where the filtering is adaptively configured to continually provide that at least the amplitude spectrum of the speech portion of the noise cancelled output corresponds to the speech portion of a reference audio signal generated from at least one of the microphones.
A headset system for use with especially in a call center environment, in which method a wireless connection is established between headset and base unit, and the wireless connection is maintained while indicating from a headset user interface to the base unit that the headset is available for receiving an incoming call. The headset system is connected to a telephone system and has a processor configured to receive mode information and to operate according to the received mode information. The headset has a headset user interface and controls the headset signal processor to operate in accordance with user input. The headset is further configured to provide the end-of-call information to the base unit while maintaining the wireless connection.
An earphone device (1) to be worn in the ear, which earphone device (1) comprising a main body (18) to be arranged in the concha (19) of the outer ear (14) of a user and an optical sensor (35), which optical sensor (35) comprises a light emitter (16) and a light detector (17). The earphone device (1) comprises window means (8, 9) through which light emitted by the light emitter (16) can be transmitted. The window means (8, 9) comprises an end face (31) adapted to abut a conchal wall (37) at a sensing position (36). The main body (18) comprises a speaker protrusion (26) to be inserted into to ear canal (15). The distance between the speaker protrusion (26) and the end face (31) is adjustable.
A headset system (1) comprising a first telecommunication device (3) comprising a desk phone or a computer (4) with an installed softphone, a second telecommunication device, such as a mobile phone or a smart phone (6), and a headset (2) comprising a cord (5) with a first connector (7), by means of which the headset (2) is adapted to be interchangeably connected to the first telecommunication device (3) and the second telecommunication device (6). The headset system (1) is adapted to transfer a call from the first telecommunication device (3) to the second telecommunication device (6), when the first connector (7) is unplugged from the first telecommunication device (3). The invention also relates to An external device (8) comprising a second connector (31) to be attached to a first connector (7) of a headset (2), means (9, 10) for connecting the external device (8) to a personal computer (4) with a softphone installed on it, a controller (36) adapted to send a call transfer control signal to the softphone, when the first connector (7) is unplugged from the second connector (31), whereby an active call on the first telecommunication device (4) is transferred to a second telecommunication device (6).
H04M 1/60 - Substation equipment, e.g. for use by subscribers including speech amplifiers
H04M 1/253 - Telephone sets using digital voice transmission
H04M 1/247 - Telephone sets including user guidance or feature selection means facilitating their use
H04M 3/58 - Arrangements for transferring received calls from one subscriber to anotherArrangements affording interim conversations between either the calling or the called party and a third party
The present invention relates to a desktop telephone system (1, 51, 61) and to a method for operating a desktop telephone system (1, 51, 61) and may advantageously be utilized in voice communication systems connected to telephone networks (7, 11, 67). The present invention provides a desktop telephone system (1, 51, 61) that can handle a number of ambiguous or complex situations that can occur in daily use of known headset systems.
The desktop telephone system (1, 51, 61) comprises two or more sound interface devices (2, 3, 4, 8, 62, 63, 64) each providing a sound interface to a user during telephone conversations and two or more gateway devices (2, 3, 62, 63) each serving as a telephone gateway between a telephone network (7, 11, 67) and each sound interface device (2, 3, 4, 8, 62, 63, 64) during telephone conversations. Each gateway device (2, 3, 62, 63) provides a call announcement signal (21, 41) in response to detecting an incoming telephone call (20, 40) from a telephone network (7, 11, 67), and each sound interface device (2, 3, 4, 8, 62, 63, 64) comprises an action detector (22, 30) providing a user accept signal (23, 31) in response to detecting a predefined accept action performed by the user. At least one gateway device (2, 3, 62, 63) provides the call announcement signal (21, 41) to a wireless control network (18), and at least one sound interface device (2, 3, 4, 8, 62, 63, 64) provides the user accept signal (23, 31) to the wireless control network (18). The desktop telephone system (1, 51, 61) further comprises a control device (19, 52) adapted to receive a first call announcement signal (21, 41) and a first user accept signal (23, 31), at least one of these from the wireless control network (18), to determine a first gateway device (2, 3, 62, 63) as source of the first call announcement signal (21, 41), to determine a first sound interface device (2, 3, 4, 8, 62, 63, 64) as source of the first user accept signal (23, 31), to determine a relationship between the first call announcement signal (21, 41) and the first user accept signal (23, 31), and to cause the desktop telephone system (1, 51, 61) to establish an audio connection (15, 16, 17, 44, 47, 48) between the first gateway device (2, 3, 62, 63) and the first sound interface device (2, 3, 4, 8, 62, 63, 64) in dependence on the determined relationship.
