DE1245476B - Visual indicator - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

PATENT LETTERING

Int. Cl .:

HOIh

German class: 21c-45/50

Number:

File number:

Registration date:

Display day:

Issue date:

V21111VIIId / 21c
July 31, 1961
July 27, 1967
1st February 1968

The patent specification corresponds to the patent specification

Visual indicator

The invention relates to a visual indicator for signaling the switching state of a transistor.

Devices are already known which signal a certain switching state and the signal hold on until reset, e.g. B. a so-called bistable multivibrator (flip-flop), which consists of two There are transistors, with the base of one transistor connected to the collector of the second Transistor is coupled. But if an incandescent lamp is to be used for the display, both would have to be used Design transistors with the same power, since the incandescent lamps apart from their disadvantageous negative characteristics also have a relatively high power consumption. With the present type of coupling it is very difficult to lay out the circuit unbalanced. But that means .that a great tax burden is required.

It is also possible to close the incandescent lamp by means of a switching element with an inherently bistable behavior steer. The switching element (ζ. B. a magnetic core with square hysteresis) is at a certain voltage Driven to saturation, so that an alternating voltage source lying in series with the element can drive an appreciable current through the display circuit. Here the non-linear Characteristic curve of the incandescent lamp not to be taken into account. However, this is additionally required AC voltage of great disadvantage. This is why this variant is not recommended for network protection. Finally, glow lamps for display for transistor circuits are required due to the relative high ignition voltages are only suitable to a limited extent.

All these disadvantages are now avoided by a visual indicator with a circuit that has a self-retaining character, can be designed to be highly asymmetrical and in which a possible overload of the output transistor due to the non-linear characteristic of the incandescent lamp is prevented by suitable measures. This visual indicator consists of a flip-flop, which is known per se and is coupled via a common emitter resistor, with two transistors of the same conductivity type (pnp or npn) and an indicator lamp in the collector circuit of the output transistor, whereby according to the invention the collector-current ratio Ik _{1 JIi n of} the two transistors at approximately the same large-signal gain is between 2 and 5 and the coupling resistance between the collector of the input transistor and the base of the output transistor is a non-linear element. As will be explained later, this greatly improves the tilting behavior and prevents any overloading of the output.

VEB Elektro-Apparate-Werke,

Berlin-Treptow, Hoffmannstr. 15-26

Named as inventor:

Rolf Völker,

Dipl.-Ing. Manfred Liska, Berlin

transistor due to excessive switching losses. The reset is done manually via a button or by a positive polarity pulse at the base of the output transistor. The circuit can be put into the second stable position by positive or negative voltage values at the base of the input or output transistor. The mode of operation of the circuit is explained with reference to the figure. In the idle state, the transistor T ₁ is fully controlled by the suitably designed voltage divider R ₁ IR ₂ with resistor R _t. Its residual collector voltage is below the value of the gate voltage of the diode D, so that it is practically currentless. Since the diode D is in the base circuit of the transistor T ₂ , it is blocked. In order to be able to fully maintain the blocking of the transistor T ₂ even at higher temperatures, a small current (about 50 μΑ) is fed to the diode via the resistor R _5.

If the base potential of the transistor T ₁ is shifted towards positive values by an input signal of a sufficient size at E ₁ , the transistor T _{1 is} blocked. The voltage drop at its emitter-collector path increases and exceeds the gate voltage of the diode D. As a result of the non-linear characteristic of the diode D, a very steep increase in the base current of the transistor T _{2 occurs} . The transistor T ₂ is thus safely turned on, although at the same time via the common emitter resistor i? ₄ a strong current negative feedback sets in. The circuit shows perfect tilting behavior.

As a result of the asymmetrical design already mentioned, not only is the collector current h ₂ > Ik ₁ , but also the emitter current I ₀₂ > Ic ₁ - this means that the current caused by the common emitter resistance i? ₄ , a much higher emitter current I ₀₂ flowing, a higher voltage drop across the emitter resistor A ₄ and thus a corresponding shift in the emitter potential of the transistor T ₁

709 754/71

evokes. As a result of this potential shift, the operating state, that is to say the transistor T _{1 is} blocked and the transistor T _{2 is} conductive, is retained even after the input signal applied to the input E _{1 has disappeared.} The reset to the idle state - transistor T ₁ conductive, transistor T ₂ blocked - · takes place by pressing the button K, whereby the transistor T ₂ is blocked by the positive pulse through the capacitor C and the switching back of the circuit is initiated. ·

The input signal does not need to be a defined pulse. It is sufficient that the input threshold value determined by the voltage drop across the common emitter resistor is exceeded. As is controlled in the normal state, the transistor T _1, the response of the circuit seia ( "nfolge the DC stabilization of T ₁₎ is very temperature stable. Thus, the circuit can also be used as Meßgrößenanzeiger The possibly required L-signal is taken at the transistor T _2. .

Patent protection is only sought for the entirety of the features of each claim, thus including a back relationship.

Claims (2)

Patent claims: 1. Visual indicator, in particular for reporting the switching state in transistor protection relay circuits, consisting of a known flip-flop circuit, coupled via a common emitter resistor, with two transistors of the same conductivity type and an indicator lamp in the collector circuit of the output transistor, characterized in that the collector-current ratio is approximately equal large-signal amplification of the transistors (T ^ ₁ , T ₂ ) 2 g I _k2 IJ _kl ύ 5 and the coupling resistance between the collector of the transistor (T ₁ ) and the base of the transistor (T ₂ ) is a non-linear element, for example a DiOdC (D ₁ ). 2. Visual indicator according to claim 1, characterized in that the reset by means of positive potential via the button (K) and the capacitor (C) to the base of the second transistor (T ₂ ) is provided. 1 sheet of drawings 709 618/424 7.67 © Bundesdruckerei Berlin