JP2006345632A - Electronic circuit device for controlling brushless motor and manufacturing method therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electronic circuit device capable of controlling an output of a brushless motor with ease by means of various methods by using a simple circuit and low cost parts as much as possible. <P>SOLUTION: This is the electronic circuit device which controls the output of the brushless motor. In the first method, the output is controlled by shortage or open in a connector pin fitted in the electronic circuit device, in the second method, the output is controlled by the position of the connector pin which is connected with DC power, in the third method, the output is controlled by changing a voltage applied to the connector pin, and in the fourth method, the output is controlled by changing a duty ratio of a pulse voltage applied to the connector pin. In this electronic circuit device, jumper connection is shorted or opened, or a small number of parts are added in a substrate in which common parts are mounted on a common printed circuit board. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an electronic circuit device that controls the output of a brushless motor, and more particularly to an electronic circuit device that can be used in common for various brushless motors having different outputs.

  In recent years, a brushless motor has been used instead of a DC motor having a brush. With the wide use of brushless motors, there is an increasing need to quickly supply brushless motors with different outputs at competitive costs.

In order to control the output of the brushless motor, it is necessary to change the circuit of the electronic circuit device that controls the brushless motor. Generally, when the circuit of the electronic circuit device is changed, the wiring structure of the printed board for mounting the components is changed, and the design of the printed board needs to be changed.
JP-A-5-175635

However, a design change of a printed circuit board requires a long time and a high cost compared to a change in a component mounting method. In addition, when the number of types of printed circuit boards increases, the management cost of the product is also generated, which ultimately leads to a cost increase of the brushless motor.
On the other hand, in order to improve cost competitiveness, expensive parts and complicated circuits cannot be used to control the output of the brushless motor.

  Therefore, the present invention proposes an electronic circuit device that can easily control the output of a brushless motor by various methods using a circuit as simple as possible and low-cost components.

In order to solve the above problems, the invention according to claim 1 relates to an electronic circuit device for controlling a brushless motor,
A connector 101, a three-terminal regulator 102, a resistor 103, a resistor 104, and a control IC 105;
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to one end of the resistor 103 and the Vcc pin of the control IC 105, and the other end of the resistor 103 is the resistor 104 is connected to one end of the control IC 105 and the Vctl pin of the control IC 105, and the other end of the resistor 104 is connected to the 4th pin of the connector 101,
When the brushless motor exhibits high output, a DC power supply voltage applied to the first pin of the connector 101 is applied to the input of the three-terminal regulator 102 by applying a power supply voltage to the first pin of the connector 101. The voltage from the output pin of the three-terminal regulator 102 is transmitted to the Vctl pin of the control IC 105 through the resistor 103,
On the other hand, when making the brushless motor exhibit low output, the third pin of the connector 101 is grounded, and the third and fourth pins of the connector 101 are connected by a jumper, so that the first pin of the connector 101 Is supplied to the input pin of the three-terminal regulator 102, the voltage from the output pin of the three-terminal regulator 102 is divided by the resistor 103 and the resistor 104, and the divided voltage is The control IC 105 is configured to be transmitted to the Vctl pin.

The invention according to claim 2 relates to an electronic circuit device for controlling a brushless motor,
A connector 101, a three-terminal regulator 102, a resistor 103, a resistor 104, a control IC 105, a diode 106, and an NPN transistor 202;
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102 and the cathode of the diode 106, and the output pin of the three-terminal regulator 102 is connected to one end of the resistor 103 and the Vcc pin of the control IC 105. The other end of the resistor 104 is connected to one end of the resistor 104 and the Vctl pin of the control IC 105. The other end of the resistor 104 is connected to the collector of the NPN transistor 202. The base of the NPN transistor 202 is connected to the second pin of the connector 101 and the diode 106. Connected to the anode of
When the brushless motor exhibits high output, the DC power supply voltage applied to the first pin of the connector 101 is applied to the first pin of the connector 101 by applying a DC power supply voltage to the first pin of the connector 101. At this time, the diode 106 does not conduct because the cathode voltage is higher than the anode voltage, and the NPN transistor 202 does not turn on, so that no current flows through the resistor 104 and the three-terminal regulator The voltage from the output pin 102 is transmitted to the Vctl pin of the control IC 105 through the resistor 103,
On the other hand, when making the brushless motor exhibit low output, by applying a DC power supply voltage to the second pin of the connector 101, the DC power supply voltage is transmitted to the anode of the diode 106, and the diode 106 becomes conductive. A voltage about 0.7V lower than the DC power supply voltage enters the input pin of the three-terminal regulator 102, and the DC power supply voltage applied to the second pin of the connector 101 is also transmitted to the base of the NPN transistor 202. As a result, the NPN transistor 202 is turned on, and a current flows through the resistor 104. The potential of the output pin of the three-terminal regulator 102 and the potential of the collector of the NPN transistor 202 are applied to the Vctl pin of the control IC 105. Is divided by the resistor 103 and the resistor 104. It is characterized in that the voltage of the fruit is configured to propagate.