A wireless headset system comprising a first telecommunication device, a second telecommunication device, such as a mobile phone or a smart phone and a wireless headset adapted to be wirelessly connected by a first radio link to the first telecommunication device. The headset system is adapted to transfer a call from the first telecommunication device to the second telecommunication device, when the first wireless link or a second radio link between the first telecommunication device and the second telecommunication device is broken or becomes sufficiently weak. The invention also relates to a method and a headset to be used with such a system.
An earphone device (1) to be worn in the ear, which earphone device (1) comprising a main body (18) to be arranged in the concha (19) of the outer ear (14) of a user and an optical sensor (35), which optical sensor (35) comprises a light emitter (16) and a light detector (17). The earphone device (1) comprises window means (8, 9) through which light emitted by the light emitter (16) can be transmitted. The window means (8, 9) comprises an end face (31) adapted to abut a conchal wall (37) at a sensing position (36). The main body (18) comprises a speaker protrusion (26) to be inserted into to ear canal (15). The distance between the speaker protrusion (26) and the end face (31) is adjustable.
A headset system (1) comprising a first telecommunication device (3) comprising a desk phone or a computer (4) with an installed softphone, a second telecommunication device, such as a mobile phone or a smart phone (6), and a headset (2) comprising a cord (5) with a first connector (7), by means of which the headset (2) is adapted to be interchangeably connected to the first telecommunication device (3) and the second telecommunication device (6). The headset system (1) is adapted to transfer a call from the first telecommunication device (3) to the second telecommunication device (6), when the first connector (7) is unplugged from the first telecommunication device (3). The invention also relates to An external device (8) comprising a second connector (31) to be attached to a first connector (7) of a headset (2), means (9, 10) for connecting the external device (8) to a personal computer (4) with a softphone installed on it, a controller (36) adapted to send a call transfer control signal to the softphone, when the first connector (7) is unplugged from the second connector (31), whereby an active call on the first telecommunication device (4) is transferred to a second telecommunication device (6).
A headset system comprising a headset and a base station. Each of said headset and base station comprises a transceiver configured to transmit radio signals between said headset and said base station according to a first wireless communication protocol, and each of said headset and base station further comprises a transceiver configured to transmit radio signals between said headset and said base station according to a second wireless communication protocol. At least one of said headset and said base station further comprises selecting means, such as a protocol selector configured to select one of said first and second wireless communication protocols for transmission of radio signals between said headset and said base station. The protocol selector is adapted to select the first wireless communication protocol for transmission of voice communication and the second wireless communication protocol for transmission of media content.
A computer controller for a plurality of audio devices and audio applications and a method of control is disclosed. An audio subsystem is disclosed allowing multiple applications executed by the computer to exchange audio signals with multiple sound interface devices. A first sound interface device to emit a first loudspeaker sound signal in dependence on the first loudspeaker audio signal. The sound signal is received by an intermediate application and from the audio subsystem a first microphone audio signal depending on a first microphone sound signal received by the first sound interface device. An intermediate application causes a second sound interface device to emit a second loudspeaker sound signal in dependence on the second loudspeaker audio signal. This allows a user to conduct a softphone call using one headset connected to the computer, while the user's supervisor may listen in on the softphone call using a second headset connected to the same computer, however, without requiring any changes of the computer's hardware, its operating system or the softphone application.
A method of updating a headset system firmware and a headset system are provided. The headset system comprises a headset and a base unit, the base unit having a base unit control circuit and being configured to connect to a computer system, the base unit comprises a headset dock to receive the headset. The method comprises the steps of receiving, in the base unit control circuit, a headset system firmware update from the computer system, the headset system firmware update comprising a headset firmware update and/or a base unit firmware update, and updating the base unit control circuit with the base unit firmware update. In a base unit storage, storing the headset firmware update having a headset firmware update version and when a headset having a current headset firmware version is received in the headset dock, controlling the base unit control circuit to check whether the current headset firmware version is the same as the headset firmware update version stored in the base unit storage, and updating the current headset firmware with the stored headset firmware update if one or more conditions are fulfilled.
