Systems, apparatuses, and methods are described for a privacy blocking device configured to prevent receipt, by a listening device, of video and/or audio data until a trigger occurs. A blocker may be configured to prevent receipt of video and/or audio data by one or more microphones and/or one or more cameras of a listening device. The blocker may use the one or more microphones, the one or more cameras, and/or one or more second microphones and/or one or more second cameras to monitor for a trigger. The blocker may process the data. Upon detecting the trigger, the blocker may transmit data to the listening device. For example, the blocker may transmit all or a part of a spoken phrase to the listening device.

An acoustic-electric transducer includes a connection part that has a first connection point able to contact a first contact in a terminal for processing the electrical signal, and a second connection point able to contact a second contact having a potential lower than the potential of the first contact, a microphone that transduces a sound inputted from an external source into an electrical signal, a changeover switch that switches between a non-mute state where the electrical signal is outputted to the terminal and a mute state where the electrical signal is not outputted to the terminal, and a current control circuit that makes a current flow between the first contact and the second contact until a predetermined time passes from the time when the connection part is connected to the terminal and reduces the current flowing between the first contact and the second contact after the predetermined time passes, the current control circuit being provided between the changeover switch and the connection part.

A Bluetooth (BT) device includes a host processor and a BT controller coupled by a Host Controller Interface (HCI) including a Host Controller Transport Layer and a HCI Driver. The host processor implements an applications layer and includes HCI firmware for communicating via the Host Controller Transport Layer with the BT controller. The BT controller includes a processor coupled to a memory and to a transceiver, and a RF driver. The HCI firmware also includes HCI command code for a user to define a topology of the BT network including configuring the BT device in a current chain including a plurality of BT devices including configuring from which BT device it receives data from and which BT device it forwards data to. For communicating data across the BT network the BT device forwards the data without host processor involvement in at least resending the data back to its BT controller.

The present invention provides a makeup table capable of providing a refrigerating function to store cosmetics required to be refrigerated and providing a dressing table having a new function and structure such that a choice of consumer preferences is broaden, usability and functionality are improved, and competitiveness of a product increases.

The present disclosure generally relates to a knob (100), a controllable device (200) and a combination (500) of a knob and a controllable device. In certain aspects of the disclosure, the controllable device (200) is embodied as a loudspeaker. The knob (100) may be used for controlling one or more functions of the controllable device (200). The knob (100) is a detachable knob configured for detachable attachment to the controllable device (200). Furthermore, the detachable knob (100) is configured to be communicatively coupled to the controllable device (200) to control the one or more functions of the controllable device (200).

A microphone is provided, which includes: a housing; at least one sound-pickup member disposed on the housing and configured to collect an external sound source; and a control circuit board disposed in the housing and in electrical connection to the at least one sound-pickup member; wherein the control circuit board comprises at least one input jack, and the at least one input jack is configured to operably connect with an external plug to collect other sound source different with the external sound source. In a detailed application, when the at least one sound-pickup member comprises at least two sound-pickup members, the control circuit board is configured, once a selection module of the control circuit board is triggered, to selectively output external sound sources collected by one or more of the at least two sound-pickup members and/or the other sound source collected by the at least one input jack.

An object information acquiring apparatus includes a detector including m-number of probes to which a voltage is supplied and a current/voltage conversion circuit which converts a current into a voltage, a receiver processing electric signals from the probes, and a relay board respectively relaying power distribution lines between the electrical power source and the probes and signal wirings between the receiver and the probe, wherein the relay board receives input of signal wirings and power distribution lines from n-number (m n) of probes among the m-number of probes, connects the signal wirings from the n-number of probes to the receiver, and connects, to the electrical power source side, the power distribution lines of a number that is fewer than the power distribution lines from the n-number of probes.

The present disclosure generally concerns multi-function control of one or several audio playback devices, such as one or several speakers of a home music system. In one example embodiment described herein, a user interface arrangement for controlling multiple functions of one or several audio playback devices comprises first and second rotatable knobs (110A; HOB). The first rotatable knob (100A) has a first rotational axis extending in a first axial direction, wherein the first rotatable knob (100A) is rotatable around said first rotational axis to control a first function and wherein the first rotatable knob (100A) is further configured to be displaced axially in said first axial direction of the first rotational axis to control a second function. Furthermore, the second rotatable knob (HOB) has a second rotational axis extending in a second axial direction, wherein the second rotatable knob (HOB) is rotatable around said second rotational axis to control a third function and wherein the second rotatable knob (HOB) is further configured to be displaced axially in said second axial direction of the second rotational axis to control a fourth function.

A Bluetooth (BT) device includes a host processor and a BT controller coupled by a Host Controller Interface (HCI) including a Host Controller Transport Layer and a HCI Driver. The host processor implements an applications layer and includes HCI firmware for communicating via the Host Controller Transport Layer with the BT controller. The BT controller includes a processor coupled to a memory and to a transceiver, and a RF driver. The HCI firmware also includes HCI command code for a user to define a topology of the BT network including configuring the BT device in a current chain including a plurality of BT devices including configuring from which BT device it receives data from and which BT device it forwards data to. For communicating data across the BT network the BT device forwards the data without host processor involvement in at least resending the data back to its BT controller.

According to an aspect, an apparatus may include a media streaming device including electronic circuitry configured to receive media content wirelessly from a media content source, and an audio output cord segment having a first end portion configured to be coupled to an audio input port of the media streaming device, and a second end portion configured to be coupled to an audio rendering device, where the electronic circuitry is further configured to transmit audio content through the audio output cord segment to the audio rendering device.