KR910001587Y1 - Stereo misplay protecting circuit - Google Patents

Abstract

No content.

Description

Stereo Malfunction Prevention Circuit

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

A-la: differential circuit e: display circuit

Bar: Schmitt trigger circuit IC ₁ : Broadcast signal detection integrated device

IC ₂ : Ring Counter IC ₃ : Transistor Array Integrated Device

Q ₁ -Q ₄ : Transistor R ₁ -R ₁₄ : Resistance

D ₁ -D ₅ : Diode LED ₁ LED ₂ : Light Emitting Diode

This proposal covers television in stereo and bilingual broadcasts. The present invention relates to a stereo malfunction prevention circuit which prevents repetitive operation of switching to a stereo mode and a mono mode when receiving broadcasts in a weak electric field.

Conventional television detects this when a stereo broadcast is made by a broadcasting station and automatically switches to a stereo mode, but when the electric field is strong in the weak electric field, it is converted to the stereo mode as described above, but when the electric field is weak, it is converted to the mono mode again. .

In other words, when the electric field is strong in stereo broadcasting in the weak electric field, it is converted to stereo mode, and when the electric field is weak, it is converted to mono mode, but the electric field in weak field is weak. It will be repeated with the mode.

Therefore, when listening to the stereo broadcast in the weak electric field region is repeatedly switched to the stereo mode and mono mode in accordance with the strength of the electric field as described above was a disadvantage that causes a significant inconvenience when watching television.

In view of the above, the present invention counts the number of repetitions when the stereo mode and mono mode are repeatedly switched according to the strength of the electric field when listening to stereo broadcasting in the weak electric field area, and the mono mode is forcibly reached when a certain number of times is reached. A stereo malfunction prevention circuit that can be switched to watch the audio signal detection integrated device using a relative signal to count the conversion of the broadcast signal detection state signal in a ring count and the transistor array integrated device is operated when the predetermined number of times or more It was forced to switch to mono mode in the selective integrated device.

When described in detail by the accompanying drawings as follows.

And a broadcast signal detection integrated device (IC ₁ ) for detecting a broadcast signal state and outputting different state signals according to the broadcast signal state. A display circuit (e) for controlling the driving of the light emitting diodes (LED ₁ ) (LED ₂ ) and the transistor (Q ₄ ) with the state signal of the broadcasting signal detection integrated device (IC ₁ ) to display the broadcasting state to the outside; The differential circuit (i) for differentiating the stereo detection status signal of the broadcast signal detection integrated device (IC ₁ ) and the differential pulses of the differential circuit (a) are controlled to drive the transistors (Q ₁ ) (Q ₂ ) so that the square wave pulse A Schmitt trigger circuit (bar) for outputting a signal, a differential circuit (b) for differentially applying a square wave pulse of the Schmitt trigger circuit (bar) to the clock terminal 14 of the ring counter IC ₂ , and the ring counter ( A differential circuit (C) for resetting IC ₂ ) when the initial power supply (B ⁺ ) is applied, a differential circuit (D) for differentiating the output of the terminal 4 of the ring counter (IC ₂ ), and the differential circuit (D). Diode D ₃ for applying the differential pulses of the?) To the relet terminal 15 of the ring counter IC ₂ , A transistor Q ₃ driven by a differential pulse of a low and a transistor array integrated device IC ₃ driven by an output of the transistor Q ₃ and converting a mode selective integrated device into a mono mode. do.

At this time, the light emitting diode (LED ₁ ) of the display circuit (e) is for bilingual broadcasting display and the light emitting diode (LED ₂ ) is for stereo broadcasting display.

In the present invention configured as described above, the broadcast signal detecting integrated device IC ₁ automatically detects a stereo broadcast transmitted from a broadcasting station or a broadcast of two countries, and outputs a high level signal to the terminal 3 during stereo broadcasting. A low level signal is output to (2). In bilingual broadcasting, the terminal 3 outputs a low level and the terminal 1 and 2 output a high level.

