RU185379U1 - RECEIVER WITH AUDIO OUTPUT - Google Patents

Abstract

The utility model relates to means satisfying a person’s vital needs, in particular to methods and devices providing people with hearing impairments with the possibility of replacing direct auditory perception with another type of perception, in particular, it is intended for broadcasting audio information from a TV, music center or other sound reproducing device and receiving radio channel signals from various sensors. The technical result is the ability to broadcast audio information from sound reproducing devices and receiving radio signals from various sensors by connecting to the “gap” of the receiver with respect to sound reproducing devices. The specified technical result is achieved by the fact that the receiver is equipped with a timbre block with frequency controls, the antenna is built-in and connected to a radio module that is connected to a microcontroller, connected to a menu button. The receiver is equipped with an LED control unit connected to the LED unit. The receiver circuit block has a “Mute” block, treble, bass and volume controls, operational amplifiers, line inputs, line output, microphone input, microphone amplifier, optical input, receiver with S / PDIF decoder, digital-to-analog converter. At the same time, the block diagram is equipped with a power supply, a contact for the power adapter and is located in a housing equipped with a cover with a perimeter optical fiber. On the faces of the case are: a setup button, a volume control element, high frequency and low frequency tone control elements, a power connector, an S / PDIF connector, a microphone input, line input 1, line input 2 and line output.

Description

The utility model relates to means satisfying a person’s vital needs, in particular to methods and devices providing people with hearing impairments with the possibility of replacing direct auditory perception with another type of perception, in particular, it is intended for broadcasting audio information from a TV, music center or other sound reproducing device, including including a radio channel.

A device, in particular a microcomputer for automatically controlling sound in an audio or audiovisual system, is known. Incoming audio signals from several channels are combined and fed to a pair of detector-rectifier circuits. One detector-rectifier circuit is a smoothing circuit with a time constant greater than the time constant of the detector's other rectifier circuit. Signals with a longer time constant are supplied to the microprocessor to control the volume function of the audio or audiovisual system. Signals with a shorter time constant are fed to the microprocessor to equalize the frequency spectrum of the source of the audio or audiovisual system (Patent No. US6195438B1. Publish. February 27, 2001).

Known audio output equipment and a sound processing system in which, according to one embodiment, a sound output device includes: a receiver configured to receive audio information from an audio processor; an output module configured to output received audio information; a cable for connecting between the output module and the receiver for transmitting audio information; a tension detector configured to determine if the voltage is superimposed on the voltage above or equal to a threshold value; a determining module configured to determine when the tension detector detects a voltage greater than or equal to a threshold value, a control command to be executed by the audio processor; and a transmitter configured to transmit a specific control command to the audio processor (Application No. US20100310087A1. Published. 12/9/2010).

A known system and method for improving speech intelligibility for people with hearing impairment, containing an output signal amplifier, and at least one output speaker, remote control and audio / video input signals connected to the input circuit, a central processor, an audio output circuit, a central processor including switching and control circuits for connecting the input audio / visual input signals of the input circuit with an adaptive filter, an output signal amplifier, one or more output speakers (Pat NT No. US7110951B1 / publ. 09/19/2006).

Known interactive hearing aid and auxiliary equipment for sound accompaniment (VRA), comprising a decoder for decoding a bitstream and output as its output, a digital preferred audio signal and a digital remaining audio signal; a digital-to-analog (D / A) converter connected to said decoder, a transmitter connected to said digital-to-analog converter, a first tunable amplifier, a second adjustable amplifier and the output of the entire audio signal (Patent No. US6985594B1. Publ. 10.01.2006).

A device for a hearing aid is known, equipped with a reception circuit for television and a reception circuit for radio reception of sound listening signals and an amplifier circuit for facilitating listening to amplify received sound listening signals to the input sound, a switching unit, a control unit, a mixing unit (Patent No. JPH10285696 (A) - 1998-10-23).

