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JPS4979203

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DESCRIPTION JPS4979203
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows an example of the signal displayed on the
cathode ray tube of the oscilloscope by the conventional display device, and FIG. 2 shows an
example of drawing a square signal on the cathode ray tube of the oscilloscope. 2 and FIG. 2
show an example of the waveform input to the oscilloscope when drawing the square signal of
the same figure, and FIG. 3 No) shows the cathode ray tube of the oscilloscope from the
periphery of the display surface toward the center FIG. 3 shows an example of drawing an
extending signal, FIG. 3 shows an example of a process of forming a waveform for input to an
oscilloscope when drawing a signal extending toward the center of FIG. 3, FIG. 4 Input a signal
into the second phenomenon oscilloscope when the signal is input to the second channel of the
two phenomenon oscilloscope to draw a signal extending from the periphery to the center of the
CRT surface of the two phenomenon oscilloscope. Figure 5 shows an example of the waveform
and its timing relationship. Figure 5 shows the waveform input to the two-phenometer
oscilloscope if the same eight signals extending from the periphery to the center of the CRT
display surface of the two-phenometer oscilloscope are drawn. 6 shows an example of the timing
relationship, FIG. 6 is a diagram showing the construction of an embodiment of the display
device according to the present invention, and FIG. 7 is a signal outputted from the 8-division
circuit of FIG. 8 shows the configuration of the display signal formation circuit of FIG. 6, FIG. 9
and FIG. 10 show a part of the emitter follower circuit of FIG. It is a circuit diagram shown. 21 ......
2 oscilloscope, 61 ...... 8-channel stereo, 62 ...... Display signal generation circuit, 71 ииииии clock
pulses generating circuit, 72 ... и и и 8 divider circuit. 1-9 (2) Fig. 2 (a) (b) To the H axis 11111 11
111 111 111 {11 I 111 111 1 11 11; 3) Fig. 3 (Ha) 35 1 1 1 1 1 1 2 1 1 W 4 ? 9 r (2) 1 1 ? ?
1 9 ? Seiichi tJ 233 623 + 25 ? 5) 1 ?-1 1 1 1 M 7 W 6 ? 0 " (37711 I-real opening 49-79
203 (4) Fig. 4 Fig. 1 1 1 1 1 1 1 1 11 1 ra c? d "e" t "f" 4 lj + I "1111 axis -12-real opening 4979203 (5) Figure 5 52 contours 5455561ll1. +111 lSQ ? h-f-i + JJ kn'1 gate jl- + 1 + 11'11.1 '.
151 fields 59 ~ o 1 'tq> 2p 9 ? Axis to the 1+ inkill 9} 11) fiJ to 61,-fi 2 doo innere ? 4!
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? ? ? / ? 5-13-49 49-79 203 (6) 1 u 'Figure 6 Figure 1-73 ? ? I 1-1 1 1 1 1 1 1 1 ?1 L 1 t
74 "" "One one F F" one one two one one two two four five five "," one one one one one one one
one one one 76 one two one eight one seven one one "-= 178-, one-one-one- one-one-one-one-tone-one-chome L79-t ? \ one-one-one-one-one-- two "one-one-t- 14-real opening Akira 4979203 (7) Fig. 8----------------------------------------------------------203------------------------------------------
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a display device
used for .theta. That displays the sound field of the sound that is output for each channel of, for
example, eight channel stereo. Conventionally, in the case of the stereo sound field display, in the
case of this stereo ?4 channel stereo, a sound source is virtualized at the center of the cathode
ray tube of the oscilloscope 11 as shown in IIIIWJ # C, and a display in which this sound source
radiates in four directions The However, the reality fH sound If is located in the west, and the
sound comes from four directions to the center. Therefore, if the audience is virtually in the
center of the Braun tube O, the visual sense of viewing the display device, and the sound of * IIf,
which is opposite to sense of O for sense of hearing #C, is not practical and preferable &
desirable The Then, when listening to the 8 channel stereo by Tede Record, etc., there are 1i1i *
of the simultaneous f8 direction, and the sound field of the sound source is actually displayed by
the display device from the display device. In order to become an even better ant if possible, the
realization of the device has been described in the past. The present invention is regarded as @
under the above-mentioned circumstances, and the position of the signal of 8 or less companies
to be observed visually is set on the peripheral edge of the Braun tube O display surface, and the
respective signal levels are set. The present invention provides a display device capable of
causing a signal extending toward the center of a cathode ray tube to be proportionate to the
signal. An embodiment of the present invention will be described below with reference to FIGS. 2
to 1011. f'fkty, mSmfOKkvs, xxB2 phenomenon oscilloscope, O3 phenomenon Oshiros Co. fJJO
1st channel vertical deflection input terminal (hereinafter abbreviated as V axis), as shown in FIG.