At this time, the broadcast signal detection integrated device IC _{1 which} detects a broadcast signal and controls the output of the terminals 1, 2, and 3 according to the bilingual broadcast and the stereo broadcast is capable of listening to stereo and bilingual broadcasts. It is a conventional integrated device used for.

Therefore, when the stereo broadcasting starts, a low level is output to the terminal _{1 of} the broadcasting signal detection integrated device IC ₁ so that the power supply B ⁺ flows through the current limiting resistor R ₄ and the light emitting diode LED ₂ . Therefore, the light emitting diode (LED ₂ ) is turned on, indicating that the broadcast is a stereo broadcast.

When the stereo broadcast is started, the terminal 2 of the broadcast signal detecting integrated circuit IC ₁ becomes low level and the transistor Q ₄ is 'turned off' so that the LED display for the bilingual broadcast display LED ₁ Will remain off.

In addition, when the stereo broadcast is started, the terminal 3 of the broadcast signal detection integrated device IC ₁ is outputted with a high level, and is applied to the differential circuit composed of the capacitor C ₁ and the resistor R ₅ to generate a differential pulse. It is applied to the Schmitt trigger circuit (bar).

On the other hand, when broadcasting in two languages, the terminals (1) and (2) of the broadcasting signal detection integrated circuit (IC ₁ ) become high level so that the LED (LED ₂ ) is turned off and the transistor (Q ₄ ) is turned on. By turning on the light emitting diode LED ₁ , it indicates that the broadcast is a bilingual broadcast, and outputs a low level to the terminal 3 so that the differential circuit does not generate a differential pulse.

As such stereo broadcast reception, the display circuit (E) of the LED (LED ₂₎ for lighting Sikkim and simultaneously generates a differential pulse from the differentiation circuit (A) is thereby applied to the base of the transistor (Q ₁₎ transistor (Q ₁₎ Is 'turned on' at the high level of the differential pulse applied by the differential circuit (a), and according to the 'turn on' of the transistor Q ₁ , the transistor Q ₂ is 'turned off' so that the collector of the transistor Q ₂ It will output a high level pulse.

That is, the Schmitt trigger circuit bar outputs a high level square wave pulse by controlling the driving of the transistors Q ₁ and Q ₂ by the differential pulses of the high level differential pulses applied from the differential circuit a.

The square wave pulse output from the Schmitt trigger circuit (bar) is applied to the clock terminal (14) of the ring counter (IC ₂ ) after being differentiated in the differential circuit (b) consisting of a capacitor (C ₂ ) and a resistor (R ₁₀ ). The ring counter IC ₂ performs a count operation whenever a differential pulse is applied to the clock terminal 14.

At this time, when the initial power (B ⁺ ) is turned on, the differential terminal (C) consisting of the capacitor (C ₃ ) and the resistor (R ₁₁ ) is differentiated and then the reset terminal of the ring counter (IC ₂ ) through the diode (D ₁ ). By being applied to (15), the ring counter IC ₂ is reset every time the initial power supply B ⁺ is turned on.

That is, the ring counter (IC ₂ ) is reset when the initial power (B ⁺ ) is turned on and counts every time a differential pulse is applied from the differential circuit (B). Counting once outputs the high level to the terminal (2). When counting, the high level is output to the terminal 3, and counting three times outputs the high level to the terminal 4.

In this case, the counting of the ring counter IC ₂ is controlled by the differential pulse of the differential circuit (B), so that whenever the broadcast signal detecting integrated device IC ₁ detects a stereo broadcast, the ring counter IC ₂ counts. The count operation is in progress.

Therefore, before the differential counter of the differential circuit (B) is counted three times by the ring counter IC ₂ , the low level is output to the terminal 4, so that the transistor Q ₃ is 'turned off' and thus the transistor array integrated device IC _3. ), In which case it will switch to stereo or mono mode depending on the strength of the deployment.

