CN201898472U - An electronic commutation motor interface signal conversion sub-circuit board - Google Patents

Abstract

The utility model provides an electronic commutation motor interface signal conversion sub circuit board, this sub circuit board sets up 8 ports with user end control system connection, respectively: 5 paths of switch signal input ports of M1, M2, M3, M4 and M5 are connected, the voltage range is 10V-24V alternating voltage or 14V-35V direct current voltage, the current is less than 10mA, one path of Mode selection port is connected with a selection signal input by a user side control system to a sub circuit board, the voltage range is 10V-24V alternating voltage or 14V-35V direct current voltage, and the current is less than 10 mA; one G2 port is the common terminal of the switch signal; one R/T port, a half-duplex bidirectional asynchronous communication data line, and a data transmission port between the sub-circuit board and the user side control system. The port of the system adopts a new electrical specification, is simple, is convenient for matching signals with a client control system, forms a universal standard, and is convenient for management, popularization and application.

Description

An electronic commutation motor interface signal conversion sub-circuit board

Technical field:

The invention relates to an electronically commutated motor interface signal conversion sub-circuit board.

Background technique:

As shown in Figure 1 and Figure 2, a general electronically commutated drive motor includes a motor entity and a motor controller. The motor entity includes the stator and rotor parts of the motor. The application system-that is, the control interface of the user-side control system matches, because different user-side control systems match different control signals, for example, the air-conditioning control system and the washing machine control system are both user-side control systems, and the control signals of the two systems are completely different . The traditional approach is to develop a motor and motor controller for each user-side control system, which leads to the following problems: 1) Motor manufacturers produce a large number of motor models, which is not easy to manage and standardize; 2) Wasteful development Time and R & D investment, because each new user-side control system needs to re-develop a motor, which increases the manufacturing cost of the product; 3) Redesign requires a new production process and certification costs, which increases investment; 4) Motor The scope of application is very narrow, and it is not convenient for large-scale promotion and application.

In order to solve the above-mentioned technical problems, there are some motor controllers that are connected to the mother-child circuit board. Use one of the sub-circuit boards to connect with the main circuit board, and the identification circuit on the sub-circuit board notifies the central control and processing unit on the main circuit board, and the central control and processing unit automatically configures the I/O on the sub-circuit board. Port type, so that it can be applied to different occasions by replacing different sub-circuit boards. It has a wide range of applications. Motor manufacturers reduce the types of motors for easy management, which can reduce motor R&D investment, shorten the R&D cycle, reduce product costs, and simplify production processes. ,Improve efficiency.

Its specific technical scheme is shown in Figure 3, Figure 4 and Figure 5. The motor controller includes a central control processing unit, an interface circuit unit and an identification circuit. The central control processing unit is arranged on the bus circuit board. The identification circuit is set on the sub-circuit board, and the electrical connection is formed through the docking of the sub-circuit board and the main circuit board. The identification circuit inputs the identification signal to the central control processing unit, and the central control processing unit automatically configures each interface circuit unit according to the identification signal. The type of I/O port. Different types of interface circuit units are matched with identification circuits that output different signals to form a plurality of different sub-circuit boards. The output end of the central control processing unit is connected to the power drive circuit module, the output end of the rotor position detection circuit is connected to the input end of the central control processing unit, and the power drive circuit module and the rotor position detection circuit are both arranged on the bus circuit board. The power supply circuit and the analog quantity detection circuit are also arranged on the bus circuit board. The power supply circuit supplies power to each part of the circuit. The central control processing unit is a CPU or a single-chip MCU or a digital signal processor DSP. The socket port 3 is arranged on the main circuit board, and 11 road lugs are arranged in the socket port 3. There can be multiple sub-circuit boards, which are respectively the first sub-circuit board, the second sub-circuit board and the third sub-circuit board. The 11-way lugs on the plug port 3 are E, N, L, M1, M2, M3, M4, M5, Mode, G2, R/T. The lugs of each lug can be defined according to the following standards and set on the bus board There is a slot 1, and a plug connector 2 is arranged on the sub circuit board, and the plug connector 2 is nested in the slot 1, so that the sub circuit board and the mother circuit board are electrically connected.

However, in order to standardize the signal mode of sub-circuit boards, avoid too many and too many, and facilitate signal matching with the client control system, it is necessary to make reasonable specifications for sub-circuit boards to achieve basically consistent electrical standards, which is convenient for management and promotion.

Invention content:

The purpose of this invention is to provide a sub-circuit board for electronically commutated motor interface signal conversion, which adopts new electrical specifications, is relatively simple, and is convenient for matching signals with the client control system, forming a more general standard, and avoiding sub-circuit boards There are too many and too many forms, which is convenient for management and promotion.

The purpose of the present invention is achieved through the following technical solutions.

An electronic commutation motor interface signal conversion sub-circuit board, including various unit circuits integrated on the sub-circuit board, the sub-circuit board is plugged into the motor controller to convert signals so that the motor controller communicates with the user-side control system to match , it is characterized in that: the sub-circuit board is connected with the user end control system and provided with 8 ports, which are respectively:

M1: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA.

