KR100315704B1 - Portable wireless receiver having agc function of hysteresis characteristic - Google Patents

Abstract

PURPOSE: A portable wireless receiver having an AGC(Automatic Gain Control) function of a hysteresis characteristic is provided to have a stable AGC characteristic by performing an AGC by a gain control signal having the hysteresis characteristic. CONSTITUTION: An RF(Radio Frequency) gain control unit(9) responds to a gain control signal, generates an RF gain control signal in which an AGC curve of an RF terminal has a hysteresis characteristic, and increases or decreases a gain of an LNA(Low Noise Amplifier)(3). In case that a receiving level is gradually increased and an IF(Intermediate Frequency) gain control signal is less than the second voltage in a specific level, the RF gain control unit(9) switches the fifth voltage to the sixth voltage and decreases the gain of the LNA(3). In case that the receiving level is gradually decreased and the IF gain control signal is less than the third voltage in the specific level, the RF gain control unit(9) switches the sixth voltage to the fifth voltage and increases the gain of the LNA(3).

Description

Portable Wireless Receiver with Automatic Gain Control of Hysteresis

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless transmitter / receiver having an automatic gain control (AGC) function, and more particularly to a wireless receiver in which a signal for radio frequency (RF) automatic gain control has hysteresis characteristics. It is about.

In portable wireless telephones requiring wide dynamic range reception, such as Code Division Multiple Access (CDMA), AGC is required to compensate for attenuation caused by interference signals from other base stations. Do.

1 is a diagram showing the configuration of a conventional radio transmitter and receiver.

The duplexer 2 switches the connection between the antenna 1, which is common to the transmission and reception, and the transmission and reception part.

In the reception section, a low noise amplifier (LNA) (3) is a low noise amplification for transmitting a signal received through the antenna (1) in an air line (base station) to the optimum signal form in order to transmit it. do. The RF filter 4 filters only desired signal components from the received RF signal. A mixer 5 mixes a predetermined local oscillation signal (a high frequency signal generated from a first local oscillator (not shown)) with the filtered signal and outputs an intermediate frequency signal (hereinafter referred to as IF). do. The IF amplifier 6 inputs an IF signal output from the mixer 5 and amplifies it to a certain degree. The IF filter 7 is a surface acoustic wave filter, which removes the interference frequency from the IF signal. The IF AGC amplifier 8 receives a predetermined control and its gain is adjusted to amplify the IF signal output from the IF filter 7. The demodulation / baseband unit 12 inputs an IF signal output from the IF AGC amplifier 8 and demodulates according to a predetermined local oscillation signal (generated from a second local oscillator (not shown)) and then converts it into a baseband signal. Or the baseband signal is modulated according to a predetermined local oscillation signal (generated from a second local oscillator, not shown). The gain control unit 10 is a signal output from the modulation / demodulation / baseband unit 12, that is, a signal generated from a level of a received RF signal (a result of comparing the demodulated signal with a predetermined reference voltage or received field strength ( RSSI)} generates a predetermined gain control signal to increase or decrease the gain of the LNA 3 and the IF AGC amplifier 8.

The transmitter 11 is connected between the duplexer 2 and the modulation / demodulation / baseband unit 12, but is not shown, but is composed of a power amplifier, an RF filter, a driving amplifier, a mixer, an IF filter, an IF AGC amplifier, and the like.

FIG. 2 is a graph illustrating gains of an RF terminal and an IF terminal according to reception input levels in the wireless transmitter and receiver of FIG. 1.

The illustrated IF stage and RF stage gains represent voltages output from the gain control unit 10 of FIG. 1. The reason why gain control is performed not only at the IF stage but also at the RF stage is that distortion occurs in the LNA 3, the mixer 5, or the IF amplifier 6 by the strong interference wave or the like.

However, as shown in the drawing, the degree of gain in each of the RF and IF stages is different depending on the reception input level, so that there are some problems when the gain control of the RF and IF stages is performed by one AGC signal. That is, if gain control of the RF terminal and the IF terminal from the low reception level to the high reception level at the same time, or gain control of the RF terminal by more than a certain input, the gain control unit 10 may oscillate at the input point.

Accordingly, an object of the present invention is to provide a portable wireless receiver which can perform stable operation without oscillation even when automatic gain control of RF and IF stages is performed together.

The present invention for achieving the above object, a low noise amplifier for low-noise amplifying the received high-frequency signal, the gain is controlled under a predetermined control, the intermediate frequency signal obtained by processing the low-noise amplified high-frequency signal a predetermined amplification Means for generating a signal corresponding to a result obtained by demodulating the amplified intermediate frequency signal output from the automatic gain control amplifier and comparing it with a predetermined reference voltage, and the strength of the signal generated by the means. In response to the gain control signal, a wireless receiver having a gain control unit for outputting an intermediate frequency gain control signal generates a high frequency gain control signal having a hysteresis characteristic of an automatic gain control curve of a high frequency stage in response to the gain control signal. The high frequency gain control unit increases or decreases the gain of the low noise amplifier. And by having characterized.

