JPH0736511B2 - Waveform generation method - Google Patents

Description

The present invention relates to a waveform generation method for obtaining an output waveform corresponding to an arbitrary input signal sequence using isolated response waveform data.
INDUSTRIAL APPLICABILITY The present invention can be applied to, for example, generating a line output waveform simulating a pseudo line.

(Prior Art) As this kind of waveform generating method, a method of forming a waveform by forming a pseudo line by a binary transversal filter (BTF) is known (for example, Matsue et al., "Examination of binary transversal filter"). , 1983 IEICE Technical Report, CS83-43, and Hiura et al., "Construction Method of Pulse Pattern Generator Simulating Line Loss Characteristics with Bridge Tap", 1984 IEICE General Conference, N
o.2318).

FIG. 2 shows an example of a known waveform generator of this type using BTF. 1,0 corresponding to the waveform you want to generate
An arbitrary signal sequence which is a signal sequence of is input to the shift register 1 from the input 101. The memory 2 is divided into a plurality of areas corresponding to the respective outputs of the shift register 1. In each area, data representing an isolated response waveform (a waveform which is a basic unit forming an output signal waveform) is stored in advance. There is.
Therefore, the isolated response waveform data corresponding to the 1 and 0 signal series input to the shift register 1 is read from the memory 2. That is, when the output of the shift register 1 is 1, the isolated response waveform data in the area corresponding to this is read. The isolated response waveform data thus read are added to each other by the adder circuit 3, whereby the output waveform data corresponding to the input signal series are combined. The output waveform data becomes an analog output waveform through the D / A converter 4 and the low pass filter 5.

This kind of conventional waveform generation method is used when the output waveform data can be combined only with one type of isolated response waveform data, for example, when the waveforms to be sent to a single line driver line are combined and generated. Is easily applicable.

(Problems to be Solved by the Invention) However, as in a bus interface circuit conforming to CCITT Recommendation I.430, for example, not only a waveform sent by one terminal device to a bus line but a plurality of terminal devices simultaneously transmit a bus In the case where it is also necessary to synthesize the waveform sent to the line, there is a problem that it is difficult to apply the conventional method because a plurality of isolated response waveform data are required.

Therefore, an object of the present invention is to provide a waveform generation method capable of synthesizing a plurality of isolated response waveform data.

(Means for Solving the Problem) The present invention is characterized by selecting and using one isolated response waveform data for each time slot from a plurality of isolated response waveform data. The conventional technique differs from the present invention in that the selection of data is stationary even if there is only one type of isolated response waveform data or there are multiple isolated response waveform data.

That is, according to the present invention, a plurality of sequences of isolated response waveform data are stored in a memory, the plurality of sequences of isolated response waveform data are read according to an input signal sequence, and each time slot of the input signal sequence is Provided is a waveform generation method for obtaining one output waveform corresponding to the input signal sequence by selecting one data from the read plurality of isolated response waveform data and adding the data of each selected time slot. It

(Embodiment) FIG. 1 schematically shows the configuration of a waveform generator as an embodiment of the present invention, in which 1 is a shift register, 2 is an isolated response waveform data memory, 3 is an adder circuit, and 4 is D / A converter, 5 is a low-pass filter, 6 is a selection circuit, 101 is an input signal series, 102 is an output waveform, and 103 is a selection signal.
The same reference numerals are used for the elements having the same configurations as those of the conventional waveform generator shown in FIG.

The operation of this waveform generator is as follows. First, the input signal series 101 is input to the shift register 1, and the isolated response waveform data corresponding to the input signal series is read from each memory 2. The configuration and operation of each memory 2 are exactly the same as those of the conventional waveform generator shown in FIG.

The isolated response waveform data read from the two memories 2 is input to the selection circuit 6, and the selection signal 10 is supplied for each time slot.
Depending on 3, the isolated response waveform data from one memory is selected. The selected isolated response waveform data is added to the adder circuit 3
Are added, and the output waveform data corresponding to the input signal series are combined. The output waveform data becomes an analog output waveform through the D / A converter 4 and the low pass filter 5.

With such a configuration, the isolated response waveform data memory 2 has isolated response waveforms in various states, for example, a pseudo line in the case of only one terminal device or in the case where a plurality of terminal devices simultaneously transmit. If you memorize the isolated response waveform, etc. from, and select and use each,
It is possible to synthesize output waveforms using a plurality of isolated response waveform data.

For example, in a bus interface circuit conforming to CCITT Recommendation I.430, it is regulated that frame bits are transmitted by a plurality of terminal devices at the same time, and other data bits are transmitted by one terminal device. The isolated response waveform data memory 2 stores the isolated response waveforms when one terminal device sends the data and the isolated response waveforms when a plurality of terminal devices send the data at the same time. It is possible to synthesize waveforms by controlling so as to select an isolated response waveform when the terminal devices simultaneously send the same and select the isolated response waveform when one terminal device sends the other time slots. .

It should be noted that the case where there are two types of isolated response waveform data has been described here, but the same can be applied to the case of combining three or more types of isolated response waveform data.

As is clear from this result, there is an effect that a plurality of isolated response waveform data can be combined as compared with the conventional technique.

As described above, according to the present invention, a plurality of isolated response waveform data is configured to be selected and used for each time slot. Therefore, the waveform of the CCITT Recommendation I.430 compliant bus interface circuit is used. Even when it is necessary to synthesize a plurality of isolated response waveforms, it is possible to easily generate such a synthesized waveform.

[Brief description of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is a block diagram of a conventional waveform synthesizing method of this type. 1 ... Shift register, 2 ... Isolated response waveform data memory, 3 ... Adding circuit, 4 ... D / A converter, 5 ... Low pass filter, 6 ... Selection circuit, 101 ... Input signal series, 102 ... … Output waveform, 103 …… Selection signal.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-52-13757 (JP, A) JP-B-55-42534 (JP, B2) 1. 1983 IEICE Technical Report CS83-43 "Examination of Binary Transversal Filter" 2. 1984, IEICE General Conference No. 2318 “Construction method of pulse pattern generator simulating line loss characteristics with bridge taps” 3. 1987 IEICE General Conference No. 1936 "Examination of waveform generation method for bus interface test"

Claims (1)

[Claims] 1. An output waveform corresponding to an input signal series by storing isolated response waveform data corresponding to the signal series in a memory and adding the isolated response waveform data read according to the input signal series. In the method of generating a waveform, a plurality of series of isolated response waveform data are stored in a memory, the plurality of series of isolated response waveform data are read out according to an input signal series, and for each time slot of the input signal series,
A waveform characterized in that an output waveform corresponding to the input signal sequence is obtained by selecting one data from the plurality of read out isolated response waveform data and adding the data of each selected time slot. Method of occurrence.