JPS6047781B2 - light emitting device - Google Patents
light emitting deviceInfo
- Publication number
- JPS6047781B2 JPS6047781B2 JP57031971A JP3197182A JPS6047781B2 JP S6047781 B2 JPS6047781 B2 JP S6047781B2 JP 57031971 A JP57031971 A JP 57031971A JP 3197182 A JP3197182 A JP 3197182A JP S6047781 B2 JPS6047781 B2 JP S6047781B2
- Authority
- JP
- Japan
- Prior art keywords
- light
- capacitor
- light emitting
- lamp
- emitting
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
- 239000003990 capacitor Substances 0.000 claims description 36
- 230000005540 biological transmission Effects 0.000 description 5
- 230000003287 optical effect Effects 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 101000668165 Homo sapiens RNA-binding motif, single-stranded-interacting protein 1 Proteins 0.000 description 1
- 102100039692 RNA-binding motif, single-stranded-interacting protein 1 Human genes 0.000 description 1
- 238000007599 discharging Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000001960 triggered effect Effects 0.000 description 1
- 229910052724 xenon Inorganic materials 0.000 description 1
- FHNFHKCVQCLJFQ-UHFFFAOYSA-N xenon atom Chemical compound [Xe] FHNFHKCVQCLJFQ-UHFFFAOYSA-N 0.000 description 1
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B10/00—Transmission systems employing electromagnetic waves other than radio-waves, e.g. infrared, visible or ultraviolet light, or employing corpuscular radiation, e.g. quantum communication
- H04B10/50—Transmitters
Landscapes
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Selective Calling Equipment (AREA)
- Optical Communication System (AREA)
- Discharge-Lamp Control Circuits And Pulse- Feed Circuits (AREA)
- Details Of Television Systems (AREA)
Description
【発明の詳細な説明】
本発明は2つのパルス状発光よりなる光信号を送信する
ことができ、被制御機器にこの光信号を選択受信する受
信機を設けて機器の遠隔制御を行うための光リモートコ
ントロール送信機として使用てきる発光装置に関する。DETAILED DESCRIPTION OF THE INVENTION The present invention is capable of transmitting an optical signal consisting of two pulsed light emissions, and provides a receiver for selectively receiving this optical signal in a controlled device to remotely control the device. The present invention relates to a light emitting device that can be used as an optical remote control transmitter.
まず、第1図を参照しながら本発明に係る発光装置につ
いて説明する。電源スイッチSW、をオンすると、DC
−DCコンバータAより直流電圧が得られ、これによつ
て予じめ第1、第2発光用コンデンサCo、Csが、ま
たツェナーダイオードZDを介して充電コンデンサC6
が、更にまた抵抗R8及びトリガートランスTtの1次
側を介してトリガーコンデンサClがそれぞれ図示の極
性に充電される。First, a light emitting device according to the present invention will be explained with reference to FIG. When the power switch SW is turned on, the DC
- A DC voltage is obtained from the DC converter A, and this voltage is applied to the first and second light emitting capacitors Co and Cs in advance, and also to the charging capacitor C6 via the Zener diode ZD.
However, the trigger capacitor Cl is further charged to the illustrated polarity via the resistor R8 and the primary side of the trigger transformer Tt.
いま、複数個の送信用スイッチ5W0〜5Wnの1つ例
えばSW。Now, one of the plurality of transmission switches 5W0 to 5Wn, for example SW.
を第2図のタイムチャートaに示すようにオンすると、
充電コンデンサC6より送信用スイッチSW。、抵抗R
、。a、R、O、R、、を通して電流が流れ、抵抗R、
、の電圧によりトランジスタTR2が第2図dに示すよ
うにオンせしめられる。その結果、直流電源Eより遅延
用コンデンサCoおよび抵抗R、2を通り、トランジス
タTR。のコレクタ、エミッタを通して電流が流れ、C
9とR、Oの時定数にしたがつて遅延用コンデンサC9
が第2図のeに示すように充電されて行く。その充電電
圧がトランジスタTR3の動作電圧V坏に達すると、ト
ランジスタTR3が第2図のfに示すようにオンせしめ
られ、抵抗R9の電圧によりトリガー用サイリスタSC
R2がオンせしめられて予じめ充電されたトリガーコン
デンサClの電荷がトリガ−トランスTtの1次側を通
して放電され、その2次側に発生するパルスによりクセ
ノン放電管などの発光ランプX、Lがトリガーされる。
その結果、第1発光用コンデンサCoに充電された電荷
がダイオードD2及び発光ランプX、Lを通して放電J
され、第2図のを’に示すように1回目の発光が行われ
る。これと同時に充電コンデンサC6に充電された電荷
がツエナーダイオードコ及び発光ランプX、Lを通して
放電され、ツェナーダイオードZDに第・1図示の極性
のツェナー電圧V2が発生する。When turned on as shown in time chart a in Figure 2,
Transmission switch SW from charging capacitor C6. , resistance R
,. A current flows through a, R, O, R, and resistor R,
, the transistor TR2 is turned on as shown in FIG. 2d. As a result, the DC power supply E passes through the delay capacitor Co and the resistors R and 2, and then the transistor TR. Current flows through the collector and emitter of C
9 and the delay capacitor C9 according to the time constants of R and O.
is being charged as shown in Fig. 2(e). When the charging voltage reaches the operating voltage V of the transistor TR3, the transistor TR3 is turned on as shown in FIG.
