EP1470693A2

EP1470693A2 - Mobile telecommunications terminal

Info

Publication number: EP1470693A2
Application number: EP20030704208
Authority: EP
Inventors: Wolfgang Menz; Thomas Plugge
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2002-01-31
Filing date: 2003-01-13
Publication date: 2004-10-27
Also published as: US7050837B2; DE10203814C2; WO2003065691A2; US20050079888A1; DE10203814A1; WO2003065691A3

Abstract

The invention relates to a mobile telecommunications terminal (1) comprising elements (6) for detecting moisture in said terminal (1). The latter comprises the following precautionary features: a memory (8) for retaining the circumstance, in which the detection of moisture takes place, a shutdown element (9, 4) for shutting down the mobile telecommunications terminal (1) at least partially, if moisture has been detected and a feature (10) for determining the circumstances of the moisture detection. The invention is characterised in that the mobile communications terminal (1) has been at least partially shut down as a result of a detection of moisture and that said mobile communications terminal (1) has been connected to an external current supply source, subsequently causing current to be drawn from said source. Once the two aforementioned circumstances have been detected, a mode is activated, by means of which the mobile communications terminal (1) is subjected to a heating phase and as a result, in turn, a drying phase.

Description

description

Mobile communication terminal

The invention relates to a mobile communication terminal according to the preamble of claim 1.

Mobile communication terminals repeatedly show signs of corrosion inside the housing on metallic, electrically conductive surfaces. Complaints from customers regarding their mobile communication terminal are 70 to 80 percent based on such signs of corrosion.

The keyboard surfaces are particularly not alone affected by the signs of corrosion. In the area of components, there are often short-circuits due to products that arise from corrosion.

In particular in the case of devices with rubber mats and / or foils, corrosion phenomena on metallic, electrically conductive surfaces can be observed below the rubber mat or foil.

If water-containing liquid reaches a module with an operating voltage greater than 1.2 volts, the water becomes strongly alkaline up to pH 14 through electrolysis. The alkaline liquid destroys the module in a short time due to corrosion. Contamination on the module can accelerate this process. This process is accelerated when using newer solders with tin-silver-copper. Acidic liquids can also cause corrosion.

To counteract corrosion, splash-proof devices are manufactured, for example. Ultimately, even these devices are not spared from corrosion. It is also known to provide so-called sacrificial anodes, which are first destroyed by the corrosion. In this way, other sensitive parts are spared from corrosion for a while. If the sacrificial anodes are used up, the corrosion protection is no longer given.

It is also known to provide heating resistors as a corrosion protection measure, the heat emission of which creates a dry climate in the mobile communication terminal. The disadvantage is the high power consumption that the device has.

It is also known to prevent corrosion by applying protective lacquers before assembling the devices. The disadvantage here is that the repair of assemblies is only possible to a limited extent. Another disadvantage is that the contact points of the keyboards cannot be protected in this way, because they are otherwise isolated and therefore inoperable.

It is also known to dip-coat when no contact surfaces need to be taken into account.

The provision of carbon on the key contacts and test points is also known when it comes to preventing corrosion in the device. With a large number of devices, however, due to the packing density of the components, corrosion protection with carbon is not possible.

Finally, it is known to generously design contact areas in order to delay the effect of corrosion, for example in the form of an interruption of the contacts. Overall, however, the corrosion cannot be completely prevented in this way. A growing short circuit due to corrosion can also not be prevented.

The object of the present invention is, starting from a mobile communication terminal of the type mentioned Specify technical measures for such a mobile communication terminal, by means of which corrosion phenomena in the mobile communication terminal are strongly inhibited or even completely avoided.

This object is achieved according to the invention by a mobile communication terminal which has the features of claim 1.

The mobile communication terminal is then able, by means of appropriate moisture sensors, to actively detect moisture in the device, for example, and at least partially switch off the device when moisture is detected. The device does not have to be switched off immediately when moisture is detected if there are reasons that justify switching it off later. Such a reason could be, for example, that there is a subscriber connection at the time of the moisture detection. In any case, the end of such a subscriber connection should still be awaited. For this it is necessary that the mobile communication device is able to save the occurrence of moisture detection. A storage arrangement is provided for this, by means of which such an operation is accomplished. A correspondingly functioning shutdown arrangement is then provided for switching off the mobile communication terminal in a corresponding manner.

