KR830001736Y1 - Automatic tuning circuit of sound equipment - Google Patents

Abstract

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Description

Automatic tuning circuit of sound equipment

1 is a schematic block diagram of a conventional FM receiver in which the present invention is used.

2 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

A: Tuning circuit I ₁ : Normal intermediate frequency IC (for example, HA1137W)

I ₂ : Operational Amplifer (for example, NJM 4558) for voltage comparison

The present invention relates to a circuit for automatically and accurately catching the operation of channel tuning of an FM receiver.

In general, the FM receiver tunes high-frequency signals of various channel frequencies input from the antenna as shown in FIG. 1 by using a tuner to catch the tuning frequency, and then mixes it with the frequency of the local oscillator in the mixing circuit to obtain an intermediate frequency. After passing through the amplification circuit and the stereo separation circuit and output to Htereo.

In such an FM receiver, since the frequency handled by the FM receiver is high and the band of the intermediate frequency is narrow, when the local oscillation frequency is staggered, the tuning is shifted and distortion or noise is generated.

And because the capacitor of the local oscillation circuit changes slightly according to the temperature rise of the set, stable reception cannot be achieved unless the local oscillation frequency difference is corrected.

Therefore, conventionally, a method of capturing the polarity of the pole electrode using an AFC (AutoFrequency Control) circuit for automatically correcting such a difference has been proposed. However, the conventional AFC circuit has a constant tuning for a frequency shifted from a fixed tuning point of a specific frequency. Although the operating range of pulling in near the point (receivable near without distortion) is wide, there is a drawback in that it has a weak force for accurate corrective tuning.

On the other hand, in recent years, the internal circuits of FM receivers or similar electronic devices composed of transistors, resistors, or electronic devices are becoming more and more ICs to achieve miniaturization and lightening according to consumer's preference for convenience in life. In accordance with this trend, when a broadcast signal received through an antenna is tuned by a tuner, it is detected or amplified circuit, AFC circuit, mute circuit, etc., an intermediate frequency IC integrated in one chip (HA1137W, etc.) Most of them use).

The present invention is designed to solve the drawback that it is difficult to accurately correct the tuning point in the conventional AFC circuit using the characteristics of the conventional intermediate frequency IC.

Before explaining the specific configuration of the present invention, we will briefly examine the background for using the above-mentioned intermediate frequency IC in the present invention.

The broadcast signal detected by the normal channel tuning operation performs detection, amplification, AEC, and mute operation by the IC (I ₁ ) itself as shown in FIG. 2, and the AEC circuit, which is the internal circuit of the IC (I ₁ ), is most The frequency is strongly inputted, and this time is compared with the fluctuation voltage according to the frequency detected as the AFC circuit based on a constant voltage (about + 5.6V) (10 terminals) commonly generated in the IC (I ₁ ) itself. Will output the output.

TABLE 1

As above, when 50Hz is tuned upward with the specific frequency tuned, the mute circuit operates. At this time, the mute voltage rises to eliminate the noise when incorrectly tuned or there is no broadcast signal. In the case of shifting to the lower side, the mute operation as described above is performed at approximately -50 Hz or less, so that the user of the FM receiver can automatically remove noise when selecting wrong frequency. In this case, the frequency is in the range of approximately -50Hz -50Hz. It indicates the state that has been tuned to a degree and does not mute.

On the other hand, according to the incorrectly tuned in the correct frequency range in the specific frequency tuning state as shown in <Table 1>, the voltage fluctuation corresponding to the frequency is output from the 7 terminal which is AFC terminal, and always about 5.6V at 10 terminal. Since the voltage is output, the voltage change characteristic according to the frequency change is set to about 5.6V as the operating point.

Therefore, 10 terminals are about 5.6V, 7 terminals are about 3.8V-7.4V, and 12 terminals are muted according to the frequency tuning state.

In this way, the present invention is combined to achieve accurate tuning using the voltage generated at the three terminals 12, 10, and 7 of the IC, which will be described below in detail.

That is, the mute terminal 12 terminal of the intermediate frequency IC (I ₁ ) is connected to the base of the transistor (T ₁ ), its collector connects the resistor (R ₁ ), capacitor (C ₁ ), and also the transistor ( the base of T ₂₎ is connected to the collector of the transistor (T ₁₎ and the transistor (T ₂₎ of the collector transistor (T ₃₎ of the transistor and connected to the base, through the counter output light emitting diode (D ₁₎ (T connected to the base of _4), and the collector transistor (T _6), the terminal (7 terminals) and connected to the base, the one hand that a voltage change output according to the reference voltage generator terminals (10 terminals) and the frequency tuning state of the op cancer Is connected to the input terminals ₃ , 5 and _{2 of the} driving IC I ₂ and its output terminal 1 is connected to the base of the transistor T ₅ , and the output terminals 6 and 7 are connected to the transistors T ₅ and T. and connected to the emitter of teodan _6), connected to the collector of the collector resistors _{(R 4, R 5, R} 7) and transistor (T ₆₎ of the transistor (T ₅₎ It said, the varactor diodes in the tuning transistor (A) at the collector of (T ₆₎ through a resistor (R _9), connected to the hayeoseo.

Unexplained symbols R ₂ , R ₃ , R ₁₀ and R ₁₁ are for voltage division or bias resistors, respectively.

