CN205982592U - Magnetic sensor integrated circuit , motor element and application apparatus - Google Patents

Abstract

The utility model provides a magnetic sensor integrated circuit, motor element and application apparatus, integrated circuit includes magnetic field detection circuit for detect and output and external magnetic field assorted magnetic field sensing signal, connect in output control circuit between magnetic field detection circuit and the output port, with the state control circuit that output control circuit links to each other, state control circuit is used for control output control circuit works as when according with predetermined condition, magnetic sensor integrated circuit makes the output control circuit response at least magnetic field sensing signal is at oneself output port to outside outflow load current's first state and from outside to output port flows in one of them state of second state operation down of load current, when not being conform to make during predetermined condition output control circuit is preventing move under the third state of first state and second state.

Description

Magnetic Sensor integrated circuit, electric machine assembly and application apparatus

Technical field

This utility model relates to technical field of integrated circuits and in particular to Magnetic Sensor integrated circuit.

Background technology

Magnetic Sensor is widely used in modern industry and electronic product to measure electric current, position, side with induced field intensity To etc. physical parameter.It is an important applied field of Magnetic Sensor in electromechanics trade, in the motor, Magnetic Sensor can be used Make rotor magnetic pole position sensing.

In prior art, Magnetic Sensor is typically only capable to export field detection result, also needs to additionally arrange during specific works Peripheral circuit, is processed to described field detection result, therefore integrated circuit is relatively costly, reliability is poor.

Utility model content

This utility model embodiment one side provides a kind of Magnetic Sensor integrated circuit, including：Housing, in housing Semiconductor chip, the input port stretching out from described housing and output port and the electronic circuit on semiconductor chip, Described electronic circuit includes：

Magnetic field detection circuit, for detecting and exporting the magnetic field induction signal matching with external magnetic field；

It is connected to the output control circuit between described magnetic field detection circuit and described output port；

The state control circuit being connected with described output control circuit, described state control circuit is used for controlling described output Control circuit, makes described output control circuit respond at least described magnetic when described Magnetic Sensor integrated circuit conforms to a predetermined condition Field induced signal, is flowing out the first state of load current and from outside to described output port from described output port to outside Flow into and run under the second state at least one of which state of load current, make described output when not meeting described predetermined condition Control circuit is run under stoping the third state of described first state and the second state.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described output control circuit is configured to：When described Magnetic Sensor When integrated circuit meets described predetermined condition, depending at least on described magnetic field induction signal so that described Magnetic Sensor integrated circuit Switch between described first state and the second state.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described output control circuit operates in during the third state to described Magnetic field induction signal no respond or described output port electric current be less than described load current a quarter.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described magnetic field detection circuit includes：

Magnetic induction element, for detecting and exporting the analog electrical signal matching with external magnetic field；

Signal processing unit, for being amplified to described analog electrical signal and going interference to process；

AD conversion unit, for being converted to the sense of described magnetic field by the analog electrical signal after amplifying and going interference to process Induction signal, described magnetic field induction signal is switching mode digital signal.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described output control circuit includes first switch and second switch, Described first switch and described output port are connected in the first current path, and described second switch is connected with described output port In second current path in opposite direction with described first current path, described first switch and second switch are in described magnetic field Selectively turn under the control of induced signal.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described first switch is diode, and described second switch is two poles Pipe or audion.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described output control circuit has outside from described output pin Flow out the first current path of electric current, flow inward into the second current path of electric current from described output pin and be connected to institute State the switch in the first current path and the one of path of the second current path, described switch is defeated by described magnetic field detection circuit The magnetic field detection information going out controls so that the first current path and the second current path selectivity turn on.

Preferably, do not set switch in described first current path and the second current path other in which path.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described input port is configured to connect external ac power source, institute State the commutator that Magnetic Sensor integrated circuit also includes being connected with described input port, for being converted into directly described alternating current power supply Stream electricity, the power supply of described magnetic field detection circuit is derived from the output voltage of described rectification circuit.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described output control circuit is configured to：When described Magnetic Sensor When integrated circuit meets described predetermined condition, according to polarity and the described magnetic field induction signal of described alternating current power supply, control described Magnetic Sensor integrated circuit switchover operation between described first state and the second state.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described output control circuit is configured to：

When the polarity that external magnetic field described in described magnetic field induction characterization is the first magnetic polarity and described alternating current power supply is During first electrode, control electric current flows out from described output port to outside；

When polarity of the magnetic field described in described magnetic field induction characterization is second magnetic polarity contrary with described first magnetic polarity, And the polarity of described alternating current power supply is when being the second electrode contrary with first electrode, control electric current from outside flow into described defeated Exit port.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described state control circuit includes delay circuit, for when acquisition Start timing to after predetermined trigger signal, when timing duration reaches scheduled duration, show described Magnetic Sensor integrated circuit symbol Close predetermined condition, when timing when not arriving scheduled duration, show that described Magnetic Sensor integrated circuit does not meet predetermined condition.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described state control circuit also includes voltage detecting circuit, is used for When the specific voltage in Magnetic Sensor integrated circuit is detected and reaching predetermined threshold value, described predetermined to the output of described delay circuit Trigger.

Preferably, in above-mentioned Magnetic Sensor integrated circuit, described state control circuit also includes logic circuit, for working as State delay circuit timing duration reach scheduled duration after, make described output control circuit respond described magnetic field induction signal, enter And make output port have load current to flow through.

This utility model embodiment another aspect provides a kind of electric machine assembly, including motor and motor-drive circuit, described Motor-drive circuit has above-mentioned Magnetic Sensor integrated circuit.

Preferably, described motor-drive circuit also include and described motor be series at double between external ac power source two ends Guide opens up pass；The control end that the output port of described Magnetic Sensor integrated circuit is switched with described two-way admittance is connected.

Preferably, in above-mentioned electric machine assembly, described motor includes stator and p-m rotor, and described stator includes stator core And it is wound in the single-phase winding on described stator core.

This utility model embodiment another further aspect provides the application apparatus with above-mentioned electric machine assembly.

Preferably, described application apparatus is pump, fan, household electrical appliance or vehicle.