The present invention relates to a headset controller and to a method for operating a headset controller. The invention may e.g. be used to exchange audio signals between a personal computer and a headset. A headset controller (1) may comprise a first electrical connector (3) for detachably connecting a sound interface device (30, 40) and a second electrical connector (8) for detachably connecting a USB host (36). The headset controller (1) may be adapted to receive an analog audio input signal (A0) at the first electrical connector (3), provide an analog audio output signal (A1, A2) at the first electrical connector (3), receive a digital audio input signal (Ui, D1, D2) at the second electrical connector (8) and provide a digital audio output signal (Uo, D0) at the second electrical connector (8). The headset controller (1) may further comprise a signal converter (4) adapted to provide the digital audio output signal (Uo, D0) in dependence on the analog audio input signal (A0) and provide the analog audio output signal (A1, A2) in dependence on the digital audio input signal (Ui, D1, D2). The signal converter (4) may comprise a control unit (24) adapted to engage in an enumeration process with a first USB host (36) connected to the second electrical connector (8) wherein the control unit (24) reports configuration data to the first USB host (36) defining one or more USB audio endpoints. In an improved headset controller (1), the signal converter (4) may further comprise a sensor unit (23) connected to receive a sensor input signal (Si) from the first electrical connector (3) and adapted to determine a device configuration of a first sound interface device (30, 40) connected to the first electrical connector (3) in dependence on the sensor input signal (Si) as well as to provide a sensor output signal (So) to the control unit (24) indicating the determined device configuration, and the control unit (24) may further be adapted to report the configuration data in dependence on the device configuration indicated in the sensor output signal (So). This may allow an audio application running on a PC (36) to e.g. select between providing a monaural signal, a binaural signal or a multi-channel signal to the sound interface device (30, 40) in dependence on the actual device configuration and thus provide the type of audio signal best suited for the particular sound interface device (30, 40) connected.
A wireless communications device (2) and an interface unit (3) in a mobile communications system are configured. The interface unit (3) is connected to the wireless communications device (2) according to a wireless communication protocol and to a computing device (1) connected to a communications network (5) via an access point (7) having an address. The computing device (1) is requested to visit a service provider (8) on the network (5), which based on the address of said access point (7) can provide location information regarding said access point (7). In dependence thereof one of a number of stored configuration profiles are determined, and the interface unit (3) is configured accordingly. A configuration request comprising said determined configuration profile is transmitted to the wireless communications device (2), which is then configured accordingly, and a communications link can be established between the interface unit (3) and the wireless communications device (2).
This disclosure provides a headset comprising a first earphone with a first face facing the head of a user wearing the headset, a headband attached at a first end to the first earphone and a microphone arm rotatably attached to the first earphone. The microphone arm can rotate about a first axis essentially perpendicular to the first side, whereby the microphone arm can be rotated into to a rest position, where it extends along the headband. The headband comprises a first magnetic holding element and the microphone arm comprises at a co-operating second magnetic holding element, whereby the microphone arm can be magnetically adhered against the headband in the rest position.
An earpad (1) to provide an interface between an earcup (4) of a headset (7), a headphone (8) or an ear defender (9). The earpad (1) comprises a contact surface (2) contacting the skin (10) of the ear (11) or ear surroundings of the user. The earpad (1) comprises one or more metal members (3, 6, 12, 13, 33) to transfer heat away from the contact surface (2).
Disclosed is an audio device for receiving and/or transmitting a sound signal, the audio device comprises: -a first speaker; -a cable socket configured for insertion of a removable cable, where the audio device is configured for receiving or transmitting a sound signal through the removable cable; wherein the audio device in a first mode is configured for receiving a sound signal from a first external device through the removable cable, and where the audio device in a second mode is configured for receiving or transmitting a sound signal to a second audio device through the removable cable; the audio device comprises: -an electronic circuit configured for detecting whether the audio device is connected to the first external device or to the second audio device through the removable cable in the cable socket.
A method of and a system for synchronizing isochronous audio data frames provided by a USB interface to a clock of a wireless RF communication device is provided. The USB interface and the wireless RF communication device are connected via an I2S link, the method comprising receiving the isochronous audio data frames and the wireless RF communication device clock in a streaming controller, phase locking the isochronous audio data frames to a USB interface clock, counting start-of-frame pulses of the phase locked isochronous audio data frames, comparing the counted start-of-frame pulses with the wireless RF communication device clock to determine a difference signal, the difference signal triggering a synchronization event code when a threshold difference has been reached, rate matching the isochronous audio data frames to the wireless RF communication device clock upon receiving the synchronization event code.
A hands free communication device (2), such as a headset, adapted to be simultaneously connected to a first telecommunication device (2) and a second telecommunication device (3). The hands free communication device (2) is adapted to send a call status signal to the first telecommunication device (3) upon reception of a corresponding call status signal from the second telecommunication device (4) and to send a call status signal to the second telecommunication device (4) upon reception of a corresponding call status signal from the first telecommunication device (3). The invention also relates to a system implementing such a hands free device (2) and a method using such a system.