The design of this structure is frozen to a transistor (T ₁₎ is generated in a conventional muting voltage, which is applied to the base of the transistor (T ₁₎ to the 12 terminals of the intermediate frequency IC (I ₁₎ for in a normal silent Hoshi ( ON, the transistor T ₂ is turned off, and the transistor T ₃ is frozen by applying power to the base due to the off of the transistor T ₂ .

The light emitting diode D ₁ is turned off and the transistor T ₄ is turned off by the unwinding operation of the transistor T ₃ .

In addition, the transistor T ₆ is turned off by turning the transistor T ₄ off and the power is applied to the base.

At no signal, the voltage levels at terminals 7,10 of the intermediate frequency IC (IC ₁ ) are almost the same, so that the voltage level at terminal 1 (approximately 5.5 V) and 3.5 terminals, which are the output terminals of the op amp IC (I ₂ ) 6,7 terminal (approximately 5.4V), which is the output terminal that transmits to the output as it is, have almost the same voltage value, but the voltage output from the 6,7 terminal is dropped to the diode D ₂ to emit emitters of the transistor T ₅ . above about 4.7V as the transistor (T ₅₎ is a current flowing in the potential difference between the standing nearly so to operate at approximately 0.7V resistors (R _5, R ₆₎ between the base and the emitter is substantially a small current flows, the resistance R _7, The current flowing through R ₉ increases, and the resistance (R ₄ , R ₅ , R ₆ , R ₇ , R ₈ , R ₉ ) values are set such that the voltage at point a is approximately 8V.

At this time, the voltage at the point a is set to a reference value of approximately 8V to match the frequency value that is applied to the varactor diode in the tuning circuit A to be tuned.

In this state, when a broadcasting signal is applied to the tuning circuit A, when the user selects the tuning operation, when the tuning control point is adjusted downward with a lower frequency than the correct tuning tuning point, it is determined according to the characteristics of the IC (I ₁ ). The output of 7 terminals is lower than the reference voltage of the terminal, and the voltage difference between the _two terminals is DC amplified and output to 1 terminal of IC (I ₂ ). Meanwhile, the approximately 5.6 V voltage applied to 3.5 terminals is applied to this IC (I _It is output as it is 6, 7 terminal of ₂ ).

Thus, the transistor voltage is applied to the base of (T _5), so maintaining the potential of significantly slower than emitter grounds upper transistor (T ₅₎ is turned off, the transistor (T ₆₎ is a, the IC (I ₁₎ when the broadcast signal input Since no voltage is generated at the mute terminal 12, the transistor T ₄ is turned off and turned off, so the potential at the point a is about 8 V, which is a reference voltage value, based on the set resistance of the resistors R ₄ , R ⁷ , and R ₉ . The higher potential is applied to the varactor diode in the tuning circuit A to change its capacity, so that the frequency is gradually increased. After that, the 10,7 terminals of the IC (I ₁ ) are almost reached. The potential at point a becomes a coincidence and continuously maintains a value of about 8V, which is the reference voltage set at the time of no signal.

On the other hand, when the tuning point is adjusted to the higher value of higher frequency than the correct tuning point, the 7-terminal output is increased from the 10-terminal reference voltage of IC (I ₁ ), and the + difference voltage between both ends is amplified by DC. The voltage is applied to the base of T ₅ , and the potential is DC amplified by the + difference voltage, so that the transistor T ₅ is completely frozen and flows a lot of current.

Therefore, the current flowing to the resistors R ₇ and R ₈ is small so that the voltage applied to the fixed resistance R ₉ becomes a full position much lower than the reference voltage value of about 8 V, which is applied to the varactor diode of the tuning circuit A. The lower the voltage, the lower the frequency until the frequency reaches positive tuning point.

At this time, when the transistor T ₅ is not completely saturated, the initial resistance value is set such that the potential of the point a is about 8 _V. Therefore, the voltage applied to the varactor diode in the tuning circuit I ₁ is initially absent. As with signal (8V), the signal does not change and automatically maintains the correct tuning point.

Thus, even if the AFC circuit automatically introduces frequencies within the tuning point range, the inlet range is wide and the power to find the correct tuning point is weak. Therefore, if the difference range of the set frequency value for each channel is relatively small, the channel is broadcast. Tuning becomes difficult, but by using the present invention, the advantages can be solved, and the accurate tuning point can be maintained at all times, and thus there is an advantageous characteristic of receiving a clear voice without noise.

Claims (1)

Connect the input terminals 2, 3, 5 of the comparator dual op amp I ₂ to the terminals 7, 10 of a typical intermediate frequency IC (such as HA1137W) and the output terminals 1, 6, 7) is connected to the base and the emitter of the transistor (T ₅ ), but op amp (I ₂ ) is operated in accordance with the output change of the seven terminals of the IC (I ₁ ) to connect the transistor (T ₅ ) off and, while the IC (I ₁₎ in the presence or absence of the output voltage of the 12-terminal transistor _{(T 1, T 2, T} 3) are respectively frozen, it turned off, in the on-resistance (R _1), the capacitor (C ₁₎ of and connected to the time constant by a flashing light-emitting diode (D _1), also the transistor (T ₃₎ to the unloading, off copper transistor (T _4, T ₆₎ of the unloading, the off varactor within a tuning (a) When the resistance (R ₄ to R ₈ ) is set to maintain the reference voltage at the point a so that the diode finds the correct tuning point frequency, the difference voltage with this reference voltage passes through the resistor (R ₉ ). (A) Automatic tuning circuit for sound equipment connected to the varactor diodes inside.