The such scheme being provided based on technique scheme, this utility model embodiment, by presetting a default bar Part, described integrated circuit meet this pre-conditioned before, stop output control circuit make output port flow through load current In the state of run, to avoid integrated circuit output error signal.

Brief description

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment Or in description of the prior art the accompanying drawing of required use be briefly described it should be apparent that, drawings in the following description are only It is embodiment of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, also Other accompanying drawings can be obtained according to the accompanying drawing providing.

Fig. 1 is a kind of structural representation of Magnetic Sensor integrated circuit disclosed in the embodiment of the present application；

Fig. 2 is a kind of structural representation of Magnetic Sensor integrated circuit disclosed in another embodiment of the application；

Fig. 3 is a kind of structural representation of Magnetic Sensor integrated circuit disclosed in another embodiment of the application；

Fig. 4 is a kind of structural representation of output control circuit disclosed in the embodiment of the present application；

Fig. 5 is a kind of structural representation of output control circuit disclosed in another embodiment of the application；

Fig. 6 is a kind of structural representation of Magnetic Sensor integrated circuit disclosed in another embodiment of the application；

Fig. 7 illustrates that one kind of commutator in the application one embodiment preferably realizes circuit；

Fig. 8 is a kind of structural representation of Magnetic Sensor integrated circuit disclosed in another embodiment of the application；

Fig. 9 is a kind of structural representation of Magnetic Sensor integrated circuit disclosed in another embodiment of the application；

Figure 10 is a kind of structural representation of Magnetic Sensor integrated circuit disclosed in another embodiment of the application；

Figure 11 is that a kind of flow process of signal processing method of Magnetic Sensor integrated circuit disclosed in the embodiment of the present application is illustrated Figure；

Figure 12 is a kind of structural representation of electric machine assembly disclosed in the embodiment of the present application；

Figure 13 is a kind of structural representation of motor disclosed in the embodiment of the present application；

Figure 14 illustrates the waveform of the output voltage of alternating current power supply and commutator in the application one embodiment.

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely description is it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of making creative work The every other embodiment being obtained, broadly falls into the scope of this utility model protection.

Referring to Fig. 1, the integrated circuit according to this utility model one embodiment includes：Housing 100, in housing half Semiconductor substrate (not shown), a pair of the input port (A1 and A2) stretching out from described housing and output port B and located at Electronic circuit on semiconductor chip, described electronic circuit is included control signal and produces circuit 110 and connected with described output port B The output control circuit 120 connecing.Described input port can connect an external power source.In this utility model, input port connects outer Portion's power supply had both included the situation that input port is directly connected to external power source two ends, also includes input port and concatenates with external loading Situation in external power source two ends.

Control signal produces circuit 110 and is used for the predetermined detected signal that detection is input to integrated circuit, and responds this inspection Survey signal, produce corresponding control signal.Described detected signal can be to be input to the electricity of integrated circuit by physical connection Signal, can also be magnetic-coupled magnetic signal or other kinds of detected signal with integrated circuit.

Described output control circuit 120 is configured as when described integrated circuit conforms to a predetermined condition in response to described control Signal, runs in the state of making described output port B flow through load current, is stoping institute when not meeting described predetermined condition State output port B and flow through and run under another state of load current.In this utility model one preferred embodiment, input port can connect Connect an external ac power source, in a preferred application, the frequency of occurrences of described another state and the frequency of described alternating current power supply It is directly proportional.

When using integrated circuit disclosed in the above embodiments of the present application, preset one pre-conditioned, described integrated Circuit meet this pre-conditioned before, stop output control circuit 120 transport in the state of making output port B flow through load current OK, to avoid integrated circuit output error signal.

Wherein, " running in the state of making described output port B flow through load current " in above-described embodiment can be certainly Described output port B flows out the first state of load current or flows into from outside to described output port B negative to outside Current-carrying second state, can also be above-mentioned first state and the second state alternate run.Thus, another in this utility model In embodiment, described output control circuit 120 further can be configured to：When described integrated circuit conforms to a predetermined condition In response to a control signal, from described output port B to the outside first state flowing out load current with from outside to described Run, when not meeting described predetermined condition under second state at least one of which state of output port B inflow load current Run under stoping the third state of described first state and the second state.In one preferably example, the described third state The frequency of occurrences be directly proportional to the frequency of described alternating current power supply.

In technical scheme disclosed in the above embodiments of the present application, described output control electricity can be realized by control signal Road 120 is in the operation of first state and the second state, below so that detected signal is for external magnetic field signal as a example, new to this practicality A kind of embodiment of Magnetic Sensor integrated circuit that type provides is described in detail, now, referring to Fig. 2, described Magnetic Sensor collection Become in circuit, it can be magnetic field detection circuit 130 that control signal produces circuit, match with external magnetic field for detecting and exporting Magnetic field induction signal, described control signal be described magnetic field induction signal.

Preferably, in technical scheme disclosed in the above embodiments of the present application, can also include one be used for judging described Whether Magnetic Sensor integrated circuit meets described pre-conditioned state control circuit 140, by described state control circuit 140 Control the working condition of described output control circuit 120, now, referring to Fig. 2, described electronic circuit includes：

Magnetic field detection circuit 130, the magnetic of the external magnetic field being located at for Magnetic Sensor integrated circuit described in real-time detection , and export the magnetic field induction signal matching with described external magnetic field, and by judging to described magnetic field induction signal, can Determine the information such as polarity of the magnetic field and/or the magnetic field power of described external magnetic field；

It is connected to the output control circuit 120 between described magnetic field detection circuit 130 and described output port B；

The state control circuit 140 being connected with described output control circuit 120, described state control circuit 140 be used for according to According to the default working condition controlling output control circuit 120 described in rule control.Specifically, described state control circuit 140 For when described Magnetic Sensor integrated circuit conforms to a predetermined condition, controlling described output control circuit 120 to respond at least described Magnetic field induction signal (can also include responding described magnetic field induction signal and other signals) certainly simultaneously, from described output Port B flows out the first state of load current and from outside the second shape flowing into load current to described output port B to outside Run under state at least one of which state, when described Magnetic Sensor integrated circuit does not meet described predetermined condition, control described Output control circuit 120 runs under stoping the third state of described first state and the second state.