An interactive digital receiver with the function of a personal digital video recorder is known, which contains a STi 5528 chip connected by a two-way communication with a built-in hard disk, with a 128 MB DDR SDRAM random access memory, 16 MB flash memory, and a 10/100 BaseT Ethernet controller , with a RS 232 digital interface controller, with two smart card controllers and with a USB port controller, connected by one-way communication with an infrared command receiver from a remote control, with a SCART output connector TV for connecting to a television receiver, with a SCART VCR output connector for connecting to a VCR, with an RCA stereo audio output connector and with an RF modulator having a high-frequency audio / video output, and two tuners that receive satellite broadcasting are connected to the inputs of the STi 5528 chip ( Patent No. 44439RU. Publish. 10.03.2005).

Known subscriber broadcast receiver containing the first and second receivers, the input of which receives a signal from the antenna, a low-frequency amplifier, an electronic key, a power supply and an inclusion unit, characterized in that it further comprises a microprocessor controller and an analog switch, the first input of which is connected to the output the first receiver tuned to an arbitrary radio station, and the second input - with the output of a second receiver tuned to a radio station transmitting a warning signal, the output of the second receiver is also connected to the input of the analog-to-digital converter of the microprocessor controller, the first digital output of which is connected to the control input of the analog switch, and the output of the analog switch is connected to the input of the low-frequency amplifier; the second digital output of the microprocessor controller is connected to the control input of the electronic key that supplies power from the power supply to the first receiver and low-frequency amplifier, and the third output of the microprocessor controller is connected to the control input of the low-frequency amplifier amplification, when the button of the switching unit connected to the digital input of the microprocessor is turned off the controller, or when the controller detects the code signal of the end of the alert transmission, the latter generates a low signal level on the first, second m and third digital outputs, and a high level signal at these outputs is generated upon detection of the code signal transmission start notification, moreover, a high level signal is generated at the third output of the controller when the switching node keys (Patent № 150742RU. Publ. 02.27.2015).

However, the well-known subscriber broadcast receiver is not intended for use by consumers with hearing impairments, namely, to broadcast audio information from a TV, music center or other sound reproducing device, and to receive signals from various sensors over the air.

The objective of this utility model is to create an assembly unit of the receiver, which is in functional-structural unity with the structural electronic circuit.

The technical result is manifested in the possibility of broadcasting audio information from sound reproducing devices by inserting a sound fragment into a gap in the sound path at the time of receiving a signal over a radio channel from external radio sensors.

The problem is solved in that the receiver with an audio output, containing a block circuit including interconnected electronic elements, namely: an antenna, a power supply, a digital-to-analog converter, a microcontroller, a frequency regulator, is equipped with a tone block with frequency regulators, an antenna built-in and connected to a radio module that is connected to the microcontroller, while both the antenna and the radio module are interconnected with the possibility of direct and feedback, the microcontroller is connected to the menu button, and the input of the control unit LEDs connected to the input of the LED block, the microcontroller is connected to the Mute block, the output of the latter is connected in series with the input of the operational amplifier, a timbral unit equipped with treble, bass and volume controls, and a microcontroller, while the outputs of the timbral block and the microcontroller are connected to the operational amplifier 2, the latter is connected to a linear output, in addition, the output of the Mute block is connected in parallel to the input of the operational amplifier 3, the output of which is connected to the input of the microcontroller, in addition, the microphone input is connected with a microphone amplifier connected to the Mute unit, the optical input through a receiver equipped with an S / PDIF decoder and a digital-to-analog converter is connected to the Mute unit, the latter is interconnected with the outputs of line input 1 and line input 2 connected in parallel between each other, while the block circuit is equipped with a power supply, a contact for the power adapter and is located in a housing made in the form of a prism having a trapezoid in cross section, equipped with a cover, with an optical fiber located around the perimeter, and op With the help of orams, on one of the side faces there is a tuning button, a volume control element, high frequency and low frequency tone control elements, a U-shaped groove is located on the rear panel of the case, the power connector, S / PDIF connector, microphone are made in the central part input, line input 1, line input 2 and line output, in addition, from the bottom of the housing are made opposite each other, mounting holes.