The square wave signal (a) with a period of 2 21 r is input and the phase of the square wave
signal (&) is 114 out of phase, and the period is 941. When the square wave signal ibl whose
amplitude is the same as that of the square wave signal 1 ml is input to the horizontal deflection
input terminal (hereinafter abbreviated as H axis) of the Ill channel, the Braun tube of the two
phenomenon Oshida scope 21 is square The signal 22 can be turned on. Further, the phase of
the square wave signal (a power form wave signal xs, za, zs, sir to the V axis and the square wave
signal ?) is divided into four equal parts without dividing al by phase, polarity and amplitude,
Even if the square wave signal 21.2 B or 19.30 which is divided into four equal parts without
changing the polarity and amplitude is inputted to the H axis, the square signal 22 must be
drawn on the Braun tube by itself. .
By the way, as shown in the oscilloscope 21f) CRT, 8M (c) k, 1 CRT OI! Get the signals 11, 12,
33.14 that extend from the li direction to the center # c # f% Square wave signal 23 to JOK
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described in FIG. 2 for example, for example, an audio signal may be superimposed ?? In this
case, As shown in e, l-J, 8111-JK, the audio signal 15 of the corporate polarity is superimposed
on the square wave signal JJK of, for example, positive polarity, and the signal 16 superimposed
over the entire O audio signal S5 is displayed. For example, the negative signal 07 # is generated
by amplifying the O signal 16 and adjusting one quasi level to generate the signal 23 'in which
the audio signal is superimposed in the section O having amplitude, for example, for the negative
polarity 07F wave signal 25 # c. A signal 31 on which the positive polarity audio signal 31 is
superimposed or a signal 31 on which the ?O audio signal 31 is totally superimposed is
obtained, and this signal 38 is amplified to adjust the ?1 ? level, and the audio signal is only in
the section with ?- Superimposed It is sufficient to create the signal 25 '. & & Other positive
square wave signals! ??? ?? 2 g, negative O way JM ? signals xs, xi, xy. 41 i 141) e about
sef and say. Further, the z phenomenon oscilloscope JNO the second channel by the signal sr, ax
described in 811. A signal ml, 4M, which extends towards the center of the decalin tube as shown
at 1st 411 in each of the 13.34. If k to obtain 43.44, input the signal 45 in which the audio signal
is superimposed on the section O with amplitude to the v axis of the second channel and do the
signal 46 on the second channel H axis manually-here In the signal 45.46, the signal 45 () period
is 21C, and this periodic division is divided into four O's, that is, a section (C) of positive polarity
amplitude, zero amplitude Section fdl, negative polarity * se section (и), section of amplitude zero
(t) divided by K и And these four sections are each 0 in island и Also the signal 46 also has a cycle
of zr, This cycle can be divided into four sections, but this winding, IIIf! A section of positive
polarity amplitude of the signal 45 (al # j 91 # has a section corresponding to an amplitude zero
section (al K corresponds to a section of a negative polarity amplitude corresponding to a section
of zero line width, a section of negative polarity width (al?) K corresponds to the zero amplitude
section **, and ll l l l i l 0 ? f (f) K corresponds to the positive polarity ? -O ?. Based on the idea
above, in order to draw eight signals 51 to S8 at the same time on the cathode ray tube of the
two phenomenon oscilloscope 21 as shown at 1 5111, an audio signal corresponding to the
darkness at that time is only in the section with amplitude. The superimposed signal 59 is the
two phenomenon oscilloscope zxoli!