The invention according to claim 3 relates to an electronic circuit device for controlling a brushless motor,
A connector 101, a three-terminal regulator 102, a resistor 104, and a control IC 105;
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to the Vcc pin of the control IC 105, and one end of the resistor 104 is connected to the Vctl pin of the control IC 105. The other end of the resistor 104 is connected to the 4th pin of the connector 101,
The control voltage applied to the 4th pin of the connector 101 is transmitted to the control IC 105Vctl pin through the resistor 104, thereby controlling the output of the brushless motor by changing the value of the DC voltage applied to the 4th pin of the connector 101. It is comprised so that it can do.

The invention according to claim 4 relates to an electronic circuit device for controlling a brushless motor,
A connector 101, a three-terminal regulator 102, a resistor 104, a resistor 108, a capacitor 109, and a control IC 105;
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to one end of the resistor 108 and the Vcc pin of the control IC 105, and the other end of the resistor 108 is the connector. 101 is connected to the fourth pin of the resistor 104 and one end of the resistor 104, and the other end of the resistor 104 is connected to the Vctl pin of the control IC 105 and one end of the capacitor 109.
When a pulsed voltage is applied to the 4th pin of the connector 101, the voltage is integrated by the resistor 108 and the capacitor 109, and the integrated voltage is transmitted to the control IC 105Vctl pin, thereby outputting the output of the brushless motor. Is controlled by changing the pulse width of the pulse voltage applied to the 4th pin of the connector 101.

The invention according to claim 5 relates to an electronic circuit device for controlling a brushless motor,
A connector 101, a three-terminal regulator 102, a resistor 104, a control IC 105, a first jumper 110, and a second jumper 111;
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to the Vcc pin of the control IC 105, and one end of the resistor 104 is connected to the Vctl of the control IC 105. The other end of the resistor 104 is connected to the first pin of the second jumper 111. The second pin of the second jumper 111 is connected to the fourth pin of the connector 101. No. pin is a basic circuit device connected to No. 1 pin of the first jumper 110,
If you want to control the output of the brushless motor by connecting or releasing the 3rd and 4th pins of the connector 101,
For the basic circuit device, a resistor 103 is added to the components constituting the basic circuit device, one end of the resistor 103 is connected to the output pin of the three-terminal regulator 102, and the other end of the resistor 103 is controlled. Connect to the Vctl pin of the IC 105, connect the first and second pins of the first jumper 110, connect the first and second pins of the second jumper 111, and use them.
If you want to control the output of the brushless motor by changing the pin to which the DC power supply voltage is applied,
For the basic circuit device, a resistor 103, a diode 106, and an NPN transistor 202 are added to the components constituting the basic circuit device, and the cathode of the diode 106 is connected to the first pin of the connector 101. The anode of the diode 106 is connected to the second pin of the connector 101, one end of the resistor 103 is connected to the output pin of the three-terminal regulator 102, and the other end of the resistor 103 is connected to the Vctl pin of the control IC 105 The collector of the NPN transistor 202 is connected to the first pin of the second jumper 111, the base of the NPN transistor 202 is connected to the anode of the diode 106, and the emitter of the NPN transistor 202 is Use with grounding,
If you want to control the output of the brushless motor by changing the voltage applied to the 4th pin of the connector 101,
In the basic circuit device, the first and second pins of the first jumper 110 are connected to each other, and the first and second pins of the second jumper 111 are connected to each other. If you want to control by changing the pulse width of the pulse voltage applied to the pin No.
For the basic circuit device, a resistor 108 and a capacitor 109 are added to the components constituting the basic circuit device,
One end of the resistor 108 is connected to the output pin of the three-terminal regulator 102;
The other end of the resistor 108 is connected to the first pin of the second jumper 111,
One electrode of the capacitor 109 is connected to the Vctl pin of the control IC 105,
The other electrode of the capacitor 109 is grounded, the first and second pins of the first jumper 110 are connected, and the first and second pins of the second jumper 111 are connected and used. .

The invention according to claim 6 relates to a method of manufacturing an electronic circuit device for controlling a brushless motor,
First, an electronic circuit device for controlling a brushless motor,
A connector 101, a three-terminal regulator 102, a resistor 104, a control IC 105, a first jumper 110, and a second jumper 111;
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to the Vcc pin of the control IC 105, and one end of the resistor 104 is connected to the Vctl of the control IC 105. The other end of the resistor 104 is connected to the first pin of the second jumper 111. The second pin of the second jumper 111 is connected to the fourth pin of the connector 101. No. pin manufactures a basic circuit device connected to No. 1 pin of the first jumper 110,
If you want to control the output of the brushless motor by connecting or releasing the 3rd and 4th pins of the connector 101,
For the basic circuit device, a resistor 103 is added to the components constituting the basic circuit device, one end of the resistor 103 is connected to the output pin of the three-terminal regulator 102, and the other end of the resistor 103 is controlled. Connect to the Vctl pin of the IC 105, connect the first and second pins of the first jumper 110, and connect the first and second pins of the second jumper 111 to manufacture an electronic circuit device,
If you want to control the output of the brushless motor by changing the pin to which the DC power supply voltage is applied,
In addition to the basic circuit device, a component constituting the basic circuit device is provided with a resistor 103, a diode 106, and an NPN transistor 202, and the cathode of the diode 106 is connected to the first pin of the connector 101. The anode of the diode 106 is connected to the second pin of the connector 101, one end of the resistor 103 is connected to the output pin of the three-terminal regulator 102, and the other end of the resistor 103 is connected to the Vctl of the control IC 105. The collector of the NPN transistor 202 is connected to the first pin of the second jumper 111, the base of the NPN transistor 202 is connected to the anode of the diode 106, and the emitter of the NPN transistor 202 is Manufacturing an electronic circuit device by grounding,
If you want to control the output of the brushless motor by changing the voltage applied to the 4th pin of the connector 101,
In the basic circuit device, the first and second pins of the first jumper 110 are connected, and the first and second pins of the second jumper 111 are connected to manufacture an electronic circuit device, and the output of the brushless motor is If you want to control by changing the pulse width of the pulse voltage applied to the 4th pin of the connector 101,
For the basic circuit device, a resistor 108 and a capacitor 109 are added to the components constituting the basic circuit device,
One end of the resistor 108 is connected to the output pin of the three-terminal regulator 102;
The other end of the resistor 108 is connected to the first pin of the second jumper 111,
One electrode of the capacitor 109 is connected to the Vctl pin of the control IC 105,
The other electrode of the capacitor 109 is grounded, the first and second pins of the first jumper 110 are connected, and the first and second pins of the second jumper 111 are connected to manufacture an electronic circuit device. It is characterized by.