A computer-implemented method of and a device, such as a base station for a headset, for arranging text items in a predefined order, comprising storing, in the memory of a peripheral device, a collection of multiple text items arranged in multiple sets of text items and in multiple groups of text items; storing a respective code item with a respective group of text items; and storing a sort key that has values that designate a predefined order of the text items in each set. The sort key is appended to the text items and comprises at least one character with a value within the Private Use range of the Unicode format.
G06F 7/00 - Methods or arrangements for processing data by operating upon the order or content of the data handled
G06F 17/30 - Information retrieval; Database structures therefor
G06F 7/08 - Sorting, i.e. grouping record carriers in numerical or other ordered sequence according to the classification of at least some of the information they carry
The present invention relates to a desktop telephone system (1, 51, 61) and to a method for operating a desktop telephone system (1, 51, 61) and may advantageously be utilized in voice communication systems connected to telephone networks (7, 11, 67). The present invention provides a desktop telephone system (1, 51, 61) that can handle a number of ambiguous or complex situations that can occur in daily use of known headset systems. The desktop telephone system (1, 51, 61) comprises two or more sound interface devices (2, 3, 4, 8, 62, 63, 64) each providing a sound interface to a user during telephone conversations and two or more gateway devices (2, 3, 62, 63) each serving as a telephone gateway between a telephone network (7, 11, 67) and each sound interface device (2, 3, 4, 8, 62, 63, 64) during telephone conversations. Each gateway device (2, 3, 62, 63) provides a call announcement signal (21, 41) in response to detecting an incoming telephone call (20, 40) from a telephone network (7, 11, 67), and each sound interface device (2, 3, 4, 8, 62, 63, 64) comprises an action detector (22, 30) providing a user accept signal (23, 31) in response to detecting a predefined accept action performed by the user. At least one gateway device (2, 3, 62, 63) provides the call announcement signal (21, 41) to a wireless control network (18), and at least one sound interface device (2, 3, 4, 8, 62, 63, 64) provides the user accept signal (23, 31) to the wireless control network (18). The desktop telephone system (1, 51, 61) further comprises a control device (19, 52) adapted to receive a first call announcement signal (21, 41) and a first user accept signal (23, 31), at least one of these from the wireless control network (18), to determine a first gateway device (2, 3, 62, 63) as source of the first call announcement signal (21, 41), to determine a first sound interface device (2, 3, 4, 8, 62, 63, 64) as source of the first user accept signal (23, 31), to determine a relationship between the first call announcement signal (21, 41) and the first user accept signal (23, 31), and to cause the desktop telephone system (1, 51, 61) to establish an audio connection (15, 16, 17, 44, 47, 48) between the first gateway device (2, 3, 62, 63) and the first sound interface device (2, 3, 4, 8, 62, 63, 64) in dependence on the determined relationship.
The present invention relates to a desktop speakerphone.It aims to provide a desktop speakerphone that may be used both in a single-person scenario and in a multiple-person scenario without requiring reorientation of the microphone when the speaking person changes in a multiple-person scenario. This is achieved by a desktop speakerphone (1) comprising a body (2) with a first support surface (3) adapted to stably support the desktop speakerphone (1) when it rests on a horizontal desktop (6), the body (2) comprising: a network interface (7) for exchanging audiosignals with an audio communication network (10); an acoustic input device (8) adapted to simultaneously pick up the voices of a plurality of users and to provide a corresponding audio input signal to the audio communication network (10); and an acoustic output device (9) adapted to receive an audio output signal from the audio communication network (10) and to provide a corresponding acoustic output signal simultaneously to the plurality of users, characterized in that the body (2) further has a second support surface (4)adapted to stably support the desktop speakerphone (1) when it rests on said desktop (6), in that the first and second support surfaces (3, 4) extend in respective first and second planes that are inclined with respect to each other, and in that the body (2) further comprises a directivity controlling means (4, 26, 27, 28, 47) adapted to control the acoustic input device (8) such that its directional characteristic in the horizontal plane is unidirectional when the desktop speakerphone (1) rests with the first support surface (3) on said desktop (6) and is omnidirectional when the desktop speakerphone (1) rests with the second support surface (4) on said desktop (6). Automatically adapting the directional characteristic in the horizontal plane to a position of the desktop speakerphone (1) allows the desktop speakerphone (1) to be used in an individual mode by a single user located in front of it, wherein the desktop speakerphone (1) emphasizes the voice sound of the user, as well as in agroupmode by a group of users distributed around the desktop speakerphone (1), wherein the desktop speakerphone (1)does not emphasize the voice sound of a particular user and further does not require any manual interaction when the speaking person changes. The disclosed directivity controlling means(4, 26, 27, 28, 47) allows simple and intuitive switching between the individual mode and the group mode.
