WO2001080200A2 - System for remote-controlling electronic measuring devices - Google Patents

Abstract

According to the invention, mobile radiotelephones which are suitable for data transmission are used for remote-controlling electronic measuring devices whose functions can be regulated through a microprocessor. Said mobile radiotelephones can also be used to remote-transmit the measuring data of the measuring device.

Description

 System for remote control of electronic measuring devices

The invention relates to a system for remote control of electronic measuring devices.

It is known to remotely control electronic measuring devices via serial or parallel bus systems and to set the various possible functions on the measuring devices. The retransmission of the measurement results is also possible via such BUS systems. However, these BUS systems require a line connection, which in many cases can only be achieved with great effort.

It is therefore an object of the invention to demonstrate a simple system for remote control of electronic measuring devices, which can be implemented using commercially available means without a line connection.

This object is achieved by a system according to the main claim. Advantageous further developments result from the subclaims.

In the system according to the invention, the remote control takes place via a conventional mobile radio network, it is only necessary to assign a data service-compatible mobile radio telephone (cell phone) to the measuring device, which has a corresponding data interface for outputting the transmitted data, as is already the case in various mobile radio telephones. This data interface of the mobile radio telephone is connected to the device interface of the measuring device, for which there are various possibilities according to the subclaims. In the integrated microprocessor of the measuring device, it is then only necessary to use suitable software to convert the remote control data supplied via the mobile radio network into the control data suitable for controlling the microprocessor, which is then known in the microprocessor into the corresponding control commands for setting the various device functions be implemented. In the same way, the measurement results can be obtained as measurement data using the measurement device connected mobile radio telephone and the mobile network can be retransmitted to any evaluation points remote from the measuring device

The control data for the measuring device can be entered into the mobile radio network in various ways. In the simplest case, a data service-compatible mobile radio telephone is used, which is operated at a location that is remote from the location of the measuring device. In the simplest case, this remote mobile telephone can be used to Keyboard, the control commands for the measuring device are entered, which are then transmitted as control data via the mobile radio network to the mobile radio telephone on the measuring device and are then fed from the data interface thereof to the microprocessor of the measuring device for function setting Another possibility is then to externally supply the control data to the remote mobile telephone via an external microprocessor, for example a labtop, via which the measurement data transmitted back is also transmitted are evaluated and displayed Another option is then to transmit the control data to the measuring device via a landline telephone, which is linked to the mobile network, to the measuring device; here too, the control data can be fed into the landline telephone again via an external computer for transmission the control data via the mobile radio network, any known data transmission protocol is suitable, for example according to WAP or SMS

A system according to the invention enables, for example, the measurement of a cable of any length, in which a measurement signal is fed in at one end of the cable, for example via a signal generator, and at the other end of the cable via a suitable measuring device various measurements are to be carried out on this measurement signal transmitted via the cable System according to the invention, both measuring devices at the two cable ends can only be operated from one cable end. The remote control of measuring devices that are attached to poorly accessible places, for example on the mast of an antenna, is also very easily possible with the system according to the invention The invention is explained in more detail below with the aid of a schematic drawing using an exemplary embodiment.

The figure shows the basic structure of a system for remote control of an electronic measuring device 1, which has an integrated microprocessor 2, via which the various functions 3, 4, 5 of the measuring device can be set. In a conventional high-frequency measuring device, for example, the frequency of a synthesizer at which a measurement is to be carried out can be set in this way. Another possibility is the setting of a certain measuring range for a voltage measurement and the like. This microprocessor 2 is connected to a device interface 6, via which control data can be fed in from outside, which are then converted in the microprocessor into corresponding control commands for the function setting. The data interface 7 of a mobile phone 8 suitable for data service is connected to this device interface 6 of the measuring device 1, as is indicated by the operative connection 9. This mobile radio telephone 8 is operated in a conventional mobile radio network 10 and is connected via this to a mobile radio telephone 11 which is also remote from the measuring device and is suitable for data service. Control data can thus be transmitted to the measuring device 1 via this remote mobile telephone 11 from any remote location. In the simplest case, a specific code number is entered via the numeric keypad 12 of the remote mobile telephone which corresponds to a special function setting of the measuring device. This code number is transmitted via the mobile radio network 10 to the mobile radio telephone 8 and from there via the device interface 6 to the microprocessor 2. In this, the transmitted code number is converted into the control commands suitable for controlling the functions 3, 4, 5, via which the actual function setting is then is carried out. Another possibility is to generate the control data via a computer (labtop) 13 which is connected to the remote mobile radio telephone 11 and which is connected to the mobile radio telephone 11 via a suitable modem. In the same way, the control data can also be entered at the remote point by a landline telephone 14 which is linked to the mobile radio network 10 of the mobile radio telephone 8. Here too is over a modem, the control data can be entered into the landline telephone 14 from a connected PC.

