used for receiving the control instruction and generating a corresponding driving instruction based on the control instruction so as to realize the control operation of the plurality of user operation ports; each user operation port corresponds to one slave control unit, and after the control operation of the user operation ports is completed, the slave control units send corresponding feedback data to the master control unit. In addition, the embodiment of the invention also discloses financial self-service equipment applying the electrical control system. By adopting the invention, the corresponding slave control units are arranged for all the user operation ports in the financial self-service equipment, so that the flexibility and the stability of the financial self-service equipment can be improved.

Description

Electrical control system and self-service financial equipment

Technical Field

The invention relates to the field of financial machines and tools, in particular to an electrical control system and financial self-service equipment.

Background

The financial self-service equipment is an electronic information equipment which forms an interactive environment through multimedia databases such as films, pictures, characters, music and the like, is used for storing information and provides service functions such as various information inquiry, printing, payment, product vending and the like.

Based on financial self-service equipment's convenient characteristic, by the wide application in different fields, for example bank ATM, subway ticket machine etc. are financial self-service equipment, for convenient use, are provided with user operation mouth on financial self-service equipment, for example bank note operation mouth, bill operation mouth etc. traditional financial self-service equipment generally realizes the control to user operation mouth through setting up a main control panel.

However, as the functions of the financial self-service equipment become more and more powerful, the number of user operation ports of the financial self-service equipment becomes more and more, and a single main control panel cannot meet the functional requirements of the financial self-service equipment.

Disclosure of Invention

In view of the above, the invention provides an electrical control system and a financial self-service device, which are used for solving the problem that a single main control board cannot meet the functional requirements of the financial self-service device due to more and more user operation ports in the financial self-service device in the prior art.

The specific technical scheme of the embodiment of the invention is as follows:

an electrical control system applied to financial self-service equipment, wherein the financial self-service equipment comprises a plurality of user operation ports, and the electrical control system comprises:

the main control unit is used for receiving an operation instruction corresponding to user operation and generating a corresponding control instruction based on the operation instruction;

the plurality of slave control units are respectively connected with the main control unit and the user operation ports and are used for receiving the control instructions and generating corresponding driving instructions based on the control instructions so as to realize the control operation of the plurality of user operation ports;

and each user operation port corresponds to one slave control unit, and after the control operation is finished on the user operation port, the slave control unit sends corresponding feedback data to the master control unit.

Optionally, the master control unit is connected with a plurality of slave control units through a distribution system;

the master control unit is a master node of the distribution system, and the slave control unit is a slave node of the distribution system.

Optionally, the electrical control system further comprises a sensing unit connected with the slave control unit;

the sensing unit is used for acquiring state data corresponding to the financial self-service equipment and transmitting the state data to the slave control unit;

and the slave control unit analyzes and processes the state data to obtain a corresponding analysis result, and then transmits the analysis result to the master control unit.

Optionally, at least one sensing unit is correspondingly arranged on each slave control unit.

Optionally, the electrical control system further comprises: the address distribution unit is connected with the master control unit and the plurality of slave control units;

the address allocation unit is used for allocating different addresses to the master control unit and the plurality of slave control units;

and realizing data interaction through the distribution system based on the master control unit and the plurality of slave control units which are allocated with different addresses, wherein the data interaction comprises transmission operation of the control instruction and the feedback data.

Optionally, the master control unit sends the control instruction including a preset designated address to the slave control unit, so as to implement control of the plurality of slave control units by the master control unit.

Optionally, when the slave control units send the feedback data to the master control unit, each slave control unit obtains the feedback data corresponding to the address and sends the feedback data to the master control unit, so as to implement the receiving of the feedback data by the master control unit.

Optionally, the electrical control system further comprises a power supply unit connected with the master control unit, the slave control unit and the address allocation unit;

the power supply unit is used for supplying power to the master control unit, the slave control unit and the address allocation unit.

Optionally, the electrical control system further comprises: the storage unit is connected with the main control unit;

the storage unit is used for storing data corresponding to the analysis result.

A financial self-service device comprising an electrical control system as claimed in any one of the preceding claims.