The 1 axis of the 1 channel is input, the signal 60 is input to the H axis of the first channel, the
signal 61 is input to the V axis of the 1112 channel of the 2 m elephant oscosis unit 21, and the
signal 62 is input of the 2nd channel. Input to the H axis. Here, each of the signals 59, 50 and 67
░ 62 is 2r for each of the signals 08. First, one cycle of the signal 59 is a section of positive
polarity amplitude (gl, a section of plus width zero, th +, a section of positive polarity amplitude
(1), a section of zero positive width (j), a section of negative polarity amplitude (lead, amplitude
zero Interval (t), interval of negative amplitude -1 interval of zero amplitude 1! The signal is
divided into eight sections in order of 110 and input to the gas oscilloscope 21 and the V axis of
the first channel. The preceding 1 interval is divided by LL with respect to the signal 5ptvlllt NIJ
2?. Further, the signal 60 Fi positive amplitude in the section 1 gl, negative amplitude in the
section (in the region (1), negative polarity t1 @ in the section (1), negative amplitude in the
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section (J), negative polarity m @ in the section 1 kl , The section (! ) In Fi amplitude zero, #! The
section-is a positive polarity amplitude, and the section (in the case of ni, the amplitude is zero
and is correspondingly input to the H axis of the first channel of the front IIJ2 phenomenon
oscilloscope 21. In addition, the signal 61 # 'i in the section 1. In +, the amplitude is zero, in the
interval (in kl positive amplitude, in the interval (11 tjl, tkl), the amplitude is negative, in the
interval t4 is negative, and in the interval -2 (n) the amplitude is zero. , 1lJt! The V axis of the
second channel of the two phenomenon oscilloscope 21 is manually input. Further, the signal 62
has lII: section igl, fhl, # in (1) with a width of zero, the section 1j1 or negative polarity amplitude,
the segment kl, +71,-amplitude zero, and the section fnl positive polarity amplitude
Corresponding to 111 + 1! The phenomenon is manually input to the H axis of the 2nd channel
of the 2 phenomena oscilloscope 21. Therefore, the signal of the section 1g + corresponds to the
signal 51 of the cathode ray tube of the two phenomena ?Oshiros? -de 2 no, and corresponds
to the signal 51 of the cathode ray tube of the signal company III of kl The signal of sII & 1
section 1jl corresponds to the signal 54 of the llff distribution Delaunay pipe, the signal of the
section (-corresponds to the signal 55IC of the plow / tube, and the section Signal corresponds to
the signal 56 # c of the plastic 5+ tube, the signal of the section ? corresponds to the signal 51
of the Braun tube, and the signal of the section fat becomes the kernel corresponding to the
Braun tube O signal 58 0 In order to display the sound field of 8-channel stereo according to
Tede Recau / Ic, the speakers 51-53, 55, 51 emit the light from the front right speaker
respectively. Sound, the sound from the front left speaker, the sound from the rear left speaker,
and the sound from the rear right speaker should correspond to each other.
And for the signals 52, 54 ░ 5g, 5Jk of the CRT, the sound emitted from the center speaker
between the front and left speakers, the sound emitted from the center speaker between the left
and right speakers, and the rear left and right speakers The sound emitted from the middle
speaker in between and the sound emitted from the middle speaker between the right # Australia
speakers can be matched. Therefore, as shown in FIG. 6, it is possible to configure f111 as shown
in FIG. That is, 61 is an 8-channel stereo, and an audio signal from each channel of this 8-channel
stereo 6 is also led to a display signal forming circuit 62 # c. That is, the audio signal line 63 of
the sound emitted from the front right speaker, the audio signal line 64 of the sound emitted
from the center speaker between the front left and right speakers, the audio signal line 65 of the
sound emitted from the front left speaker, between the left and right front speakers Audio signal
line 66 of the sound emitted from the middle speaker, audio signal line 67 of the sound emitted
from the rear left speaker, audio signal line 68 of the sound emitted from the center speaker
between the rear left and right speakers, sound emitted from the rear right speaker Each of the
audio signal lines 69, the audio signal lines 70 of the center speaker fluttering sound between
the right front and rear speakers is connected to the display signal form am path 62. On the
other hand, 71 is a clock pulse generation-path, and the output of this click pulse generation
circuit 21 is led by a divide-by-eight circuit yxe 0 U-no ? 0 and from this divide-by-eight circuit
7z, as shown in FIG. As indicated by TC, a signal 13 to 80 of which the cycle is m-and four-
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character correction ifIr / 4 from rising to falling are obtained. Then, the O signal, Nos. 13 to 80
are inverted according to the membership fee and led to the display signal forming circuit 62.
