CN211043631U - Hall assembly voltage detection device and Hall assembly performance detection device - Google Patents

Abstract

The utility model discloses a hall subassembly voltage detection device and hall subassembly performance detection device, voltage detection device include first electric potential sense terminal, second electric potential sense terminal, third electric potential sense terminal, first current direction control module, second current direction control module, third current direction control module and fourth current direction control module. The utility model discloses a first electric potential sense terminal, hall component power end is gathered respectively in the setting of second electric potential sense terminal and third electric potential sense terminal, the electric potential value of three positions of earthing terminal and signal terminal, through first current direction control module, second current direction control module, third current direction control module and fourth current direction control module control external power source input to the current direction of each port of hall component, whether the short circuit appears in the bonding wire in-process that utilizes hall component's diode characteristic can judge hall component, open circuit and the chaotic condition of line sequence, detection efficiency is higher.

Description

Hall assembly voltage detection device and Hall assembly performance detection device

Technical Field

The utility model relates to an element detection technical field, more specifically say and relate to a voltage detection device of hall subassembly and use this voltage detection device's hall subassembly performance detection device.

Background

The existing water heater is generally provided with a water flow sensor to realize the detection function of water consumption, and a Hall assembly is a necessary element on the water flow sensor.

Traditional hall subassembly installation as follows, at first with cut straightly the formula hall element welding behind the terminal line, thereby the rethread epoxy embedment enters hall base and accomplishes hall subassembly's equipment work. When the water heater is assembled in the assembly line, a worker needs to install the Hall assembly in the water flow sensor, then the water flow sensor is installed on the water heater, and meanwhile, the terminal line of the Hall assembly is connected into the circuit board of the water heater.

At present because lack the equipment that detects to the bonding wire quality behind the hall element bonding wire, the process that leads to judging whether hall subassembly equipment has a problem is comparatively loaded down with trivial details, need install it behind water flow sensor usually, judges water flow sensor whether have a problem through water flow feedback signal when testing water flow sensor, further judges hall subassembly again and whether have a problem.

The quality detection of the welding wire of the Hall element in the Hall assembly comprises the detection of whether short circuit, open circuit and disordered line sequence occur after the welding wire, and the Hall assembly is small in size, SIP-3L packaging is used, and the efficiency is low after the welding wire is manually identified.

In order to solve the technical problems, a manufacturer judges whether the hall assembly is normal or not by detecting the output voltage of the hall assembly after finishing welding the wire of the hall element.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: provided are a Hall assembly voltage detection device and a Hall assembly performance detection device using the same.

The utility model provides a solution of its technical problem is:

a hall assembly voltage detection apparatus comprising:

the first potential detection end is used for detecting the potential of a power supply end of the Hall assembly;

the second potential detection end is used for detecting the potential of the grounding end of the Hall assembly;

the third potential detection end is used for detecting the potential of the signal end of the Hall assembly;

the first current direction control module is used for controlling external current to flow in from a power supply end of the Hall assembly and flow out from a grounding end of the Hall assembly;

the second current direction control module is used for controlling external current to flow in from the grounding end of the Hall assembly and flow out from the power supply end of the Hall assembly;

the third current direction control module is used for controlling external current to flow in from the signal end of the Hall assembly and flow out from the grounding end of the Hall assembly;

the fourth current direction control module is used for controlling external current to flow in from the grounding end of the Hall assembly and flow out from the signal end of the Hall assembly;

the first potential detection end is connected with the first current direction control module and the second current direction control module respectively, the second potential detection end is connected with the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module respectively, and the third potential detection end is connected with the third current direction control module and the fourth current direction control module respectively.

