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    • 62. 发明公开
    • Shielding for a keypad of a pin code terminal
    • Schützungeiner Tasteanlage eines Pinautomates
    • EP2234076A1
    • 2010-09-29
    • EP10158090.0
    • 2010-03-26
    • Heida, Jan Wybe
    • Heida, Jan Wybe
    • G07F7/10
    • G07F7/10G07F7/1033
    • A shielding 31 comprises a cap 35 which is put over a keypad 33. This cap is provided with a viewing window 37 in the top side 39 of the cap, and an inserting opening 41 in the front side 43 of the cap. The cap is further provided with an additional viewing window 23 in the front side of the cap above the inserting opening, through which more particularly a wheelchair user can view the keypad.
      In order to confine the direction 49, 51 in which the keypad can be viewed through the viewing windows, two sets of two mirros each are installed in the cap. These mirrors are positioned such that when viewing one of the mirrors 53, 57 at an angle through the viewing windows, the keypad 33 becomes visible via the other mirror 55, 59.
    • 屏蔽层31包括盖板35,该盖子盖在小键盘33上。该盖子在盖的顶侧39中设置有观察窗37,在盖的前侧43设有插入开口41。 该盖还在插入口的上方的帽的前侧进一步设置有另外的观察窗23,更具体地说,轮椅使用者可以观察小键盘。 为了限制通过观察窗可以观察小键盘的方向49,51,每个安装有两组两个镜像。 这些反射镜被定位成使得当通过观察窗观察一个反射镜53,57中的一个时,小键盘33经由另一个反射镜55,59变得可见。
    • 65. 发明公开
    • A SECURITY SHIELD FOR A DATA ENTRY KEYPAD
    • SICHERHEITSABSCHIRMUNGFÜRDATENEINGABETASTATUR
    • EP3128490A1
    • 2017-02-08
    • EP15180144.6
    • 2015-08-07
    • Coraza Holdings Limited
    • O'REILLY, Dave
    • G07F19/00G07F7/10H03K3/0231
    • G07F19/205G07F7/1033G07F19/209
    • A PIN shield 14 for a PIN pad 10 set into a fascia 12 comprises one or more components 14a, 14b, 14c which restrict a full view of the keypad to a person located directly in front of the keypad. At least one shield component has embedded therein a mesh 16 (Figures 2 and 3) comprising an electrical conductor extending continuously between input and output contacts 18b on the component. A microcontroller is connected to the input and output contacts 18b to detect if the value of the mesh resistance falls outside a predetermined range. In a second embodiment (Figure 6), at least one shield component has a capacitive element closely associated therewith whose capacitance value is influenced by the presence of the shield. A microcontroller is connected to the capacitive element to detect changes in its capacitance value.
    • 用于设置在面板12中的PIN垫10的PIN屏蔽14包括一个或多个部件14a,14b,14c,其将键盘的全视图限制在直接位于键盘前面的人。 至少一个屏蔽部件已经嵌入其中,网格16(图2和图3)包括在部件上的输入和输出触点18b之间连续延伸的电导体。 微控制器连接到输入和输出触点18b以检测网格电阻的值是否落在预定范围之外。 在第二实施例(图6)中,至少一个屏蔽部件具有与其紧密相关的电容元件,其电容值受屏蔽件的存在的影响。 微控制器连接到电容元件以检测其电容值的变化。
    • 67. 发明公开
    • CODE INPUT
    • 代码输入
    • EP3104346A1
    • 2016-12-14
    • EP15171311.2
    • 2015-06-10
    • Assa Abloy AB
    • HOLMSTRÖM, Ingemar
    • G07F7/10G06F21/83
    • G07F7/1033G06F21/83G07F7/1041
    • It is presented a method for receiving user input of a code comprising a set of consecutive characters. The method is performed in a code input device and comprising the steps of: determining an active input character of the code; changing a value of the active input character according to a predetermined order in accordance with user input detected on a directional input device of the code input device; showing the value of the active input character on a display of the code input device, the display being separate from the directional input device; storing a current value of the active input character when a character selection condition is true; and repeating the steps of changing the active input character, showing the value and storing a current value, for a new active character until values are stored for all characters of the code.