It is understood that in circuit design, the concrete configuration of described output control circuit 120 can be according to described magnetic The corresponding device requirement of sensor IC and set.For example, described output control circuit 120 can only have a kind of work State and a kind of high-impedance state, a kind of described working condition refers to described first state or described second state, described high resistant State refers to the described third state.When described output control circuit 120 is only configured with a kind of working condition, it can be configured It is when described Magnetic Sensor integrated circuit meets described predetermined condition, in the work at least matching with described magnetic field induction signal Make to run under state, the working condition wherein matching with described magnetic field induction signal refers to described output control circuit 120 The first state being currently configured or the second state, wherein said first state and the second state can only mate a kind of external magnetic field Polarity, for example, the magnetic field induction signal that described first state is only the first polarity chron with external magnetic field matches, described second The magnetic field induction signal that state is only second polarity chron opposite polarity with first with external magnetic field matches, and now, magnetic senses Device integrated circuit makes described output port B flow through load electricity when only can be the first polarity (or second polarity) in external magnetic field Stream, stops when Magnetic Sensor integrated circuit does not meet described predetermined condition or external magnetic field is the second polarity (or first polarity) Output port B flows through load current；Certainly, described output control circuit 120 can also be configured with first state, the second state and The third state, now, described output control circuit 120 can be configured to：Described in meeting when described Magnetic Sensor integrated circuit During predetermined condition, depending at least on described magnetic field induction signal (described magnetic field induction signal can be considered as a kind of control signal), make Obtain described Magnetic Sensor integrated circuit to switch between described first state and the second state, i.e. one kind of described external magnetic field Polarity corresponds to a kind of magnetic field induction signal, and described first state and the second state correspond to a kind of magnetic field induction signal respectively, due to The working condition that described output control circuit 120 can be made changes with the change in polarity of described external magnetic field, realizes passing through institute The polarity of the magnetic field stating external magnetic field controls described output control circuit 120 to switch between described first state and the second state.

What deserves to be explained is, in this utility model embodiment, Magnetic Sensor integrated circuit is in first state and the second state Between switchover operation however it is not limited to one of state switches to the situation of another state immediately after terminating, also include wherein one Individual state terminates the situation that rear separated in time switches to another state again.In one preferably application example, two In the interval time of state switching, the output port of Magnetic Sensor integrated circuit no exports.

Wherein, in Magnetic Sensor integrated circuit disclosed in the above embodiments of the present application, the of described output control circuit 120 The Status Type of three condition voluntarily can configure according to user's request, as long as described output control circuit 120 can be stoped to enter First state and the second state, for example, feel to described magnetic field when described output control circuit 120 operates in the third state Induction signal no responds (can be understood as obtaining less than described magnetic field induction signal) or so that the electric current of described output port B is much smaller than (a quarter of e.g., less than described load current, now this electric current is basic with respect to described load current for described load current On be negligible), and be not enough to drive external loading.

In technical scheme disclosed in the above embodiments of the present application, described magnetic field detection circuit 130 can be according to user's need Seek sets itself, referring to Fig. 3, in technical scheme disclosed in the above embodiments of the present application, described magnetic field detection circuit 130 is permissible Including：

Magnetic induction element 131, for detecting and exporting the analog electrical signal matching with external magnetic field, this utility model is real Apply in example, described magnetic induction element 131 can be Hall Plate；

Signal processing unit 132, for being amplified to described analog electrical signal and going interference to process, can make to detect Signal precision higher；

AD conversion unit 133, for being converted to described magnetic by the analog electrical signal after amplifying and going interference to process Field induced signal, for the application only needing the polarity of the magnetic field identifying external magnetic field, described magnetic field induction signal can be Switching mode digital signal.

In Magnetic Sensor integrated circuit disclosed in the above embodiments of the present application, described output control circuit 120 concrete Circuit structure can be according to configuration needs flexible design, as long as it is above-mentioned to ensure that described output control circuit 120 is capable of Configuration feature.In a kind of implementation of output control circuit 120, referring to Fig. 4, described output control circuit 120 can To include first switch K1 and second switch K2.Described first switch K1 and described output port B are connected to the first current path In, described second switch K2 and described output port B is connected to second electric current in opposite direction with described first current path and leads to Road, described first switch K1 and second switch K2 selectively turn under the control of magnetic field induction signal.First current path With the second current path, there is interface.3rd switch K3 is connected between interface and output port B, the integrated electricity of Magnetic Sensor Road meets during described predetermined condition the 3rd switch K3 conducting, and Magnetic Sensor integrated circuit is unsatisfactory for during described predetermined condition the 3rd and opens Close K3 to disconnect.Specifically, the type of described first switch K1 and second switch K2 voluntarily can be chosen according to user's request, as long as Ensure that described first switch K1 and second switch K2 can selectively turn on, accordingly under the control of magnetic field induction signal Described first current path or the second current path is controlled to turn on.For example, as shown in figure 4, described first switch K1 and Two switch K2 are the semiconductor switch of a pair of complementation.Described first switch K1 can be the switch of high level conducting, described second Switch K2 can be the switch of low level conducting, and the control end of two switches is all connected with magnetic field induction signal, first switch K1 Current input terminal connects high voltage (such as DC source), and current output terminal is connected with the current input terminal of second switch K2, the The current output terminal of two switch K2 connects low voltage (such as), the electricity of the current output terminal of first switch K1 and second switch K2 The 3rd switch K3 is set between the junction point of stream input and output port B.During the 3rd switch K3 conducting, if magnetic field induction signal is defeated Go out high level, first switch K1 turns on, second switch K2 disconnects, load current from high voltage through first switch K1, the 3rd open Close K3 and output port B to flow outwardly, if magnetic field induction signal output low level, second switch K2 turns on, and first switch K1 is broken Open, load current flows into output port B and flows through the 3rd switch K3 and second switch K2 successively from outside.