When R2 is turned on, the charge in the pre-charged trigger capacitor Cl is discharged through the primary side of the trigger transformer Tt, and the pulse generated on the secondary side lights up the light-emitting lamps X and L such as xenon discharge tubes. Triggered.
As a result, the charge charged in the first light-emitting capacitor Co is discharged through the diode D2 and the light-emitting lamps X and L.
Then, the first light emission is performed as shown in Fig. 2. At the same time, the charge stored in the charging capacitor C6 is discharged through the Zener diode ZD and the light emitting lamps X and L, and a Zener voltage V2 having the polarity shown in the first diagram is generated in the Zener diode ZD.
このツェナー電圧V2により送信用スイッチSW2、抵
抗R16a)ダイオードD。及び作動コンデンサC5を
通して電流が流れ、R16a(5C5の時定数にしたが
つて作動コンデンサC5が第1図示の極性に第2図のc
に示すように充電されて行くと同時にツェナー電圧Vz
が抵抗R5,R6により分圧され、プログラマブルユニ
ジヤンクシヨントランジスタP.U.T(以下トランジ
スタP.U.Tと略記する)のゲートに加えられる。作
動コンデンサC5の充電電圧がトランジスタP.U.T
の作動電圧Vdlに達してこれがオンすると、作動コン
デンサC5の電荷がトランジスタP.U.T及び抵抗R
3を通して放電され、抵抗R3の電圧により第2発光用
サイリスタSCRlがオンせしめられて予じめ充電され
た第2発光用コンデンサC3の電荷が第1発光用サイリ
スタSCRl及び発光ランプX.Lを通して放電され、
1回目の発光に続いて2回目の発光が行われる。This Zener voltage V2 causes the transmission switch SW2, the resistor R16a) the diode D. A current flows through R16a (5C5), and the current flows through R16a (5C5) so that the polarity of the working capacitor C5 changes to the polarity shown in Figure 1 and c in Figure 2.
As shown in , the Zener voltage Vz increases at the same time as it is being charged.
is divided by resistors R5 and R6, and a programmable union transistor P. U. It is applied to the gate of T (hereinafter abbreviated as transistor P.U.T.). The charging voltage of the working capacitor C5 is applied to the transistor P. U. T
When the operating voltage Vdl of the transistor P. is reached and it is turned on, the charge of the operating capacitor C5 is transferred to the transistor P. U. T and resistance R
3, the second light emitting thyristor SCRl is turned on by the voltage of the resistor R3, and the electric charge of the second light emitting capacitor C3, which was previously charged, is transferred to the first light emitting thyristor SCRl and the light emitting lamp X.3. is discharged through L,
A second light emission is performed following the first light emission.
各送信用スイッチSW2〜SWnに接続した抵抗Rl6
。Resistor Rl6 connected to each transmission switch SW2 to SWn
.
〜Rl6Oの値を変え、作動コンデンサC5との時定数
を変えてあるので、各送信用スイッチSW2〜SWnを
オンしたとき得られる光信号はそれぞれパルス間隔Tp
の異なつた信号となる。しかしながら、発光ランプX.
Lの発光特性が第2図のb″に示すような特性であり、
発光ランプX.Lの1回目発光により充電コンデンサC
6の電荷がツェナーダイオード小及び発光ランプX.L
を通して放電され、この放電は作動コンデンサC5の充
電電圧が作動電圧Vdlに達するまで持続する場合は問
題ないが、発光特性が第2図のbに示すような特性の場
合には、発光ランプX.Lの発光終了と共に充電コンデ
ンサの電荷がツェナーダイオード小及ひ発光ランプX.
Lを通して放電する回路が開かれるので、ツェナーダイ
オードZDのツェナー電圧Vzがなくなり、作動コンデ
ンサC5の充電電圧が作動電圧■d1に達せず、タイマ
ー回路が動作しないから、第2発光用サイリスタSCR
lがオンせず、2回目の発光が行われない欠点がある。~ Since the value of Rl6O is changed and the time constant with the operating capacitor C5 is changed, the optical signals obtained when each of the transmitting switches SW2 to SWn are turned on have a pulse interval Tp.