    • 提出了一种用于接收用户输入包括一组连续字符的代码的方法。 该方法在代码输入设备中执行并且包括以下步骤:确定代码的活动输入字符; 根据在代码输入设备的定向输入设备上检测到的用户输入,根据预定顺序改变活动输入字符的值; 在代码输入设备的显示器上显示活动输入字符的值,该显示器与定向输入设备分开; 当字符选择条件为真时,存储活动输入字符的当前值; 以及重复改变活动输入字符,显示值并存储当前值的步骤,直到为代码的所有字符存储值为止。
    • 68. 发明公开
    • SCRAMBLING PASSCODE ENTRY INTERFACE
    • EINGABEOBERFLÄCHEFÜRVERSCHLÜSSELUNGSPASSCODE
    • EP3050014A1
    • 2016-08-03
    • EP14848803.4
    • 2014-09-23
    • Square, Inc.
    • EDWARDS, Troy J.
    • G06Q20/40G06Q20/32H04L9/32
    • G06Q20/382G06F21/31G06F21/36G06F2221/031G06Q20/3226G06Q20/4012G07F7/10G07F7/1033
    • A method of secured passcode entry is disclosed. The method, in one embodiment, includes: receiving a request to authenticate a user; in response to receiving the request, generating a passcode entry interface that includes a plurality of buttons for the user to compose a passcode entry, each button representing a character of a set of characters, the set of characters having a natural sequence, wherein said generating includes displaying the buttons on a touchscreen of the electronic device in an arrangement that does not reflect the natural sequence of the set of characters; detecting a touch event, represented as a coordinate on the touchscreen, interacting with the touchscreen while the passcode entry interface is displayed, wherein the touch event is indicative of at least a portion of a passcode entry by the user; and verifying an authenticity of the passcode entry based at least partly on the touch event.
    • 公开了一种安全密码输入的方​​法。 在一个实施例中,该方法包括:接收用于认证用户的请求; 响应于接收到所述请求,生成密码输入界面,该密码输入界面包括多个按钮以供用户构成密码条目,每个按钮表示一组文字的字符,该组字符具有自然序列,其中所述生成 包括以不反映该组字符的自然顺序的布置来显示电子设备的触摸屏上的按钮; 检测在触摸屏上表示为坐标的触摸事件,在显示密码输入界面的同时与触摸屏交互,其中触摸事件指示用户的密码条目的至少一部分; 以及至少部分地基于所述触摸事件来验证所述密码条目的真实性。
    • 70. 发明公开
    • SYSTEMS AND METHODS FOR EMV CHIP AND PIN PAYMENTS
    • SYSTEME UND VERFAHRENFÜREMV-CHIP UND PIN-ZAHLUNGEN
    • EP3011516A1
    • 2016-04-27
    • EP14813609.6
    • 2014-06-06
    • PayPal, Inc.
    • GOLDFARB, SivannePATEL, NarikVOEGE, MichaelMOGHADAM, Ali MinaeiGOVINDARAJAN, Satish
    • G06Q20/40
    • G06Q20/4012G06Q20/20G06Q20/356G06Q20/382G07F7/1033
    • In transactions between a consumer and a merchant (or other third party) using services of a payment provider (e.g., credit card company, financial services provider), methods and systems are provided for enabling any third party to accept chip and PIN payment and payment provider services using a payment provider device enabled using third party's application (referred to herein as "app") and not the app of the payment provider. Enabling a merchant to accept chip and PIN payments usually requires the merchant to certify (accredit) their application (e.g., a point-of-sale (POS) system) end to end with the payment providers (e.g., Visa, MasterCard). A software development kit (SDK) modification to the application allows the merchant to accept chip and PIN cards the without the need to certify the application. SDK includes the functionality that needs to be certified, and certifies it once with a service provider.
    • 在消费者和使用支付提供商(例如,信用卡公司或金融服务提供商)的服务的商家(或其他第三方)之间的交易中,提供方法和系统以使任何第三方能够接受芯片和PIN支付, 使用使用第三方自己的应用程序(这里称为“应用程序”)启用的支付提供商设备而不是支付提供商的应用程序的支付提供商服务。 允许商家接受筹码和PIN支付通常要求商家向支付提供商(例如,Visa,万事达卡)端到端认证(认证)其应用程序(例如,销售点(POS)系统)。 软件开发套件(SDK)对应用程序的修改允许商家接受芯片和PIN卡,而无需证明应用程序。 SDK包含需要认证的功能,并与服务提供商一起验证。