In another embodiment of the present utility model, described output control circuit 120 have from described output pin to Outer flow out electric current the first current path, flow inward into the second current path of electric current from described output pin and be connected to Switch in described first current path and the one of path of the second current path, described switch is by described magnetic field detection circuit The magnetic field detection information of output controls so that the first current path and the second current path selectivity turn on.Preferably, it is described Switch is not set in first current path and the second current path other in which path.

Fig. 5 is exemplarily illustrated another kind of implementation of output control circuit 120, including：One unidirectional conducting switch D, A described unidirectional conducting switch and described output port B are connected to the first current path, and the electric current of described unidirectional conducting switch D is defeated Enter the outfan that end can connect described magnetic field detection circuit 130, the outfan of described magnetic field detection circuit 130 also can be through a resistance R and described output port B is connected in the second current path in opposite direction with described first current path.First current path With the second current path, there is interface.3rd switch K3 is connected between interface and output port B, the integrated electricity of Magnetic Sensor Road meets during described predetermined condition the 3rd switch K3 conducting, and Magnetic Sensor integrated circuit is unsatisfactory for during described predetermined condition the 3rd and opens Close K3 to disconnect.Described unidirectional conducting switch D turns on when described magnetic field induction signal is for high level, and load current is through one-way conduction Switch D, the 3rd switch K3 and output port B flow outwardly, and described magnetic field induction signal is that during low level, unidirectional conducting switch D breaks Open, load current flows into output port B and flows through the 3rd switch K3 and resistance R successively from outside.Substitute as a kind of, described the Resistance R in two current paths can also replace with another unidirectional conducting switch with unidirectional conducting switch D reverse parallel connection.This Sample, the load current flowing out from output port and the load current flowing into more balance.

It is appreciated that the 3rd switch K3 is also connected to the outfan of magnetic field detection circuit 130 and first/second electric current leads to Between road, Magnetic Sensor integrated circuit is unsatisfactory for the 3rd switch K3 during described predetermined condition and disconnects, now output control circuit 120 Magnetic field induction signal is no responded.

In technical scheme disclosed in the above embodiments of the present application, the power supply of described Magnetic Sensor integrated circuit is permissible For alternating current power supply, referring to Fig. 6, now：Described input port is configured to connect external ac power source；Described Magnetic Sensor is integrated Circuit also includes the commutator 150 being connected with described input port, can convert alternating current to unidirectional current, now, described magnetic The power supply of field testing circuit 130, state control circuit 140 and output control circuit 120 can be directly or indirectly from described rectification The output voltage of circuit.

Fig. 7 illustrates that one kind of commutator 150 preferably realizes circuit, commutator 150 include full-wave rectification bridge and with institute State the voltage regulation unit of full-wave rectification bridge connection, wherein, described full-wave rectification bridge is used for the exchange letter of described alternating current power supply output Number it is converted into direct current signal, described voltage regulation unit is used for stable for the direct current signal of described full-wave rectification bridge output in preset value model In enclosing.Voltage regulation unit includes the Zener diode being connected between two outfans of full-wave rectification bridge.Described full-wave rectification bridge Including：First diode D1 of series connection and the 3rd diode D3 and the 4th diode D4 of the second diode D2 and series connection；Institute The common port stating the first diode D1 and described second diode D2 is electrically connected with described first input port VAC+；Described The common port of three diode D3 and described 4th diode D4 is electrically connected with described second input port VAC-.

Wherein, the input of described first diode D1 and the input of described 3rd diode D3 are electrically connected to form rectification The ground connection outfan of bridge, the outfan of described second diode D2 and the outfan of described 4th diode D4 are electrically connected to form whole The voltage output end VDD of stream bridge, Zener diode DZ are connected to the common port of described second diode D2 and the 4th diode D4 And described first diode D1 and the common port of described 3rd diode D3 between.Preferably realize in example at one, described output The power supply terminal of control circuit 120 directly can be electrically connected with the voltage output end of full-wave rectification bridge.

When the Magnetic Sensor integrated circuit of the present embodiment is powered using alternating current power supply, described output control circuit 120 removes Outside response described magnetic field induction signal, the electric polarity of described alternating current power supply can also be responded, i.e. when described Magnetic Sensor collection Circuit is become to make described output control circuit 120 respond at least described magnetic field induction signal and alternating current power supply when conforming to a predetermined condition (can be considered as a kind of control signal), is flowing out the first state of load current and from outside from described output port B to outside Run under the second state at least one of which state flowing into load current to described output port B.Preferably, described output control When circuit 120 processed can be configured as described Magnetic Sensor integrated circuit and meets described predetermined condition, respond described alternating current The polarity of the magnetic field that the electric polarity in source and described magnetic field induction signal are characterized, controls described Magnetic Sensor integrated circuit described the Switchover operation between one state and the second state.

As a kind of instantiation, described output control circuit 120 can be configured as the integrated electricity of described Magnetic Sensor When road meets pre-conditioned, if external magnetic field described in described magnetic field induction characterization is the first magnetic polarity and described alternating current power supply Polarity be first electrode so that load current flows out from described output port B to outside；If described magnetic field induction signal table Levying described polarity of the magnetic field is second magnetic polarity contrary with described first magnetic polarity, and the polarity of described alternating current power supply is and first The contrary second electrode of electric polarity is so that load current flows into described output port B from outside.What deserves to be explained is, outside Magnetic field is the first magnetic polarity and alternating current power supply is first electrode, or external magnetic field is the second magnetic polarity and alternating current power supply is the During two electric polarities, described output port flow out or flow into load current both included defeated in above-mentioned two situations whole persistent period section Exit port has the situation that load current flows through, and also including in above-mentioned two situations output port only in part-time section has load The situation that electric current flows through.

In this utility model, described output control circuit 120 is to run under first state or the second state or the Under three condition run, pre-conditioned depending on whether described Magnetic Sensor integrated circuit meets, this pre-conditioned can be according to use Family demand sets itself, if ensure when described Magnetic Sensor integrated circuit meet described pre-conditioned before, can generate And export correct signal.For example, with reference to Fig. 8, in one embodiment, by a delay circuit 141 judgement can be No meet described pre-conditioned, described state control circuit 140 includes：

Delay circuit 141, for starting timing after getting predetermined trigger signal, when timing duration reaches scheduled duration When, show that described Magnetic Sensor integrated circuit conforms to a predetermined condition, when timing when not arriving scheduled duration, show described magnetic Sensor IC does not meet predetermined condition.