The present utility model is illustrated by a detailed description, an example of use, schemes in which:

FIG. 1 - shows a block diagram placed on the board;

FIG. 2 - characterizes a front view of the receiver body with audio output;

FIG. 3 is a side view of the housing, the same as in FIG. 2;

FIG. 4 shows a rear view of the receiver body, the same as in FIG. 2;

FIG. 5 - shows a 180 ° view from below on the housing, the same as in FIG. 2 to 4.

A receiver with an audio output (hereinafter referred to as a receiver) is made in the form of a complex structure containing an electronic part in the form of a block circuit located in a structural part, the elements of which are molded from plastic. The receiver is equipped with a timbral unit 1 with controls for high frequency (HF), low frequency (LF) and volume (Figure 1). Antenna 2 is made built-in and connected by direct and feedback via the radio module 3 to the microcontroller 4. The mentioned microcontroller 4 is connected to the menu button 5 and the input of the LED control unit 6 connected to the input of the LED block 7. The microcontroller 4 is directly connected to the Mute 8 unit. The output of the latter is connected via input 9 of the operational amplifier 1 to the tone unit 1 and the microcontroller 4. The outputs of the tone unit 1 and the microcontroller 4 are connected to the input 10 of the operational amplifier 2, which is connected to the linear output 11 In addition, the output of the “Mute” block 8 is connected to the input 12, the output of which is connected to the input of the microcontroller 4. The microphone input 13 is connected in series with the microphone amplifier 14 connected to the “Mute" block 8. Optical input 15 by means of a receiver 16, equipped with an S / PDIF decoder, and a digital-to-analog converter 17 are connected to a “Mute” unit 8, which is interconnected with the output 18 of the linear input 1 and the output 19 of the linear input 2, connected in parallel with each other. In this case, the circuit block is equipped with a power supply 20, a contact for the power adapter 21 and is located in the housing 22. The housing 22 is made in the form of a prism having a trapezoid in cross section and is equipped with a cover 23 (Fig. 2-5). A fiber 24 is located around the perimeter of said cover 23. In addition, the housing 22 is equipped with supports 25-28. On one of the side faces of the housing 22, a tuning button 29, a volume control 30, tuning elements for high-frequency sounds 31 and low-frequency 32 are made. On the rear panel of the housing 22 there is a U-shaped groove 33 at the bottom, a power connector 34 , S / PDIF connector 35, microphone input 36, input 37 of line input 1, input 38 of line input 2 and line output 39. In addition, the bottom of the housing 22, made in one piece with it, is equipped with a U-shaped groove 33 and made, opposite each other, mounting holes 40 and 41.

Description of the receiver with audio output,

The meaning of the terms used, abbreviations.

U-latin capital letter - transliteration of the letter U in Cyrillic.

S / PDIF designation in Latin interface for digital audio transmission via optical cable

LF - low frequency.

HF - high frequency.

“Mute” - mute, invite, mute.

The connector is a socket.

Tone Call - call tone.

V is the unit of measurement of electric potential.

To power the power supply 20, use a power adapter 21, the input voltage of which is 220V, and the output is 5.0V.

The voltage 5.0V (on the block diagram marked with yellow lines) feeds on such blocks as: optical input 15, power supply 20.

In addition, 3.3V voltage (shown in red on the diagram) powers such units as: radio module 3, microcontroller 4, LED control unit 6, LED unit 7, Mute unit 8, microphone amplifier 14, receiver 16 with a decoder, digital analog converter 17.

Such blocks as (on the block diagram are outlined by green lines): 9 - operational amplifier 1, 12 - operational amplifier 3, 10 - operational amplifier 2 are powered by a voltage of 5.0V.

The receiver with an audio output having the trade name Tone Call is intended, among other things, for the Pulsar-D warning system.

The circuit blocks are assembled on the board. To do this, in a certain order connected structural elements 1-20. We placed the prepared board in the housing 22. On the cover 23, along the perimeter, we fixed the optical fiber 24. We fixed the cover 23 on the housing 22 using mounting holes 40, 41 and fixing screws (not shown). We connected the power to the receiver using adapter 21, connecting it to the power connector 34 and a power outlet (not shown) with a voltage of 220V.