The display signal forming circuit 62 is configured as shown in FIG. That is, the 1st audio signal
line 63, 64, 65, 66, 61 companies reverse diode 81, reverse diode 81, reverse diode 82, forward
diode 83, forward diode 84, forward diode 84, forward diode 85, forward diode, respectively. It is
connected to the emitter follower circuits 119, 90, 91, 92, 93, 94, and 95 ░ 96 through reverse
direction diodes-P87 and reverse direction diodes r88, respectively. Then, an output terminal
97.degree. 97 'of the fore station emitter follower circuit 8 # must be taken out, and an audio
signal of this output end 97.97' K1-4 l & polarity appears.
Then, the signal 73 of FIG. 7 derived from the divide-by-8 circuit 1z has a positive polarity and is
added to each of the output terminals 91 and 97 '. Then, the audio signal of the output terminal
97. 97 'is superimposed. Since the signal synthesized at the output end 91 ░ 92 'corresponds to
the section tglK described in FIG. 5, it is connected to the first channel Ov axis of the output end
97 Fi 21 J oscilloscope 21 and the output end 91' company It is connected to the island H of the
first channel. Further, '# 11 output terminals 98 are taken out from the emitter follower circuit
90, and this output terminal 9JKtlj is an audio signal of negative polarity. Then, the signal 74 of
FIG. 7 derived from the 8-point Ig circuit 72 is added with positive polarity. Then, the audio
signal of this output end 98 is directed. And the signal which has just branched at this output end
98 is a section fhlK corresponding to the section fhlK shown in FIG. 5, IIII &! The output end 98
is connected to the V-axis of the IIM 2 oscilloscope 200 z-channel. The emitter follower circuit
91 fp et al. H. Two output terminals 99, 99 'are taken out, an audio signal of negative polarity
appears at the output terminal 99, and an audio signal of positive polarity appears at the output
terminal 99'. {Circle over (2)} The signal 25-S in FIG. 7 led to the 2-S and the # 18 frequency
divider circuit 72 is of positive polarity, and the output end 99 'KFJ is of negative polarity. In the
unlikely event that the .99 'video signal is superimposed. The signals synthesized at the output
terminals 99 and 99 'correspond to the section (1) described in FIG. 5, so the output terminal 99
is # 1 !. The output terminal 99 'is connected to the V axis of the first channel, and the output
end 99' is connected to the Hh of the #Glyose 1 channel. Also, the emitter follower circuit 92 is a
single output end 1006; an output end 100 KId positive audio signal appears. Then, the signal 16
of FIG. 7 which is divided by 8 is added at the output terminal J00JCh in negative polarity, and
the output terminal 1000 audio signal is superimposed. The signal synthesized at the output end
100 is the fifth F1! Since the output end 100 corresponds to the section (j) described in J, the H
axis of the @ 2 channel of the two phenomenon oscilloscope 2J is connected. Further, two eight
output terminals 101 and 101'f are taken out from the emitter follower 1 and the audio
terminals of positive polarity appear respectively at the output terminals J01 and 101'K1-4.
And the signal yy in FIG. 7 where the divide-by-eight circuit 72 is also led out 6 = the output end
101. The audio signals of the output terminals IQI and 101 'are respectively superimposed on
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the IOJ's with negative polarity. Since the signal synthesized at the output end 101 ░ 101 ?
corresponds to the section tkl described in FIG. 5, the signal is connected to the V axis of the first
channel of the output side 101 of the elephant oscillation scope 21 in advance. The output end
101 'is connected to the H axis of the first channel. Further, one output end 102 is taken out
from the 1-Mittita follower circuit 94, and an audio signal of this output end pope # i positive
polarity appears. The signal 78 in FIG. 7 derived from the divide-by-8 circuit 72 is applied to the
output end 102 with negative polarity, and the audio signal of the output end 102 is
superimposed. Then, the signal synthesized at the output end 102 is connected to the second
channel Ov axis of the B phenomenon oscilloscope 21 since the signal (corresponding to the
section 71 in FIG. 5 corresponds to the section 71). -. Also, the emitter circuit 95-h et al. Take out
two output terminals 103 ░ 103 ', an output @ 10JILC shows an audio signal of positive
polarity, and an output @ ros'tc shows a negative O audio signal. Then, the signal 19 of FIG. 7
derived from the 8-minute 11l 1 path 72 is added with the output end 10J 'with positive polarity
at the output end xosKti * polarity, and the audio signal of the output end ios, ios' Are
superimposed respectively. And since the signal synthesized at the output end 103, 103
'corresponds to the section-? described in the first drawing, the output end 103 is connected to
the V axis of the first channel of the two phenomenon oscillatory cos- The output end 103'Fi is
connected to the H axis of the annex 1 channel. Further, # 11 output terminals 104 are taken out
from the emitter follower circuit 96, and an audio signal of negative polarity appears at this
output end 104. Then, the signal 80 of FIG. 7 which is derived from the divide-by-8 circuit r2 is
added with the output end zo4KiE equal to the output end zo4 KiE, and the audio signal of the
output end 104 is superimposed. Since the signal synthesized at the output end 104 corresponds
to the section (n) K described in FIG. 5, the output end 104 is connected to the H axis of the
second channel of the 2 @ image oscilloscope 21. . In the above description, for example, two
output ends 97 and 97 'are taken out from the emitter follower circuit 89 and a negative polarity
O audio signal is led to the respective output ends 97. 97'. The circuit as shown was used.