More specifically, described predetermined trigger signal can rise for specific voltage in Magnetic Sensor integrated circuit reach pre- Determine the trigger generating during threshold value, wherein, described specific voltage can be for example the supply voltage of magnetic field detection circuit 130, This predetermined threshold can be for example the voltage that in described magnetic field detection circuit, each module is capable of normal work, and this predetermined threshold is permissible It is less than a value of the stationary value of described specific voltage.Accordingly, referring to Fig. 8, described state control circuit 140 also includes：

Voltage detecting circuit 142, reaches predetermined threshold value for the specific voltage in Magnetic Sensor integrated circuit is detected When, export described predetermined trigger signal to described delay circuit 141, and

Logic circuit 143, for, after the timing duration of described delay circuit 141 reaches scheduled duration, making described output Control circuit 120 responds described magnetic field induction signal, and then makes output port B have load current to flow through.

In the present embodiment, after the supply voltage of magnetic field detection circuit 130 reaches predetermined threshold, its each module can normally be transported OK, but still need its output of certain process time guarantee is correct signal, therefore it is configured with delay circuit 141 Carrying out timing, just making output control circuit 120 response magnetic field induced signal after certain time length, thus ensureing output port B's State is accurately and reliably.

Fig. 9 is exemplarily illustrated the state control circuit 140 of said structure and one kind of output control circuit 120 is specifically electric Road.Wherein, the logic circuit 143 of state control circuit 140 includes and door AND, is connected magnetic field sense with an input of door AND Induction signal, another input connects the outfan of delay circuit 141.Output control circuit 120 includes three high level conductings Switch M0, M1 and M2 and diode D5.The control end of switch M0 is connected with the outfan of door AND, the input of switch M0 End is connected with the voltage output end (OUTAD+) of commutator 150 through resistance R1, and outfan is exported with the ground connection of described commutator 150 End (OUTAD-) is connected.Switch M1 control end with switch M0 input be connected, switch M1 input through resistance R2 with whole The voltage output end of stream device 150 is connected, and outfan is connected with output port B.The input of diode D5 and the input switching M0 End is connected, and the outfan of diode D5 is connected with output port B.Switch M2 is in parallel with switch M0, and its control end passes through phase inverter X It is connected with the outfan of described delay circuit 141.

In the present embodiment, the equivalent resistance of switch M2 is more than switch M0, functionally can be considered state control circuit 140 A part.When the delay duration of delay circuit 141 is not up to scheduled duration, Magnetic Sensor integrated circuit is in the 3rd shape State, delay circuit 141 exports low level, exports low level all the time with door AND, and switch M0 and M1 disconnects, switch M2 conducting, electric current Flow into output port B and flow through diode D5 and switch M2 from outside, the equivalent resistance of switch M2 is larger, and therefore now electric current is non- Often little, can substantially ignore.When the delay duration of delay circuit 141 reaches scheduled duration, delay circuit 141 exports height Level, the magnetic field induction signal of magnetic field detection circuit 130 output can work as alternating current power supply by exporting switch M0 with door AND When the signal of output is located at positive half period and described magnetic field detection circuit 130 output low level, switch M0 and M2 disconnects, and switchs M1 Conducting, load current flows outwardly from output port B through switch M1 successively；When the signal of alternating current power supply output is located at negative half-cycle And during described magnetic field detection circuit 130 output high level, switch M0 conducting, switch M1 and M2 disconnects, and load current is from outside stream Enter output port B and flow through diode and switch M0.

Figure 10 is exemplarily illustrated a kind of physical circuit of state control circuit 140 and output control circuit 120.Wherein, The logic circuit 143 of state control circuit 140 has two signal input parts and two signal output parts.Wherein, a signal Input connects the outfan of delay circuit 141, and another signal input part connects magnetic field induction signal.Logic circuit 143 It is as follows that control logic can make configuration：When the delay duration of delay circuit 141 is not up to scheduled duration, delay circuit 141 exports Low level, the two-way output signal of logic circuit 143 is all low level.When the delay duration of delay circuit 141 reaches pre- timing When long, delay circuit 141 exports high level, and the two-way output signal of logic circuit 143 is anti-phase and wherein one tunnel is magnetic field induction Signal；The two-way output signal not allowing logic circuit 143 is high level.

Output control circuit 120 includes three switches M3, M4 and M5.Switch M3 and M5 is high level conducting switch, switch M4 is low level conducting switch.The control end of switch M3 and M5 connects two signal output parts of logic circuit 143, switch respectively The input of M3 is connected with one end of resistance R3, and outfan is connected with the ground connection outfan (OUTAD-) of described commutator 150.Open The control end closing M4 is connected with the other end of resistance R3, and input is connected with the voltage output end (OUTAD+) of commutator 150, opens The outfan closing M4 is connected with the input of switch M5, the output head grounding of switch M5.The outfan of switch M4 is with switch M5's The junction point of input is connected with output port B.The control end of switch M4 is connected with the positive pole of protection diode D6, input It is connected with the negative pole of protection diode D6, be also associated with parallel with protection diode D6 between the control end of switch M4 and input Resistance R4.When the delay duration of delay circuit 141 is not up to scheduled duration, Magnetic Sensor integrated circuit is in the 3rd shape State, delay circuit 141 exports low level, and the two-way output signal of logic circuit 143 is all low level, and M3, M4 and M5 are equal for switch Disconnect, output port B no current flows through.When the delay duration of delay circuit 141 reaches scheduled duration, delay circuit 141 is defeated Go out high level, the two-way output signal of logic circuit 143 is anti-phase and wherein one tunnel is magnetic field induction signal.When alternating current power supply output Signal be located at positive half period and described magnetic field detection circuit 130 output high level when, switch M3 and M4 conducting, switch M5 break Open, load current flows outwardly from output port B through switch M4；When the signal of alternating current power supply output is positioned at negative half-cycle and described During magnetic field detection circuit 130 output low level, switch M3 and M4 disconnects, switch M5 conducting, and load current flows into output from outside Port B simultaneously flows through switch M5.

