The invention relates to a filter device particularly for devices for receiving television signals as well as a device for receiving television signals including a filter device.
Filter devices for devices for receiving television signals are known both for receiving analog television signals and for receiving digital television signals. With analog television signals, the transmission is achieved with a vestigial sideband modulation. This means that the sidebands are asymmetrically designed. In order to determine the baseband signal here, a Nyquist slope is therefore necessary, which brings the difference in the amplitude of the double-sideband range and of the single-sideband range into line with each other.
In known receiving devices the Nyquist slope is realized in the IF frequency range by external, what are referred to as SAW filters, which are also called Surface Acoustic Wave filters. These SAW filters produce channel selectivity and form a Nyquist slope. Due to the multiplicity of television standards worldwide, SAW filters forming different Nyquist slopes are necessary. These SAW filters forming different Nyquist slopes differ in the bandwidth, intermediate frequency and the width of the double-sideband range.
In more recent receiving devices, according to newer concepts for receiving multi-standard television signals, a window-SAW-filter is used instead of a multiplicity of SAW filters. The external SAW filter can also be avoided by an internal selectivity. In both cases, an integration of a Nyquist slope must be realized in order to be able to realize an analog television signal reception.
Typically, a window-SAW-filter is used for receiving digital television signals.
It is an object of the invention to design a filter device for receiving a vestigial sideband modulated signal particularly for receiving television signals with a Nyquist slope, which device needs reduced expenditure regarding the integration of hybrid television reception and has a common filter for analog and digital television signal reception. The filter device should bring the amplitude of the double-sideband range into line with the amplitude of the single-sideband range at least substantially. Further, it is an object to provide a device for receiving television signals including a filter device.
The object, according to the invention, is achieved in accordance with the characteristics of claim 1 and claim 9. Advantageous further embodiments are described in the dependent claims.
Advantageously, the invention provides a filter device particularly intended for receiving television signals, which receives input signals and generates output signals, wherein the filter device forms a Nyquist slope by means of a passive polyphase filter. Thus, the device can be used with a window-SAW-filter, which is also used for receiving digital television signals.
It is particularly advantageous, if the passive polyphase filter has at least one or a plurality of simple passive polyphase filter stages.
For using the filter device for different television standards it is expedient for the device to have a plurality of simple passive polyphase filter stages.
Particularly advantageous is the arrangement comprising a first simple passive polyphase filter stage, which is designed in such a way that each input phase (φ) is connected to the output of the same phase (φ) by means of a resistor R2, furthermore, a capacitor C connects the input of a phase (φ) to the output of a subsequent phase (φ+90°) respectively and resistor R1 connects an input of a phase (φ) to the inverted output (φ+180°) respectively.
Furthermore, it is expedient if a second simple passive polyphase filter stage is designed in such a way that each input phase (φ) is connected to the output of the same phase (φ) by means of a resistor R and furthermore, a capacitor C connects the input of a phase (φ) to the output of a subsequent phase (φ+90°) respectively.
It is particularly advantageous, if at least one first simple polyphase filter stage is used. In addition, it may be expedient if before or after the first simple polyphase filter stage further and different polyphase filter stages are also provided if necessary. Herein, the sequence of the individual passive polyphase filter stages may be interchanged.
It is particularly advantageous that a good linearity is achieved, because no active components are needed. The Nyquist filter can also be extended to a filter for suppressing the image frequencies, in order to reduce or prevent interference from the adjacent channels.
These and other aspects of the invention are apparent from and will be elucidated with reference to the embodiments described hereinafter.
In the drawings:
a gives a schematic representation of a simple passive polyphase filter stage,
b shows a diagram of an amplitude response as a function of frequency,
a gives a schematic representation of a simple passive polyphase filter stage,
b shows a diagram of an amplitude response as a function of frequency; and
The invention proposes to carry out a filtering with a Nyquist slope by means of a passive polyphase filter 10, as represented in
The simple passive polyphase filter stage according to
In
The simple passive polyphase filter stage according to
This transfer function has a zero position with the imaginary frequency f01:
and has a pole with the negative real frequency fx1:
The amplitude response IHI is represented in
b shows a further simple passive polyphase filter stage 30, which is formed in such a way that each input (φ), in
The transfer function results in:
The transfer function has a zero position with the imaginary frequency f02:
and has poles with negative real frequency fx2:
The amplitude response IHI is represented in
In order to form a Nyquist slope, a simple passive polyphase filter stage according to
In order to use one Nyquist slope for various television standards and manage a process variation it is suggested according to the invention that the zero position be shifted to a lower frequency particularly nearer to 0 Hz and that the higher negative frequencies of the double-sideband signal be suppressed by additional simple passive polyphase filter stages as represented in
Here, the further simple passive polyphase filter stages may be stages according to
|H(P=0)|=H10*H20* . . . *HNO=½.
Using a plurality of different stages allows the image frequency gain over a further frequency range and the optimization of the amplitude waviness of the passband.
Number | Date | Country | Kind |
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06100400.8 | Jan 2006 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/000331 | 1/16/2007 | WO | 00 | 7/16/2008 |