The invention according to claim 7 relates to an electronic circuit device for controlling a brushless motor,
An electronic circuit device for controlling a brushless motor, comprising a connector 102, a resistor 104, a control IC 105, a first jumper 110, and a second jumper 111,
The first pin of the connector 102 is connected to the VM pin of the control IC 105, the fifth pin of the connector 102 is connected to the Vcc pin of the control IC 105, and one end of the resistor 104 is connected to the Vctl pin of the control IC 105. The other end of the resistor 104 is connected to the first pin of the second jumper 111, the second pin of the second jumper 111 is connected to the fourth pin of the connector 101, and the second pin of the connector 101 is In the basic circuit device connected to the first pin of the first jumper 110,
If you want to control the output of the brushless motor by connecting or releasing the 3rd and 4th pins of the connector 101,
A resistor 103 is added to the components constituting the basic circuit device with respect to the basic circuit device, one end of the resistor 103 is connected to the fifth pin of the connector 102, and the other end of the resistor 103 is connected to the control IC 105. Connected to the Vctl pin of the first jumper 110, the first and second pins of the first jumper 110 are connected, the first and second pins of the second jumper 111 are connected and used,
If you want to control the output of the brushless motor by changing the pin to which the DC power supply voltage is applied,
For the basic circuit device, a resistor 103, a diode 106, and an NPN transistor 202 are added to the components constituting the basic circuit device, and the cathode of the diode 106 is connected to the first pin of the connector 101. The anode of the diode 106 is connected to the 2nd pin of the connector 101, one end of the resistor 103 is connected to the 5th pin of the connector 102, and the other end of the resistor 103 is connected to the Vctl pin of the control IC 105. The collector of the NPN transistor 202 is connected to the first pin of the second jumper 111, the base of the NPN transistor 202 is connected to the anode of the diode 106, and the emitter of the NPN transistor 202 is connected Use with grounding,
If you want to control the output of the brushless motor by changing the voltage applied to the 4th pin of the connector 101,
In the basic circuit device, the first and second pins of the first jumper 110 are connected to each other, and the first and second pins of the second jumper 111 are connected to each other. If you want to control by changing the pulse width of the pulse voltage applied to the pin No.
For the basic circuit device, a resistor 108 and a capacitor 109 are added to the components constituting the basic circuit device,
One end of the resistor 108 is connected to the fifth pin of the connector 102;
The other end of the resistor 108 is connected to the first pin of the second jumper 111,
One electrode of the capacitor 109 is connected to the Vctl pin of the control IC 105,
The other electrode of the capacitor 109 is grounded, the first and second pins of the first jumper 110 are connected, and the first and second pins of the second jumper 111 are connected and used. .

According to the first aspect of the present invention, it is possible to manufacture a brushless motor having a different output depending on whether the third and fourth pins of the connector 101 are opened or shorted. The control of whether the 3rd and 4th pins of the connector 101 are opened or shorted can be controlled, for example, by placing a jumper between the 3rd and 4th pins of the connector 101. Therefore, it is possible to manufacture a brushless motor with very different output and very easily.

According to the invention of claim 2,
If the power cable is connected to the connector 101 so that the DC power supply voltage is applied to the first pin of the connector 101, the brushless motor can obtain a high output, and the DC power supply voltage is applied to the second pin of the connector 101. Thus, if the power cable is connected to the connector 101, the brushless motor can obtain a low output. Therefore, it is possible to manufacture a brushless motor having a different output very easily and easily by changing the connection arrangement of the power cable and the connector 101.
Moreover, the output of a brushless motor can be changed only by changing the connection arrangement of the power cable and the connector 101 after manufacturing.

According to the invention of claim 3,
The output of the brushless motor can be changed simply by changing the voltage of the DC power supply voltage applied to the 4th pin of the connector 101.

According to the invention as set forth in claim 4,
By simply changing the pulse width of the pulse voltage applied to the 4th pin of the connector 101, the output of the brushless motor can be controlled.

According to the invention as set forth in claim 5,
A brushless motor that can control the output of a brushless motor in various ways just by adding a few inexpensive parts to a basic circuit device and shorting or opening the jumper as required. An electronic circuit device for motor control can be manufactured inexpensively and quickly.