As a further improvement of the above technical solution, the first current direction control module includes a switching tube Q1, a switching tube Q2 and a resistor R1, the switching tube Q1 is connected to the first potential detection end to control connection between the first potential detection end and an external power supply, the switching tube Q2 is respectively connected to the second potential detection end and one end of a resistor R1 to control connection between the second potential detection end and a resistor R1, and the other end of the resistor R1 is grounded;

the second current direction control module comprises a switching tube Q3, a switching tube Q4 and a resistor R2, the switching tube Q3 is connected with the second potential detection end to control the connection between the second potential detection end and an external power supply, the switching tube Q4 is respectively connected with the first potential detection end and one end of a resistor R2 to control the connection between the first potential detection end and a resistor R2, and the other end of the resistor R2 is grounded;

the third current direction control module comprises a switching tube Q5, a switching tube Q6 and a resistor R3, the switching tube Q5 is connected with the third potential detection end to control the connection between the third potential detection end and an external power supply, the switching tube Q6 is respectively connected with the second potential detection end and one end of a resistor R3 to control the connection between the second potential detection end and a resistor R3, and the other end of the resistor R3 is grounded;

the fourth current direction control module comprises a switch tube Q7, a switch tube Q8 and a resistor R4, the switch tube Q7 is connected with the second potential detection end to control the connection between the second potential detection end and an external power supply, the switch tube Q8 is connected with the third potential detection end and one end of a resistor R4 to control the connection between the third potential detection end and the resistor R4, and the other end of the resistor R4 is grounded.

As a further improvement of the above technical solution, in the second current direction control module, a resistor R1 is used as the resistor R2, and the switching tube Q4 is connected to one end of the resistor R1 to control the connection between the first potential detection end and the resistor R1.

As a further improvement of the above technical solution, in the third current direction control module, the resistor R1 is used as the resistor R3, and the switch Q2 is used as the switch Q6.

As a further improvement of the above technical solution, in the fourth current direction control module, a resistor R1 is used as the resistor R4, a switch tube Q3 is used as the switch tube Q7, and the switch tube Q8 is connected to one end of the resistor R1 to control the connection between the third potential detection end and the resistor R1.

This application still discloses hall subassembly performance detection device simultaneously, includes:

the current detection module is used for detecting the current value input to the Hall assembly;

the Hall component voltage detection device comprises a singlechip module, a power supply module, a display module and the Hall component voltage detection device;

the power module is respectively electrically connected with each circuit module, the current detection module, the first potential detection end, the second potential detection end and the third potential detection end are respectively connected with a plurality of input ends of the single chip microcomputer module, a plurality of output ends of the single chip microcomputer module are respectively connected with the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module, and the single chip microcomputer module is connected with the display module.

As a further improvement of the above technical solution, the hall element performance detection apparatus further includes a decoder module, a plurality of output terminals of the single chip module are respectively connected with a plurality of input terminals of the decoder module, and a plurality of output terminals of the decoder module are respectively connected with the first current direction control module, the second current direction control module, the third current direction control module, and the fourth current direction control module.

As a further improvement of the above technical solution, the power supply module includes a dc power supply, a short-circuit protection module and a voltage-reducing and voltage-stabilizing module, the dc power supply is connected to an input terminal of the voltage-reducing and voltage-stabilizing module through the short-circuit protection module, and an output terminal of the voltage-reducing and voltage-stabilizing module and an output terminal of the dc power supply are both used as power supply terminals of the power supply module.

As a further improvement of the above technical solution, the hall element performance detection device further includes a voltage detection module and an L ED lamp set, the dc power supply is a power supply battery, the power supply battery is connected to an input terminal of the voltage detection module, an output terminal of the voltage detection module is connected to an input terminal of the single chip microcomputer module, and an output terminal of the single chip microcomputer module is connected to the L ED lamp set.

The utility model has the advantages that: the utility model discloses a first electric potential sense terminal, hall component power end is gathered respectively in the setting of second electric potential sense terminal and third electric potential sense terminal, the electric potential value of three positions of earthing terminal and signal terminal, through first current direction control module, second current direction control module, third current direction control module and fourth current direction control module control external power source input to the current direction of each port of hall component, utilize hall component's diode characteristic, according to first electric potential sense terminal, whether the short circuit appears in hall component's bonding wire in-process can be judged to the electric potential value of second electric potential sense terminal and third electric potential sense terminal, open circuit and the chaotic condition of line sequence, detection efficiency is higher.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from these figures without inventive effort.

