DE102015003146A1 - Mini teslameter - Google Patents

Abstract

A mini-Teslameter comprising a board having a first board portion, wherein the first board portion has a top and a bottom and a display area formed on the top and on the first board portion a control unit is arranged, wherein the display area is connected to the control unit, to drive the display area, and a second board portion, and wherein the second board portion is tongue-shaped and comprises a measuring tip with a magnetic field sensor, and wherein the magnetic field sensor is integrated with a drive circuit, and the drive circuit is connected to the control unit, and the first Blanks portion is integrally connected to the second sinker section, and in the first sinker section, the extent transverse to the longitudinal axis is less than 9 cm and the length along the longitudinal axis of the first sinker section is at least 4 cm, and in the second Plati NEN section is the extent transverse to the longitudinal axis at least in the vicinity of the measuring tip is less than 3 cm, and the length along the longitudinal axis of the second board section is at least 3 cm.

Description

The invention relates to a mini-Teslameter.

Tesla meters are well known as gauges, the devices are generally cumbersome and expensive.

Against this background, the object of the invention is to provide a device that further develops the prior art.

The object is achieved by a mini-Teslameter with the features of claim 1. Advantageous embodiments of the invention are the subject of dependent claims.

According to the subject matter, there is provided a mini-teslameter comprising a board having a first board portion, the first board portion having an upper side and a lower side and a display area formed on the upper side, and a control unit disposed on the first board section, wherein the Display area is connected to the control unit to control the display area, and a second board portion, and wherein the second board portion is tongue-shaped and comprises a measuring tip with a magnetic field sensor, and wherein the magnetic field sensor is integrated with a drive circuit, and the drive circuit with the Control unit is connected, and the first board portion is integrally connected to the second board portion, and in the first board section, the extent transverse to the longitudinal axis smaller than 9 cm and the length along the longitudinal axis of the first board section who is at least 4 cm, and in the second sinker section, the extent transverse to the longitudinal axis at least near the measuring tip is less than 3 cm, and the length along the longitudinal axis of the second sinker section is at least 3 cm.

It should be noted that the board tapers in a plan view of the top from the first board portion to the second board portion, i. H. the second board section is substantially narrower than the first board section.

An advantage of the mini-teslameters according to the invention is that the individual vectorial components of a magnetic field can be measured simply and inexpensively. In this case, the mini-teslameter can be held in one hand and preferably completely enclose transversely to the longitudinal axis of the first housing section by one hand.

In a development, the magnetic field sensor comprises or consists of a Hall sensor. The Hall sensor is preferably designed as a 1-dimesional or as a 2-dimesional or as a 3-dimesional Hall sensor. As a result, the field components of a magnetic field can be detected in more than one direction.

In another development, the magnetic field sensor is monolithically integrated with a drive circuit in a silicon semiconductor body. Preferably, the magnetic field sensor is integrated in an IC housing.

In another embodiment, the magnetic field sensor is integrated in the circuit board and covered with a layer at the top and at the bottom, so that the underside and the top of the second board portion is formed planar. Here, the layer is formed on the upper side and / or on the underside as a laminate and is preferably used for electrical interconnection of the arrangement. In an alternative embodiment, the magnetic field sensor is arranged on the upper side of the second circuit board section and protrudes from the upper side or is embedded in a recess.

In a development, an on-off switch is formed on the top of the first board section. Preferably, a USB interface and / or an energy source is formed on or on the first board section. The USB interface also serves as a means for charging the internal energy storage and for data communication and / or calibration and / or firmware update and / or as a sensor interface. In another development, the display area comprises an OLED display or an LCD display. This reduces energy consumption and increases the service life of the mini teslameter.

In another embodiment, a wireless communication interface is provided. In particular, a Bluetooth or NFC interface for data exchange with another device is provided. As a result, the measured data obtained can be easily transmitted and used further.

In a preferred embodiment, the circuit board is arranged in a housing, wherein the first circuit board section is arranged in a first housing section and the second circuit board section is arranged in a second housing section. In particular, the housing is integrally formed. It is preferred that the housing is made of plastic or a non-magnetic material. In a further development, the front side and / or the rear side of the first housing section are optically transparent.

Investigations have shown that it is advantageous to form an indication of the magnetic field directions measurable by the magnetic field sensor. For this purpose, a corresponding mark is formed on the outside of the housing and / or on the board.

In one embodiment, the second housing section has a permanent opening in the size of the semiconductor module at the measuring tip, or the second housing section can be opened reversibly. As a result, the housed ICs or semiconductor body with the magnetic field sensor can be replaced easily and quickly.

It is preferred that the control unit comprises a timer and the mini-teslameter or at least the display is automatically switched off after a predetermined time of a few minutes by the control unit. In a further development, the mini-teslameter or at least the display is only automatically switched off, provided that a constant magnetic field is applied for longer than a predetermined time.

In another development, a flux concentrator or a permanent magnet is arranged at the measuring tip below or next to the magnetic field sensor. Here, the flux concentrator or the permanent magnet is positively connected to the underside of the second board section. With the use of a permanent magnet, the mini-teslameter can be used as a metal detector or proximity switch.

The invention will be explained in more detail with reference to the drawings. Here similar parts are labeled with identical names. The illustrated embodiments are highly schematic, d. H. the distances and the lateral and the vertical extensions are not to scale and, unless stated otherwise, also have no derivable geometrical relations to one another. It shows:

1 a top view of a first embodiment according to the invention,

2 a cross-sectional view of the first embodiment of the invention shown in the 1 .

