JP5733532B2 - Magnetic sensor - Google Patents

Description

  The present invention relates to a magnetic sensor using a magnetic detection element such as a Hall IC.

  The magnetic sensor is used, for example, for non-contact detection of the position of a moving body or current. Such a magnetic sensor includes, for example, a Hall IC as a magnetic detection element. Some Hall ICs can adjust (program) characteristics (parameters) such as magnetic sensitivity (gain) and zero magnetic field voltage, and are called programmable linear Hall ICs. The following Patent Document 1 uses a Hall effect device, which is a programmable integrated circuit, as a current sensor. In this current sensor, a connector dedicated to programming is led to the outside of the case.

Special table 2008-547155 gazette

  In the characteristic adjustment (programming) of the magnetic detection element, a higher voltage may be applied to the input terminal of the magnetic detection element than when used as a magnetic sensor. For this reason, if a regulator is connected to the input terminal of the magnetic detection element, there is a risk that each element constituting the regulator is adversely affected.

  The present invention has been made in view of such a situation, and an object thereof is to provide a magnetic sensor capable of preventing a high voltage from being applied to the regulator when adjusting the characteristics of the magnetic detection element. It is in.

One embodiment of the present invention is a magnetic sensor. This magnetic sensor
It includes a programmable magnetic sensor IC that modulate the slope of the characteristic of the output voltage with respect to the applied magnetic field, a regulator for supplying a voltage to the programmable magnetic sensor IC, and a substrate mounted with the programmable magnetic sensor IC and the regulator The substrate is provided with first and second connect pads and an adjustment terminal;
The first connect pad is connected to an output terminal of the regulator, the second connect pad is connected to a power supply terminal of the programmable magnetic detecting element IC , and the adjustment terminal is not connected to the first connect pad and the programmable magnetic circuit Connected to the power supply terminal of the detection element IC , the first and second connection pads are short-circuited to each other ;
The programmable magnetic sensor IC is the slope of the characteristic by a predetermined signal is input to the power supply terminal Ru is adjusted.

Another aspect of the present invention is a magnetic sensor. This magnetic sensor
It includes a programmable magnetic sensor IC that modulate the slope of the characteristic of the output voltage with respect to the applied magnetic field, a regulator for supplying a voltage to the programmable magnetic sensor IC, and a substrate mounted with the programmable magnetic sensor IC and the regulator The substrate is provided with first and second connect pads and an adjustment terminal;
The first connect pad is connected to an output terminal of the regulator, the second connect pad is connected to a power supply terminal of the programmable magnetic detecting element IC , and the adjustment terminal is not connected to the first connect pad and the programmable magnetic circuit is connected to the power supply terminal of the detecting element IC, the first and second connect pads Ri shorted capable der each other,
The programmable magnetic sensor IC is the slope of the characteristic by a predetermined signal is input to the power supply terminal Ru is adjusted.

Another aspect of the present invention is a magnetic sensor. This magnetic sensor
Comprising an adjustable magnetic sensing element characteristic of the output voltage with respect to the applied magnetic field, a regulator for supplying a voltage to the magnetic detection element, and a substrate mounted with said magnetic sensing element and the regulator, and a case for holding the substrate The substrate is provided with first and second connect pads and an adjustment terminal;
The first connect pad is connected to an output terminal of the regulator, the second connect pad is connected to an input terminal of the magnetic detection element, the adjustment terminal is connected to the input terminal of the magnetic detection element, The first and second connect pads are short-circuited or short-circuited to each other;
It said first and second connect pad is located at a position projecting from the opening near to the opening of the case.

  The power supply terminal, the signal terminal, and the adjustment terminal provided on the substrate may be led out to a single connector.

  It should be noted that any combination of the above-described constituent elements, and those obtained by converting the expression of the present invention between methods and systems are also effective as aspects of the present invention.

  ADVANTAGE OF THE INVENTION According to this invention, the magnetic sensor which can prevent that a high voltage is applied to a regulator at the time of the characteristic adjustment of a magnetic detection element can be provided.

