arrow_back_ios

Main Menu

See All Simulação e Análise See All DAQ See All Drivers API See All Utilitário See All Controle de vibração See All Calibração See All DAQ See All Portátil See All Industrial See All Analisadores de potência See All Condicionadores de sinal See All Acústica See All Tensão e Corrente See All Deslocamento See All Força See All Células de carga See All Multicomponente See All Pressão See All Deformação See All Strain Gauges See All Temperatura See All Inclinação See All Torque See All Vibração See All Acessórios See All Controladores See All Excitadores de medição See All Excitadores modais See All Amplificadores de potência See All Sistemas Shaker See All Soluções de teste See All Atuadores See All Motores de combustão See All Durabilidade See All eDrive See All Sensores de teste de produção See All Caixas de transmissão See All Turbo Charger See All Cursos de formação See All Acústica See All Monitorização de activos e processos See All Energia eléctrica See All Sensores personalizados See All NVH See All Sensores personalizados do OEM See All Vibração See All Integridade estrutural See All Transporte automotivo e terrestre
arrow_back_ios

Main Menu

See All nCode - Análise de Durabilidade e Fadiga See All ReliaSoft - Análise e gerenciamento de confiabilidade See All API See All Ruído do produto See All Ruído de passagem de veículos See All Electroacoustics See All Identificação da fonte de ruído See All Ruído ambiental See All O que é potência sonora e pressão sonora See All Certificação de ruído See All Teste de produção e garantia de qualidade See All Análise e Diagnóstico de Máquinas See All Monitoramento de integridade estrutural See All Teste de bateria See All Introdução à Medição de Energia Elétrica Durante Transitórios See All Diagrama de circuito equivalente do transformador | HBM See All Sensores OEM para a indústria agrícola See All Sensores OEM para aplicações robóticas e de torque See All Dinâmica estrutural See All Ensaio das propriedades dos materiais

Áudio

Imagem do herói

As the world of communication and entertainment evolves at a relentless pace, speech intelligibility and sound quality are crucial factors in meeting today’s consumer expectations for any device reproducing music or transmitting speech.

Manufacturers of electroacoustic equipment are under continuous pressure to deliver high‐quality acoustic performance by continuously innovating and optimizing their products and processes – from design, development, manufacture and beyond.

pictogram icon graphic of sound waves in an ear

Realismo sem precedentes

Nosso HATS fornece realismo de áudio sem precedentes por meio da reprodução física das características do ouvido humano, reduzindo os tempos de desenvolvimento de produtos e melhorando a qualidade de áudio para os consumidores.

 

pictogram icon graphic representing the value of the brand

Protegendo o valor da marca de nossos clientes

Medições precisas e reproduzíveis em todo o ciclo de vida do produto, garantindo que produtos de qualidade sejam entregues ao cliente.

pictogram icon graphic  quality

Proporcionando paz de espírito

Os clientes esperam e recebem qualidade e confiabilidade garantidas nos produtos que entregamos.

Seu parceiro durante todo o ciclo de vida do produto  

New electroacoustic devices such as mobile phones, tablets, and speakers keep pushing the boundaries of design, with manufacturers trying to squeeze in ever-more impressive capabilities while fulfilling international telephone standards for voice capture and reproduction. With HBK speech and hearing simulation solutions, manufacturers can accurately evaluate their products to provide advanced acoustic and electronic signal processing combined with superior design.

Protecting brand value increasingly requires living up to the quality expectations of customers, and manufacturers are constantly enhancing production tests to ensure and maintain the quality achieved in design and development. Applying HBK knowledge and systems to production testing gives a competitive advantage to products, ensuring products live up to consumer expectations and international regulations and standards. 

With the products in the hands of consumers, now is the time for manufacturers to learn from the mistakes made in the introduction and growth stages. Data collected from products returned for service or repair can be gathered and used not only for immediate fixes but also for extended product life and future development. Using HBK's acoustic test products allows rapid evaluation of returned products, improving customers’ understanding of in-service issues.