Active moisture detection means, for example, that means are provided which, depending on a moisture value, assume changed physical properties in their environment, depending on which corresponding changes can then be called up, for example with regard to resistances, capacitances, inductances and / or frequencies, and thus are also made monitorable. Such monitoring could be implemented, for example, by an appropriate processor controller. According to the invention, provision is further made for the two circumstances to come together, namely that the mobile communication terminal has been at least partially switched off on the basis of moisture detection and that the mobile communication terminal has been connected to an external power supply source with which it is connected subsequent sequence of the process of power consumption from the power supply source can be determined.

If, on the basis of the moisture detection, the mobile communication terminal has been partially switched off, at least those partial circuit components can be kept active which carry out at least one of their functions to continuously check the presence of the two above-mentioned circumstances. If a complete shutdown takes place due to the moisture detection, when a power consumption reappears for the first time, at least in the course of the first steps, those sub-circuit components must be activated that first check whether there is moisture detection and then control the corresponding further steps.

If it has been determined by the said precaution that the two circumstances in question exist, the same precaution ensures, for example, that a mode is switched on by which the mobile communication terminal comes into a warming-up phase as a result of power consumption and thereby again into a drying phase. The drying phase ends when the moisture detection is negative. Only then will the mobile communication terminal become fully energized again.

As long as the mobile communication terminal is not powered, despite the presence of moisture, no electrolysis processes can take place in the device and thus practically no ne corrosion processes. If the device is dry, there is no lack of electricity, but there is a lack of moisture, so that again no electrolysis processes can take place. Overall, the device is particularly well protected against corrosion in the proposed manner.

Advantageous embodiments of the invention are the subject of dependent claims.

Thereafter, the means for switching off the mobile communication terminal upon detection of empty inserted power supply cells and the means for displaying empty power supply cells are included as far as possible in the shutdown precaution. The advantage here is that extra resources can be saved for performing these functions.

With the aid of the means for displaying empty inserted power supply cells, the shutdown of the mobile communication terminal due to the presence of moisture in the mobile communication terminal is presented to an outside viewer as a shutdown due to the empty state of the inserted power supply cells of the mobile communication terminal.

The advantage here is that the outside viewer, here in particular the user of the mobile communication terminal, generally endeavors to have fully charged power supply cells in his device and therefore immediately displays the mobile communication terminal in the device when displaying empty power supply cells mobile communication terminal there is an additional charging cradle for charging the empty power supply cells. Sufficient electrical energy is immediately available in the charging cradle to subject the device to a drying process through a heating process. An increased current does not necessarily have to be drawn because the device is already warming up when the power supply cells are being charged. However, it is fundamentally possible for the device to be designed in such a way that it draws an increased current for drying the device in order to accelerate the drying process in this way.

In this context, it would also be conceivable for the current to be dependent on moisture, and thus for a corresponding control of the drying process.

With the aid of a processor control, the detection of the occurrence of the two circumstances that an at least partial shutdown of the mobile communication terminal has been carried out on the basis of a moisture detection and that the mobile communication terminal has been connected to an external power supply source can be realized in a simple manner because today's mobile communication terminals have already integrated processor controls and it is therefore easily possible to accommodate a corresponding software supplement for this detection in the mobile communication terminal.

An exemplary embodiment of the invention is explained in more detail below with reference to a drawing.

A mobile communication terminal 1 is shown in the single figure. The mobile communication terminal 1 has means 2 for recognizing empty inserted power supply cells 3. Furthermore, it has means 4 for switching off the mobile communication terminal 1 when it detects empty inserted power supply cells 3. Furthermore, the mobile communication terminal 1 has means 5 for displaying the fact that the power supply cells 3 used are empty. Means 6 are provided in the communication terminal 1 for, for example, actively detecting moisture present in the mobile communication terminal 1. These means 6 are preferably positioned at locations where signs of corrosion are preferably noticeable. These areas include the area of the keyboard. Therefore, such means 6 are provided in the area of the keyboard according to the exemplary embodiment.

Possibly, means 6 for detecting moisture are sufficient at a single point in the mobile communication terminal 1. Alternatively, however, means 6 for detecting moisture can be provided at further points in the mobile communication terminal 1. In the present exemplary embodiment, means 6 for detecting moisture are also provided at one point in the area of the display.