This results in different signals. However, the luminescent lamp X.
The light emission characteristics of L are as shown in b″ in FIG. 2,
Luminous lamp X. The charging capacitor C is charged by the first light emission of L.
The charge of 6 is connected to a small Zener diode and a light emitting lamp X. L
There is no problem if this discharge continues until the charging voltage of the operating capacitor C5 reaches the operating voltage Vdl, but if the luminous characteristics are as shown in FIG. 2b, the luminescent lamp X. When the light emission of L ends, the charge of the charging capacitor is transferred to the Zener diode and the light emitting lamp X.
Since the circuit for discharging through L is opened, the Zener voltage Vz of the Zener diode ZD disappears, the charging voltage of the operating capacitor C5 does not reach the operating voltage ■d1, and the timer circuit does not operate, so the second light emitting thyristor SCR
There is a drawback that l is not turned on and the second light emission is not performed.
本発明は上記の欠点を解消することを目的としたもので
、以下図面についてその一実施例を説明する。本発明実
施例は第1図において、第1発光用コンデンサC2と第
2発光用サイリスタSCRlとの間一に直列に接続され
ているダイオードD2に、タイマー回路の電源を1回目
の発光後も保持するための抵抗R2を並列に接続せしめ
る。The present invention is aimed at solving the above-mentioned drawbacks, and one embodiment thereof will be described below with reference to the drawings. In the embodiment of the present invention, in FIG. 1, the power source of the timer circuit is maintained in the diode D2 connected in series between the first light emitting capacitor C2 and the second light emitting thyristor SCRl even after the first light emitting. A resistor R2 for this purpose is connected in parallel.
タイマー回路はトランジスタP.U.T,送信用スイッ
チSW2〜SWnと抵抗Rl6a−Rl6nの直列回路
、作動コンデンサC5、抵抗R4〜R6及びダイオード
D4よりなる。The timer circuit consists of a transistor P. U. T, a series circuit of transmitting switches SW2 to SWn and resistors Rl6a to Rl6n, an operating capacitor C5, resistors R4 to R6, and a diode D4.
本発明は上記のような構成であるから、1回目の発光が
行われるまでの動作は上記の通りである。Since the present invention has the above-described configuration, the operation until the first light emission is performed is as described above.
発光ランプX.Lの1回目の発光と同時に充電コンデン
サC6の電荷がツェナーダイオード小及び発光ランプX
.Lを通して放電され、発光ランプX.Lの発光終了後
は、第1発光用コンデンサC2のノ電荷が放電している
ため、ツェナーダイオード小及び抵抗R2を通して第1
発光用コンデンサC2を充電する回路により充電コンデ
ンサC6の電荷の放電が継続され、ツェナーダイオード
ZDに第1図示の極性のツェナー電圧Vzが発生する。
従二つて発光ランプX.Lの発光特性が第2図のbに示
すような特性の場合において、発光ランプX.Lの発光
終了後も継続してツェナーダイオードZDにツェナー電
圧Vzを発生させることができるので、以後の動作、即
ちトランジスタP.U.Tをオン”させ、第2発光用サ
イリスタSCRlをオンして2回目の発光を行うことが
できる。この際、発光ランプX.Lの発光を確実に行う
ため、第2発光用コンデンサC3の電荷の一部がコンデ
ンサC8及びトリガ−トランスTtの1次側を通して放
電され、その2次側に発光したパルスにより発光ランプ
X.Lは再トリガーされるものである。上述の説明より
明らかなように本発明によれば、発光ランプX.Lをト
リガーすることにより予じめ充電された発光用コンデン
サC2の電荷をダイオードD2と発光ランプX.Lを通
して放電せしめて発光を行い、発光用コンデンサC2の
電荷が放電してからタイマー回路によつて定められた一
定時間後に、予じめ充電された別の発光用コンデンサC
3の電荷を発光ランプX.Lに再度あたえて再発光せし
める複数発光を行う発光装置において上記ダイオードに
、タイマー回路の電源を1回目の発光後も保持するため
の抵抗を並列に接続して構成したので、発光ランプの発
光終了後もタイマー回路の電源を持続することができ、
2回目以降の発光を確実に行うことがてきる効果を奏す
る。Luminous lamp X. At the same time as the first light emission of L, the charge in the charging capacitor C6 is transferred to the small Zener diode and the light emitting lamp X.
.. L is discharged through the luminescent lamp X. After the light emission of L is completed, the charge of the first light emission capacitor C2 is discharged, so the first light is
The circuit that charges the light-emitting capacitor C2 continues to discharge the charge in the charging capacitor C6, and a Zener voltage Vz having the polarity shown in the first diagram is generated in the Zener diode ZD.