It has proven to be particularly advantageous if a remote mobile telephone 11 is used for the transmission of the control data, which works, for example, according to the known SMS data protocol or the so-called WAP data transmission protocol. The WAP protocol is now being offered as an access protocol for mobile Internet by various mobile phone manufacturers and it makes it possible to operate a mobile phone like on the Internet. When using such WAP or SMS-capable mobile telephones, the conversion of the control data in the microprocessor 2 into the function setting data is particularly simple; the usual device interfaces 6 for IC-BUS or RS232-BUS can be used directly for connection to the mobile phone.

There are 8 different options for connecting the data interface 7 to the device interface 6, depending on the type of mobile radio telephone used. If the mobile radio telephone has a serial data interface, the adaptation to the device interface 6 can be carried out by interposing a PC card; the serial data is converted in the microprocessor 2 by means of appropriate software. Some mobile telephones have an infrared interface as a data interface, in this case it is only necessary to provide a corresponding infrared receiver on the measuring device 1, which is connected to the device interface 6. In the meantime there are also radio connection interfaces on mobile phones, e.g. the so-called Bluetooth connection, which enables radio transmission to 2.4 GHz. In this case, only a corresponding radio receiver has to be provided on the measuring device.

The retransmission of the measurement data from the measuring device 1 to the remote mobile radio telephone 11 or landline telephone 14 takes place in the same way via the mobile radio network 10. The measurement result, indicated by the function block 15 in the measuring device 1, is converted in the microprocessor 2 into suitable measurement data, which are transmitted via the interface 6 to the data interface 7 of the mobile radio telephone 8 and from there, for example, to the mobile radio telephone 11. The measurement result can are then immediately shown on the display 16 or evaluated in the computer 13 and displayed there.

Claims

EXPECTATIONS 1. System for remote control of an electronic measuring device (1), with a microprocessor (2) integrated in the measuring device, to which control data for setting the functions (3, 4, 5) of the measuring device (1) can be fed from outside via a device interface (6) , and the measurement results (15) can be transmitted as measurement data, a mobile radio telephone (8) suitable for data transmission, the data interface (7) of which is connected to the device interface (6) of the measuring device (1) and which via the associated mobile network (10) Control data for the measuring device can be supplied and via which the measuring data can be transmitted remotely from the measuring device. 2. System according to claim 1, characterized in that the control data for the measuring device (1) from a remote and suitable for data transmission mobile phone (11) via the mobile network (10) to the measuring device (1) connected to the mobile phone (8) become. 3. System according to claim 1 or 2, characterized in that the measurement data of the measuring device (1) from the device interface (6) via the associated mobile radio telephone (8) and the mobile radio network (10) for remote Mobile phone (11) can be retransmitted. 4. System according to claim 2 or 3, characterized in that the remote mobile phone (11) is connected to an external processor (13), via which the control data for the measuring device is generated and supplied to the mobile phone (8) and via which the retransmitted Measurement data can be evaluated. 5. System according to any one of the preceding claims, characterized by the use of WAP or SMS suitable mobile radio telephones. 6. System according to any one of the preceding claims, characterized in that the data interfaces (7) of the mobile radio telephone (8) with the device interface (6) of the measuring device (1) is connected via a serial data stream adapter (PC card). 7. System according to any one of the preceding claims 1 to 5, characterized by the use of a mobile radio telephone (8) with an infrared interface, which is connected via an infrared connection (9) to the device interface (6) of the measuring device. 8. System according to one of the preceding claims 1 to 5, characterized in that the data interface (7) of the mobile radio telephone (8) is connected via a radio link (9) to the device interface (6) of the measuring device.