• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a device (3) for protecting a near-field communication router (2) against any overvoltages picked up by an antenna (11), comprising two voltage-limiting elements (31, 33) between terminals. (32, 34) of the antenna and a mass (M); and a circuit (35) for detecting the presence of an electromagnetic field around a frequency of operation of the router, and for controlling the limiting elements, the limiting elements being active by default.
    公开号:FR3063845A1
    申请号:FR1751995
    申请日:2017-03-10
    公开日:2018-09-14
    发明作者:Alexandre Tramoni
    申请人:STMicroelectronics Rousset SAS;
    IPC主号:
    专利说明:

    Field
    This description relates generally to electronic circuits and mobile communications equipment and, more particularly, devices equipped with near field communication circuits (NFC - Near Field Communication).
    The present description applies more particularly to devices including a near-field communication circuit and a rechargeable battery.
    Presentation of the prior art
    Many devices are now offered with near-field communication functions. The most widespread are mobile telecommunication devices (mobile phones or smartphones) which are more and more often equipped with a near field communication interface, generally called an NFC router, giving the telephone additional functions. NFC routers allow a mobile device to operate either in card mode, the device then having the functions of a contactless communication card, or in reader mode, the device then having the functions of a reading terminal and / or contactless card writing.
    B15960 - 17-RO-0082
    In reader mode, the device uses its rechargeable battery to emit a high frequency field capable of being picked up by another device operating in card mode.
    In card mode, the mobile communication device is capable of operating by being supplied by the field radiated by a terminal with which it communicates and without using energy from the battery of the device. This makes it possible in particular to confer on a mobile telephone functions similar to those of contactless cards even when the telephone is discharged or switched off. In recent devices, the device can also operate in card mode using the device battery, the electromagnetic field being used for communication.
    The battery of the device is generally charged by being connected, via a charger, to the electrical distribution network, to a dynamo, to a solar panel, etc.
    More recently, we have seen the appearance of NFC devices equipped with batteries, the batteries of which are recharged in the near field, using for recharging a frequency band different from the frequency band used for communications.
    summary
    It would be desirable to overcome all or part of the disadvantages of devices combining battery and near-field communication interface.
    Thus, one embodiment provides a device for protecting a near-field communication router against possible overvoltages picked up by an antenna, comprising:
    two voltage limiting elements between antenna terminals and a ground; and a circuit for detecting the presence of an electromagnetic field around an operating frequency of the router, and for controlling the limiting elements, the limiting elements being active by default.
    B15960 - 17-RO-0082
    According to one embodiment, each limiting element comprises one or more voltage limiting components, in series with a switch controllable by the detection circuit.
    According to one embodiment, the detection circuit comprises:
    a field detection and clock extraction element; and a comparator, a first input of which receives a signal from the detection element and a second input of which receives a reference clock corresponding approximately to said operating frequency of the router.
    According to one embodiment, the comparator controls the limiting elements.
    According to one embodiment, the detection circuit is powered by a battery.
    According to one embodiment, the operating frequency of the router is approximately 13.56 MHz.
    One embodiment provides a near field communication device, comprising:
    at least one antenna;
    a near field communication router connected to the antenna; and a device for protecting the router against possible overvoltages picked up by the antenna.
    One embodiment provides a portable communication device comprising a device for protecting a near-field communication router against possible overvoltages picked up by an antenna.
    One embodiment provides a portable communication device comprising a near field communication device.
    One embodiment provides a method of protecting a contactless communication router against possible overvoltages, comprising the steps of:
    B15960 - 17-RO-0082 limit by default the voltage across the terminals of an antenna to which the router is connected; and deactivate the limitation of the voltage at the terminals of the antenna in the presence of a field in the vicinity of an operating frequency of the router.