According to the invention as set forth in claim 6,
A brushless motor that can control the output of a brushless motor in various ways just by adding a few inexpensive parts to a basic circuit device and shorting or opening the jumper as required. An electronic circuit device for motor control can be manufactured inexpensively and quickly.

According to the invention of claim 7,
Even when using an external power supply instead of using a three-terminal regulator as a power supply for a control IC,
A brushless motor that can control the output of a brushless motor in various ways just by adding a few inexpensive parts to a basic circuit device and shorting or opening the jumper as required. An electronic circuit device for motor control can be manufactured inexpensively and quickly.

  Hereinafter, the best mode for carrying out the invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing the configuration of a printed circuit board that is basically used in manufacturing an electronic circuit control device that controls the output of four types of brushless motors.

  In FIG. 1, reference numeral 100 denotes a basic circuit device. 101 is a connector. Reference numeral 106 denotes a diode. However, in the state of the basic circuit device, the diode 101 is not mounted, and only wiring is formed on the printed board so that it can be mounted. Reference numeral 102 denotes a three-terminal regulator. Reference numeral 108 denotes a resistor. However, in the state of the basic circuit device, the resistor 108 is not mounted, and only wiring is formed on the printed board so that it can be mounted. Reference numeral 103 denotes a resistor. However, in the state of the basic circuit device, the resistor 103 is not mounted, and only wiring is formed on the printed board so that it can be mounted. A control IC 105 controls the brushless motor. The control IC 105 has a specification that when the voltage applied to the Vctl pin is high, the output of the brushless motor is high and when it is low, the output is low. Reference numeral 110 denotes a first jumper. Reference numeral 111 denotes a second jumper. Reference numeral 109 denotes a condenser. However, in the state of the basic circuit device, the capacitor 109 is not mounted, and only wiring is formed on the printed board so that it can be mounted. Reference numeral 202 denotes an NPN transistor. However, in the state of the basic circuit device, the NPN transistor 202 is not mounted, and only wiring is formed on the printed board so that it can be mounted. Note that a triangle mark 113 indicates grounding. The same applies to other triangular marks.

In the present invention, in the basic circuit device 100 shown in FIG. 1, an electronic circuit control device that controls the output of four types of brushless motors can be manufactured by appropriately mounting the components indicated by dotted lines, The electronic circuit control device can control the output of the brushless motor by different methods. Hereinafter, it demonstrates in order.
(In case of two-stage switching by jumper)
In this case, an electronic device for controlling the output of the brushless motor that can switch the output of the brushless motor between HIGH (high output) and LOW (low output) depending on whether the third and fourth pins of the connector 101 are short-circuited. The present invention relates to a circuit control device.

  FIG. 2A is a block diagram showing a configuration of the electronic circuit control device in the case of two-stage switching by a jumper. In this case, the resistor 103 is mounted in addition to the basic circuit device 100. The first pin of the connector 101 is connected to a DC power source, and the third pin of the connector 101 is grounded. Furthermore, both the first jumper 110 and the second jumper 111 short-circuit the jumpers. In the electronic circuit control device in this state, when the 3rd and 4th pins of the connector 101 are opened, the brushless motor becomes a high output operation, and when it is short-circuited, it becomes a low output operation.

  FIG. 2B is a circuit diagram showing a voltage value transmitted to the Vctl pin of the control IC 105 when the third and fourth pins of the connector 101 are opened. In FIG. 2B, reference numeral 203 denotes a DC power supply voltage applied to the first pin of the connector 101. 204 indicates that the resistor 104 is in a floating state because one end of the resistor 104 is not short-circuited with the third and fourth pins of the connector 101. As can be seen from FIG. 2B, a voltage substantially equal to the voltage of the output pin of the three-terminal regulator 102 is applied to the Vctl pin of the control IC 105.

FIG. 2C is a circuit diagram showing a voltage value transmitted to the Vctl pin of the control IC 105 when the third and fourth pins of the connector 101 are short-circuited. Reference numeral 206 denotes that one end of the resistor 104 is grounded when the third and fourth pins of the connector 101 are short-circuited.
In this case, a voltage obtained by dividing the voltage of the output pin of the three-terminal regulator 102 by the resistor 103 and the resistor 104 is applied to the Vctl pin of the control IC 105. As a result, the voltage applied to the Vctl pin of the control IC 105 becomes lower than the voltage value transmitted to the Vctl pin of the control IC 105 when the third and fourth pins of the connector 101 are opened, and the brushless motor operates at a low output. .
(In the case of two-stage switching by switching the power connection position)
In this case, the output of the brushless motor that can switch the output of the brushless motor between HIGH (high output) and LOW (low output) depending on whether the DC power supply voltage is applied to the first pin or the second pin of the connector 101. The present invention relates to an electronic circuit control device that controls

  FIG. 3A is a block diagram showing the configuration of the electronic circuit control device in the case of stage switching by switching the power connection position. In this case, a resistor 103, a diode 106, and an NPN transistor 202 are additionally mounted on the basic circuit device 100. The third pin of the connector 101 is grounded. In the electronic circuit control device in this state, when the first pin of the connector 101 is connected to the DC power supply voltage, the brushless motor operates at a high output, and when the second pin of the connector 101 is connected to the DC power supply voltage, the output is low.