G10K 11/16 - Methods or devices for protecting against, or for damping, noise or other acoustic waves in general
H03B 29/00 - Generation of noise currents and voltages
G10K 11/175 - Methods or devices for protecting against, or for damping, noise or other acoustic waves in general using interference effectsMasking sound
H04R 1/40 - Arrangements for obtaining desired frequency or directional characteristics for obtaining desired directional characteristic only by combining a number of identical transducers
G10L 21/0216 - Noise filtering characterised by the method used for estimating noise
An earphone device (1) to be worn in the ear, which earphone device (1) comprising a main body (18) to be arranged in the concha (19) of the outer ear (14) of a user and an optical sensor (35), which optical sensor (35) comprises a light emitter (16) and a light detector (17). The earphone device (1) comprises window means (8, 9) through which light emitted by the light emitter (16) can be transmitted. The window means (8, 9) comprises an end face (31) adapted to abut a conchal wall (37) at a sensing position (36). The main body (18) comprises a speaker protrusion (26) to be inserted into to ear canal (15). The distance between the speaker protrusion (26) and the end face (31) is adjustable.
System for audio communication comprising: a peripheral unit and an interface unit, wherein the peripheral unit comprises a microphone and a speaker, and the peripheral unit is connectable to a telephone via the interface unit, the interface unit having a unique interface unit device address, and the peripheral unit having a unique peripheral unit device address, wherein the peripheral unit and the interface unit are mutually connectable via a wireless communication link for audio communication and via a detachable wired communication link for auxiliary data, and wherein the system further comprises automatic pairing routine for pairing the peripheral unit and the interface unit to establish the wireless communication link.
An earphone simultaneously allows high-level low-frequency sound and effective noise reduction. The earphone has a front cavity separated from ambient space The earphone has a housing having a wall separating a rear cavity with an acoustic compliance from the front cavity and from ambient space; a first diaphragm reciprocatably suspended across a first through hole in the housing wall between the front cavity and the rear cavity and adapted to be actively driven to provide the acoustic output signal; and a second diaphragm reciprocatably suspended in the housing wall between the rear cavity and ambient space where the acoustic resonant system is configured such that the resonance frequency is below 500 Hz. The second diaphragm attenuates acoustic signals entering the rear cavity from ambient space at frequencies above the resonance frequency and virtually increases the acoustic compliance of the rear cavity at frequencies below the resonance frequency.
H04R 1/28 - Transducer mountings or enclosures designed for specific frequency responseTransducer enclosures modified by provision of mechanical or acoustic impedances, e.g. resonator, damping means
A headset system (1) comprising a first telecommunication device (3) comprising a desk phone or a computer (4) with an installed softphone,a second telecommunication device, such as a mobile phone or a smart phone (6), and a headset (2) comprising a cord (5) with a first connector (7), by means of which the headset (2) is adapted to be interchangeably connected to the first telecommunication device (3) and the second telecommunication device (6). The headset system (1) is adapted to transfer a call from the first telecommunication device (3) to the second telecommunication device (6), when the first connector (7) is unplugged from the first telecommunication device (3). The invention also relates to An external device (8) comprising a second connector (31) to be attached to a first connector (7) of a headset (2), means (9, 10) for connecting the external device (8) to a personal computer (4) with a softphone installed on it, a controller (36) adapted to send a call transfer control signal to the softphone, when the first connector (7) is unplugged from the second connector (31), whereby an active call on the first telecommunication device (4) is transferred to a second telecommunication device (6).
A wireless audio rendering device, such as headset (2) or speaker phone (3), which audio rendering device (2, 3) is adapted to be paired with a wireless audio gateway device, such as a smart phone (1), whereby a first radio link (4) for transmitting audio can be established between the audio gateway (1) and the first audio rendering device (2). The first audio rendering device (2) is adapted to wirelessly recognize a second audio rendering device (3) also paired with the audio gateway device (1). When brought within an activation distance (D1-D3) of the second audio rendering device (3) the first audio rendering device (2) is adapted to initiate an audio transfer step, in which the first audio link (4) is replaced by a second radio link (5) for transmitting audio between the audio gateway (1) and the second audio rendering device (3). The invention also relates to a method of audio transferring and an audio rendering device for use with the method.
A method and a system of noise suppressing an audio signal comprising a combination of at least two audio system input signals each having a sound source signal portion and a background noise portion, the method and system comprising steps and means of: Extracting at least two different types of spatial sound field features from the input signals such as discriminative speech and/or background noise features, computing a first intermediate spatial noise suppression gain on the basis of the extracted spatial sound field features, computing a second intermediate stationary noise suppression gain, combining the two intermediate noise suppression gains to form a total noise suppression gain, wherein the two intermediate noise suppression gains are combined by comparing their values and dependent on their ratio or relative difference, determining the total noise suppression gain, applying the total noise suppression gain to the audio signal to generate a noise suppressed audio system output signal.
