JPS5834054B2 - transistor drive circuit - Google Patents

transistor drive circuit

Info

Publication number
JPS5834054B2
JPS5834054B2 JP51039677A JP3967776A JPS5834054B2 JP S5834054 B2 JPS5834054 B2 JP S5834054B2 JP 51039677 A JP51039677 A JP 51039677A JP 3967776 A JP3967776 A JP 3967776A JP S5834054 B2 JPS5834054 B2 JP S5834054B2
Authority
JP
Japan
Prior art keywords
base
drive
transistor
turned
current
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
Application number
JP51039677A
Other languages
Japanese (ja)
Other versions
JPS52123160A (en
Inventor
泰博 湯浅
陸男 内田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Mitsubishi Electric Corp
Original Assignee
Mitsubishi Electric Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp
Priority to JP51039677A priority Critical patent/JPS5834054B2/en
Publication of JPS52123160A publication Critical patent/JPS52123160A/en
Publication of JPS5834054B2 publication Critical patent/JPS5834054B2/en
Expired legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03KPULSE TECHNIQUE
    • H03K17/00Electronic switching or gating, i.e. not by contact-making and –breaking
    • H03K17/08Modifications for protecting switching circuit against overcurrent or overvoltage

Landscapes

  • Electronic Switches (AREA)

Description

【発明の詳細な説明】 この発明はトランジスタ(以下トランジスタをTRと略
す)のベース駆動回路の改良に関するものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an improvement in a base drive circuit for a transistor (hereinafter referred to as "TR").

第1図に従来の回路を示す。FIG. 1 shows a conventional circuit.

図において1は中間タップ付電源トランス、2は整流用
ダイオードスタック、3,4は電源平滑用コンデンサ、
5は制御信号入力端子、6,7は正、負のベース駆動電
源、8,9は正側、負側のTR110はベース電流制限
抵抗、11は逆バイアス電流制限抵抗、12は逆バイア
ス用ダイオード、13は駆動TR。In the figure, 1 is a power transformer with an intermediate tap, 2 is a rectifier diode stack, 3 and 4 are power supply smoothing capacitors,
5 is a control signal input terminal, 6 and 7 are positive and negative base drive power supplies, 8 and 9 are positive side and negative side TR110 are base current limiting resistors, 11 is a reverse bias current limiting resistor, 12 is a reverse bias diode , 13 is a drive TR.

14は負荷、15はフライホイールダイオード、16は
直流電源である。14 is a load, 15 is a flywheel diode, and 16 is a DC power supply.

従来の回路では駆動TR13をONさせるには制御信号
入力端子5へ第2図aに示す正の制御信号を入れること
により正側のTR8をONさせると同時に負側のTR9
をOFFさせ駆動TR13のベースへ正の駆動電源6よ
りベース電流を供給する。In the conventional circuit, in order to turn on the drive TR13, a positive control signal shown in FIG.
is turned off, and a base current is supplied from the positive drive power supply 6 to the base of the drive TR 13.

駆動TR13をOFFさせるには制御信号を負にするこ
とにより、正側のTR8をOFFさせベース電流の供給
を断つ。To turn off the drive TR13, the control signal is made negative to turn off the positive side TR8 and cut off the supply of base current.

同時に負側のTR9をONさせベースに逆バイアスを加
えることにより短いスイッチング時間でOFFさせるこ
とが出来る。At the same time, by turning on the negative side TR9 and applying a reverse bias to the base, it can be turned off in a short switching time.

第2図すにi動TR13のベース−エミッタ間電圧を示
す。FIG. 2 shows the base-emitter voltage of the i-mode TR 13.

上記のようにして制御信号により駆動TRを0N−OF
Fさせることにより負荷14に流れる電流を制御するこ
とが出来る。The drive TR is set to 0N-O by the control signal as described above.
By setting F, the current flowing through the load 14 can be controlled.

しかるに、駆動TR13がONの状態にある時に外来サ
ージ等の原因によりコレクターエミッタ間に過電流が流
れてエミッタが断線すると、直流電源16の高い電圧が
、第1図の点線で示されるように、正側TR8、負側T
R9、ダイオードスタック2、電源トランス1およびダ
イオード12に加わり、これらの素子が破壊する場合が
ある。However, when the drive TR 13 is in the ON state, if an overcurrent flows between the collector emitter and the emitter is disconnected due to an external surge or the like and the emitter is disconnected, the high voltage of the DC power supply 16 will increase, as shown by the dotted line in FIG. Positive side TR8, negative side T
R9, diode stack 2, power transformer 1, and diode 12, and these elements may be destroyed.