  FIG. 3B is a circuit diagram showing a voltage value transmitted to the Vctl pin of the control IC 105 when the first pin of the connector 101 is connected to the DC power supply voltage. In FIG. 3B, reference numeral 301 denotes a DC power supply voltage applied to the first pin of the connector 101. Even if a DC power supply voltage is applied to the first pin of the connector 101, the diode 106 is not conductive because a high voltage is applied to the cathode side. As a result, the NPN transistor 202 is not turned on. Since the NPN transistor 202 is not turned on, no current flows through the resistor 104, and almost the same voltage as the output pin voltage of the three-terminal regulator 102 is transmitted to the Vctl pin of the control IC 105, and the brushless motor operates at a high output. It becomes.

FIG. 3C is a circuit diagram showing a voltage value transmitted to the Vctl pin of the control IC 105 when the second pin of the connector 101 is connected to the DC power supply voltage. Reference numeral 302 denotes a DC power supply voltage applied to the second pin of the connector 101. When a direct power supply voltage is applied to the second pin of the connector 101, a high voltage is applied to the anode side of the diode 106, and the diode 106 becomes conductive. As a result, a voltage that is approximately 0.7 volts lower than the DC power supply voltage is applied to the base of the NPN transistor 202, and the NPN transistor 202 is turned on. When the NPN transistor 202 is turned on, a current flows through the resistor 104, and a voltage obtained by subtracting a voltage drop due to the current flowing through the resistor 103 from the voltage of the output pin of the three-terminal regulator 102 is transmitted to the Vctl pin of the control IC 105. Thus, the brushless motor operates at a low output.
(When controlling by directly changing the applied voltage)
FIG. 4A is a block diagram showing the configuration of the electronic circuit control device when the output of the brushless motor is switched by changing the voltage applied to the 4th pin of the connector 101 with the DC power supply voltage. In this case, there are no additional components to be mounted, but the first jumper and the second jumper are short-circuited. In the electronic circuit control device in this state, the output of the brushless motor can be controlled by changing the voltage applied to the fourth pin of the connector 101.

FIG. 4B is a circuit diagram showing how the voltage applied to the fourth pin of the connector 101 is transmitted to the Vctl pin of the control IC 105. In FIG. 4B, 401 indicates a DC power supply voltage applied to the first pin of the connector 101. Reference numeral 402 denotes a variable voltage applied to the fourth pin of the connector 101. In this electronic circuit device, the 4th pin of the connector 101 is connected to the Vctl pin of the control IC 105 through the resistor 104. Therefore, by changing the voltage applied to the fourth pin of the connector 101, the voltage applied to the Vctl pin of the control IC 105 changes. Therefore, the output of the brushless motor can be directly controlled by changing the voltage applied to the fourth pin of the connector 101 as the output of the brushless motor.
(When controlling by applying an open collector pulse voltage)
In this case, an electronic circuit controller for controlling the output of the brushless motor that can switch the output of the brushless motor by applying the pulse voltage of the open collector to the fourth pin of the connector 101 and changing the duty ratio of the pulse. Is.

  FIG. 5 (a) is a block diagram showing the configuration of the electronic circuit control device when the output of the brushless motor is switched by changing the duty ratio of the pulse by applying the pulse voltage of the open collector to the fourth pin. In this case, a resistor 108 and a capacitor 109 are added to the basic circuit device 100, and the first jumper and the second jumper are each short-circuited. In the electronic circuit control device in this state, the brushless motor can control the output by changing the duty ratio of the pulse applied to the fourth pin of the connector 101. This will be described below.

FIG. 5B is a circuit diagram showing a state in which the pulse voltage applied to the 4th pin of the connector 101 is integrated by the integrating circuit formed by the resistor 104 and the capacitor 109 and transmitted to the Vctl pin of the control IC 105. In FIG. 5B, 401 indicates a DC power supply voltage applied to the first pin of the connector 101. Reference numeral 501 denotes a pulse voltage applied to the fourth pin of the connector 101. Resistor 108 is a pull-up resistor for the open collector.
A voltage after being integrated by an integrating circuit formed by the resistor 104 and the capacitor 109 is applied to the Vctl pin of the control IC 105.
FIG. 5C is a waveform diagram showing the pulse voltage and the duty ratio. As the duty ratio approaches 100%, the voltage after being integrated by the integrating circuit formed by the resistor 104 and the capacitor 109 becomes higher. Therefore, the output of the brushless motor can be directly controlled by changing the duty ratio.
(effect)
As described above, whether or not several inexpensive parts are mounted using the same basic circuit device 100 which is a basic printed circuit board, and whether or not a jumper is short-circuited. By the operation of how to connect the pins of the connector 101, the output of the brushless motor can be controlled by various methods, and the manufacturing cost and delivery date of the product can be improved.
In the above embodiment, the three-terminal regulator 102 is used for the power source of the control IC 105 or the like. However, it is possible to use an external power source without using the three-terminal regulator 102. FIG. 6 is a block diagram of the basic circuit device in this case. In this case, the Vcc pin of the control IC 105 is connected to the 5th pin of the connector 102. The connector 102 has 5 pins instead of 4 pins, and an external power source is connected to the 5th pin. When the resistors 108 and 103 are mounted, one end of both resistors is also connected to the 5th pin of the connector 102. Except that this connection method is different, the method of use and the effect of this device are the same as those in the case where the three-terminal regulator 102 is mounted, and the description thereof will be omitted.