1 is a circuit diagram of a magnetic sensor according to an embodiment of the present invention. The output characteristic figure of Hall IC3 in the magnetic sensor of an embodiment. The 1st perspective view of the magnetic sensor of an embodiment. The 2nd perspective view. FIG.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In addition, the same code | symbol is attached | subjected to the same or equivalent component, member, etc. which are shown by each drawing, and the overlapping description is abbreviate | omitted suitably. In addition, the embodiments do not limit the invention but are exemplifications, and all features and combinations thereof described in the embodiments are not necessarily essential to the invention.

  FIG. 1 is a circuit diagram of a magnetic sensor according to an embodiment of the present invention. This magnetic sensor includes a power source 1, a regulator 2, and a Hall IC 3 as a magnetic detection element. The regulator 2 and the Hall IC 3 are mounted on the substrate 4. The substrate 4 is provided with a characteristic adjustment terminal 5, a power supply terminal 6, a ground terminal 7, and a signal terminal 8.

  The positive terminal of the power supply 1 is connected to the power supply terminal 6 and the negative terminal is connected to the ground terminal 7. The power supply terminal 6 is connected to the Vdd terminal of the regulator 2. The Gnd terminal of the regulator 2 and the Gnd terminal of the Hall IC 3 are respectively connected to the ground terminal 7. The characteristic adjustment terminal 5 is connected to the Vdd terminal of the Hall IC 3. The Vout terminal of the Hall IC 3 is connected to the signal terminal 8. The Vout terminal of the regulator 2 is connected to the first connect pad 9. The second connect pad 10 is connected to the Vdd terminal of the Hall IC 3. The first connect pad 9 and the second connect pad 10 are close to each other on the substrate 4 and are short-circuited by jumper resistance or solder after adjusting the characteristics of the Hall IC 3. A bypass capacitor C 1 is provided between the power supply terminal 6 and the ground terminal 7. A bypass capacitor C2 is provided between the Vdd terminal of the Hall IC 3 and the ground terminal 7. A bypass capacitor C3 is provided between the ground terminal 7 and the signal terminal 8.

  The power source 1 is a DC voltage source with a rated output voltage of, for example, 5V. The output voltage of the power supply 1 is not stabilized and fluctuates within a range of ± 5% with respect to 5V, for example. The regulator 2 is, for example, a low dropout regulator (LDO). The input voltage range of the regulator 2 is, for example, 4.75V to 5.25V. The regulator 2 steps down the output voltage (5 V ± 5%) of the power source 1 to 4.7 V and outputs it from the Vout terminal to the Vdd terminal of the Hall IC 3. The Hall IC 3 has a recommended input voltage of, for example, 5V, and an input voltage range of, for example, 4.5V to 5.5V. The rated output voltage of the power supply 1 and the recommended input voltage of the Hall IC 3 are equal to each other, and are set to 5 V as described above. The Hall IC 3 outputs a voltage signal corresponding to the applied magnetic field from the Vout terminal to the signal terminal 8. The Hall IC 3 is preferably a programmable linear Hall IC in which a Hall element, a differential amplifier circuit, an EEPROM, and the like are packaged, and the characteristics of the output voltage with respect to the applied magnetic field can be adjusted.

  FIG. 2 is an output characteristic diagram of the Hall IC 3 in the magnetic sensor of the embodiment. In this figure, the horizontal axis represents the current Ip (current to be measured) because the magnetic sensor is used for current detection as an example. Note that the current to be measured and the magnetic field applied to the Hall IC 3 are in a proportional relationship, and the horizontal axis is equivalent to the magnetic field. Here, the current measurement range is set to −400 A to 400 A, and the output voltage range of the Hall IC 3 is set to a linear characteristic of 0.5 V to 4.5 V. During the characteristic adjustment (programming) of the Hall IC 3, the first connect pad 9 and the second connect pad 10 are not short-circuited, and the Hall IC 3 is connected to the Hall IC 3 from the programming device (not shown) via the characteristic adjustment terminal 5. A signal VP is transmitted to the Vdd terminal.