The embodiment of the invention has the following beneficial effects:

after the electrical control system and the financial self-service equipment are adopted, a plurality of slave control units connected with the master control unit are arranged, the master control unit generates corresponding control instructions after receiving operation instructions of users, and the slave control units generate driving instructions based on the control instructions, so that the control operation of the slave control units on operation ports of the users in the financial self-service equipment can be realized; meanwhile, after the corresponding control operation is finished on the user operation port, the slave control unit sends corresponding feedback data to the master control unit. Corresponding each user operation mouth in the self-service financial equipment, this embodiment can be favorable to promoting self-service financial equipment's flexibility and stability to the control operation of a plurality of user operation mouths in the self-service financial equipment.

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.

Wherein:

FIG. 1 is a schematic diagram of the electrical control system in one embodiment;

FIG. 2 is a block diagram illustration of the appliance control system in one embodiment;

FIG. 3 is a schematic structural diagram of an electrical control system according to another embodiment;

FIG. 4 is a schematic structural diagram of an electrical control system according to another embodiment;

fig. 5 is a schematic structural diagram of the electrical control system in yet another embodiment.

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 order to meet the requirement that the financial self-service equipment cannot meet the functional requirements of the financial self-service equipment through a single control board due to the increase of functions, that is, under the condition that more than one user operation opening is correspondingly arranged, for example, a bill operation opening and a bill operation opening are included in an STM (smart teller machine), in the embodiment, an electrical control system is especially provided.

The electrical control system of this embodiment is favorable to the abundance of self-service financial equipment function, can set for corresponding user operation mouth according to the demand of reality to satisfy the different functional requirement of user.

Specifically, as shown in fig. 1, the present embodiment provides an electrical control system 100 applied to financial self-service equipment, where the electrical control system 100 includes a master control unit 110 and a plurality of slave control units 120 respectively connected to the master control unit 110 and a user operation port 200.

Based on the actual operation of the user, generating a corresponding operation instruction, the master control unit 110 generating a corresponding control instruction according to the operation instruction, sending the control instruction to the slave control unit 120, and generating a corresponding driving instruction from the slave control unit 120 to realize the control operation of the user operation port 200; meanwhile, each user operation port 200 corresponds to a unique slave control unit 120, so that independent control of each user operation port can be realized.

In addition, after the control operation is completed on the user operation port 200, the specific control result is obtained by sending corresponding feedback data from the control unit 120 to the main control unit 110, thereby ensuring effective control operation of the electrical control system 100. For example, if the user operation port 200 fails to perform control operation through the slave control unit 120 due to a fault, the actual problem of the corresponding user operation port can be known in time through the feedback data, so as to ensure the timely maintenance of the self-service device.

In one embodiment, the master control unit 110 is connected to a plurality of slave control units 120 through a distribution system, wherein the master control unit 110 is a master node of the distribution system, and the plurality of slave control units 120 are configured as slave nodes of the distribution system. In a specific embodiment, the distribution system may be composed of a CAN bus, an RS485 bus, and the like, and data interaction between the master control unit 110 and the plurality of slave control units 120, such as transmission of control commands, transmission of feedback data, and the like, is realized through the distribution system.

Illustratively, the master control unit 110 is connected to the plurality of slave control units 120 via a CAN bus; specifically, the master control unit 110 is set as a master node of the CAN bus, and the plurality of slave control units 120 are set as slave nodes of the CAN bus.

Specifically, in the actual operation process, the communication data between the master control unit 110 and the slave control unit 120 CAN be encoded through the CAN bus without the characteristic of address encoding, so that each node on the CAN bus CAN receive the same data at the same time to ensure the real-time communication operation between the master control unit 110 and the slave control unit 120; meanwhile, a redundant structure is easily constructed by using the CAN bus.

In the embodiment, the redundant structure constructed by the CAN bus is to use the master control unit 110 as a master node of the CAN bus and the plurality of slave control units 120 as slave nodes of the CAN bus, which is beneficial to improving the reliability and flexibility of the electrical control system 100.

The main control unit 110 is configured to receive an operation instruction corresponding to a user operation, and generate a corresponding control instruction based on the operation instruction; the slave control unit 120 is configured to receive a control instruction and generate a corresponding driving instruction based on the control instruction, so as to implement a control operation on the plurality of user operation ports 200.