The second is the luminous lamp X. In the case where the light emitting characteristics of the light emitting lamp X.L are as shown in FIG. Since the Zener voltage Vz can be continued to be generated in the Zener diode ZD even after the light emission of the transistor P. U. T is turned on and the second light emitting thyristor SCRl is turned on to emit light for the second time.At this time, in order to ensure that the light emitting lamp X.L emits light, the charge of the second light emitting capacitor C3 is A part of it is discharged through the capacitor C8 and the primary side of the trigger transformer Tt, and the light emitting lamp X.L is retriggered by the pulse emitted to the secondary side.As is clear from the above explanation, According to the present invention, by triggering the light-emitting lamp X.L, the electric charge of the light-emitting capacitor C2 charged in advance is discharged through the diode D2 and the light-emitting lamp X.L to emit light. After a certain period of time determined by a timer circuit after the charge has discharged, another pre-charged luminescent capacitor C
3 charge to the luminescent lamp X. In a light-emitting device that performs multiple light-emissions in which L is applied again to emit light again, a resistor is connected in parallel to the diode to maintain the power supply of the timer circuit even after the first light-emission, so that the light-emitting lamp stops emitting light. The timer circuit can continue to power up even after
This has the effect of reliably emitting light from the second time onwards.
第1図は本発明発光装置の一実施例を示す回路図、第2
図はその動作説明用タイムチャートである。
SW2〜SWn・・・・送信用スイッチ、Rl6a−′
Rl6n・・・抵抗、SCR2・・・・・トリガー用サ
イリスタ、C7・・・トリガ−コンデンサ、Tt・・・
・・・トリガ−トランス、X.L・・・・・・発光ラン
プ、C2・・・・・・第1発光用コンデンサ、C3・・
・・・・第2発光用コンデンサ、D2・・・・・ダイオ
ード、R2・・・・・・抵抗、SCRl・・・・・・第
2発光用サイリスタ(第2発光用スイッチ回路)、P.
U.T・・・・・・タイマー回路のプログラマブルユニ
ジヤンクシヨントランジスタ、Vdl・・・・・・作動
電圧、C5・・・・・・作動コンデンサ、C6・・・・
・・充電コンデンサ、D・・・ツェナーダイオード(定
電圧素子)。FIG. 1 is a circuit diagram showing one embodiment of the light emitting device of the present invention, and FIG.
The figure is a time chart for explaining the operation. SW2~SWn...Transmission switch, Rl6a-'
Rl6n...Resistor, SCR2...Trigger thyristor, C7...Trigger capacitor, Tt...
...Trigger transformer, X. L...Light-emitting lamp, C2...First light-emitting capacitor, C3...
...Second light emitting capacitor, D2...Diode, R2...Resistor, SCRl...Second light emitting thyristor (second light emitting switch circuit), P.
U. T...Programmable union transistor of timer circuit, Vdl... Operating voltage, C5... Operating capacitor, C6...
...Charging capacitor, D...Zener diode (constant voltage element).
Claims (1)
れた発光用コンデンサの電荷をダイオードと発光ランプ
を通して放電せしめて発光を行い、発光用コンデンサの
電荷が放電してからタイマー回路によつて定められた一
定時間後に、予じめ充電された別の発光用コンデンサの
電荷を発光ランプに再度あたえて再発光せしめる複数発
光を行う発光装置において、上記ダイオードに、タイマ
ー回路の電源を1回目の発光後も保持するための抵抗を
並列に接続して構成した発光装置。1 By triggering the luminescent lamp, the electric charge of the luminescent capacitor charged in advance is discharged through the diode and the luminescent lamp to emit light, and after the electric charge of the luminescent capacitor is discharged, In a light-emitting device that emits multiple lights by reapplying the electric charge of another pre-charged light-emitting capacitor to the light-emitting lamp to cause it to emit light again after a certain period of time, the power supply of the timer circuit is applied to the diode even after the first light emission. A light-emitting device configured by connecting resistors in parallel for holding.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP57031971A JPS6047781B2 (en) | 1982-03-01 | 1982-03-01 | light emitting device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP57031971A JPS6047781B2 (en) | 1982-03-01 | 1982-03-01 | light emitting device |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1009777A Division JPS5395486A (en) | 1977-01-31 | 1977-01-31 | Optical remote control transmitter |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS585052A JPS585052A (en) | 1983-01-12 |
| JPS6047781B2 true JPS6047781B2 (en) | 1985-10-23 |
Family
ID=12345832
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP57031971A Expired JPS6047781B2 (en) | 1982-03-01 | 1982-03-01 | light emitting device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6047781B2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2590104Y2 (en) * | 1991-05-28 | 1999-02-10 | ミサワホーム株式会社 | Installation structure of electric refrigerator |
-
1982
- 1982-03-01 JP JP57031971A patent/JPS6047781B2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS585052A (en) | 1983-01-12 |
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