The means 6 are part of a further arrangement 7, through which the means 6 are controlled. The means 6 are, for example, moisture sensors which, depending on the moisture prevailing in their environment, undergo physical changes and convert them into an electrical variable, which can also be further converted into a technical data variable. In this way, overall and ultimately a technical data analysis of the signals generated by the means 6 as a function of the moisture prevailing in their environment is possible.

A storage device 8 is provided in the mobile communication terminal 1, which prevents the fact of moisture detection from being recorded. B. enables in a data processing processable manner.

Furthermore, a switch-off precaution 9 is provided which at least enables the mobile communication terminal 1 to be partially switched off when moisture detection has taken place positively. A provision 10 is also provided in the communication terminal 1, which is suitable for determining the two circumstances that an at least partial shutdown of the mobile communication terminal 1 has been carried out on the basis of moisture detection and that the mobile communication terminal 1 has been connected to an external power supply source is. Provision 10 is also suitable for switching mobile communication terminal 1 into a special mode if it has determined that the two circumstances mentioned are present at the same time. The special mode is a mode by means of which the mobile communication terminal 1 is brought into a heating phase and thus into a drying phase by consuming current.

The figure shows a charging cradle 11 supplementing the mobile communication terminal 1, which in turn can be connected to a power supply network. This power supply network is not shown in detail in the figure.

The figure shows a situation in which the means 6, in cooperation with the precaution 7, have determined moisture in the mobile communication terminal 1. This positive moisture detection is recorded in the storage precaution 8 for use in data technology.

At the same time, the means 5 represent the fact that the power supply cells 3 used are empty. Furthermore, the mobile communication terminal 1 is at least partially switched off by the means 4 and / or means 9 on the basis of the positive moisture detection.

At the next opportunity, the mobile communication terminal 1 is therefore inserted into the charging cradle 11 for supposedly charging the supposedly empty power supply cells 3. The arrangement 10 now recognizes the two circumstances that an at least partial shutdown of the mobile communication terminal 1 has been carried out on the basis of a moisture detection and that the mobile communication terminal 1 has been connected to an external power supply source, and brings the mobile communication terminal 1 into the mode which the mobile communication terminal 1 is brought into a heating phase by current consumption and thereby in turn into a drying phase.

The mobile communication terminal 1 is ready for operation again after the drying phase.

The heating phase or drying phase is represented stylistically in the figure by an indicated thermometer, which gives an indication of an increase in the body temperature of the mobile communication terminal 1. The thermometer itself is otherwise not part of the rest of the arrangement.

The figure indicates by means of two respective double arrows that the means 4 and 5 can be functionally included in the switch-off arrangement 9, so that their functions can be used and do not have to be implemented again.

Claims

claims

1.Mobile communication terminal with means for detecting empty inserted power supply cells, with means for switching off the mobile communication terminal upon detection of empty inserted power supply cells, and with means for indicating the fact that the inserted power supply cells are empty, characterized in that means (6 ) for detecting moisture in the mobile communication terminal (1), a storage device (8) is provided for recording the fact of moisture detection, a switch-off device (9, 4)) is provided for at least partially switching off the mobile communication terminal (1) if moisture detection occurs, that is a precaution

To determine the two circumstances, it is provided that the mobile communication terminal (1) has been at least partially switched off due to moisture detection and that the mobile communication terminal (1) has been connected to an external power supply source with which it is connected subsequent sequence of the process of power consumption from the power supply source, and that by means of the provision (10) for ascertaining the said two circumstances when the two said circumstances are ascertained, a mode is switched on by which the mobile communication terminal (1) by heating up a heating phase and thereby brought into a drying phase.

2. Mobile communication terminal according to claim 1, characterized in that in the switch-off device (9) the means (4) for switching off the mobile communication terminal (1) upon detection of empty inserted power supply cells (3) and the means (5) for displaying empty power supply cells (3) are included, and that by the second means (5) the mobile communication terminal (1) is switched off due to moisture in the A mobile communication terminal (1) is shown to an outside viewer as a shutdown due to the empty state of the power supply cells (3) of the mobile communication terminal (1) being used.

3. Mobile communication terminal according to claim 1 or 2, characterized in that in the provision (10) for determining the two circumstances that an at least partial shutdown of the mobile communication terminal has been carried out on the basis of moisture detection and that the mobile communication terminal (1) with has been connected to an external power supply, processor control is included for performing the sharing of these circumstances.

4. Mobile communication terminal according to one of claims 1 to 3, characterized in that the external power supply source is formed by a charging cradle (11) supplementing the mobile communication terminal (1).