  The characteristic adjustment (program) of the Hall IC 3 is performed by adjusting the characteristic of the output voltage with respect to the applied magnetic field when the recommended input voltage is input to the Vdd terminal. For this reason, in the present embodiment, the characteristics of the Hall IC 3 are adjusted so that the characteristic A shown in FIG. That is, the output voltage when the recommended input voltage (5 V) is input to the Vdd terminal of the Hall IC 3 is adjusted slightly higher than 0.5 V to 4.5 V with respect to −400 A to 400 A. As a result, the output voltage when 4.7 V (the output voltage of the regulator 2) lower than the recommended input voltage (5 V) is input to the Vdd terminal of the Hall IC 3 is −400 A to 400 A as shown in the characteristic B of FIG. In contrast, a target linear characteristic of 0.5 V to 4.5 V can be obtained. In contrast, if the output voltage when the recommended input voltage (5 V) is input to the Vdd terminal of the Hall IC 3 is adjusted to 0.5 V to 4.5 V with respect to −400 A to 400 A, 4 V is applied to the Vdd terminal of the Hall IC 3. As shown in characteristic C, the output voltage when 0.7 V is input is lower than 0.5 V to 4.5 V with respect to −400 A to 400 A (away from the target characteristic).

  FIG. 3 is a first perspective view of the magnetic sensor according to the embodiment. FIG. 4 is a second perspective view of the same. FIG. 5 is a plan view of the same. The substrate 4 is held in a case 11 made of, for example, insulating resin. The case 11 has a rectangular parallelepiped shape having an opening. A bus bar insertion hole 12 is provided in the case 11 so that a bus bar (not shown) that forms a path of a current to be measured can be inserted. The Hall IC 3 is mounted on the substrate 4 so as to be positioned in the vicinity of the bus bar insertion hole 12 and detects a magnetic field generated by the current to be measured.

  The characteristic adjustment terminal 5 (program terminal), the power supply terminal 6, the ground terminal 7, and the signal terminal 8 are, for example, L pin terminals, penetrate the substrate 4, and are soldered to a conductor pattern (not shown) on the substrate 4. And is led out to the connector 13 integrated with the case 11. The claw 14 of the case 11 locks the lid 19 (shown by a one-dot chain line in FIG. 5). The opening of the case 11 is covered by the lid 19.

  As shown in FIG. 5, the first connect pad 9 and the second connect pad 10 are in a position close to each other on the substrate 4. The first connect pad 9 and the second connect pad 10 are preferably present near the opening of the case 11 or at a position protruding from the opening. This is to make it easy to connect a jumper resistor (0 ohm resistor) or solder when the first connect pad 9 and the second connect pad 10 are short-circuited after adjusting the characteristics of the Hall IC 3.

  4 and 5, with the magnetic sensor assembled, the magnetic sensor and a programming device (not shown) are connected via the connector 13, and the signal VP (programming voltage) is sent from the characteristic adjustment terminal 5 to the Hall IC 3 Input to the Vdd terminal. At this time, the first connect pad 9 and the second connect pad 10 are not short-circuited (in an insulated state). When the desired adjustment is completed, the first connect pad 9 and the second connect pad 10 are short-circuited, and the lid 19 is put on the case 11 as shown in FIG. The characteristic adjustment terminal 5 can be used to monitor the output voltage of the regulator 2 after the first connect pad 9 and the second connect pad 10 are short-circuited.

  According to the present embodiment, the following effects can be achieved.

(1) Since the first connect pad 9 and the second connect pad 10 are not short-circuited when the signal VP is input from the characteristic adjustment terminal 5 to the Vdd terminal of the Hall IC 3, the signal VP is not applied to the regulator 2. For this reason, it is possible to prevent a higher voltage than expected from being applied to the regulator 2 during characteristic adjustment, and it is possible to reduce the risk of adverse effects on each element constituting the regulator 2. Further, the number of connected parts of the VP line is reduced, and more accurate programming is possible.