Specifically, when the user uses the financial self-service device, the user may sequentially input corresponding operation instructions according to the requirement, and in this embodiment, the master control unit 110 may generate a corresponding control instruction after receiving each operation instruction, and then send the control instruction to the slave control unit 120, so as to implement the control operation on different user operation ports 200 by generating a corresponding driving instruction through the slave control unit 120.

In one embodiment, if the master control unit 110 receives more than one operation command at the same time or within a very short time interval, since the master control unit 110 is connected to the slave control unit 120 via the CAN bus, each node on the CAN bus CAN receive the same data at the same time; when the master control unit 110 sends the control command corresponding to the operation command to the slave control units 120, it can be ensured that each slave control unit 120 produces the corresponding driving command in time, so as to ensure that each user operation port 200 gives the user a timely operation feedback in the user operation process, which is beneficial to improving the operation experience of the user.

For example, assuming that the financial self-service device is an ATM machine, the device corresponds to the user operation ports 200 such as a bill operation port (bill taking port) and a bill operation port on the ATM machine, and the user operation ports such as the bill operation port and the bill operation port are connected to the unique slave control unit 120. In practice, when the user sends a "cash taking instruction", that is, when the user clicks a "cash taking" button on the ATM, the main control unit 110 receives the "cash taking instruction" corresponding to the click, and further generates a corresponding "cash taking control instruction" to be sent to the slave control unit 120 corresponding to the cash operation port, at this time, the slave control unit 120 can drive the cash operation port to realize a cash dispensing action corresponding to the "cash taking instruction", and further complete a control operation corresponding to the "cash taking instruction".

In one embodiment, in order to ensure that each time the main control unit 110 sends a control command, whether the corresponding user operation port 200 performs the corresponding control operation can be determined, and after the control operation corresponding to the driving command is completed, the slave control unit 120 sends corresponding feedback data to the main control unit 110, so as to ensure stable operation and continuous operation of the financial self-service device. If the slave control unit 120 does not send the feedback data to the master control unit 110, or the sent feedback data is abnormal, based on the condition that the feedback data is not sent and/or the sent feedback data is abnormal, the master control unit 110 may determine that the communication is abnormal or the equipment fails, and the like, thereby facilitating the timely maintenance of the financial self-service equipment.

For example, if the slave control unit 120 transmits a high level signal to the master control unit 110 after the control operation corresponding to the driving command is completed, the master control unit 110 determines that the communication is normal; if the slave control unit 120 transmits a low level signal and/or a non-transmission level signal to the master control unit 110, the master control unit 110 determines a communication abnormality, an equipment failure, or the like.

The main control unit 110 is connected with the plurality of slave control units 120 through a CAN bus, wherein the main control unit 110 is used as a main node of the CAN bus, and the plurality of slave control units 120 are used as slave nodes of the CAN bus, so that the control of each user operation port in the financial self-service equipment is realized, and the functions of the financial self-service equipment are enriched; and a plurality of slave control units 120 may be disposed on the CAN bus, thereby facilitating to improve the design flexibility of the electrical control system 100.

In addition, because the CAN bus has a reliable error processing and detecting mechanism, the output function of the corresponding node CAN be automatically closed through the CAN bus, so that the operation of other nodes on the CAN bus is not influenced, and the CAN bus is ensured not to be in a locked state due to the problem of individual nodes in a network, wherein the locked state means that the CAN bus cannot perform data transmission operation. In this way, after the master control unit 110 is connected to the slave control unit 120 through the CAN bus, each node CAN work independently, so that the financial self-service device CAN be controlled more flexibly and stably through the electrical control system 100.

In one embodiment, the electrical control system 100 CAN set up to 127 slave control units 120 based on the CAN bus communication protocol having 8 bits of address bytes.

Illustratively, as shown in fig. 2, the master Control unit 110 includes a CABC (cabinet controller), and the slave Control unit 120 includes an STC (shell Control Ler); the CABC is set as a main node of the CAN bus, and the STCs are used as slave nodes of the CAN bus.