    Brief description of the drawings
    These characteristics and advantages, as well as others, will be explained in detail in the following description of particular embodiments made without implied limitation in relation to the attached figures, among which:
    Figure 1 is a partial and schematic block diagram of an example of an electronic device of the type to which the embodiments which will be described apply; and Figure 2 is a block diagram illustrating an embodiment of a protection circuit of an NFC router. detailed description
    The same elements have been designated by the same references in the different figures.
    For the sake of clarity, only the steps and elements useful for understanding the embodiments which will be described have been shown and will be detailed. In particular, the operation of a near-field communication router has not been detailed, the embodiments described being compatible with usual operation. In addition, the applications of a device or system integrating such a router have not been detailed either, the embodiments described being, here again, compatible with usual applications.
    Unless otherwise specified, when reference is made to two elements connected to each other, this means directly connected without any intermediate element other than conductors, and when reference is made to two elements connected to each other, it means that these two elements can be directly connected (connected) or linked through one or more other elements.
    B15960 - 17-RO-0082
    In the following description, when reference is made to the terms approximately, approximately and, on the order of, this means to the nearest 10%, preferably to the nearest 5%.
    Figure 1 is a schematic representation and in the form of blocks of a near field communication system partially illustrating an embodiment of a mobile device equipped with a battery and a near field communication module.
    The device 1 comprises, inter alia, a near field communication interface 2 (NFC) connected to an antenna 11 to communicate with a terminal (not shown) when the device 1 is at a short distance from the terminal. The device 1 also comprises a battery 12 for operating this device independently of the near field communication mode.
    The battery 12 can be charged by means of a charger 13 (CHARGER) fitted to the device 1 and receiving a DC voltage from terminals 14 intended to be connected to an external transformer (not shown). The battery 12 can also be charged in the near field by capturing, using an antenna 15, the energy radiated by a charging station or terminal (not shown).
    The device 1 also comprises various processing circuits depending on its nature. These circuits have been symbolized in FIG. 1 by a block 16 (FCT). These circuits are likely to be supplied by the battery 12 and, at least for some of them, to communicate with the NFC router 2.
    The charger 13 of the battery 12 is generally a voltage regulation system making it possible to supply the battery 12 with a suitable charging voltage and to control the charge of the battery.
    More and more devices equipped with near-field communication functions, for example mobile phones, are likely to be recharged in the near field by
    B15960 - 17-RO-0082 dedicated terminals, different from communication terminals, and therefore have two antennas 11 and 15.
    Charging stations are generally more powerful than communication terminals. They use a frequency or a frequency band different from the band used for communications according to the NFC standard (around a frequency of the order of 13.56 MHz).
    In some cases, the recharging frequency is far enough from the communication frequency band not to be picked up by the communication antenna 11 or to be picked up with a quality factor so low that this is not a problem.
    However, some charging stations operate at frequencies (typically several MHz, for example of the order of 6.8 MHz) which are close to the communication frequency band.
    A problem is then that the energy radiated by the charging station is picked up by the antenna 11 and is likely to damage the NFC router 2. In fact, the charging stations are made to recharge the battery 12 as quickly as possible. and the field strength is much greater than that of near-field communication terminals.
    According to the embodiments described, provision is made to equip the device 1 with a circuit 3 (PROT) for protecting the NFC router 2 against overloads likely to come from charging stations in the near field or other high power electromagnetic fields outside. around NFC frequencies, i.e. outside frequencies of the order of
    13.56 MHz. We then take the example of 13.56 MHz but, more generally, provision is made for protection outside the operating frequencies of the communication router.
    The role of circuit 3 is to limit the voltage present on each terminal 22, 24 of the NFC router 2 connected to the antenna 11 when the frequency received is not around 13.56 MHz.
    B15960 - 17-RO-0082
    FIG. 2 very schematically shows in the form of blocks an embodiment of a circuit 3 for protecting an NFC router 2 against potential overloads.