A headset base unit comprising a base housing, a first connection device, by means of which the headset base unit is connectable to at least one telecommunication device, such as a desk phone or a PC phone. Furthermore, the headset base unit comprises a second connection device, by means of which the headset base unit is connectable to a headset, and a device holder for holding a mobile communication device with a device user interface. The headset base comprises control means, by means of which an audio channel can be opened between the headset base unit and a selected one of the telecommunication devices. The headset base unit is adapted to receive control commands from the mobile communication device for controlling the selected telecommunication device connected to the first connection device, whereby a user can control the telecommunication device by means of the device user interface.
Disclosed are audio accessory devices and systems for being connected to one or more user devices and related methods. The system comprises an audio accessory device having at least one speaker and being configured to connect to at least one user device for providing audio from the user device to the audio accessory device and a computer program application accessible from the at least one user device. A verification ID is provided external of the audio accessory device and comprises audio accessory device identification information identifying a specific audio accessory device. The system furthermore comprises a user interface facilitating interaction between a user of the audio accessory device and the user device, and allows for user facilitated entering of the verification ID. A verification server may be configured to receive the verification ID from the user device and to verify the user device for use with the computer program application, if the verification ID is valid.
An earpad (1) to provide an interface between an earcup (4) of a headset (7), a headphone (8) or an ear defender (9). The earpad (1) comprises a contact surface (2) contacting the skin (10) of the ear (11) or ear surroundings of the user. The earpad (1) comprises one or more metal members (3, 6, 12, 13, 33) to transfer heat away from the contact surface (2).
A headset base unit (2) comprising a base housing (4), a headset holder (5, 38) for holding a headset (3). The headset base unit (2) has control means (9), by means of which an audio channel can be opened between the headset (3) and a selected one of the telecommunication devices (9, 10, 11), and a display unit (39) with a display (6) adapted for displaying device icons (12, 13, 14) representing connected telecommunication devices (9, 10, 11). A further communication system (95) comprising a headset system (1) and a cordless telephone (109). The headset system (109) comprises a wireless headset (3) with a headset transceiver (51) and a headset base unit (2) with headset base transceiver means (27, 28). The handset transceiver (103) and the telephone base transceiver means (100) can be connected by a second radio link (96) according to the first radio standard. The headset base transceiver means (27) and the telephone base transceiver means (100) are adapted to be connected by a third radio link (65) according to the first radio standard, wherein the headset (3) can be used for a telephone call via the first radio link (66) and the third link (65).
A communication device (1) comprising a speaker (2), a microphone (3), a noise detection module (7) adopted to determine an ambient noise level (NL) from a microphone signal received from the microphone (3) and an automatic volume control module (4), which in dependence of a change in noise level adjusts the speaker volume level (SL) to an adjusted level during an adaption time interval (TA). The communication device (1) comprises a motion sensor (5), and the length of the adaption time interval (TA) depends on a motion signal received from the motion sensor (5).
A headset (1) comprising an attachment device (2) for attaching the headset (1) to the head of a user and a speaker housing (3). The speaker housing 3 is connected slidable along and rotatable about a first axis (X) to the attachment device (2), such that it can be placed into a selected longitudinal and angular position within a longitudinal interval (LI) and an angular interval (AI). The longitudinal interval (LI) comprises a first zone (Z1) and a second zone (Z2), and the speaker housing (3) can rotate through a first angular interval (AI1), when in the first zone (Z1) and through a second angular interval (AI2), when in the second zone (Z2). The first angular interval (AI1) is larger than the second angular interval (AI2).
A wireless communications device (2) and an interface unit (3) in a mobile communications system are configured. The interface unit (3) is connected to the wireless communications device (2) according to a wireless communication protocol and to a computing device (1) connected to a communications network (5) via an access point (7) having an address. The computing device (1) is requested to visit a service provider (8) on the network (5), which based on the address of said access point (7) can provide location information regarding said access point (7). In dependence thereof one of a number of stored configuration profiles are determined, and the interface unit (3) is configured accordingly. A configuration request comprising said determined configuration profile is transmitted to the wireless communications device (2), which is then configured accordingly, and a communications link can be established between the interface unit (3) and the wireless communications device (2).