Through the electrical control system 100 of CAN bus design, on the basis that 127 slave control units 120 CAN be set at most, the operating smoothness of the financial self-service equipment is ensured, and meanwhile, the functions of the financial self-service equipment CAN be enriched, and different user operating requirements are met.

In one embodiment, as shown in fig. 3, the electrical control system 100 is further provided with a sensing unit 130 connected to the slave control unit 120; specifically, in the actual operation process, there may be some situations that the financial self-service device cannot work or work is obstructed, such as blockage, damage, etc. of the user operation opening, and for such situations, the corresponding sensing unit 130 is provided for the electrical control system 100.

Specifically, the sensing unit 130 is configured to collect status data corresponding to the financial self-service device, and transmit the status data to the slave control unit 120; the sensing unit 130 is specifically implemented by a sensor device, for example, an image sensor device, a temperature sensor device, and the like, that is, the sensing unit 130 is used to implement real-time monitoring of the financial self-service device and the user operation port 200.

In the real-time monitoring process of the sensing unit 130 on the financial self-service device and the user operation port 200, in order to realize the understanding of the real-time monitoring corresponding situation of the financial self-service device or the user operation port 200, the slave control unit 120 analyzes and processes the status data to obtain an analysis result corresponding to the real-time monitoring corresponding situation, and then the slave control unit 120 transmits the analysis result to the master control unit 110, and the master control unit 110 makes a corresponding response based on the analysis result. Specifically, if the analysis result indicates that the financial self-service device or the user operation port 200 has a fault, for example, the financial self-service device has an excessively high temperature, the user operation port 200 is blocked, and the like, the main control unit 110 may correspondingly send out fault information at this time, and the specific fault information may be notified to relevant personnel in an information or sound manner, so that maintenance may be performed in time; otherwise, if the analysis result indicates that the financial self-service device and/or the user operation port 200 does not have a fault condition, the main control unit 110 sends the device normal confidence to the relevant staff.

Whether the user operation port 200 is blocked or not can be judged by acquiring corresponding real-time image data through the infrared sensor, and the real-time image data is compared with preset standard image data, so that the analysis result is obtained; and if the temperature of the financial self-service equipment is too high, the real-time temperature can be obtained through the temperature sensor, and the real-time temperature is compared with the preset temperature to obtain the analysis result.

In one embodiment, in order to ensure comprehensive monitoring of the financial self-service device, at least one sensing unit 130 is correspondingly disposed on each slave control unit 120, which is beneficial to timely understanding the working condition and the self condition of the financial self-service device, and further beneficial to timely maintenance and prolonging the service life of the financial self-service device. It should be noted that the sensing units 130 all implement corresponding functions through existing sensing devices, and the specific implementation process thereof is not described herein again.

Through setting up sensing unit 130, be favorable to richening the control function of electrical control system 100, and through the monitoring function of sensing unit 130, for example when monitoring the temperature of financial self-service equipment through temperature sensing unit and being higher than a predetermined warning temperature, then accessible bee calling organ, modes such as flash light send out the police dispatch newspaper, and in time stop using this financial self-service equipment, thereby can effectively avoid financial self-service equipment to break down, and if break down, based on the monitoring function of sensing unit 130 to each user operation mouth, also can maintain in time, reduce the loss that the trouble brought and to user's use influence.

In order to realize communication between the master control unit 110 and the plurality of slave control units 120 and further realize the corresponding control functions, in one embodiment, as shown in fig. 4, the electrical control system 100 is further provided with an address assignment unit 170 connected to the master control unit 100 and the plurality of slave control units 120. Different addresses are allocated to the master control unit 110 and the plurality of slave control units 120 through the address allocation unit 170, and data interaction is realized through the CAN bus based on the master control unit 110 and the plurality of slave control units 120 allocated with the different addresses, wherein the data interaction includes transmission operations of control instructions and feedback data.

Alternatively, based on the electrical control system 100 being provided with a plurality of control units 120 and a single master control unit 110, there may be a case where when there are too many control units 120 provided in the electrical control system 100, the master control unit 110 makes an error in the control of each slave control unit 120, that is, the control instruction sent by the master control unit 110 is not accurately sent to a predetermined slave control unit 120, thereby causing an error in the control of the electrical control system 100; the address assignment unit 170 can avoid control errors of the electrical control system 100.