    The circuit 3 has two terminals 32 and 34 respectively connected to the conductors 22 and 24 connecting the router 2 to the antenna 11. In practice, the conductors 22 and 24 are electrically merged at the terminals of the antenna 11 and at the input terminals of router 2. Circuit 3 includes two controllable voltage limiter elements (CLAMP) 31 and 33, respectively connected to terminals 32 and 34, and to earth M of device 1. The limiters 31, 33 are controlled by a circuit 35 of detection of the presence of an electromagnetic field at a frequency of approximately
    13.56 MHz. The limiting elements 31 and 33 are active by default and are deactivated in the presence of such a field so as not to limit the voltage excursion at the terminals of the antenna 11 in the presence of a useful field (around 13, 56 MHz) which would otherwise prevent correct functioning of the NFC router 2. The detection circuit 35 has two input terminals connected to the input terminals of circuit 3, therefore to terminals 32 and 34 to detect the presence of a field and its frequency, and an output terminal 36 supplying a control signal from the limiters 31 and 33.
    In the example shown, each limiting element 31, 33 comprises a switch K, for example a MOS transistor, whose control terminal (the gate) is connected to terminal 36. Each switch K is associated in series with one or more diodes D between terminal 32, respectively 34, and earth M. Thus, when the switches K are closed (passers-by), the voltage on each conductor 32, 34 is limited to the sum of the voltage drops in the diodes D (increased of the voltage drop in switch K in the on state). When the switches K are open (blocked), the potentials of the conductors 32 and 34 are not limited.
    In the example shown, circuit 35 includes a circuit 352 for field detection (FDET) and clock extraction
    B15960 - 17-RO-0082 (CK EXT). Circuit 35 also includes a comparator 354, a first input (+) of which receives a signal from circuit 352 and a second input of which receives a reference clock 356 (CK REF) of approximately 13.56 MHz. An output of the comparator 35 (for example a digital signal) constitutes the output of the circuit 35 sent to the control terminals of the switches K of the elements 31 and 33.
    The circuit 35, and more particularly the comparator 354, is supplied by the voltage λ / bat of the battery (12, FIG. 1) of the device 1, so as to allow a closed state by default of the transistors K and therefore a protective state by default.
    The frequency discrimination operated by circuit 35 need not be precise. In fact, in the intended application, it is essentially sought to distinguish a frequency around 6.8 MHz from a frequency of around 13.56 MHz.
    An advantage of the embodiments described is that the router is protected against possible overvoltages at the terminals of the antenna.
    Another advantage of the embodiments described is that this protection has no impact on the operation of the router.
    Another advantage of the embodiments described is that they do not require any modification of the router or of the antenna circuit. They are therefore compatible with current devices.
    Various embodiments have been described, various variants and modifications will appear to those skilled in the art. In particular, although the embodiments have been described in relation to an example of application at a frequency of
    13.56 MHz, they more generally apply to router protection by limiting the voltage on each antenna terminal outside the vicinity of a router operating frequency. In addition, the practical implementation of the embodiments and the dimensioning of the components is within the reach of those skilled in the art from the functional description given above and the structures given for the circuits 31,
    B15960 - 17-RO-0082 and 35 are only examples and may be modified provided that they perform the same function.
    B15960 - 17-RO-0082
    权利要求:
    Claims (10)
    [1" id="c-fr-0001]
    1. Device (3) for protecting a near-field communication router (2) against possible overvoltages picked up by an antenna (11), comprising:
    two voltage limiting elements (31, 33) between terminals (32, 34) of the antenna and a ground (M); and a circuit (35) for detecting the presence of an electromagnetic field in the vicinity of an operating frequency of the router, and for controlling the limiting elements, the limiting elements being active by default.
    [2" id="c-fr-0002]
    2. Device according to claim 1, wherein each limiter element (31, 33) comprises one or more components (D) voltage limiter, in series with a switch (K) controllable by the detection circuit (35).
    [3" id="c-fr-0003]
    3. Device according to claim 1 or 2, in which the detection circuit (35) comprises:
    a field detection and clock extraction element (352); and a comparator (354), a first input of which receives a signal from the detection element and a second input of which receives a reference clock (356) corresponding approximately to said operating frequency of the router (2).