Fig. 1 is a schematic circuit diagram of a first embodiment of a hall element voltage detecting device according to the present invention;

fig. 2 is a schematic circuit diagram of a second embodiment of the hall element voltage detecting device according to the present invention;

fig. 3 is a circuit frame diagram of the first embodiment of the hall element performance detecting apparatus of the present invention.

Detailed Description

The conception, specific structure, and technical effects of the present application will be described clearly and completely with reference to the accompanying drawings and embodiments, so that the purpose, features, and effects of the present application can be fully understood. Obviously, the described embodiments are only a part of the embodiments of the present application, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive efforts based on the embodiments of the present application belong to the protection scope of the present application. In addition, all the connection relations mentioned herein do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection accessories according to the specific implementation situation. All technical characteristics in the invention can be interactively combined on the premise of not conflicting with each other. Finally, it should be noted that the terms "center, upper, lower, left, right, vertical, horizontal, inner, outer" and the like as used herein refer to an orientation or positional relationship based on the drawings, which is only for convenience of describing the present invention and simplifying the description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application.

Referring to fig. 1, the present application discloses a hall element voltage detecting apparatus, a first embodiment of which includes:

the first potential detection end is used for detecting the potential of a power supply end of the Hall assembly;

the second potential detection end is used for detecting the potential of the grounding end of the Hall assembly;

the third potential detection end is used for detecting the potential of the signal end of the Hall assembly;

the first current direction control module is used for controlling external current to flow in from a power supply end of the Hall assembly and flow out from a grounding end of the Hall assembly;

the second current direction control module is used for controlling external current to flow in from the grounding end of the Hall assembly and flow out from the power supply end of the Hall assembly;

the third current direction control module is used for controlling external current to flow in from the signal end of the Hall assembly and flow out from the grounding end of the Hall assembly;

the fourth current direction control module is used for controlling external current to flow in from the grounding end of the Hall assembly and flow out from the signal end of the Hall assembly;

the first potential detection end is connected with the first current direction control module and the second current direction control module respectively, the second potential detection end is connected with the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module respectively, and the third potential detection end is connected with the third current direction control module and the fourth current direction control module respectively.

The principle of implementing the voltage detection function of the hall element in this embodiment is as follows, the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module are selected to be controlled to start through an external device, the diode characteristics of the hall element are combined, and whether the hall element is short-circuited or broken and the condition of line sequence disorder can be judged by detecting the electric potentials of the power end, the grounding end and the signal end of the hall element. In the two cases, because the current directions of the power terminal and the ground terminal of the hall element are changed, i.e. the voltage directions of the power terminal and the ground terminal of the hall element are changed, and a diode characteristic exists between the power terminal and the ground terminal inside the hall element, when the voltage directions of the power terminal and the ground terminal of the hall element are changed, the magnitude of the current is changed accordingly, and the potential of the power terminal and the ground terminal of the hall element is finally caused to change, the voltage between the power end and the grounding end of the Hall assembly can be obtained by detecting the potential difference between the power end and the grounding end of the Hall assembly, and when the voltage is zero, the short circuit condition of the power end and the grounding end of the Hall assembly can be judged, namely, the terminal wire welded with the power end and the grounding end of the Hall assembly is in short circuit; when the voltage is the voltage of an external power supply, the condition that the power end and the grounding end of the Hall assembly are in an open circuit state can be judged, namely the poor contact of the terminal wire welded at the power end or the grounding end of the Hall assembly is realized; by combining the diode characteristic existing between the power supply end and the grounding end in the Hall assembly, when the voltage between the power supply end and the grounding end of the Hall assembly is detected and the voltage between the grounding end and the power supply end is opposite to the actual condition, the wiring of the wiring terminal of the power supply end of the Hall assembly and the wiring terminal of the grounding end can be judged to be wrong, and the line sequence is disordered. The process of judging whether the grounding end and the signal end of the Hall assembly have welding errors or not is similar to the process.