Specifically, before the master control unit 110 communicates with the slave control units 120, a unique address is assigned to the master control unit 110 by the address assignment unit 170, and similarly, a uniquely corresponding address is assigned to each slave control unit 120, i.e., each slave control unit 120 has a unique address. When the master control unit 110 sends a control instruction to the slave control unit 120, the control instruction sent by the master control unit 110 includes a preset specified address, that is, according to the comparison between the specified address and the address allocated by the slave control unit 120 through the address allocation unit 170, if the specified address does not match the address allocated by the address allocation unit 170 to the corresponding slave control unit 120, the slave control unit 120 does not accept the control instruction, and correspondingly, the slave control unit 120 does not generate a driving instruction to execute the corresponding operation; on the contrary, when the designated address matches the address allocated to the corresponding slave control unit 120 by the address allocation unit 170, the slave control unit 120 receives the control instruction, and the control operation on the application user operation port 200 can be realized by generating the corresponding driving instruction from the slave control unit 120.

Similarly, after the slave control unit 120 performs the driving control on the application user interface 200 by generating the driving command, the slave control unit 120 sends corresponding feedback data to the master control unit 110, so as to record the control effect of the master control unit 110 and the slave control unit 120 each time. In order to perform detailed and independent control recording on different user operation ports 200, when the slave control unit 120 sends feedback data to the master control unit 110, the feedback data includes the address of the corresponding slave control unit 120; it is thus possible to compare whether the address is the same as the address allocated by the slave control unit 120 through the address allocation unit 170, and the master control unit 110 receives and stores the feedback data only if the address is the same as the address allocated by the slave control unit 120 through the address allocation unit 170.

By arranging the address allocation unit 170, independent communication between each slave control unit 120 and the master control unit 110 can be ensured, so that the master control unit 110 can independently control each of the plurality of slave control units 120, and the phenomenon of control confusion or control error of the electrical control system 100 is avoided; and the main control unit 110 can receive and store the feedback data of each slave control unit 120 individually, that is, the main control unit can store and manage the feedback data of each slave control unit 120 in a classified manner, which is beneficial to maintaining the control stability of the electrical control system 100.

In summary, the electrical control system 100 of the present embodiment can realize accurate control of each user operation port 200, thereby facilitating to improve the control efficiency.

In one embodiment, as shown in fig. 5, the electrical control system 100 further comprises: a storage unit 140, an input unit 150, and a power supply unit 160 connected to the main control unit 110; the storage unit 140 is configured to store data corresponding to the analysis result; the input unit is used for inputting a corresponding operation instruction based on actual requirements by a user; the power supply unit 160 is also connected to the slave control unit 120 and the address assignment unit 170, and the master control unit 110, the slave control unit 120, and the address assignment unit 170 are supplied with power through the power supply unit 160.

Specifically, the storage unit 140 may be mainly used to store data corresponding to the real-time monitoring acquired by the sensing unit 130 and data corresponding to the analysis result thereof in a manner of a hard disk, a database, or the like. In the process of controlling the financial self-service equipment through the electrical control system 100, historical data stored in the storage unit 140 is used for comparison, if data monitored in real time by the sensing unit 130 is close to or similar to data with faults in the historical data in the storage unit 140, at this moment, the main control unit 110 correspondingly generates early warning information, so that the early warning information is timely eliminated before the faults occur, and the use safety and stability of the financial self-service equipment are guaranteed.

Specifically, the input unit 150 may be implemented by, for example, a keyboard, a touch screen, and the like, and is mainly used for a user to operate the financial self-service device based on actual needs, for example, an ATM machine inputs a specific withdrawal amount through the keyboard, and inputs a password through the touch screen, and the like.

Specifically, the power supply unit 160 may be a storage battery, a dry battery, a lithium battery, or the like, and is mainly used to supply power to the master control unit 110 and the slave control unit 120, so as to ensure normal operation of the electrical control system 100, thereby implementing electrical control of the financial self-service device.