FIG. 1 is a block diagram showing the configuration of a printed circuit board that is basically used in manufacturing an electronic circuit control device that controls the output of four types of brushless motors. FIG. 2A is a block diagram showing a configuration of the electronic circuit control device in the case of two-stage switching by a jumper. FIG. 2B is a circuit diagram showing a voltage value transmitted to the Vctl pin of the control IC 105 when the third and fourth pins of the connector 101 are opened. FIG. 2C is a circuit diagram showing a voltage value transmitted to the Vctl pin of the control IC 105 when the third and fourth pins of the connector 101 are short-circuited. FIG. 3A is a block diagram showing the configuration of the electronic circuit control device in the case of stage switching by switching the power connection position. FIG. 3B is a circuit diagram showing a voltage value transmitted to the Vctl pin of the control IC 105 when the first pin of the connector 101 is connected to the DC power supply voltage. FIG. 3C is a circuit diagram showing a voltage value transmitted to the Vctl pin of the control IC 105 when the second pin of the connector 101 is connected to the DC power supply voltage. FIG. 4A is a block diagram showing the configuration of the electronic circuit control device when the output of the brushless motor is switched by changing the voltage applied to the 4th pin of the connector 101 with the DC power supply voltage. FIG. 4B is a circuit diagram showing how the voltage applied to the fourth pin of the connector 101 is transmitted to the Vctl pin of the control IC 105. FIG. 5 (a) is a block diagram showing the configuration of the electronic circuit control device when the output of the brushless motor is switched by changing the duty ratio of the pulse by applying the pulse voltage of the open collector to the fourth pin. FIG. 5B is a circuit diagram showing a state in which the pulse voltage applied to the fourth pin of the connector 101 is integrated by the integrating circuit formed by the resistor 104 and the capacitor 109 and transmitted to the Vctl pin of the control IC 105. FIG. 5C is a waveform diagram showing the pulse voltage and the duty ratio. FIG. 6 shows an electronic circuit control device that controls the output of four types of brushless motors when an external power supply is used without using the three-terminal regulator 102 for a Vcc power supply such as a control IC. FIG. 2 is a block diagram showing a configuration of a printed circuit board that is basically used in common.

Explanation of symbols

100 Basic circuit device 101 Connector 102 Three-terminal regulator 103 Resistor 104 Resistor 105 Control IC
106 Diode 108 Resistor 109 Capacitor 110 First jumper 202 NPN transistor 203 DC power supply voltage applied to the first pin of the connector 101 204 Because one end of the resistor 104 is not short-circuited with the fourth and third pins of the connector 101 , Indicating that the resistor 104 is in a floating state 206, indicating that one end of the resistor 104 is grounded when the third and fourth pins of the connector 101 are short-circuited 301, the first pin of the connector 101 DC power supply voltage given to the connector 302 DC power supply voltage given to the second pin of the connector 101 401 DC power supply voltage 402 Variable voltage 501 Pulse voltage

Claims (7)