3 a top view of an embodiment according to the invention with a housing,

4 Cross-sectional view of the embodiment, shown in the 3 ,

The 1 shows a plan view of a first embodiment according to the invention of a mini-Teslameter comprising a one-piece board 14 with a first boards section 19 , where the first boards section 19 a top 25 and a bottom 28 and one on top 25 trained display area 30 having. The display area 30 is as an OLED indicator. On the first boards section 19 is a processor 120 as a control unit below the display area 30 arranged. The display area is 30 with the control unit interconnected to the display area 30 head for. The board 14 has a second board section 39 on, with the second boards section 39 tongue-shaped and a measuring tip 50 comprising a magnetic field sensor. The magnetic field sensor is designed as a Hall sensor and with a drive circuit in a packaged silicon semiconductor body 60 integrated. The first boards section 19 is with the second boards section 39 integrally connected. At the first boards section 19 the extent transverse to the longitudinal axis is less than 9 cm and the length along the longitudinal axis of the first board section 19 is at least 4 cm. At the second boards section 39 the extension is transverse to the longitudinal axis at least in the vicinity of the measuring tip 50 less than 3 cm. The length along the longitudinal axis of the second sinker section 39 is at least 3 cm. On the top 25 are in addition to the display area 30 an on-off switch 70 and a reset switch 80 arranged. At the rear end of the first board section 19 is a USB interface 130 educated.

The picture of the 2 shows a cross-sectional view along the line AA 'on the embodiment shown in the 1 , The following are just the differences from the presentation in the 1 explained. On the board 14 are within the first boards section 19 several electronic components 110 and the processor 120 arranged. The semiconductor body 60 stands out of the surface of the second board section 39 at the measuring tip 50 ago.

The picture of the 3 shows a plan view of an embodiment of a mini-Teslameters according to the invention 10 with a housing 15 comprising a first housing portion 20 , The housing 15 has a second housing portion 40 on, wherein the second housing section 40 is tongue-shaped. The first housing section 20 and the second housing section 40 are integrally formed.

The picture of the 4 shows a cross-sectional view along the line BB 'on the embodiment shown in the 3 , In the following, only the differences from the previous embodiments will be explained. Within the two housing sections 20 and 40 is the continuous board 14 educated. Within the second housing section 40 is on the board 14 the housed semiconductor body 60 arranged. Here is the second housing section 40 especially at the measuring tip 50 formed tongue-like thin, so that the semiconductor body 60 from the surface of the second housing section 40 at the measuring tip 50 protrudes. At the rear end of the first housing section 20 is the USB interface 130 educated.

Claims (14)

Mini-teslameter ( 10 ) comprising a circuit board ( 14 ) with - a first board section ( 19 ), with the first board section ( 19 ) an upper side ( 25 ) and a bottom ( 28 ) and one on the top ( 25 ) has formed display area and on the first boards section ( 19 ) a control unit is arranged and the display area ( 30 ) is connected to the control unit in order to control the display area ( 30 ), and - a second board section ( 39 ), the second board section ( 39 ) is tongue-shaped and a measuring tip ( 50 ) with a magnetic field sensor, wherein the magnetic field sensor is integrated with a drive circuit, and the drive circuit is connected to the control unit, and the first board section ( 19 ) with the second board section ( 39 ) is integrally connected, and at the first board section ( 19 ) the extent transverse to the longitudinal axis less than 9 cm and the length along the longitudinal axis of the first board section ( 19 ) is at least 4 cm, and at the second board section ( 39 ) the extension transverse to the longitudinal axis at least in the vicinity of the measuring tip ( 50 ) is less than 3 cm, and the length along the longitudinal axis of the second board section ( 39 ) is at least 3 cm. Mini-teslameter ( 10 ) according to claim 1, characterized in that the magnetic field sensor comprises a Hall sensor and the Hall sensor is designed as a 1-dimensional or as a 2-dimesional or as a 3-dimesional Hall sensor. Mini-teslameter ( 10 ) according to claim 1 or 2, characterized in that the magnetic field sensor monolithically with a drive circuit in a semiconductor body ( 60 ) is integrated. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that the magnetic field sensor is integrated into the board and covered with a layer at the top and at the bottom, so that the underside and the top of the second board section ( 39 ) is planar or the magnetic field sensor on top of the second board section ( 39 ) is arranged and protrudes from the top. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that the magnetic field sensor is integrated in an IC housing. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that on the upper side ( 28 ) of the first board section ( 19 ) an on-off switch ( 100 ) is trained. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that on or on the first board section ( 19 ) a USB interface ( 130 ) and / or an energy source is formed. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that the display area comprises an OLED display or an LCD display. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that the board ( 14 ) is arranged in a housing and the first board section ( 19 ) in a first housing section ( 20 ) and the second board section ( 40 ) in a second housing section ( 40 ) are arranged. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that the housing ( 15 ) is formed of plastic or a non-magnetic material. Mini-teslameter ( 10 ) according to claim 9 or 10, characterized in that the front and / or the back of the first housing section ( 20 ) are formed optically transparent. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that is formed on an indication of the magnetic field sensor can be measured by the magnetic field directions. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized in that at the measuring tip ( 60 ) is arranged below or next to the magnetic field sensor, a flux concentrator or a permanent magnet. Mini-teslameter ( 10 ) according to one or more of the preceding claims, characterized characterized in that a wireless data transmission interface is provided.

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