JPH0342728B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to digital signal processing, and is capable of effectively performing calculations within the range of the number of A/D (analog/digital) conversion bits, and when implementing LSI.
The present invention relates to transversal filters that can be easily connected in cascade.

Configuration of a conventional example and its problems Hereinafter, a conventional transversal filter will be described with reference to the drawings. Figure 1 is a block diagram of a conventional transversal filter.
W ₀ ...W ₁ ...W _i ...W _N-1 is N multipliers, A ₀
...A ₁ ...A _i ...A _N-2 is N-1 adders, D ₁
...D ₂ ...D _i ...D _N-1 are N-2 delay circuits.

Here, the input digital signal is transmitted to the multipliers W ₀ ...W ₁ ...W _i ... connected in parallel.
W _N-1 , the output of this multiplier W _i is connected to one input terminal of the adder A _i , and the output of the multiplier W _i
Another input terminal of is connected to the output terminal of the delay circuit (D _i+1 ), and an output terminal of the adder circuit A _i is connected to the input terminal of the delay circuit D _i .

In the above configuration, the number of stages of the transversal filter is fixed when it is converted into an LSI, and to change the number of stages, a new LSI must be created.

Furthermore, the following problems will be explained using FIGS. 2, 3, and 4. Figure 2 shows the case where the input signal is a video signal, and generally the pedestal level LP
However, in order to perform calculations effectively within the A/D conversion range indicated by S and the limited number of bits used in filters, the pedestal level is often offset, and this offset voltage V is _V1 . It shows something.

FIG. 3 is a diagram showing an example of the tap gain of a transversal filter, with delay times t=o and t
= n is given a gain of 1 and 1/2.

FIG. 4 shows an output signal when the video signal shown in FIG. 2 is input to a transversal filter having the tap gain shown in FIG. Fourth
As is clear from the figure, by passing through the transversal filter, a new DC component is added, resulting in an offset voltage V of _1.5V1 , which causes the video signal to deviate from the A/D conversion range S, resulting in incorrect calculation results. There was a problem in that the problem occurred.

Object of the invention The object of the invention is to have an offset register,
Another object of the present invention is to provide a transversal filter having a configuration that allows easy cascade connection when integrated into LSI.

Configuration of the Invention The transversal filter of the present invention includes (N+M+1) multipliers that process digital signals.
W _-N ...W ₀ ...W _i ...W _M , and (N+M+1) adders A _-N ... which add two digital signals.
...A ₀ ...A _i ...A _M , and (N+M+1) delay circuits D _-N ...D ₀ ...
...D _i ...D _M , an offset register for offsetting the input signal, and a switch SW for switching the offset register, and for the input digital signal, the (N+M+1) multipliers
W _-N ...W ₀ ...W _i ...W _M are connected in parallel, the output of the multiplier W _i is connected to one input terminal of the adder A _i , and the output of the multiplier W i is connected to one input terminal of the adder A _i . The other input terminal is connected to the output terminal of the delay circuit D _i-1 , the movable terminal of a changeover switch is connected to one input terminal of the adder A _-N , and the off switch is connected to one fixed terminal of the switch. A set register is connected, and the other fixed terminal is connected to the connection terminal, and the offset register is configured to be controlled by the output of the final delay circuit, thereby offset the DC component generated in the transversal filter. to perform calculations effectively within the range of the number of A/D conversion bits, and
When implementing LSI, the number of transversal filter stages can be set arbitrarily by connecting chips in cascade.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 5 is a block diagram of a transversal filter according to an embodiment of the present invention. In Figure 5, W _-N ...W ₀ ...W _i ...W _M
are (N+M+1) multipliers, A _-N ...A ₀ ...A _i ...A _M is an adder that adds 32 digital signals, D _-N ...D ₀ ...D _i ...
D _M is (N+M+1) delay circuits, and SW is a changeover switch for changing over the offset register. One fixed terminal a is connected to the connection terminal C, and the other fixed terminal b is connected to the offset register 3. Also,
1 is a basic block composed of one each of a multiplier, an adder, and a delay circuit, and 2 is a block composed of a plurality of the basic blocks of 1.

The operation of the transversal filter configured as described above will be described below. In order to obtain a transversal filter with the desired number of stages, it is sufficient to prepare the necessary number of basic blocks 1. For example, block 2 obtained in this way
To make it into an LSI with only one input signal, all you have to do is switch the switch SW to the fixed terminal b side and connect it to the offset register 3. The value of the offset register may be set to cancel the DC component. The setting of this offset register is
Control is possible by both hardware and software. Furthermore, when it is necessary to change the number of stages of the transversal filter, switch the switch SW to the fixed terminal a side, connect the output of the block to be added to the connection terminal c, and connect the switch SW of the first stage block to the input signal. By switching to the fixed terminal b side and setting the offset register, it is possible to cancel the DC component of the entire transversal filter and bring the input signal within the A/D conversion range.

Effects of the Invention As is clear from the above description, the present invention provides multipliers, adders, delay circuits, offset registers,
It is a transversal filter composed of switches, and by cascade-connecting chips when implementing LSI, it is possible to easily obtain a transversal filter with any number of stages as required. By offsetting the components, it is possible to effectively perform calculations within the range of the number of bits of A/D conversion.

[Brief explanation of drawings]

Figure 1 is a block diagram of a conventional transversal filter, Figure 2 is a waveform diagram of an input video signal, Figure 3 is a conceptual diagram showing the relationship between time and tap gain, Figure 4 is a waveform diagram of an output video signal, FIG. 5 is a block diagram of a transversal filter according to an embodiment of the present invention. W ₀ …W _i …W _N-1 …multiplier, A ₀ …A ₁ …A _i …
A _N-2 ...Adder, D ₀ ...D _i ...D _N-1 ...Delay circuit,
W _-N …W ₀ …W _i …W _M …multiplier, A _-N …A ₀ …A _i …
A _M ...Adder, D _-N ...D ₀ ...D _i ...D _M ...Delay circuit,
1...Basic block, 2...Block, SW...
Changeover switch, a, b...fixed terminal, c...connection terminal.

Claims (1)

[Claims] 1. (N+M+1) multipliers W _-N ...W _O ...W _i ...W _M that process digital signals, and (N+M+1) adders A _-N ...A that add two digital signals. _O ...A _i ...A _M , and (N+M+1) delay circuits D _-N ... that delay digital signals.
...D _O ...D _i ...D _M , an offset register that offsets the DC component of the digital signal input to the transversal filter so that it falls within the A/D conversion range, and this offset register is switched. The (N+M+1) multipliers W _-N ...W _O ...W _i ...W _M are connected in parallel to the input digital signal, and the output of the multiplier W _i is equipped with a switch SW. A terminal is connected to one input terminal of the adder A _i , and another input terminal of the adder A _i is connected to an output terminal of the delay circuit D _i-1 , and the adder A _−N A movable terminal of a changeover switch is connected to one input terminal of the changeover switch, the offset register is connected to one fixed terminal of the changeover switch, another fixed terminal is connected to a connecting terminal, and the offset register is connected to the final delay terminal. A transversal filter configured to be controlled by the output of a circuit.