    [4" id="c-fr-0004]
    4.
    comparator
    [5" id="c-fr-0005]
    5.
    1 to 4, in a battery
    Device according to claim 3, in which the (354) controls the limiting elements.
    Device according to any one of the claims, in which the detection circuit (35) is supplied by (12).
    [6" id="c-fr-0006]
    6. Device according to any one of claims 1 to 5, in which the operating frequency of the router (2) is approximately 13.56 MHz.
    [7" id="c-fr-0007]
    7. Near-field communication device (1), comprising:
    at least one antenna (11);
    B15960 - 17-RO-0082 a near-field communication router (2) connected to the antenna; and a protection device (3) according to any one of claims 1 to 6.
    5
    [8" id="c-fr-0008]
    8. Portable communication device comprising a protection device according to any one of claims 1 to 6.
    [9" id="c-fr-0009]
    9. Portable communication device comprising a near field communication device according to claim
    [10" id="c-fr-0010]
    10 7.
    10. Method for protecting a contactless communication router (2) against possible overvoltages, comprising the steps of:
    limit by default the voltage across an antenna 15 (11) to which the router is connected; and deactivate the limitation of the voltage at the terminals of the antenna in the presence of a field in the vicinity of an operating frequency of the router.
    B 15960 17-RO-0082
    1/1 η τ
    类似技术:
    公开号 | 公开日 | 专利标题
    EP3373459B1|2019-10-09|Protection of an nfc router against overvoltages
    EP1617550B1|2011-12-07|Adaptable power supply circuit
    FR2748359A1|1997-11-07|BIDIRECTIONAL VOLTAGE CONVERTER
    FR2686465A1|1993-07-23|COMBINED REMOTE ON / OFF CONTROL AND DIFFERENTIAL PROTECTION DEVICE.
    FR3062539A1|2018-08-03|PORTABLE PHONE CASE
    EP3082072B1|2017-12-27|Receiving unit of an rfid tag
    FR2794307A1|2000-12-01|Over voltage protection circuit for mobile telephone power amplifier, has transistor amplifiers with final stage including grid circuit between collector to base region connected to produce compensation feedback voltage
    TW201539922A|2015-10-16|Non-contact power reception circuit, non-contact power reception apparatus, and non-contact power transmission/reception apparatus
    FR2477338A1|1981-09-04|OUTPUT CIRCUIT PREVENTS BLOCKING DUE TO VOLTAGE PULSES GENERATED BY AN INDUCTIVE LOAD
    FR3062937A1|2018-08-17|ACTIVATION OF AN NFC DEVICE
    FR2992123A1|2013-12-20|ENERGY MANAGEMENT IN AN ELECTROMAGNETIC TRANSPONDER
    FR2572600A1|1986-05-02|ELECTRONIC VOLTAGE STABILIZER, PARTICULARLY FOR AUTOMOBILE USE, WITH PROTECTION AGAINST TRANSIENT OVERVOLTAGES OF POLARITY OPPOSITE TO THAT OF THE GENERATOR
    FR2769142A1|1999-04-02|PROTECTION CIRCUIT ASSOCIATED WITH A FILTER
    FR2859858A1|2005-03-18|VIDEO INPUT PROTECTION CIRCUIT FOR CONNECTING TO A VIDEO CIRCUIT
    EP2963589B1|2018-12-19|Voltage and power limiter for electromagnetic transponder
    EP3280020A1|2018-02-07|Circuit and method for protecting voltage regulation means against electrostatic discharges
    FR2987475A1|2013-08-30|RECHARGING AN NFC DEVICE
    EP3048743B1|2020-07-01|Method for managing the wireless communication and wireless charging within a system and corresponding system
    FR3007909B1|2019-07-26|PORTABLE MACHINE TOOL BATTERY INCLUDING A RECTIFIER BRIDGE
    WO2018211220A1|2018-11-22|Near-field communication and approach detection device