In the embodiment, the first potential detection end, the second potential detection end and the third potential detection end are arranged to respectively acquire potential values of three positions of the power end, the grounding end and the signal end of the Hall component, the current direction input from an external power supply to each port of the Hall assembly is controlled by the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module, and by utilizing the diode characteristic of the Hall assembly, according to the potential values of the first potential detection end, the second potential detection end and the third potential detection end, whether short circuit, open circuit and line sequence disorder occur in the process of welding the line of the Hall assembly can be judged, compared with the prior art in which only the voltage between the signal end and the ground end of the hall assembly is detected, the detection efficiency of the embodiment is higher, and the specific welding error type can be directly judged.

Further, in this embodiment, the first current direction control module includes a switch Q1, a switch Q2, and a resistor R1, the switch Q1 is connected to the first potential detection end to control connection between the first potential detection end and an external power source, the switch Q2 is respectively connected to the second potential detection end and one end of a resistor R1 to control connection between the second potential detection end and a resistor R1, and the other end of the resistor R1 is grounded;

the second current direction control module comprises a switching tube Q3, a switching tube Q4 and a resistor R2, the switching tube Q3 is connected with the second potential detection end to control the connection between the second potential detection end and an external power supply, the switching tube Q4 is respectively connected with the first potential detection end and one end of a resistor R2 to control the connection between the first potential detection end and a resistor R2, and the other end of the resistor R2 is grounded;

the third current direction control module comprises a switching tube Q5, a switching tube Q6 and a resistor R3, the switching tube Q5 is connected with the third potential detection end to control the connection between the third potential detection end and an external power supply, the switching tube Q6 is respectively connected with the second potential detection end and one end of a resistor R3 to control the connection between the second potential detection end and a resistor R3, and the other end of the resistor R3 is grounded;

the fourth current direction control module comprises a switch tube Q7, a switch tube Q8 and a resistor R4, the switch tube Q7 is connected with the second potential detection end to control the connection between the second potential detection end and an external power supply, the switch tube Q8 is connected with the third potential detection end and one end of a resistor R4 respectively to control the connection between the third potential detection end and the resistor R4, and the other end of the resistor R4 is grounded.

Specifically, the description will be made also with reference to detecting the voltage between the power supply terminal and the ground terminal of the hall element. When the first current direction control module is controlled to be started, the current of the external power supply flows in from the power supply end of the Hall assembly and flows out from the grounding end of the Hall assembly, and the voltage value between the power supply end and the grounding end of the Hall assembly is VCC-I₁R₁When the second current direction control module is controlled to be started, the current of the external power supply flows in from the grounding end of the Hall assembly and flows out from the power supply end of the Hall assembly, and the voltage value between the grounding end and the power supply end of the Hall assembly is VCC-I₂R₂Setting electricityThe resistance of the resistor R1 is the same as that of the resistor R2, and the current I is caused by the diode characteristic between the power supply end and the ground end of the Hall component₁And current I₂The obtained voltage value between the power end and the grounding end and the voltage value between the grounding end and the power end of the device are different, and the specific welding wire error condition between the power end and the grounding end in the Hall assembly can be judged according to the two voltage values.

Referring to fig. 2, the second embodiment of the hall element voltage detecting apparatus of the present application greatly simplifies the circuit structure of the first embodiment based on the first embodiment, in this embodiment, a resistor R1 is used as the resistor R2 in the second current direction control module, and the switching tube Q4 is connected to one end of the resistor R1 to control the connection between the first potential detecting terminal and the resistor R1; in the third current direction control module, a resistor R1 is used as a resistor R3, and a switch tube Q2 is used as a switch tube Q6; in the fourth current direction control module, the resistor R1 is used as the resistor R4, the switch tube Q3 is used as the switch tube Q7, and the switch tube Q8 is connected to one end of the resistor R1 to control the connection between the third potential detection end and the resistor R1.