In one embodiment, the power supply unit 160 can provide a power supply voltage of [12V, 36V ], for example, the power supply unit 160 can provide a dc voltage of 24V to power the master control unit 110 and the slave control unit 120.

Based on the same inventive concept, the embodiment of the present invention provides a financial self-service device, and it should be noted that the implementation of the financial self-service device is consistent with the implementation concept of the cash dispensing method, and the implementation principle thereof is not described herein again, and specific reference may be made to the corresponding contents in the cash dispensing method.

In one embodiment, as shown in fig. 2, the master control unit 110 of the financial self-service device is implemented by a CABC, the slave control unit 120 is implemented by an STC, and the CABC and the STC are connected by a CAN bus; specifically, arbitrary user operation mouth in the self-service financial equipment through electrical control system 100 control is controlled through STC, and regards CABC as the master control board, based on the low cost of CAN bus, the strong characteristic of anti-electromagnetic interference CAN guarantee to reduce self-service financial equipment's cost input, strengthens self-service financial equipment's communication stability simultaneously.

After the electrical control system and the financial self-service equipment are adopted, a plurality of slave control units connected with the master control unit are arranged, the master control unit generates corresponding control instructions after receiving operation instructions of users, and the slave control units generate driving instructions based on the control instructions, so that the control operation of the slave control units on operation ports of the users in the financial self-service equipment can be realized; meanwhile, after the corresponding control operation is finished on the user operation port, the slave control unit sends corresponding feedback data to the master control unit. Corresponding each user operation mouth in the self-service financial equipment, this embodiment can be favorable to promoting self-service financial equipment's flexibility and stability to the control operation of the user operation mouth more than two at least in the self-service financial equipment.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. An electrical control system, applied to a financial self-service device including a plurality of user operation ports, the electrical control system comprising:

the main control unit is used for receiving an operation instruction corresponding to user operation and generating a corresponding control instruction based on the operation instruction;

the plurality of slave control units are respectively connected with the main control unit and the user operation ports and are used for receiving the control instructions and generating corresponding driving instructions based on the control instructions so as to realize the control operation of the plurality of user operation ports;

and each user operation port corresponds to one slave control unit, and after the control operation is finished on the user operation port, the slave control unit sends corresponding feedback data to the master control unit.

2. The electrical control system of claim 1, wherein said master control unit is connected to a plurality of said slave control units via a distribution system;

the master control unit is a master node of the distribution system, and the slave control unit is a slave node of the distribution system.

3. The electrical control system of claim 1 or 2, further comprising a sensing unit connected to the slave control unit;

the sensing unit is used for acquiring state data corresponding to the financial self-service equipment and transmitting the state data to the slave control unit;

and the slave control unit analyzes and processes the state data to obtain a corresponding analysis result, and then transmits the analysis result to the master control unit.

4. An electrical control system according to claim 3, wherein at least one said sensing unit is provided for each said slave control unit.

5. The electrical control system of claim 3, further comprising: the address distribution unit is connected with the master control unit and the plurality of slave control units;

the address allocation unit is used for allocating different addresses to the master control unit and the plurality of slave control units;

and realizing data interaction through the distribution system based on the master control unit and the plurality of slave control units which are allocated with different addresses, wherein the data interaction comprises transmission operation of the control instruction and the feedback data.

6. The electrical control system according to claim 5, wherein the master control unit transmits the control command including a preset designated address to the slave control units to effect control of the plurality of the slave control units by the master control unit.

7. The electrical control system of claim 6, wherein when the slave control units send the feedback data to the master control unit, each of the slave control units obtains the feedback data corresponding to the address and sends the feedback data to the master control unit to enable the master control unit to receive the feedback data.

8. The electrical control system of claim 6, further comprising a power supply unit connected to the master control unit, the slave control unit, the address assignment unit;

the power supply unit is used for supplying power to the master control unit, the slave control unit and the address allocation unit.

9. The electrical control system of claim 3, further comprising: the storage unit is connected with the main control unit;

the storage unit is used for storing data corresponding to the analysis result.

10. A financial self-service device, characterised in that it comprises an electrical control system according to any one of claims 1 to 9.

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