However, when the switching operation between the stereo mode and the mono mode is performed three times, three differential pulses are applied to the ring counter IC ₂ to output a high level to the terminal 4.

When the high level is output from the terminal 4 of the ring counter IC ₂ , each diode D ₃ and D ₄ are differentiated in a differential circuit D consisting of a capacitor C ₄ and a resistor R ₁₂ . It is applied to the reset terminal 15 of the ring counter IC ₂ and the base of the transistor Q ₃ through.

Therefore, when at the terminal 4 of the ring counter (IC ₂₎ the high level, the output differential circuit (D) and a diode (D _3), the so by applying the differential pulse to the reset terminal 15 of the ring counter (IC ₂₎ The surrender counter (IC ₂ ) is cleared the same as when the initial power (B ⁺ ) is applied, and returns to the initial state.

On the other hand, when the high level output output from the terminal 4 of the ring counter IC ₂ is differentiated in the differential circuit d and applied to the base of the transistor Q ₃ through the diode D ₄ , the transistor Q ₃ ) Is 'turned on' at the high level of the differential pulse to apply a high level through diode D ₅ to transistor array integrated device IC ₃ connected to the emitter of transistor Q ₃ .

In this case, the transistor array integrated circuit IC ₃ is operated when a high level is applied through the diode D ₅ , and the output voltage of the transistor array integrated circuit IC ₃ is applied to a known mode select integrated device (not shown). Force to switch to mono mode.

Therefore, even during stereo broadcasting, when the electric field is strong, it is converted to the stereo mode, and when the development is weak, the operation is switched to the mono mode three times. By switching the mono mode, it removes the inconvenience that has caused the viewing.

As described above, the present invention differentiates the output of the broadcast signal detection state of the broadcast signal detecting integrated circuit IC ₁ from the differential circuit (A), converts the Schmitt trigger circuit (Bar) into square wave pulses, and converts the square wave pulses into by differentiation from B) when the ring counter (IC ₂₎ the ring counter (IC ₂₎ stereo modal counted for converting the number and the ring count the number of times a certain number of times, the counter (IC ₂₎ in by applying to the clock terminal of the (present to # 3) outputs a high level, designed to give drives the differential circuit (d) and simultaneously resets the ring counter (IC ₂₎ was finely divided in a transistor (Q ₃₎ by the drive of the transistor (Q ₃₎ transistor array operates the integrated device (IC ₃₎ to give control to the modal selection transistor in the integrated device to the output of the array integrated device (IC ₃₎ forcibly switches to mono Modal When a weak electric field area in the stereo and mono modal modal transformation cross several times (three times) as given by preventing the malfunction of the stereo-view By so mono and fix to all odd it will be effective in nopilsu the reliability of the product.

Claims (1)

A broadcast signal detection integrated device IC _{1 which} detects a broadcast signal and outputs a different state signal according to the broadcast signal state, and a light emitting diode LED ₁ as a state signal of the broadcast signal detection integrated device IC ₁ . ₂ ) a display circuit (e) for controlling the driving of the transistor (Q ₄ ) and displaying a broadcast state, a differential circuit for differentiating a stereo detection state signal of the broadcast signal detection integrated device (IC ₁ ), The differential pulse of the differential circuit (a) is controlled to drive a transistor (Q _; ) (Q ₂ ) to output a square wave pulse and a square wave pulse of the Schmitt trigger circuit (bar) ring counter (IC _2), a clock terminal and a differential circuit (B) that is applied to 14, the ring counter (IC ₂₎ to the initial power-differentiating circuit (C) which sets when Li with, the ring counter (IC ₂ Differential circuit (D) which differentiates the output of terminal 4 of The diode D ₃ for applying the differential pulse of the circuit D to the relet terminal 15 of the ring counter IC ₂ and the transistor Q ₃ driven by the differential pulse of the differential circuit D. A stereo malfunction prevention circuit comprising a transistor array integrated device (IC ₁ ) driven by an output and converting a mode selective integrated device into a mono mode.