Principais áreas de aplicação

chevron_left
chevron_right
man smiling and talking on the mobile phone

Advances in high-speed technology has changed the way we communicate, with the mobile phone – with an estimated installed base of 6.3 billion – largely responsible for this evolution. Constant connectivity – often to several devices simultaneously – is affecting our daily lives and the way we socialize. We demand high-quality audio in every situation – from chatting on the phone on a busy street to taking business calls in a car. And to stay ahead of the game, manufacturers must deliver the quality of sound as promised by the brand.

hearing aid tested in an ear, with a graphic of sound waves in front

An estimated 1.5 billion people suffering some form of hearing loss globally, an ageing population and a growing and substantial incidence of hearing loss among young people (most likely as a result of excessive noise exposure) are all fuelling the market for audiology devices. The challenges facing today’s manufacturers not only relate to sound quality and background noise rejection, but increasingly to personalisation and design for specific inner and outer ear conditions.

Condução óssea

A tecnologia de condução óssea contorna o ouvido externo e médio para transmitir som à cóclea. Saiba mais sobre nossa solução para a medição de dispositivos de condução óssea usados em audiologia e comunicação.

woman music listening headphones music train window looking passenger sitting public transport

Audio performance has become increasingly important to our everyday lives, both in entertainment but also, crucially in communication, where real-time global meetings between multiple people are held in often challenging environments with high background noise levels. Addressing these issues requires complex designs and accurate measurements to ensure customer satisfaction with the audio quality.

Histórias de nossos clientes

Informações sobre o setor

Uma nova abordagem para a avaliação de artefatos BSR na reprodução de áudio

Audio speaker. The musical equipment. Close-up

There are many, well-established approaches to measuring and evaluating distortion that impact audio quality in products.

 

THD and rub & buzz metrics are used for evaluating harmonic distortion and the PEAQ algorithm is effective in evaluating total distortion when accurate and aligned reference signals are available. But the harmonic metrics cannot evaluate many artifacts that are characterized as buzz, squeaks, or rattles (BSR) when not coherent with the source, and the PEAQ algorithm is optimized for detecting small impairments from various general audio issues and depends on accurate time-alignment of the reference and output signals.

 

An alternative approach, using a difference model of time-varying loudness, is proposed.

Por que gostamos do som das gravações analógicas quando as medições parecem ruins?

A needle on a turntable that plays music

Simple frequency response measurements were made on a range of sound reproduction systems including:

 

1. Compact disc

2. Streaming audio (MP3)

3. A vinyl record player

 

The measurements were then compared to a simple 'blind listening test' involving a small group of listeners. Based on frequency response alone, it is clear that the measurements do not correlate to listener preference.

 

To deliver quality sound, it is essential to analyze the sound produced by your device during the development phase, as well as ensuring the audio quality is maintained during manufacturing.

Testando microalto-falantes piezoelétricos MEMS

BANGKOK THAILAND : Apple launch new earphone Airpods Pro on December 5 ,2019 bangkok ,thailand

Advancements in MEMS fabrication processes have resulted in a new micro- speaker using piezoelectric materials to actuate an acoustic structure. The radiating surface or membrane has many desirable attributes including, stiffness/rigidity, lightweight, high break-up, fast transient response, low thermal expansion, and moisture/humidity resistance. Packaged in a familiar semiconductor housing, these piezoelectric MEMS micro-speakers are SMT reflowable on flex/PCB or can be soldered with leads. Full Hi-Resolution/HD audio with 20 Hz to 20 kHz bandwidth is achieved in an occluded earbud design.

 

This presentation details the challenges of making audio measurements with piezoelectric MEMS micro-speakers using HBK's Type 3670 audio interface with Type 4157 coupler and Type 4620 ear simulators.

close

Entre em contato com a HBK