すなわち駆動TR13の工□ツタが断線した場合にはベ
ース駆動回路も破壊され、駆動TR13を交換するとと
もにベース駆動回路も交換しなげればならないという欠
点があった。That is, if the wire in the drive TR 13 breaks, the base drive circuit is also destroyed, and there is a drawback that the base drive circuit must be replaced as well as the drive TR 13.

この発明はTRのエミッタが断線してもベース駆動回路
に素子の破壊等の二次災害が発生するのを防止すること
を目的とした。The purpose of this invention is to prevent secondary disasters such as destruction of elements in the base drive circuit even if the emitter of the TR is disconnected.

第3図にこの発明を適用した一実施例を示し、図におい
て第1図と同一部分は同一番号で示しである。FIG. 3 shows an embodiment to which the present invention is applied, and in the figure, the same parts as in FIG. 1 are designated by the same numbers.

17は逆電圧阻止用ダイオード、18はヒユーズ、19
はサイリスタ、20はサイリスタ点弧用ツェナーダイオ
ード、2L22はサイリスタ誤動作防止用の抵抗とコン
デンサである。17 is a reverse voltage blocking diode, 18 is a fuse, 19
2 is a thyristor, 20 is a Zener diode for igniting the thyristor, and 2L22 is a resistor and a capacitor for preventing thyristor malfunction.

上記のように構成されたベース駆動回路においては、駆
動TR13がON中にエミッタのリード線が断線した場
合直流電源16の電圧がベース−エミッタ間にかかるが
、逆電圧阻止用ダイオード17により正のベース駆動電
源6側と正側のTR8にはかからない。In the base drive circuit configured as described above, if the emitter lead wire is disconnected while the drive TR 13 is ON, the voltage of the DC power supply 16 is applied between the base and the emitter, but the reverse voltage blocking diode 17 prevents the positive voltage from being applied. It does not apply to the base drive power supply 6 side or the positive side TR8.

一方、負側のTR9とダイオードスタック2の素子の定
格電圧以下になるようにツェナーダイオード20のツェ
ナー電圧を選んでお(と負のベース駆動電源7側と負側
のTR9に定格以上の高い電圧がかかる前にツェナーダ
イオード20が導通し、サイリスタ19をトリガさせる
On the other hand, select the Zener voltage of the Zener diode 20 so that it is below the rated voltage of TR9 on the negative side and the elements of the diode stack 2 (and select a voltage higher than the rated voltage on the negative base drive power supply 7 side and TR9 on the negative side). The Zener diode 20 becomes conductive before the voltage is applied, triggering the thyristor 19.

すなわち、図中の矢印で示すルートで直流電流16より
ヒユーズ18とサイリスタ19を通して電流が流れ、ヒ
ユーズ18が切れる。That is, a current flows from the DC current 16 through the fuse 18 and the thyristor 19 along the route shown by the arrow in the figure, and the fuse 18 is blown.

ヒユーズ18が切れると電流の流れるルートが無くなり
ベース駆動回路を保護することが出来る。When the fuse 18 is blown, there is no route for current to flow, and the base drive circuit can be protected.

尚、逆電圧阻止用ダイオード17と逆バイアス用ダイオ
ード12とサイリスタ19の定格電圧は回路動作上直流
電源16の電圧より高くなげればならない。Note that the rated voltages of the reverse voltage blocking diode 17, the reverse bias diode 12, and the thyristor 19 must be higher than the voltage of the DC power supply 16 for circuit operation.

第4図はこの発明を適用した他の実施例で、第3図の中
で点線で囲った部分のみを図示している。FIG. 4 shows another embodiment to which the present invention is applied, and only the portion surrounded by dotted lines in FIG. 3 is shown.

23.24はサイリスタ19の保護を目的とした6%、
抑制用抵抗、コンデンサからなるサージアブソーバ、2
5は点弧用抵抗でサイリスタ19の陽極−陰極にかかる
電圧を抵抗25と21の抵抗値の比で分圧してサイリス
タ19に加え分圧された電圧がON電圧以上になったら
サイリスタ19を導通させてヒユーズ18を切り、ベー
ス駆動回路を保護することが出来る。23.24 is 6% for the purpose of protecting thyristor 19,
Surge absorber consisting of suppression resistor and capacitor, 2
5 is an ignition resistor that divides the voltage applied to the anode and cathode of the thyristor 19 by the ratio of the resistance values of the resistors 25 and 21, and applies it to the thyristor 19. When the divided voltage exceeds the ON voltage, the thyristor 19 is turned on. This allows the fuse 18 to be cut and the base drive circuit to be protected.