(2) Since the first connect pad 9 and the second connect pad 10 exist in the vicinity of the opening of the case 11 or at a position protruding from the opening, the workability when short-circuiting after adjusting the characteristics of the Hall IC 3 is good.

(3) Since the characteristic adjustment terminal 5 is led to the common connector 13 together with the power supply terminal 6, the ground terminal 7, and the signal terminal 8, it is configured in comparison with the case where a dedicated connector for programming is provided as in Patent Document 1. Can be simplified.

(4) Since the first connect pad 9 and the second connect pad 10 are short-circuited after the characteristics of the Hall IC 3 are adjusted, the reliability is higher than the conduction by the switch. That is, it is preferable because the probability of occurrence of a malfunction such as opening (non-conduction) at the time of use is low compared to conduction by a switch.

  The present invention has been described above by taking the embodiment as an example. However, it is understood by those skilled in the art that various modifications can be made to each component and each processing process of the embodiment within the scope of the claims. By the way. Hereinafter, modifications will be described.

  The rated output voltage of the power source 1 and the recommended input voltage of the Hall IC 3 do not have to be equal, and the regulator 2 may step down or step up the output voltage of the power source 1 in accordance with the recommended input voltage of the Hall IC 3. The magnetic detection element is not limited to the Hall IC 3 and may be, for example, an MR element bridge as long as the characteristics can be adjusted.

1 power supply, 2 regulator, 3 Hall IC, 4 substrate, 5 characteristic adjustment terminal, 6 power supply terminal, 7 ground terminal, 8 signal terminal, 9 first connection pad, 10 second connection pad, 11 case, 12 bus bar insertion hole, 13 connectors, 14 claws, 19 lids, C1-C3 bypass capacitors

Claims (4)

It includes a programmable magnetic sensor IC that modulate the slope of the characteristic of the output voltage with respect to the applied magnetic field, a regulator for supplying a voltage to the programmable magnetic sensor IC, and a substrate mounted with the programmable magnetic sensor IC and the regulator The substrate is provided with first and second connect pads and an adjustment terminal;
The first connect pad is connected to an output terminal of the regulator, the second connect pad is connected to a power supply terminal of the programmable magnetic detecting element IC , and the adjustment terminal is not connected to the first connect pad and the programmable magnetic circuit Connected to the power supply terminal of the detection element IC , the first and second connection pads are short-circuited to each other ;
The programmable magnetic sensor IC is the slope of the characteristic Ru is adjusted by a predetermined signal is input to the power supply terminal, a magnetic sensor. It includes a programmable magnetic sensor IC that modulate the slope of the characteristic of the output voltage with respect to the applied magnetic field, a regulator for supplying a voltage to the programmable magnetic sensor IC, and a substrate mounted with the programmable magnetic sensor IC and the regulator The substrate is provided with first and second connect pads and an adjustment terminal;
The first connect pad is connected to an output terminal of the regulator, the second connect pad is connected to a power supply terminal of the programmable magnetic detecting element IC , and the adjustment terminal is not connected to the first connect pad and the programmable magnetic circuit is connected to the power supply terminal of the detecting element IC, the first and second connect pads Ri shorted capable der each other,
The programmable magnetic sensor IC is the slope of the characteristic Ru is adjusted by a predetermined signal is input to the power supply terminal, a magnetic sensor. Comprising an adjustable magnetic sensing element characteristic of the output voltage with respect to the applied magnetic field, a regulator for supplying a voltage to the magnetic detection element, and a substrate mounted with said magnetic sensing element and said regulator, and a case for holding the substrate The substrate is provided with first and second connect pads and an adjustment terminal;
The first connect pad is connected to an output terminal of the regulator, the second connect pad is connected to an input terminal of the magnetic detection element, the adjustment terminal is connected to the input terminal of the magnetic detection element, The first and second connect pads are short-circuited or short-circuited to each other;
It said first and second connect pad is located at a position projecting from the opening near to the opening of the case, magnetic sensors.   The magnetic sensor according to any one of claims 1 to 3, wherein a power supply terminal, a signal terminal, and the adjustment terminal provided on the substrate are led out to a single connector.

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