Wireless communication between a hands-free communication device and a telecommunication device is provided. A hands-free communication system and a method of enabling wireless communication between a telecommunication device (2) and a hands-free communication device (1), is provided wherein the hands-free telecommunication device (1) is connected to a first transceiver (8), and the telecommunication device (2) is connected to a second transceiver (9), the first transceiver (8) and the second transceiver (9) being connected by releasable connection (10), wherein the first transceiver and the second transceiver are activated upon disengagement of the releasable connection.
Presence information is provided in a personal communications system comprising an interface unit (21), the interface unit comprising a computer interface connecting the interface unit (21) to a client computer (1); and a first transceiver exchanging radio signals between interface unit (21) and a mobile telephone (22) according to a first wireless communication protocol; and/or a telephone interface connecting interface unit (21) to a desktop telephone (23). The method comprises the steps of providing a presence message indicating whether the mobile telephone (22) or the desktop telephone (23) is involved in a phone call; and transmitting the presence message to the client computer (1) via the computer interface. Thus better and more reliable presence information taking use of mobile or desktop telephones into account can easily be provided.
A headset device (1) comprising an attachment device (2) for attaching the headset device (1) to the head (3) of a user. The headset device (1) also comprises an audio device (4, 6) for transducing audio to an electrical signal or vice versa and adjustment means (7, 8) for adjusting the mutual positions and/or orientations of the attachment device (2) and the audio device to (4, 6) to a user-specific position, in which the headset device (1) is adjusted to the geometry of the users head (3). The adjustment means (7, 8) comprises selecting means (9; 10; 20; 41) for storing a first user-specific position, whereby a user quickly can readjust the headset device (1) from a non-user-specific position or other user-specific position to the first user-specific position.
The present disclosure relates to devices, systems and methods for programming base units of communication headset systems with new or updated configuration parameters by a portable or handheld programming unit.
A headset (1) comprising at least one earphone (2, 3) with at a first earphone side (39) and earphone attachment means (14) for detachably attaching an ear pad (8) with co-operating ear pad attachment means (16) to the first earphone side (39). The headset (1) further comprising a wearing device (4) for attaching the headset (1) to the head of a user, such that the first earphone side (39) faces the ear. The earphone attachment means comprise magnetic elements (14), such that an ear pad (8) with co-operating magnetic ear pad attachment means (15) can be magnetically attached to the earphone (2, 3). The invention also relates to such an ear pad (8).
A headset system (10) comprising a headset unit (1) and a detachable wearing device (4). The headset unit (1) comprises a microphone arm (3), which is movable between a compact position and an extended position. A proximity sensor (29; 33) in the headset unit (1) detects whether the microphone arm (3) is in the compact position or the extended position. The headset unit (1) and the wearing device (4) are adapted to be movably attached to each other, so that the headset unit (1) can be moved between a use position and a rest position. The proximity sensor (29; 33) detects, when the headset unit (1) is moved into the rest position.
A self configuring headset system comprising an interface unit, a method of setting up a headset system to a telephone device using and interface unit and a telephone interface unit is provided. The telephone interface unit is configured to automatically set up a headset system to a telephone device, the headset system comprising a headset and the telephone interface unit, the telephone interface unit comprising a switching unit configured to switch at least a headset transmit signal line and a headset receive signal line to a telephone transmit signal line and a telephone receive signal line, respectively, and a processor being pre-programmed with one or more telephone device permutation settings, wherein the processor is configured to receive, from the telephone device, telephone configuration information on the basis of which a specific permutation setting is selected among the one or more pre-programmed permutation settings, the processor being configured to control the switching unit according to the specific permutation setting.
A communications system and a method of detecting and learning new ringtones in an automatic manner, comprising a desk phone (1), a hook switch, a ringtone detector (3), and a communications device (2). In a first embodiment a mechanical hook switch device is connected to the desk phone (1), and in a second embodiment an electronic hook switch unit (9) is connected to the desk phone (1). The ringtone detector (3) adaptively sets the filter and amplifier parameters according to the sensor position and pick-up sensitivity. The ringtone detector (3) automatically detects and learns the characteristics of new ringtones. The communications device (2) may comprise a base station (6) and a headset (7).
A personal conferencing device (12) having a base unit (14) and a headset/handset (5), wherein the base unit (14) comprises a first interface (4) to a telephone system, a headset/handset receiving part (19) for receiving a headset/handset (5), and the headset/handset (5) comprises a base connection (31) adapted to be received by the receiving part (19), at least a first microphone (7) for receiving audio from a headset/handset user, and at least a first headset/handset speaker (8) for providing audio to a headset/handset user, a position detecting device (10) for detecting a position and/or a state of the headset/handset (5), and a second headset/handset speaker (9), wherein audio is provided to a headset/handset user via the second headset/handset speaker (9) in response to a first signal provided from the position detecting device (10) whereby the user can choose between a private mode using the at least first headset/handset speaker and a conference mode using the second headset/handset speaker.