1 is a view showing the configuration of a conventional radio transmitter and receiver

2 is a graph illustrating gains of a high frequency terminal and an intermediate frequency terminal according to a reception input level in the wireless transmitter / receiver of FIG.

3 is a diagram illustrating a configuration of a wireless transmitter and receiver according to an embodiment of the present invention.

4 is a graph illustrating gains of a high frequency terminal and an intermediate frequency terminal according to a reception input level in the wireless transmitter / receiver of FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. Also, in the following description, many specific details such as components of specific circuits are shown, which are provided to help a more general understanding of the present invention, and the present invention may be practiced without these specific details. It is self-evident to those of ordinary knowledge in Esau. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is a diagram showing the configuration of a wireless transmitter and receiver according to an embodiment of the present invention.

Unlike FIG. 1 described above, the RF gain control unit 9 is further provided. The RF gain control unit 9 outputs an RF gain control signal to the LNA 3 according to the output of the gain control unit 10. The RF gain control signal causes the AGC curve of the RF stage to have hysteresis characteristics.

4 is a graph showing gains of the RF terminal and the IF terminal according to the reception input level in the wireless transmitter and receiver of FIG. Here, the RF stage gain and the IF stage gain are only shown together for convenience of explanation or understanding, and of course, may be separately drawn. When explaining or understanding them together, the change in reception level should be based on the voltage values (V ₅ and V ₆ ) for indicating RF stage gain and the voltage values (V ₁ to V ₄ ) for IF stage gain. ) Should be considered independently of one another.

The illustrated RF stage gain represents the voltage output from the RF gain control unit 9 of FIG. 3, and the IF stage gain represents the voltage output from the gain control unit 10.

When the reception level increases from P _{1 to} P ₄ , when the IF gain control output voltage output from the gain control unit 10 becomes less than or equal to the second voltage V ₂ , the RF gain control unit 9 sets the RF gain control output voltage as the fifth. Switch from the voltage V ₅ to the sixth voltage V ₆ . The LNA gain also changes to a low state. On the contrary, when the reception level decreases from P _{4 to} P ₁ , when the IF gain control output voltage output from the gain control unit 10 becomes less than or equal to the third voltage V ₃ , the RF gain control unit 9 reduces the RF gain control output voltage. Switch from the sixth voltage V ₆ to the fifth voltage V ₅ . At this time, the LAN gain is also changed to a high state.

If the reception level P ₂ and P ₃ are the same,

When P ₁ → P ₄

① Change the LNA gain from the high state to the low state at reception level P ₂ .

(2) The reception power, i.e. the reception level, increases because the LAN gain has decreased.

③ The RF gain control output signal changes the LNA gain from low to high.

④ The reception level decreases because the LNA gain has risen.

The same steps are repeated in the form ① → ② → ③ → ④ → ① and the AGC control loop starts. In conclusion, the same reception level P ₂ and P ₃ in FIG. 4 means that the gain control signal does not have hysteresis. In this case, as described above, the AGC control loop oscillates and causes instability of the operation.

On the other hand, in the case of having the hysteresis as in the present invention, since the gain of the RF stage is rapidly decreased when the reception input level is increased and the gain of the IF AGC amplifier 8 is large, the operating point for increasing the gain of the RF stage is different. It can maintain a stable state. Similarly, even if the reception input level is small, a stable state can be maintained because the operating points for the RF gain control are different.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

The present invention as described above has an advantage that a wireless receiver having stable AGC characteristics can be obtained by performing AGC by a gain control signal having hysteresis characteristics.

Claims (2)

A low noise amplifier for low noise amplifying the received high frequency signal, an automatic gain control amplifier for predetermined amplification of an intermediate frequency signal obtained by processing the low noise amplified high frequency signal under a predetermined control, and an automatic gain control Means for generating a signal corresponding to a result of demodulating the amplified intermediate frequency signal output from the amplifier and comparing it with a predetermined reference voltage, and a gain control unit for outputting an intermediate frequency gain control signal according to the strength of the signal generated by the means; In the wireless receiver provided with, In response to the gain control signal, the automatic gain control curve of the high frequency stage generates a high frequency gain control signal having hysteresis characteristics, and further includes a high frequency gain control unit for increasing or decreasing the gain of the low noise amplifier as the high frequency gain control signal. Characterized by a wireless receiver. The method of claim 1, wherein the high frequency gain control unit, When the reception level is gradually increasing, when the intermediate frequency gain control signal reaches a specific level P ₃ and becomes lower than or equal to the second voltage V ₂ , the high frequency gain control signal is reduced from the fifth voltage V ₅ . Switch to 6 voltages (V ₆ ) to lower the gain of the low noise amplifier, When the reception level is gradually decreasing, when the intermediate frequency gain control signal reaches a level P ₂ smaller than the level P ₃ and becomes equal to or greater than the third voltage V ₃ , the high gain control signal is read. And switching from a sixth voltage (V ₆ ) to the fifth voltage (V ₅ ) to change the gain of the low noise amplifier to a high state.