KR100231464B1 - Method and circuit for detecting rssi of mobile communication terminal - Google Patents

Abstract

The present invention relates to a circuit and a method for detecting RSSI (received signal strength) used to determine the range of a transmitted / received signal and adjust the strength of a transmitted signal in a mobile communication device. It relates to a circuit and a method for detecting an RSSI signal by using a detected amplifier voltage using an amplifier.

Description

RSSI detection circuit and detection method of mobile communication device

The present invention relates to an RSSI detection circuit and a detection method for detecting a signal strength (RSSI) of a received signal for determining a call range of a transmission / reception signal and adjusting the strength of a transmission signal in a mobile communication device.

In general, in a mobile communication device, a communication distance between a mobile communication terminal or a base station is determined, and a RSSI is generated to control a transmission output at a transmitting end. The RSSI refers to a value obtained by converting the strength of the received signal into a voltage, which is sent to the baseband signal processor to perform the above-described functions.

Figure 1 shows a circuit for detecting RSSI in a conventional mobile communication device receiver, which divides a signal received at the RF receiver into a divider 1 'and is partially sent to an AGC loop for keeping the received signal constant. The other part is used to detect RSSI. The received signal is sent to an AGC loop to keep it constant. The characteristics of the AGC loop are characterized by an AGC amplifier (4), a gain amplifier (5), a divider (1) and a detector diode (2), an OP amplifier (3) and a loop filter. (6, Loop Filter), and the operation is performed by splitting a part of the signal passing through the AGC amplifier 4 and the gain amplifier 5 through the divider 1, and then passing the separated signal through the detector diode 2. To convert to DC voltage. The amplified DC voltage is compared with a reference voltage in the OP amplifier, and then the AGC amplifier is controlled by a voltage passed through a loop filter to maintain a constant signal level. In addition, the received signal separated by the first divider 1 'is converted into a DC voltage while passing through the detection diode 2', and the converted DC voltage is amplified by comparing with the reference voltage in the OP amplifier 3 'and the RSSI signal. Will be detected.

As described above, a circuit for keeping the level of the received signal constant and a circuit for detecting the RSSI are configured and operated separately.

In the current mobile communication device, a mobile communication terminal or a base station is aimed at securing price competitiveness due to miniaturization, light weight, and cost reduction.

In view of the above meaning, the above-described conventional technology has a problem that it is difficult to meet the expectation of cost reduction and miniaturization and light weight due to the use of unnecessary parts, compared to the present invention. That is, the elements of the circuit for detecting the RSSI are overlapped with the elements used in the AGC loop for keeping the received signal level constant.

Accordingly, the present invention uses a detection voltage generated during the operation of the AGC loop to restore the baseband signal from the signal received from the receiving end to always send a baseband signal of a constant level to the baseband signal processing unit to solve the above problems. The object of the present invention is to increase the price competitiveness by reducing the size and weight of the mobile communication device and reducing the cost by reducing the use of unnecessary parts by detecting the RSSI signal.

1 is a circuit diagram showing an AGC loop and RSSI detection circuit of a conventional mobile communication device receiving end.

2 is a circuit diagram illustrating an AGC loop and an RSSI detection circuit of a receiver of a mobile communication device according to the present invention.

<Description of Main Parts of Drawing>

1,1 ': Splitter 2,2': Detection diode

3,3 ': OP amplifier 4: AGC amplifier

5: gain amplifier 6: loop filter

The present invention detects an RSSI signal by using a detection voltage generated during operation of an AGC loop in an AGC loop used to maintain a constant level of a baseband signal among the signals received at a mobile communication device receiver and send the same to a baseband signal processor. It relates to a circuit and a method.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

2 shows a configuration of a circuit according to the present invention. The circuit of the present invention is an RSSI detection circuit that generates a DC voltage detected by a separate detection diode through a divider among the received signals, and removes an OP amplifier that generates an RSSI signal by comparing it with a reference voltage.

In detail, some of the signals passing through the AGC amplifier 4 and the gain amplifier 5 for compensating the gain are separated through the divider 1. Next, the separated signal is passed through the detection diode 2 to be converted into a DC voltage, and the converted DC voltage is amplified by comparing with the reference voltage in the OP amplifier 3. After passing the DC voltage amplified by the OP amplifier 3 through the loop filter 6, the AGC amplifier is controlled to the voltage passed through the loop filter 6 to make the signal level constant. At this time, since the voltage controlling the AGC amplifier 4 is a change amount due to the level of the received signal, a part of the amplified signal is compared with the reference voltage in the OP amplifier 3 'and then the RSSI is detected.

As described above, the RSSI detection circuit of the mobile communication device according to the present invention does not require a separate divider or detection diode as compared to the conventional RSSI detection circuit, thereby reducing the circuit weight and reducing the cost by simplifying components.

Claims (2)

An AGC loop for providing a constant value of the baseband signal among the received signals to the baseband processor; And an op amp configured to amplify the voltage passed through the loop filter for filtering the amplified voltage compared with the reference voltage in the op amp of the AGC loop by comparing with the reference voltage. Receiving a signal passing through the AGC amplifier and the gain amplifier among the signals received at the receiving end and detecting a DC voltage with a detection diode; Generating the amplified voltage by comparing the detected DC voltage with a reference voltage in an OP amplifier; Filtering the amplified voltage through a loop filter; RSSI signal detection method comprising the step of detecting the RSSI by comparing and amplifying a portion of the filtered voltage again with a reference voltage in a separate OP amplifier.