A wireless audio rendering device, such as headset (2) or speaker phone (3), which audio rendering device (2, 3) is adapted to be paired with a wireless audio gateway device, such as a smart phone (1), whereby a first radio link (4) for transmitting audio can be established between the audio gateway (1) and the first audio rendering device (2). The first audio rendering device (2) is adapted to wirelessly recognise a second audio rendering device (3) also paired with the audio gateway device (1). When brought within an activation distance (D1-D3) of the second audio rendering device (3) the first audio rendering device (2) is adapted to initiate an audio transfer step, in which the first audio link (4) is replaced by a second radio link (5) for transmitting audio between the audio gateway (1) and the second audio rendering device (3). The invention also relates to a method of audio transferring and an audio rendering device for use with the method.
A wireless headset system (1) comprising a first telecommunication device (3), a second telecommunication device, such as a mobile phone or a smart phone (6) and a wireless headset (2) adapted to be wirelessly connected by a first radio link (7) to the first telecommunication device (3). The headset system (1) is adapted to transfer a call from the first telecommunication device (3) to the second telecommunication device (6), when the first wireless link (7) or a second radio link (8) between the first telecommunication device (3) and the second telecommunication device (6) is broken or becomes sufficiently weak. The invention also relates to a method and a headset to be used with such a system.
A method of and a system for synchronizing isochronous audio data frames provided by a USB interface to a clock of a wireless RF communication device is provided. The USB interface and the wireless RF communication device are connected via an I2S link, the method comprising receiving the isochronous audio data frames and the wireless RF communication device clock in a streaming controller, phase locking the isochronous audio data frames to a USB interface clock, counting start-of-frame pulses of the phase locked isochronous audio data frames, comparing the counted start-of-frame pulses with the wireless RF communication device clock to determine a difference signal, the difference signal triggering a synchronization event code when a threshold difference has been reached, rate matching the isochronous audio data frames to the wireless RF communication device clock upon receiving the synchronization event code.
A headset base unit (1) comprising a base housing (2), a first connection device (5), by means of which the headset base unit (1) is connectable to at least one telecommunication device (6, 7), such as a desk phone (6) or a PC phone (7). Furthermore, the headset base unit (1) comprises a second connection device (8), by means of which the headset base unit (1) is connectable to a headset (4), and a device holder (10) for holding a mobile communication device (11) with a device user interface (12). The headset base (2) comprises control means (9), by means of which an audio channel can be opened between the headset base unit (1) and a selected one of the telecommunication devices (6, 7). The headset base unit (1) is adapted to receive control commands from the mobile communication device (11) for controlling the selected telecommunication device (6, 7) connected to the first connection device (5), whereby a user can control the telecommunication device (6, 7) by means of the device user interface (12).
A communication device (1, 15, 25, 35) comprising a housing (2) with a housing wall (50) bounding a space (7). The housing (2) comprises a first housing part (3) and a second housing part (4), which are joined along a dividing line (40), whereby a first abutment face (41) of the first housing part (3) abuts a second abutment face (42) of the second housing part (4) along the dividing line (40). A first microphone transducer (8) is arranged in the housing (2). The first microphone transducer (8) comprises a microphone opening (9), which is connected to the space (7). The space (7) is communicating with the surroundings via a peripheral line (47) of housing openings (39) in the outer side (44) of the housing wall (50) arranged along the dividing line (40), and housing channels (46) extending between the housing openings (39) and the inner side (43) of the housing wall (50). The housing channels (46) and the housing openings (39) are provided as recessions (45; 48) in the first abutment face (41). The invention also relates to the manufacturing such a communication device.
A battery powered electronic device (1) comprising a housing (2) and a movable part (3) extending from the housing (2). The movable part (3) is movably attached to the housing (2), such that it can be moved between a compact position and an extended position. The electronic device comprises a switch, which is adapted to sense, whether the movable part (3) is in the compact position or not, and the switch is utilized to switch the electronic device (1) On, when the movable part (3) is in the extended position, and Off, when the movable part (3) is in the compact position. The electronics of the device (1) is adapted to be set to off or into a low-power shipping mode, all though the movable part (3) is in the extended position.
H04M 1/00 - Substation equipment, e.g. for use by subscribers
H04M 1/60 - Substation equipment, e.g. for use by subscribers including speech amplifiers
H04M 1/05 - Supports for telephone transmitters or receivers specially adapted for use on head, throat or breast
H04B 1/38 - Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
H04M 1/02 - Constructional features of telephone sets
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