An electronic circuit device for controlling a brushless motor, comprising a connector 101, a three-terminal regulator 102, a resistor 103, a resistor 104, and a control IC 105,
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to one end of the resistor 103 and the Vcc pin of the control IC 105, and the other end of the resistor 103 is the resistor 104 is connected to one end of the control IC 105 and the Vctl pin of the control IC 105, and the other end of the resistor 104 is connected to the 4th pin of the connector 101,
When the brushless motor exhibits high output, a DC power supply voltage applied to the first pin of the connector 101 is applied to the input of the three-terminal regulator 102 by applying a power supply voltage to the first pin of the connector 101. The voltage from the output pin of the three-terminal regulator 102 is transmitted to the Vctl pin of the control IC 105 through the resistor 103,
On the other hand, when making the brushless motor exhibit low output, the third pin of the connector 101 is grounded, and the third and fourth pins of the connector 101 are connected by a jumper, so that the first pin of the connector 101 Is supplied to the input pin of the three-terminal regulator 102, the voltage from the output pin of the three-terminal regulator 102 is divided by the resistor 103 and the resistor 104, and the divided voltage is An electronic circuit device for controlling a brushless motor, wherein the electronic circuit device is configured to be transmitted to a Vctl pin of a control IC 105. An electronic circuit device for controlling a brushless motor, comprising a connector 101, a three-terminal regulator 102, a resistor 103, a resistor 104, a control IC 105, a diode 106, and an NPN transistor 202,
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102 and the cathode of the diode 106, and the output pin of the three-terminal regulator 102 is connected to one end of the resistor 103 and the Vcc pin of the control IC 105. The other end of the resistor 104 is connected to one end of the resistor 104 and the Vctl pin of the control IC 105. The other end of the resistor 104 is connected to the collector of the NPN transistor 202. The base of the NPN transistor 202 is connected to the second pin of the connector 101 and the diode 106. Connected to the anode of
When the brushless motor exhibits high output, the DC power supply voltage applied to the first pin of the connector 101 is applied to the first pin of the connector 101 by applying a DC power supply voltage to the first pin of the connector 101. At this time, the diode 106 does not conduct because the cathode voltage is higher than the anode voltage, and the NPN transistor 202 does not turn on, so that no current flows through the resistor 104 and the three-terminal regulator The voltage from the output pin 102 is transmitted to the Vctl pin of the control IC 105 through the resistor 103,
On the other hand, when making the brushless motor exhibit low output, by applying a DC power supply voltage to the second pin of the connector 101, the DC power supply voltage is transmitted to the anode of the diode 106, and the diode 106 becomes conductive. A voltage about 0.7V lower than the DC power supply voltage enters the input pin of the three-terminal regulator 102, and the DC power supply voltage applied to the second pin of the connector 101 is also transmitted to the base of the NPN transistor 202. As a result, the NPN transistor 202 is turned on, and a current flows through the resistor 104. The potential of the output pin of the three-terminal regulator 102 and the potential of the collector of the NPN transistor 202 are applied to the Vctl pin of the control IC 105. The voltage difference between the resistor 103 and the resistor 104 is divided. An electronic circuit device for controlling a brushless motor, wherein the voltage of the fruit is transmitted. An electronic circuit device for controlling a brushless motor, comprising a connector 101, a three-terminal regulator 102, a resistor 104, and a control IC 105,
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to the Vcc pin of the control IC 105, and one end of the resistor 104 is connected to the Vctl pin of the control IC 105. The other end of the resistor 104 is connected to the 4th pin of the connector 101,
The control voltage applied to the 4th pin of the connector 101 is transmitted to the control IC 105Vctl pin through the resistor 104, thereby controlling the output of the brushless motor by changing the value of the DC voltage applied to the 4th pin of the connector 101. An electronic circuit device characterized by being configured to be able to. An electronic circuit device for controlling a brushless motor, comprising a connector 101, a three-terminal regulator 102, a resistor 104, a resistor 108, a capacitor 109, and a control IC 105,
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to one end of the resistor 108 and the Vcc pin of the control IC 105, and the other end of the resistor 108 is the connector. 101 is connected to the fourth pin of the resistor 104 and one end of the resistor 104, and the other end of the resistor 104 is connected to the Vctl pin of the control IC 105 and one end of the capacitor 109.
When a pulsed voltage is applied to the 4th pin of the connector 101, the voltage is integrated by the resistor 108 and the capacitor 109, and the integrated voltage is transmitted to the control IC 105Vctl pin, thereby outputting the output of the brushless motor. Is configured to be controlled by changing the pulse width of the pulse voltage applied to the fourth pin of the connector 101. An electronic circuit device for controlling a brushless motor, comprising a connector 101, a three-terminal regulator 102, a resistor 104, a control IC 105, a first jumper 110, and a second jumper 111,
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to the Vcc pin of the control IC 105, and one end of the resistor 104 is connected to the Vctl of the control IC 105. The other end of the resistor 104 is connected to the first pin of the second jumper 111. The second pin of the second jumper 111 is connected to the fourth pin of the connector 101. No. pin is a basic circuit device connected to No. 1 pin of the first jumper 110,
If you want to control the output of the brushless motor by connecting or releasing the 3rd and 4th pins of the connector 101,
For the basic circuit device, a resistor 103 is added to the components constituting the basic circuit device, one end of the resistor 103 is connected to the output pin of the three-terminal regulator 102, and the other end of the resistor 103 is controlled. Connect to the Vctl pin of the IC 105, connect the first and second pins of the first jumper 110, connect the first and second pins of the second jumper 111, and use them.
If you want to control the output of the brushless motor by changing the pin to which the DC power supply voltage is applied,
For the basic circuit device, a resistor 103, a diode 106, and an NPN transistor 202 are added to the components constituting the basic circuit device, and the cathode of the diode 106 is connected to the first pin of the connector 101. The anode of the diode 106 is connected to the second pin of the connector 101, one end of the resistor 103 is connected to the output pin of the three-terminal regulator 102, and the other end of the resistor 103 is connected to the Vctl pin of the control IC 105 The collector of the NPN transistor 202 is connected to the first pin of the second jumper 111, the base of the NPN transistor 202 is connected to the anode of the diode 106, and the emitter of the NPN transistor 202 Is used with grounding,