26はサイリスタ19が導通した時に流れる電流を制限
する抵抗、27はダイオードで、任意の時間、条件によ
りサイリスタ19のゲートに信号を加え、導通させるこ
とによりヒユーズ18を切り、ベース電流をOFFさせ
駆動TR13をOFFさせることができる。26 is a resistor that limits the current that flows when the thyristor 19 conducts, and 27 is a diode. A signal is applied to the gate of the thyristor 19 at any time and under any conditions, and by making it conductive, the fuse 18 is cut and the base current is turned off to drive it. TR13 can be turned off.

第5図は他の一実施例で第3図の中で点線で囲った部分
のみを図示している。FIG. 5 shows another embodiment, and only shows the portion surrounded by a dotted line in FIG. 3.

28はツェナーダイオードでツェナー電圧以上の電圧が
かかると導通してヒユーズ18を切ることによりベース
駆動回路を保護することができる。A Zener diode 28 becomes conductive when a voltage higher than the Zener voltage is applied, cutting off the fuse 18 to protect the base drive circuit.

上記のようにするとこの発明を簡単に実施することがで
きる。By doing as described above, the present invention can be easily implemented.

尚各実施例では、導通手段としてサイリスタ19やツェ
ナーダイオード28を駆動TR13のエミッタに接続し
たが、回路状態やダイオードスタック2等の素子の定格
を選択しておくと、負のベース駆動電源7へ接続しても
同様の効果が得られることはいうまでもない。In each embodiment, the thyristor 19 and the Zener diode 28 are connected to the emitter of the drive TR 13 as conduction means, but if the circuit state and the rating of the elements such as the diode stack 2 are selected, the connection to the negative base drive power supply 7 can be made. It goes without saying that the same effect can be obtained even when connected.

又各実施例では、回路遮断手段としてヒユーズ18を用
いた場合について説明したがノーヒユーズブレーカ、サ
ーキットブレーカ等の遮断機能を有するものであれば同
様の作用をすることはいうまでもない。Further, in each of the embodiments, a case has been described in which the fuse 18 is used as the circuit breaking means, but it goes without saying that any device having a breaking function such as a no-fuse breaker or a circuit breaker will have the same effect.

又各実施例では、逆電圧、逆電流阻止素子としてダイオ
ード17を用いた場合について説明したが、セレン、サ
イリスタ等の逆方向阻止の機能を有するものであれば同
様の作用をすることはいうまでもない。Further, in each embodiment, the case where the diode 17 is used as a reverse voltage and reverse current blocking element has been described, but it goes without saying that any device having a reverse blocking function such as selenium or a thyristor will have the same effect. Nor.

【図面の簡単な説明】[Brief explanation of drawings]

第1図は従来の回路図、第2図は回路動作説明図、第3
図はこの発明を適用した一実施例を示す回路図、第4図
、第5図はこの発明の他の一実施例を示す回路部分図で
ある。 なお図中同一符号は同一部分を示す。 図において1は電源トランス2はダイオードスタック3
,4はコンデンサ、5は制御信号入力端子、6,7は正
、負のベース駆動電源、8,9は正側、負側のTR11
0,11は抵抗、12はダイオード、13は駆動TR1
14は負荷、15はフライホイールダイオード、16は
直流電源、17はダイオード、18はヒユーズ、19は
サイリスタ、20はツェナーダイオード、21は抵抗、
22はコンデンサ、23は抵抗、24はコンデンサ、2
5,26は抵抗、27はダイオード、28はツェナーダ
イオードである。 なお、図中同一あるいは相当部分には同一符号を付して
示しである。Figure 1 is a conventional circuit diagram, Figure 2 is an explanatory diagram of circuit operation, and Figure 3 is a conventional circuit diagram.
The figure is a circuit diagram showing one embodiment to which this invention is applied, and FIGS. 4 and 5 are partial circuit diagrams showing another embodiment of this invention. Note that the same reference numerals in the figures indicate the same parts. In the figure, 1 is a power transformer 2 is a diode stack 3
, 4 are capacitors, 5 is a control signal input terminal, 6 and 7 are positive and negative base drive power supplies, 8 and 9 are positive and negative side TR11
0 and 11 are resistors, 12 is a diode, and 13 is drive TR1
14 is a load, 15 is a flywheel diode, 16 is a DC power supply, 17 is a diode, 18 is a fuse, 19 is a thyristor, 20 is a Zener diode, 21 is a resistor,
22 is a capacitor, 23 is a resistor, 24 is a capacitor, 2
5 and 26 are resistors, 27 is a diode, and 28 is a Zener diode. Note that the same or equivalent parts in the figures are indicated by the same reference numerals.