M2: The switch signal input by the user-side control system to the sub-circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA;

M3: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA;

M4: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA;

M5: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA;

Mode: mode selection port, the selection signal input by the user-side control system to the sub-circuit board, the dehumidification mode is selected when the level is high, and the normal mode is selected when the level is low. The voltage range is 10V-24V AC voltage or 14V-35V DC voltage , the current is less than 10mA;

G2: common terminal of switch signal;

R/T: Half-duplex two-way asynchronous communication data line, data transmission port between the sub-circuit board and the user-side control system.

Compared with the prior art, the present invention has the following advantages: the sub-circuit board of the utility model is connected with the user-end control system, and the 8-way port adopts a relatively simple electrical specification standard, which is convenient for matching signals with the client-side control system, forming a relatively common Standards to avoid too many forms of sub-circuit boards flooding, easy to manage and promote the application.

Description of drawings:

Figure 1 is a wiring diagram of a traditional motor controller and a user-side control system;

Fig. 2 is a schematic block diagram of a traditional motor controller;

Fig. 3 is a schematic diagram of the principle of using a mother-child circuit board in a traditional motor controller;

Fig. 4 is a schematic diagram of the appearance of a bus circuit board of a traditional motor controller;

FIG. 5 is a schematic diagram of the appearance of a sub-circuit board of a conventional motor controller;

Fig. 6 is the circuit block diagram of the sub circuit board of the present utility model;

Fig. 7 is a partial circuit diagram corresponding to Fig. 6;

FIG. 8 is another part of the circuit diagram corresponding to FIG. 6 .

Detailed ways:

Below by specific embodiment and in conjunction with accompanying drawing, the present invention is described in further detail:

As shown in Figure 6, Figure 7 and Figure 8, an electronically commutated motor interface signal conversion sub-circuit board includes each unit circuit integrated on the sub-circuit board, and the sub-circuit board is plugged into the motor controller for conversion The signal is used to match the communication between the motor controller and the user-end control system, and it is characterized in that: the sub-circuit board is connected with the user-end control system to be provided with 8 ports, which are respectively:

M1: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, the current is less than 10mA, and it is connected to the signal conversion circuit 1;

M2: The switch signal input by the user end control system to the sub-circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, the current is less than 10mA, and it is connected to the signal conversion circuit 2;

M3: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, the current is less than 10mA, and it is connected to the signal conversion circuit 3;

M4: The switch signal input by the user end control system to the sub-circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, the current is less than 10mA, and it is connected to the signal conversion circuit 4;

M5: The switch signal input by the user end control system to the sub-circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, the current is less than 10mA, and it is connected to the signal conversion circuit 5;

Mode: mode selection port, the selection signal input by the user-side control system to the sub-circuit board, the dehumidification mode is selected when the level is high, and the normal mode is selected when the level is low. The voltage range is 10V-24V AC voltage or 14V-35V DC voltage , the current is less than 10mA, connected with the signal conversion circuit 6.

G2: common terminal of switch signal;

R/T: a half-duplex bidirectional asynchronous communication data line, a data transmission port between the sub-circuit board and the client control system, and connected to the half-duplex bidirectional communication circuit 8 .

There is also an identification circuit 7 on the sub circuit board, which is a voltage divider circuit connected in series by a resistor R635 and a resistor R636. The power supply VCC1 of the identification circuit 7 comes from the power supply on the mother circuit board, and the output terminal BSEL of the identification circuit 7 is connected to The input terminal of the central control processing unit MCU of the motor controller. The signal conversion circuit 1 , the signal conversion circuit 2 , the signal conversion circuit 3 , the signal conversion circuit 4 , the signal conversion circuit 5 and the signal conversion circuit 6 may be commonly used photoelectric coupling unit circuits.

The above-mentioned embodiment is a preferred embodiment of the present invention, but the embodiment of the present invention is not limited thereto, and any other changes, modifications, substitutions, combinations, and simplifications that do not deviate from the spirit and principles of the present invention are equivalent All replacement methods are included within the protection scope of the present invention.

Claims (1)

1. An electronic commutation motor interface signal conversion sub-circuit board, including each unit circuit integrated on the sub-circuit board, the sub-circuit board is plugged into the motor controller to convert signals so that the motor controller and the user end control system Communication matching is characterized in that: the sub-circuit board is connected with the user-end control system to set 8 ports, which are respectively: M1: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA. M2: The switch signal input by the user-side control system to the sub-circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA; M3: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA; M4: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA; M5: The switch signal input by the user end control system to the sub circuit board, the voltage range is 10V-24V AC voltage or 14V-35V DC voltage, and the current is less than 10mA; Mode: mode selection port, the selection signal input by the user-side control system to the sub-circuit board, the dehumidification mode is selected when the level is high, and the normal mode is selected when the level is low. The voltage range is 10V-24V AC voltage or 14V-35V DC voltage , the current is less than 10mA; G2: common terminal of switch signal; R/T: Half-duplex two-way asynchronous communication data line, data transmission port between the sub-circuit board and the user-end control system.

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