One of the input connectors of the receiver, namely: 18-line input 1 or 19 - line input 2, or optical input 15, or microphone input 13, received an audio signal from one of the audio source (TV, stereo, etc.). For example: the signal from the optical input 15 passed through the S \ PDIF 16 receiver / decoder, then the digital-to-analog converter 17, the Mute 8 block and went to 9 — the operational amplifier 1. The signal from the microphone input 13 passed through the microphone amplifier 14, the block “Mute” 8 and got to 9 - operational amplifier 1. The signal from 18 or 19, respectively, of linear input 1 or linear input 2, passing through the block “Mute” 8 got to 9 - operational amplifier 1. Next, the signal passed through a timbral block with regulators Treble, bass and volume 1 and entered 10 - operational amplifier 2 and further on line output 11 to which an external device was connected. Also at the input 10 - operational amplifier 2 receives an information signal from the microcontroller 4 in the event of an external sensor. From block 8 "Mute" also the signal through the operational amplifier 3 - 12 entered the microcontroller 4, which notified the microcontroller 4 about the broadcast of the audio signal. According to this signal, the microcontroller 4 through the control unit of the LEDs 6 lit one of the LEDs in the block of LEDs 7. In the case of an external sensor, the Mute 8 block blocks the input audio signal at the command of the microcontroller 4, as a result of which the broadcast of the audio signal has stopped and the information output to line output 11 signal. In the block diagram, radio module 3 of model 433MHz CC110L was used, which received a radio frequency signal through antenna 2. The response signal of an external sensor from radio module 3 was sent to microcontroller 4, which generated an information signal and sent it to 10 - operational amplifier 2. In parallel with this, microcontroller 4 provided blinking of LEDs 7 in any color through the LED control unit 6 in the LED unit 7. Menu button 5 is used to enter the settings mode and change them. The receiver was powered by an external power adapter 21 with a mode of ~ 220V / + 5V. The elements of the receiver circuit block are powered by the “5.0V Power Supply” and the “3.3V Power Supply”.

The proposed receiver allows the transmission of audio information from sound reproducing devices and the reception of radio signals from external sensors.

The proposed receiver allows you to connect to the "gap" sound reproducing devices.

In addition, the proposed receiver is used to broadcast audio information from a TV (or other audio sources), to receive information on a radio channel from sensors, to connect a music center or other sound reproducing device.

The receiver can be used by a wide range of users.

Claims (1)

A receiver with an audio output containing a block diagram including interconnected electronic elements, namely: an antenna, a power supply unit, a digital-to-analog converter, a microcontroller, a frequency regulator, characterized in that it is equipped with a tone block with frequency regulators, the antenna is built-in and connected to the radio module, which is connected to the microcontroller, while the antenna and the radio module are interconnected with the possibility of direct and feedback, the microcontroller is connected to the menu button and the input of the LED control unit, connected to the input of the LED block, the microcontroller is connected to the “Mute” block, the output of the latter is connected in series with the input of the operational amplifier, a tone block equipped with treble, bass and volume controls, and a microcontroller, while the outputs of the tone block and microcontroller are connected to the operational amplifier 2, the last is connected with a linear output, in addition, the output of the Mute block is connected to the input of the operational amplifier 3, the output of which is connected to the input of the microcontroller, in addition, the microphone input is connected in series with the microphone the amplifier connected to the Mute unit, the optical input through a receiver equipped with an S / PDIF decoder and a digital-to-analog converter is connected to the Mute unit, the latter is interconnected with the outputs of line input 1 and line input 2 connected in parallel with each other, while -the circuit is equipped with a power supply, a contact for the power adapter and is located in a housing made in the form of a prism having a trapezoid in cross section, equipped with a cover with a light guide and supports located around the perimeter, on one of the side faces The setup button, volume control element, high frequency and low frequency tone control elements are installed, a U-shaped groove is located on the rear panel of the case, the power connector, S / PDIF connector, microphone input, line-in 1, linear are made in the central part input 2 and linear output, in addition, mounting holes are made opposite each other from the bottom of the housing.

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