It is understood that being directed to above-mentioned Magnetic Sensor integrated circuit, disclosed herein as well is a kind of Magnetic Sensor collection Become the signal processing method of circuit, participate in Figure 10, the method includes：

Step S101：Detect and export the magnetic field induction signal matching with external magnetic field；

Step S102：Judge whether described Magnetic Sensor integrated circuit meets predetermined condition, if it is, execution step S103, otherwise execution step S104；

Step S103：Control described Magnetic Sensor integrated circuit depending at least on described magnetic field induction signal, with described magnetic Run under first state that induced signal matches or the second state at least one of which state；

Step S104：Magnetic Sensor integrated circuit is controlled to run in a third condition.

Wherein, described first state is to flow out load electricity from the output port B of described Magnetic Sensor integrated circuit to outside The state of stream；Described second state is from the outside state flowing into load current to described output port B；The described third state is Stop the state that described Magnetic Sensor integrated circuit runs under described first state and the second state.

Preferably, described predetermined condition can be the pre- timing of described Magnetic Sensor integrated circuit time delay from after particular moment Long.That is, it is judged that whether described Magnetic Sensor integrated circuit meets predetermined condition specifically, judging in scheduled duration as described before magnetic Whether sensor IC has just reached particular moment.More specifically, described predetermined trigger signal can be Magnetic Sensor In integrated circuit, specific voltage reaches the trigger generating during predetermined threshold, and wherein, described specific voltage can be for example magnetic The supply voltage of field testing circuit 130, this predetermined value can be for example that in described magnetic field detection circuit 130, each module can be normal The voltage of work, this predetermined threshold can be less than a value of the stationary value of described specific voltage.

Preferably, described detect and export the magnetic field induction signal matching with external magnetic field include：

Detect and export the analog electrical signal matching with external magnetic field；

Analog electrical signal is amplified and go interference to process；

Analog electrical signal after amplifying and going interference to process is converted to described magnetic field induction signal, for only needing For the application of polarity of the magnetic field of identification external magnetic field, described magnetic field induction signal can be switching mode digital signal.

More further, judge in described Magnetic Sensor integrated circuit, whether to meet predetermined condition tool described in said method Body can include：

Judge whether the specific voltage in described Magnetic Sensor integrated circuit reaches set-point, if it is, starting timing；

Judge whether timing duration reaches scheduled duration, if it is, determine that described Magnetic Sensor integrated circuit meets setting Condition, otherwise, it determines described Magnetic Sensor integrated circuit is unsatisfactory for imposing a condition.

As shown in figure 12, this utility model embodiment additionally provides a kind of electric machine assembly, and described electric machine assembly includes：By one The motor M that alternating current power supply is powered；Two-way controllable AC switch (the also referred to as two-way admittance switch) 200 connected with described motor M； And the Magnetic Sensor IC being provided according to any of the above-described embodiment of this utility model, the integrated electricity of described Magnetic Sensor The output port B of road IC is electrically connected with the control end of described two-way admittance switch 200.Preferably, two-way admittance switch 300 is permissible It is triac (TRIAC).It is appreciated that two-way admittance switch also can be real by other kinds of suitable switch Existing, for example can include two thyristors of reverse parallel connection, and corresponding control circuit is set, integrated according to Magnetic Sensor The output signal of the output port of circuit controls this two thyristors through described control circuit according to predetermined way.

Preferably, described electric machine assembly also includes reduction voltage circuit 300, for being supplied to institute by after described alternating current power supply blood pressure lowering State Magnetic Sensor IC.Magnetic Sensor IC installs the magnetic field change to perceive rotor near the rotor of motor Change.

On the basis of above-described embodiment, in a specific embodiment of the present utility model, described motor is synchronous electricity Machine, it will be understood that Magnetic Sensor integrated circuit of the present utility model is applicable not only to synchronous motor, is also applied for other kinds of Magneto such as DC brushless motor.Figure 13 illustrates a kind of instantiation of described synchronous motor, and described synchronous motor includes fixed Son and can relative stator rotation rotor M1.Stator have stator core M2 and be set around single-phase stator on stator core M2 around Group M3.Stator core M2 can be made up of soft magnetic materials such as pure iron, cast iron, cast steel, electrical sheet, silicon steel.Rotor M1 has permanent magnet, When stator winding M3 is connected with alternating current power supply, in steady-state process with the rotating speed constant-speed operation of 60f/p circle/minute, wherein f is rotor The frequency of described alternating current power supply, p is the number of pole-pairs of rotor.Stator core M2 has two relative pole portions.Each pole portion has pole Cambered surface (M4 and M5), the outer surface of rotor M1 is relative with polar arc face (M4 and M5), forms non-uniform gap between the two.Wherein, The starting groove of indent is set on the polar arc face (M4 and M5) in stator poles portion, on polar arc face, the part in addition to starting groove is then same with rotor The heart.Above-mentioned configuration can form non-uniform magnetic field it is ensured that rotor when static its pole axis with respect to the inclined in stator poles portion One angle it is allowed to when motor M is energized every time in the presence of IC rotor can have starting torque.Wherein rotor The pole axis of M1 refers to the demarcation line between the different magnetic pole of two polarity of rotor, and the central shaft in stator poles portion refers to through two poles of stator The line at portion center.In the present embodiment, stator and rotor M1 are respectively provided with two magnetic poles.It should be understood that in more embodiments, The number of magnetic poles of stator and rotor M1 can also be unequal, and has more magnetic poles, such as four, six etc..

In an embodiment of the present utility model, when Magnetic Sensor IC meets aforementioned predetermined condition, defeated Go out control circuit 120 to be configured in described alternating current power supply is positive half period and described magnetic field detection circuit 130 detection permanent magnetism turns The magnetic field of sub- M1 be the first polarity or described alternating current power supply be negative half-cycle and described magnetic field detection circuit 130 detect described The magnetic field of p-m rotor M1 is second polarity chron opposite polarity with described first, makes the conducting of described two-way admittance switch 200.When Described alternating current power supply is negative half-cycle and p-m rotor M1 is described first polarity, or described alternating current power supply be positive half period and Described p-m rotor M1 is the second polarity chron, makes the cut-off of described two-way admittance switch 200.