Referring to fig. 3, the present application also discloses a hall assembly performance detecting apparatus, and the first embodiment thereof includes:

the current detection module is used for detecting the current value input to the Hall assembly;

the Hall component voltage detection device comprises a singlechip module, a power supply module, a display module and the Hall component voltage detection device;

the power module is respectively electrically connected with each circuit module, the current detection module, the first potential detection end, the second potential detection end and the third potential detection end are respectively connected with a plurality of input ends of the single chip microcomputer module, a plurality of output ends of the single chip microcomputer module are respectively connected with the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module, and the single chip microcomputer module is connected with the display module.

As a preferred implementation manner, in this embodiment, the current direction control device further includes a decoder module, a plurality of output ends of the single chip microcomputer module are respectively connected to a plurality of input ends of the decoder module, and a plurality of output ends of the decoder module are respectively connected to the first current direction control module, the second current direction control module, the third current direction control module, and the fourth current direction control module. Specifically, in this embodiment, by setting the decoder module, the number of ports required by the single chip microcomputer module for controlling the first current direction control module, the second current direction control module, the third current direction control module, and the fourth current direction control module can be reduced. It should be noted that, in this embodiment, the decoder module is not directly connected to the first current direction control module, the second current direction control module, the third current direction control module, and the fourth current direction control module, and in practical applications, corresponding driving modules may be disposed between the decoder module and each current direction control module according to specific structures of each current direction control module, for example, for the first embodiment and the second embodiment of the hall device voltage detection apparatus, the circulation of currents in different directions is specifically realized in each current direction control module through the cooperation of two switching tubes, so that a corresponding switching tube driving circuit may be disposed between the decoder module and each switching tube, and the effectiveness of control of the decoder module and the switching tubes is improved.

Further, in a preferred embodiment, in this embodiment, the power module includes a dc power supply, a short-circuit protection module, and a voltage-reducing and voltage-stabilizing module, the dc power supply is connected to an input terminal of the voltage-reducing and voltage-stabilizing module through the short-circuit protection module, and an output terminal of the voltage-reducing and voltage-stabilizing module and an output terminal of the dc power supply are both used as power supply terminals of the power module.

Further as a preferred embodiment, in this embodiment, the hall element performance detection apparatus further includes a voltage detection module and an L ED lamp set, the dc power supply is a power supply battery, the power supply battery is connected to an input terminal of the voltage detection module, an output terminal of the voltage detection module is connected to an input terminal of the single chip microcomputer module, and an output terminal of the single chip microcomputer module is connected to the L ED lamp set.

In addition, in this embodiment, the hall component performance detection device further comprises a switch key, a reset key and a mode setting key, wherein the switch key is used for controlling the start of the power module, the mode setting key is connected with the input end of the single chip microcomputer module and is used for setting the working modes of the hall component performance detection device, one of the working modes comprises a counting mode and is used for counting the specific qualified number of the hall component in the detection process, the other working mode comprises a counting mode and is used for displaying the code information corresponding to the specific welding error type of the currently detected hall component, the reset key is connected with the input end of the single chip microcomputer module, and when the hall component performance detection device is in the counting mode, the reset key is used for executing zero clearing.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the details of the embodiments, but is capable of various modifications and substitutions without departing from the spirit of the invention.

Claims (9)

1. A Hall assembly voltage detection device, comprising:

the first potential detection end is used for detecting the potential of a power supply end of the Hall assembly;

the second potential detection end is used for detecting the potential of the grounding end of the Hall assembly;

the third potential detection end is used for detecting the potential of the signal end of the Hall assembly;

the first current direction control module is used for controlling external current to flow in from a power supply end of the Hall assembly and flow out from a grounding end of the Hall assembly;

the second current direction control module is used for controlling external current to flow in from the grounding end of the Hall assembly and flow out from the power supply end of the Hall assembly;

the third current direction control module is used for controlling external current to flow in from the signal end of the Hall assembly and flow out from the grounding end of the Hall assembly;

the fourth current direction control module is used for controlling external current to flow in from the grounding end of the Hall assembly and flow out from the signal end of the Hall assembly;

the first potential detection end is connected with the first current direction control module and the second current direction control module respectively, the second potential detection end is connected with the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module respectively, and the third potential detection end is connected with the third current direction control module and the fourth current direction control module respectively.