    EP1040447B1|2002-01-16|Active transponder switchable into passive transponder
    EP2193602A1|2010-06-09|Protection circuit for mosfet
    EP0895331A1|1999-02-03|Protection device for electrical load and power supply provided with such a device
    EP1372237B1|2011-11-09|Electrical device comprising two supports and terminal connected to a series capacitor and a voltage limiter
    FR3061993A1|2018-07-20|METHOD FOR CHARGING A BATTERY BY NEAR-FIELD COMMUNICATION
    同族专利:
    公开号 | 公开日
    EP3373459A1|2018-09-12|
    CN108574518B|2021-07-02|
    EP3373459B1|2019-10-09|
    CN208209944U|2018-12-07|
    US20180262002A1|2018-09-13|
    US10770891B2|2020-09-08|
    FR3063845B1|2019-04-19|
    CN108574518A|2018-09-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20150054345A1|2013-08-26|2015-02-26|Qualcomm Incorporated|System and method for efficient data communication and wireless power transfer coexistence|
    US20160087430A1|2014-09-19|2016-03-24|Qualcomm Technologies International, Ltd.|Overvoltage protection for nfc devices|
    JP5628191B2|2009-02-05|2014-11-19|クゥアルコム・インコーポレイテッドQualcomm Incorporated|Retrofitting wireless power and near field communication in electronic devices|
    EP2357716B1|2008-12-12|2017-08-30|Intel Corporation|Contactless power transmission device|
    JP5836898B2|2012-08-01|2015-12-24|ルネサスエレクトロニクス株式会社|Communication apparatus and operation method thereof|
    KR102072522B1|2013-03-07|2020-02-03|삼성전자주식회사|Contactless communication device and user device including the same|
    CN104426367A|2013-08-20|2015-03-18|硕颉科技股份有限公司|Boost apparatus with over-current and over-voltage protection function|
    JP6052149B2|2013-12-06|2016-12-27|ソニー株式会社|Power receiving device, power receiving control method, non-contact power feeding system, and electronic device|
    EP3010129A1|2014-10-16|2016-04-20|Nxp B.V.|Front-end circuits for wireless power receivers, wireless chargers and wireless charging|
    FR3063845B1|2017-03-10|2019-04-19|Stmicroelectronics Sas|PROTECTION OF AN NFC ROUTER AGAINST OVERVOLTAGES|FR3063845B1|2017-03-10|2019-04-19|StmicroelectronicsSas|PROTECTION OF AN NFC ROUTER AGAINST OVERVOLTAGES|
    US11075515B2|2018-06-05|2021-07-27|Nuvolta TechnologiesCo., Ltd.|Overvoltage protection device and method thereof|
    FR3106459A1|2020-01-17|2021-07-23|StmicroelectronicsSas|Antennas activation process|
    法律状态:
    2018-02-19| PLFP| Fee payment|Year of fee payment: 2 |
    2018-09-14| PLSC| Search report ready|Effective date: 20180914 |
    2019-02-20| PLFP| Fee payment|Year of fee payment: 3 |
    2020-12-18| ST| Notification of lapse|Effective date: 20201109 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1751995|2017-03-10|
    FR1751995A|FR3063845B1|2017-03-10|2017-03-10|PROTECTION OF AN NFC ROUTER AGAINST OVERVOLTAGES|FR1751995A| FR3063845B1|2017-03-10|2017-03-10|PROTECTION OF AN NFC ROUTER AGAINST OVERVOLTAGES|
    EP17188033.9A| EP3373459B1|2017-03-10|2017-08-25|Protection of an nfc router against overvoltages|
    US15/842,621| US10770891B2|2017-03-10|2017-12-14|Protection of an NFC router against overvoltage|
    CN201810088434.XA| CN108574518B|2017-03-10|2018-01-30|Protection against overvoltage for NFC routers|
    CN201820153643.3U| CN208209944U|2017-03-10|2018-01-30|Electronic device and near field communication means|
    [返回顶部]