In General, in one aspect, an audio device includes a headphone driver; a mechanical housing adapted for use with the headphone driver; and an electrical equalization module adapted for use with the headphone driver and the mechanical housing. In some examples, the electrical equalization module includes an equalization circuit of at least second order.
Implementation may include one or more of the following features. The electrical equalization module may include an inductor, and the inductance may be less than 5 millihenries or may be less than 1 millihenry. The electrical equalization module may include a capacitor. The electrical equalization module may include two capacitors that are not connected in a simple series or simple parallel configuration. The electrical equalization module may include a bridged-T circuit. The bridged-T circuit may be electrically connected in series with the headphone driver. The electrical equalization module may include a capacitor and an inductor. The capacitor and inductor may be electrically connected to make a parallel combination. The parallel combination of inductor and capacitor may be electrically connected in series with the headphone driver. The inductor and capacitor may be electrically connected to make a series combination. The series combination of inductor and capacitor may be electrically connected in parallel with the headphone driver. The headphone driver and the mechanical housing may be configured for use as an in-ear headphone.
In general, in one aspect, an audio device includes a headphone driver; a mechanical housing configured for the headphone driver; and an electrical equalization module configured for the headphone driver and the mechanical housing. The equalization module has a frequency response with a notch shape. The notch shape may have a depth of greater than 3 dB relative to the response level at low frequencies or relative to the response level at high frequencies. The notch shape may have a center frequency in the range of 0.25 kHz to 10.
Referring to
The operation of headphone assembly 100 is as follows. An electrical audio signal from a source device such as a CD or MP3 player is connected to the electrical plug 108. The electrical signal is then equalized by the equalization module 106 which includes a number of electrical circuit elements such as 110, 112, 114, and 116. The electrical circuit elements 110, 112, 114, and 116 make up an equalization circuit which is shown in more detail in
Each headphone driver 101 has an equalization module 106. In some embodiments, there may be only one headphone driver 101 which is intended to be used in only one car.
The equalization module 106 contains electrical circuit elements that make up an electrical filter circuit. Electrical filter circuits can generally be categorized by the number of reactive components, which is related to the filter order. Capacitors and inductors are reactive components, but resistors are not reactive components. Multiple reactive components of the same type that are electrically connected in a simple series or simple parallel configuration can be combined into a single equivalent reactive component. The number of poles are zeros in the transfer function typically defines the order of the filter circuit, which in most cases is equal to the number of reactive components used in the filter circuit. A filter circuit with one reactive component is considered first order; a filter with two reactive components is second order; and so on.
First order filter circuits are limited in the frequency response shapes that can be realized. When used with a headset, and in particular an in-ear headset with a complex mechanical structure such as the Bose® In-Ear headphones, the desired equalization may be more complex than can be realized with a simple first order filter. If no external power source is present, the filter must be passive. Passive filter circuits must be designed taking into account both the load impedance of the filter and the source impedance, if a desired frequency response is to be realized. Passive filter circuits of second order or higher (compared to first order circuits) may require components with increased physical size and weight, and may have increased sensitivity to the output impedance of the source circuit.
Referring to
Size and weight are important parameters of the equalization module 106 when the equalization module 106 must be incorporated into a small and light structure such as an electrical connector or headphones that are carried in the ear or on the head. Active equalization modules require a separate power source which may be large and difficult to locate within the equalization module or the headphones. For the case of second order filters, passive equalization may be accomplished in a smaller physical space than active equalization, when the power supply is taken into account. For higher order filters, at some point active equalization will be smaller and lighter than passive equalization. The point at which the trade off occurs depends on the frequency range of the equalization, the amount of power needed, etc. In general, audio frequency filters greater than fourth order will be smaller and lighter when realized as active equalization, and filters of second order or less will be smaller when realized as passive filters.
Referring to
Referring again to
Referring to
It is desirable for the transfer function of an equalization module to maintain the same frequency response over a variety of source impedances. Maintaining frequency response shape reduces perceived variations in sound quality when headphones with equalization are used with devices of varying source impedance. Referring to
It can be seen that there is substantially more variation in overall response as a function of source impedance for the circuit of
It is evident that those skilled in the art may now make numerous uses and modifications of and departures from the specific apparatus and techniques herein disclosed without departing from the inventive concepts. Consequently, the invention is to be construed as embracing each and every novel feature and novel combination of features present in or possessed by the apparatus and techniques herein disclosed and limited solely by the spirit and scope of the appended claims.
This application is a continuation-in-part of U.S. patent application Ser. No. 11/428,057, filed Jun. 30, 2006 now U.S. Pat. No. 7,916,888. Headphones are sound reproduction devices worn on the listener's head. Equalization refers to electrical or physical means to modify the audible frequency response of the headphones to achieve a desired frequency response. Electrical equalization may be either active or passive. Active equalization uses complex circuitry such as integrated circuits that require an external power source. Passive equalization uses only simple circuit elements such as resistors, capacitors, and inductors, and does not require a separate power source.
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Number | Date | Country | |
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Parent | 11428057 | Jun 2006 | US |
Child | 11616365 | US |