2. The hall element voltage detecting apparatus according to claim 1, wherein:

the first current direction control module comprises a switching tube Q1, a switching tube Q2 and a resistor R1, wherein the switching tube Q1 is connected with the first potential detection end to control the connection between the first potential detection end and an external power supply, the switching tube Q2 is respectively connected with the second potential detection end and one end of a resistor R1 to control the connection between the second potential detection end and a resistor R1, and the other end of the resistor R1 is grounded;

the second current direction control module comprises a switching tube Q3, a switching tube Q4 and a resistor R2, the switching tube Q3 is connected with the second potential detection end to control the connection between the second potential detection end and an external power supply, the switching tube Q4 is respectively connected with the first potential detection end and one end of a resistor R2 to control the connection between the first potential detection end and a resistor R2, and the other end of the resistor R2 is grounded;

the third current direction control module comprises a switching tube Q5, a switching tube Q6 and a resistor R3, the switching tube Q5 is connected with the third potential detection end to control the connection between the third potential detection end and an external power supply, the switching tube Q6 is respectively connected with the second potential detection end and one end of a resistor R3 to control the connection between the second potential detection end and a resistor R3, and the other end of the resistor R3 is grounded;

the fourth current direction control module comprises a switch tube Q7, a switch tube Q8 and a resistor R4, the switch tube Q7 is connected with the second potential detection end to control the connection between the second potential detection end and an external power supply, the switch tube Q8 is connected with the third potential detection end and one end of a resistor R4 to control the connection between the third potential detection end and the resistor R4, and the other end of the resistor R4 is grounded.

3. The hall element voltage detecting apparatus according to claim 2, wherein: in the second current direction control module, a resistor R1 is used as the resistor R2, and the switching tube Q4 is connected to one end of the resistor R1 to control the connection between the first potential detection terminal and the resistor R1.

4. The hall element voltage detecting apparatus according to claim 2, wherein: in the third current direction control module, the resistor R1 is used as the resistor R3, and the switch Q2 is used as the switch Q6.

5. The hall element voltage detecting apparatus according to claim 2, wherein: in the fourth current direction control module, the resistor R1 is used as the resistor R4, the switch tube Q3 is used as the switch tube Q7, and the switch tube Q8 is connected to one end of the resistor R1 to control the connection between the third potential detection end and the resistor R1.

6. A performance detection device for a Hall assembly, comprising:

the current detection module is used for detecting the current value input to the Hall assembly;

the Hall assembly voltage detection device comprises a singlechip module, a power supply module, a display module and any one of claims 1 to 5;

the power module is respectively electrically connected with each circuit module, the current detection module, the first potential detection end, the second potential detection end and the third potential detection end are respectively connected with a plurality of input ends of the single chip microcomputer module, a plurality of output ends of the single chip microcomputer module are respectively connected with the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module, and the single chip microcomputer module is connected with the display module.

7. The Hall assembly performance detecting device of claim 6, wherein: the single-chip microcomputer module is characterized by further comprising a decoder module, wherein a plurality of output ends of the single-chip microcomputer module are respectively connected with a plurality of input ends of the decoder module, and a plurality of output ends of the decoder module are respectively connected with the first current direction control module, the second current direction control module, the third current direction control module and the fourth current direction control module.

8. The Hall assembly performance detecting device of claim 6, wherein: the power module comprises a direct current power supply, a short-circuit protection module and a voltage reduction and voltage stabilization module, the direct current power supply is connected with the input end of the voltage reduction and voltage stabilization module through the short-circuit protection module, and the output end of the voltage reduction and voltage stabilization module and the output end of the direct current power supply are both used as the power supply end of the power module.

9. The hall element performance detecting apparatus according to claim 8, wherein:

still include voltage detection module and L ED banks, DC power supply is the supply battery, supply battery links to each other with voltage detection module's input, voltage detection module's output links to each other with single chip module's input, single chip module's output links to each other with L ED banks.

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