Preferably, described output control circuit 120 is configured to be located at positive half cycle in the signal of described alternating current power supply output Phase and described magnetic field detection circuit 130 detect that the magnetic field of described p-m rotor M1 is the first polarity chron, and control electric current is by described collection IC circuit is become to flow to described two-way admittance switch 200, and positioned at negative half-cycle and described in the signal of described alternating current power supply output Magnetic field detection circuit 130 detects that the magnetic field of described p-m rotor M1 is second polarity chron opposite polarity with described first, controls Electric current flows to described IC by described two-way admittance switch 200.It is appreciated that p-m rotor is the first magnetic polarity and friendship Stream power supply is positive half period, or p-m rotor is when to be the second magnetic polarity and alternating current power supply be negative half-cycle, described integrated circuit Flow out or inflow current had both included the situation that has electric current to flow through in above-mentioned two situations whole persistent period section, also include above-mentioned Only there is the situation that electric current flows through in part-time section in the case of two kinds.

In one preferred embodiment of this utility model, two-way admittance switch 200 adopts triac (TRIAC), commutator 150 adopts the circuit shown in Fig. 7, and output control circuit adopts the circuit shown in Fig. 4, wherein first switch The switch that K1 turns on for high level, the switch that described second switch K2 turns on for low level, Magnetic Sensor IC meets 3rd switch K3 conducting during aforementioned predetermined condition, Magnetic Sensor IC is unsatisfactory for the 3rd switch K3 during predetermined condition and breaks Open.In output control circuit, the current input terminal of first switch K1 connects the voltage output end of full-wave rectification bridge, second switch K2 Current output terminal connect full-wave rectification bridge ground connection outfan.When Magnetic Sensor IC meets aforementioned predetermined condition, If the signal of alternating current power supply AC output is located at positive half period and described magnetic field detection circuit 130 exports high level, output control list In unit, first switch K1 turns on and second switch K2 disconnection, and electric current flows out from alternating current power supply AC one end, flows successively through motor M, fall Volt circuit 300, the first input end of IC, the second diode D2 voltage output end of full-wave rectification bridge, output control First switch K1 of circuit 120 processed, flows to two-way admittance switch 200 from output port B and returns to alternating current power supply AC.TRIAC200 leads After logical, the series arm that reduction voltage circuit 300 and Magnetic Sensor IC are formed is shorted, Magnetic Sensor IC because Unpowered voltage and stop export, and TRIAC 200 due to flow through the electric current between two anode sufficiently large (higher than its maintenance Electric current), between control pole and its first anode no in the case of driving current, TRIAC200 remains on.If alternating current power supply The signal of AC output is located at negative half-cycle and described magnetic field detection circuit 130 exports low level, and in output control unit, first opens Close K1 to disconnect and second switch K2 conducting, electric current flows out from the alternating current power supply AC other end, flow into output from two-way admittance switch 200 Port B, second switch K2 through output control circuit 120, the ground connection outfan of full-wave rectification bridge and the first diode D1, integrated The first input end of IC circuit, reduction voltage circuit 300, motor M return to alternating current power supply AC.Likewise, after TRIAC200 conducting, magnetic Sensor IC IC stops output short-circuit because being shorted, and TRIAC200 then can be held on.If alternating current power supply AC exports Signal be located at positive half period and described magnetic field detection circuit 130 and export low level, or the signal position of alternating current power supply AC output In negative half-cycle and described magnetic field detection circuit 130 output high level, in output control circuit 120, first switch K1 and second is opened Close K2 all can not turn on, TRIAC200 ends.Thus, described output control circuit 120 can the polarity based on alternating current power supply AC become Change and magnetic field detection information, make described IC control two-way admittance switch 200 in a predefined manner in conducting and cut-off shape Switch between state, and then control the step mode of stator winding M3, make the variation magnetic field that stator produces coordinate the field bit of rotor Put, only drag rotor rotation along single direction, thus rotor M1 has fixing direction of rotation when ensureing that motor is energized every time.

In the present embodiment, in commutator 150, adopt full-wave rectification bridge.The top half of Figure 14 illustrates the defeated of alternating current power supply AC Go out voltage waveform, the latter half illustrates the output voltage waveforms of rectifier bridge.The frequency of the output voltage of rectifier bridge is alternating current power supply The twice of the frequency of AC.Enter the predetermined bar that the first or second state need to meet according to previously for Magnetic Sensor IC The description of part, in each uphill process of full-wave rectification bridge, often enters a first state in described output control circuit 120 Or second before state, described output control circuit 120 is both needed to enter a third state, each positive half period of alternating voltage Magnetic Sensor IC enters a first state, and each negative half-cycle Magnetic Sensor IC of alternating voltage enters Enter second state.As can be seen here, the frequency that the described third state occurs is occurred with described first state or the second state Frequency is directly proportional, and is also directly proportional to the frequency of alternating voltage.Preferably, the frequency that the described third state occurs is described first shape The twice of the frequency of state or the appearance of the second state, is also the twice of the frequency of alternating voltage.

In the electric machine assembly of another embodiment of this utility model, motor can be series at outside with two-way admittance switch Between alternating current power supply two ends, motor switchs, with two-way admittance, connect the first series arm being formed and reduction voltage circuit and Magnetic Sensor The second series arm that integrated circuit is formed is in parallel.The output port of Magnetic Sensor integrated circuit is connected with two-way admittance switch, Control two-way admittance switch to switch between conducting and cut-off state in a predefined manner, and then control the energising side of stator winding Formula.

Electric machine assembly in this utility model embodiment can be used for but is not limited to pump, fan, household electrical appliance, Che Dengshe In standby, described household electrical appliance can be for example washing machine, dish-washing machine, smoke exhaust ventilator, exhaust fan etc..

It should be noted that, although this utility model embodiment is so that described IC is applied in motor as a example to enter Row explanation, but the application of integrated circuit that this utility model embodiment is provided is not limited to this.