If you want to control the output of the brushless motor by changing the voltage applied to the 4th pin of the connector 101,
In the basic circuit device, the first and second pins of the first jumper 110 are connected to each other, and the first and second pins of the second jumper 111 are connected to each other. If you want to control by changing the pulse width of the pulse voltage applied to the pin No.
For the basic circuit device, a resistor 108 and a capacitor 109 are added to the components constituting the basic circuit device,
One end of the resistor 108 is connected to the output pin of the three-terminal regulator 102;
The other end of the resistor 108 is connected to the first pin of the second jumper 111,
One electrode of the capacitor 109 is connected to the Vctl pin of the control IC 105,
The other electrode of the capacitor 109 is grounded, the first and second pins of the first jumper 110 are connected, and the first and second pins of the second jumper 111 are connected and used. Electronic circuit device. A method of manufacturing an electronic circuit device for controlling a brushless motor, comprising:
First, an electronic circuit device for controlling a brushless motor,
A connector 101, a three-terminal regulator 102, a resistor 104, a control IC 105, a first jumper 110, and a second jumper 111;
The first pin of the connector 101 is connected to the input pin of the three-terminal regulator 102, the output pin of the three-terminal regulator 102 is connected to the Vcc pin of the control IC 105, and one end of the resistor 104 is connected to the Vctl of the control IC 105. The other end of the resistor 104 is connected to the first pin of the second jumper 111. The second pin of the second jumper 111 is connected to the fourth pin of the connector 101. No. pin manufactures a basic circuit device connected to No. 1 pin of the first jumper 110,
If you want to control the output of the brushless motor by connecting or releasing the 3rd and 4th pins of the connector 101,
For the basic circuit device, a resistor 103 is added to the components constituting the basic circuit device, one end of the resistor 103 is connected to the output pin of the three-terminal regulator 102, and the other end of the resistor 103 is controlled. Connect to the Vctl pin of the IC 105, connect the first and second pins of the first jumper 110, and connect the first and second pins of the second jumper 111 to manufacture an electronic circuit device,
If you want to control the output of the brushless motor by changing the pin to which the DC power supply voltage is applied,
In addition to the basic circuit device, a component constituting the basic circuit device is provided with a resistor 103, a diode 106, and an NPN transistor 202, and the cathode of the diode 106 is connected to the first pin of the connector 101. The anode of the diode 106 is connected to the second pin of the connector 101, one end of the resistor 103 is connected to the output pin of the three-terminal regulator 102, and the other end of the resistor 103 is connected to the Vctl of the control IC 105. The collector of the NPN transistor 202 is connected to the first pin of the second jumper 111, the base of the NPN transistor 202 is connected to the anode of the diode 106, and the emitter of the NPN transistor 202 To manufacture the electronic circuit device by grounding
If you want to control the output of the brushless motor by changing the voltage applied to the 4th pin of the connector 101,
In the basic circuit device, the first and second pins of the first jumper 110 are connected to each other, and the first and second pins of the second jumper 111 are connected to manufacture an electronic circuit device to output the output of the brushless motor. If you want to control by changing the pulse width of the pulse voltage applied to the 4th pin of the connector 101,
For the basic circuit device, a resistor 108 and a capacitor 109 are added to the components constituting the basic circuit device,
One end of the resistor 108 is connected to the output pin of the three-terminal regulator 102;
The other end of the resistor 108 is connected to the first pin of the second jumper 111,
One electrode of the capacitor 109 is connected to the Vctl pin of the control IC 105,
A method of manufacturing an electronic circuit device by grounding the other electrode of the capacitor 109, connecting the first and second pins of the first jumper 110, and connecting the first and second pins of the second jumper 111. . An electronic circuit device for controlling a brushless motor, comprising a connector 102, a resistor 104, a control IC 105, a first jumper 110, and a second jumper 111,
The first pin of the connector 102 is connected to the VM pin of the control IC 105, the fifth pin of the connector 102 is connected to the Vcc pin of the control IC 105, and one end of the resistor 104 is connected to the Vctl pin of the control IC 105. The other end of the resistor 104 is connected to the first pin of the second jumper 111, the second pin of the second jumper 111 is connected to the fourth pin of the connector 101, and the second pin of the connector 101 is In the basic circuit device connected to the first pin of the first jumper 110,
If you want to control the output of the brushless motor by connecting or releasing the 3rd and 4th pins of the connector 101,
A resistor 103 is added to the components constituting the basic circuit device with respect to the basic circuit device, one end of the resistor 103 is connected to the fifth pin of the connector 102, and the other end of the resistor 103 is connected to the control IC 105. Connected to the Vctl pin of the first jumper 110, the first and second pins of the first jumper 110 are connected, the first and second pins of the second jumper 111 are connected and used,
If you want to control the output of the brushless motor by changing the pin to which the DC power supply voltage is applied,
For the basic circuit device, a resistor 103, a diode 106, and an NPN transistor 202 are added to the components constituting the basic circuit device, and the cathode of the diode 106 is connected to the first pin of the connector 101. The anode of the diode 106 is connected to the 2nd pin of the connector 101, one end of the resistor 103 is connected to the 5th pin of the connector 102, and the other end of the resistor 103 is connected to the Vctl pin of the control IC 105. The collector of the NPN transistor 202 is connected to the first pin of the second jumper 111, the base of the NPN transistor 202 is connected to the anode of the diode 106, and the emitter of the NPN transistor 202 is connected Use with grounding,
If you want to control the output of the brushless motor by changing the voltage applied to the 4th pin of the connector 101,
In the basic circuit device, the first and second pins of the first jumper 110 are connected to each other, and the first and second pins of the second jumper 111 are connected to each other. If you want to control by changing the pulse width of the pulse voltage applied to the pin No.
For the basic circuit device, a resistor 108 and a capacitor 109 are added to the components constituting the basic circuit device,
One end of the resistor 108 is connected to the fifth pin of the connector 102;
The other end of the resistor 108 is connected to the first pin of the second jumper 111,
One electrode of the capacitor 109 is connected to the Vctl pin of the control IC 105,
The other electrode of the capacitor 109 is grounded, the first and second pins of the first jumper 110 are connected, and the first and second pins of the second jumper 111 are connected and used. Electronic circuit device.

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