Claims (1)

【特許請求の範囲】[Claims] 1 正、負のベース駆動電源にそれぞれつながった正側
、負側のトランジスタを備え、負荷につながり、かつ負
荷を制御する駆動トランジスタをONさせる為に上記正
側のトランジスタをONにし、上記駆動トランジスタを
OFFさせる為に上記負側のトランジスタをONさせる
ようにして上記駆動トランジスタのベース電流を制御す
るようになした駆動回路において、上記駆動トランジス
タのベースへ電流を供給する側に逆電圧もしくは逆電流
阻止素子と、上記駆動トランジスタのベース−エミッタ
間もしくはベースと上記数のベース駆動電源間に、正常
動作時はOFF していて異常電圧発生時にONする導
通手段と上記ONした導通手段に電流が流れたことによ
り負側のトランジスタと接続される駆動トランジスタの
ベース回路をOFF する遮断手段を備え、上記駆動ト
ランジスタを制御することを特徴としたトランジスタ駆
動回路。1. A positive side transistor and a negative side transistor are respectively connected to the positive and negative base drive power supplies, and in order to turn on the drive transistor that is connected to the load and controls the load, the positive side transistor is turned on, and the above drive transistor is turned on. In a drive circuit configured to control the base current of the drive transistor by turning on the negative side transistor in order to turn it OFF, a reverse voltage or a reverse current is applied to the side that supplies current to the base of the drive transistor. A current flows between the blocking element and the base-emitter of the driving transistor or between the base and the number of base drive power supplies, between the conduction means that is OFF during normal operation and turned ON when an abnormal voltage occurs, and the conduction means turned ON. 1. A transistor drive circuit comprising a cutoff means for turning off a base circuit of a drive transistor connected to a negative side transistor, thereby controlling the drive transistor.
JP51039677A 1976-04-08 1976-04-08 transistor drive circuit Expired JPS5834054B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP51039677A JPS5834054B2 (en) 1976-04-08 1976-04-08 transistor drive circuit

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP51039677A JPS5834054B2 (en) 1976-04-08 1976-04-08 transistor drive circuit

Publications (2)

Publication Number Publication Date
JPS52123160A JPS52123160A (en) 1977-10-17
JPS5834054B2 true JPS5834054B2 (en) 1983-07-23

Family

ID=12559718

Family Applications (1)

Application Number Title Priority Date Filing Date
JP51039677A Expired JPS5834054B2 (en) 1976-04-08 1976-04-08 transistor drive circuit

Country Status (1)

Country Link
JP (1) JPS5834054B2 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS596264U (en) * 1982-07-05 1984-01-14 カルソニックカンセイ株式会社 totalizer

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5848526A (en) * 1981-09-17 1983-03-22 Matsushita Electric Ind Co Ltd Driving circuit for transistor

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS596264U (en) * 1982-07-05 1984-01-14 カルソニックカンセイ株式会社 totalizer

Also Published As

Publication number Publication date
JPS52123160A (en) 1977-10-17

Similar Documents

Publication Publication Date Title
JPH0237234Y2 (en)
JPS58205333A (en) Protecting circuit for switching transistor
US4544983A (en) Overvoltage protection device
US4453193A (en) Overcurrent protection for push-pull circuits
US4271448A (en) Electronic protection circuit for solid state switches energizing AC loads
JPS61153905A (en) Arc extinguisher
US4126889A (en) Protective circuit for d.c. circuit
JPS5834054B2 (en) transistor drive circuit
US4244344A (en) Ignition system with overvoltage and excess current protection
DE3032888A1 (en) PROTECTIVE CIRCUIT FOR A SWITCHING TRANSISTOR
JP3317386B2 (en) Secondary voltage suppression circuit of power supply CT
US3663863A (en) Overcurrent protector
JPS5961469A (en) Overcurrent protecting circuit for dc/dc converter
JP3374952B2 (en) How to protect a series inverter circuit
HU192996B (en) Circuit arrangement for automatic overload protection of current transformers
JPS6216738Y2 (en)
KR910004022Y1 (en) Over current protective circuit
JPS6111011B2 (en)
KR910004023Y1 (en) Over current protective circuit
KR860001479B1 (en) Electronic control circuit
JPS634419B2 (en)
JPH0115240Y2 (en)
JPS6244546Y2 (en)
JPH03192973A (en) Protective device for horizontal drive circuit
JPS60118056A (en) Overcurrent protecting circuit of gate turn-off thyristor