That is, the audio signal led to the signal line 63 is input to the base of the KNPN type # + 2
transistor TrJ when it is manually input to the base of the NPN type first transistors Tvl through
the reverse direction diode -Vlll. Ru. Then, the output of the first transistor 91 is taken out and
the negative audio signal conducted to the output end 91 and the emitter of the second transistor
92 are taken out, the skewed output end 97 Audio signal to be led to '* Polarity audio signal and
? 6 ? ? Also for example emitter follower circuit # 1 two O output terminal 99.99', output
terminal 99jlCu negative audio signal, output terminal 99 'positive polarity The audio signal is
derived, but a circuit as shown in FIG. That is, the audio signal having the signal line 66KII & is
input to the pace of the dedicated transistor Tri through the diode 83 in the forward direction O
and the output is taken out from the collector of the transistor Tr5 and is negative polarity led to
the output end 99 Audio signal and the positive polarity audio signal taken out of the emitter of
the transistor Tr5 to be output to the output terminal 99 '. O According to the display apparatus
of the above configuration, an 8-channel stereo sound field is displayed If it is assumed that the
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viewing position is at the center of the cathode ray tube of the 2 phenomenon oscilloscope 21,
the cathode ray tube of the 8 phenomenon oscilloscope 21 can draw signals extending from the
8 directions to the center, and 7 actually The auditory sense of the sound to be heard matches
the visual sense seen with the eyes, and a practical and desirable sound It is possible to perform
the display. The present invention is not limited to the above embodiment. In the above
embodiment, each signal of the eight channel stereo is led to the display circuit 62, but not
limited to the above eight channel stereo, the signal level of the count number It is possible to be
in Motokawa when comparing the In addition, if you want to display the sound localized in the
middle between each speaker, as well as the sound field of the speaker fluttering in each of the
four directions with # 1 of 4-channel stereo, for example, in the middle between the front left and
right speakers Make a pseudo audio signal equivalent to the sound to be localized, sound the
sound of 4-channel stereo from eight directions, and sound. In the present invention, as
described above, the positions of eight or less signals are set at the periphery of the display of
the cathode ray tube of a two phenomenon oscilloscope at a pseudo edge @, toward the center of
the cathode ray tube in proportion to each signal level. Disc 8 which can draw a fluttering signalto provide a play device also 04, a simple principle of the figure # ji # 1 WJ # i a signal displayed
on the oscilloscope CRT by a conventional display device 11U shows an example of drawing a
square signal on a cathode ray tube of an oscilloscope, and FIG. 2-) shows an example of drawing
a square signal of the same figure (A). 8i and 8n show an example of drawing a signal extending
from the periphery of the display surface toward the center on the cathode ray tube of the
oscilloscope (in 81iiff). If you want to draw a signal to the center of the WJH, C) 1 & Figure
showing an example of the process of making a shape to input to the oscilloscope, Figure 4 # #
phenomenon Phenomenon the second channel of the scope to put the signal ZIJi Oscilloscope
Oscilloscope O When drawing a signal extending from the periphery to the center of the display
screen, the waveform input to the above two phenomena oscilloscope and an example of the
timing relationship, item 5111 ? S phenomenon Oscilloscope O If you want the same signal to
extend from the peripheral edge of the CRT display surface to the center by 9 и ? 1: ? ? ? =) J
? ? ? ? ?, the 111 [waveform input to the elephant oscilloscope and its timing relationship O
example In the present invention, sew is a side of the present invention relating to Diezzore's
good e- @ theory * es ? showing m, * 'yw is output from ll 6-08 branch ti? ? ? ? @ ? ? ?
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10-05-2019
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