In this specification, each embodiment is described by the way of going forward one by one, and what each embodiment stressed is and other The difference of embodiment, between each embodiment identical similar portion mutually referring to.For method disclosed in embodiment For, because it is corresponding with device disclosed in embodiment, so description is fairly simple, say referring to method part in place of correlation Bright.

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or new using this practicality Type.Multiple modifications to these embodiments will be apparent from for those skilled in the art, is determined herein The General Principle of justice can be realized in the case of without departing from spirit or scope of the present utility model in other embodiments.Cause This, this utility model is not intended to be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The wide scope consistent with features of novelty.

Claims (18)

1. a kind of Magnetic Sensor integrated circuit is it is characterised in that include：Housing, the semiconductor chip in housing, from described Input port and output port and the electronic circuit on semiconductor chip that housing stretches out, described electronic circuit includes：

Magnetic field detection circuit, for detecting and exporting the magnetic field induction signal matching with external magnetic field；

It is connected to the output control circuit between described magnetic field detection circuit and described output port；

The state control circuit being connected with described output control circuit, described state control circuit is used for controlling described output control Circuit, makes at least described magnetic field sense of described output control circuit response when described Magnetic Sensor integrated circuit conforms to a predetermined condition Induction signal, is flowing out the first state of load current and from outside to the inflow of described output port from described output port to outside Run under second state at least one of which state of load current, make described output control when not meeting described predetermined condition Circuit runs under stoping the third state of described first state and the second state.

2. Magnetic Sensor integrated circuit according to claim 1 is it is characterised in that described output control circuit is configured For：When described Magnetic Sensor integrated circuit meets described predetermined condition, depending at least on described magnetic field induction signal so that described Magnetic Sensor integrated circuit switches between described first state and the second state.

3. Magnetic Sensor integrated circuit according to claim 1 is it is characterised in that described output control circuit operates in During three condition, described magnetic field induction signal is no responded or described output port electric current be less than described load current four/ One.

4. Magnetic Sensor integrated circuit according to claim 1 is it is characterised in that described magnetic field detection circuit includes：

Magnetic induction element, for detecting and exporting the analog electrical signal matching with external magnetic field；

Signal processing unit, for being amplified to described analog electrical signal and going interference to process；

AD conversion unit, for being converted to described magnetic field induction letter by the analog electrical signal after amplifying and going interference to process Number, described magnetic field induction signal is switching mode digital signal.

5. Magnetic Sensor integrated circuit according to claim 1 is it is characterised in that described output control circuit includes first Switch and second switch, described first switch and described output port are connected in the first current path, described second switch with Described output port is connected in the second current path in opposite direction with described first current path, described first switch and Two switches selectively turn under the control of described magnetic field induction signal.

6. integrated circuit according to claim 1 is it is characterised in that described output control circuit has draws from described output Foot flows outwardly the first current path of electric current, the second current path flowing inward into electric current from described output pin, Yi Jilian It is connected on the switch in described first current path and the one of path of the second current path, described switch is by described magnetic field detection The magnetic field detection information of circuit output controls so that the first current path and the second current path selectivity turn on.

7. integrated circuit according to claim 6 it is characterised in that described first current path and the second current path its In do not set switch in another path.

8. Magnetic Sensor integrated circuit according to claim 1 is it is characterised in that described input port is configured to connect External ac power source, described Magnetic Sensor integrated circuit also includes the commutator being connected with described input port, for will be described Alternating current power supply is converted into unidirectional current, and the power supply of described magnetic field detection circuit is derived from the output voltage of described rectification circuit.

9. Magnetic Sensor integrated circuit according to claim 8 is it is characterised in that described output control circuit is configured For：When described Magnetic Sensor integrated circuit meets described predetermined condition, according to polarity and the described magnetic field of described alternating current power supply Induced signal, controls described Magnetic Sensor integrated circuit switchover operation between described first state and the second state.

10. Magnetic Sensor integrated circuit according to claim 8 is it is characterised in that described output control circuit is configured For：

When the polarity that external magnetic field described in described magnetic field induction characterization is the first magnetic polarity and described alternating current power supply is first During electric polarity, control electric current flows out from described output port to outside；

When polarity of the magnetic field described in described magnetic field induction characterization is second magnetic polarity contrary with described first magnetic polarity, and institute When to state the polarity of alternating current power supply be the second electrode contrary with first electrode, control electric current flows into described outfan from outside Mouthful.

11. Magnetic Sensor integrated circuits according to claim 8 are it is characterised in that described state control circuit includes prolonging When circuit, for after getting predetermined trigger signal start timing, when timing duration reaches scheduled duration, show described magnetic Sensor IC conforms to a predetermined condition, and when timing when not arriving scheduled duration, shows the integrated electricity of described Magnetic Sensor Road does not meet predetermined condition.

12. Magnetic Sensor integrated circuits according to claim 11 are it is characterised in that described state control circuit also includes Voltage detecting circuit, for when the specific voltage in Magnetic Sensor integrated circuit is detected and reaching predetermined threshold value, prolonging to described When predetermined trigger signal described in circuit output.

13. Magnetic Sensor integrated circuits according to claim 11 or 12 it is characterised in that described state control circuit also Including logic circuit, for after the timing duration of described delay circuit reaches scheduled duration, making described output control circuit ring Answer described magnetic field induction signal, and then make output port have load current to flow through.

A kind of 14. electric machine assemblies it is characterised in that including motor and motor-drive circuit, described motor-drive circuit have as Magnetic Sensor integrated circuit described in any one of claim 1 to 13.

15. electric machine assemblies as claimed in claim 14 are it is characterised in that described motor-drive circuit also includes and described motor It is series at the two-way admittance switch between external ac power source two ends；The output port of described Magnetic Sensor integrated circuit with described The control end of two-way admittance switch connects.

16. electric machine assemblies according to claim 15 are it is characterised in that described motor includes stator and p-m rotor, institute State stator to include stator core and be wound in the single-phase winding on described stator core.

A kind of 17. application apparatus with electric machine assembly as claimed in claim 14.

18. application apparatus according to claim 17 are it is characterised in that described application apparatus is pump, fan, household electrical appliance Or vehicle.