RU2264032C2 - Transceiver - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: device has transmitter radio signal exciter 1, power amplifier 2, low frequencies filter 3, in track of which first high-speed commutator is used on p-i-n diodes 12; control device 17, output of which is connected to control inputs of high-speed commutators on p-i-n diodes. Low-frequencies filter is made in form of serially connected resonance contours, and during operation of receiver control device provides for disabling of exciter and locking of power amplifier, and first high-speed commutator on p-i-n diodes connects one end of inductiveness coil to body, second end of which is low-frequency filter output.

EFFECT: higher speed of operation, higher efficiency.

1 dwg

Description

The invention relates to radio engineering and can be used in short-wave communications.

Shortwave transceivers typically operate on a single antenna with alternating transmit and receive modes. The duplex mode of operation implemented in VHF / VHF radios by connecting a transmitter and a receiver operating at different frequencies through a duplex filter with an antenna is not used in KB radio stations because of the difficulty of implementing a duplex filter in this frequency range. Modern KB communication systems that implement a duplex mode of operation use, in addition to diversity in the frequencies of reception and transmission, spatial diversity of receiving and transmitting devices (receiving and transmitting antennas) and combining them using an additional cable or radio relay communication line.

The duplex mode of operation of the transceiver, including in the KB range of radio waves, can be carried out when operating on the same frequency of reception and transmission and on one antenna based on the time separation of the processes of reception and transmission, as well as compression of the transmitted and restored received information [1]. This method requires periodic switching of the reception and transmission modes with a frequency of the order of 5-10 Hz, which in turn imposes a requirement on the duration of the switch from reception to transmission (or vice versa) - no more than 10 ms. In this case, not only should the receiver be protected from the transmitter signal with a high power level (hundreds of watts) during transmission, but also from the noise component of the power amplifier in the receive mode.

In this regard, the connection of the receiver and transmitter with the antenna should be through a switching element that meets the above requirements. In most cases, an electromechanical switch is used to switch the KB antenna transceiver antenna circuit, operating in a wide frequency range with a switching time of at least 10 ms. The main disadvantage of a transceiver with an electromechanical switch is its low operating life due to the limited number of switching operations.

To implement this type of communication, high-speed antenna switches can be used to transmit signals with high powers. For this purpose, switching circuits with p-i-n diodes are usually used. The inclusion of p-i-n diodes in a serial communication circuit with an antenna for switching signals with a high power level in the short-wave range is not permissible due to the limited accumulated charge of the diode. Therefore, for transmission and reception modes, resonant circuits with varying parameters are used.

Closest to the proposed invention is a transceiver [2] with an electronic receive-transmit switch selected as a prototype, in which to increase the isolation between the transmit and receive circuits, the properties of serial and parallel circuits are used, the circuits of which are formed using switched p-i-n diodes. The disadvantages of the prototype are a narrow frequency band, which will ensure the transmission and reception of signals, the inability to work on the same frequency of the receiver and transmitter, the lack of protection of the receiver from the noise of the power amplifier, which reduces its sensitivity.

The aim of the present invention is to provide a high switching speed of the transceiver in a wide range of frequencies, including at the same frequency, as well as increasing the real sensitivity of the receiver.

This goal is achieved by the fact that in the transceiver containing the exciter of the radio signal of the transmitter, a power amplifier, a low-pass filter, the output of which is constantly connected to the antenna, a receiver connected to the antenna through a high-speed switch on pin diodes, and a control device, the output of which is connected to the control inputs switches of the electronic switch to ensure alternate operation of the transmitter and receiver at the same frequency on one antenna, characterized in that in the low-pass filter path The transmitter uses a high-speed switch on pin diodes, which, when the receiver is operating, connects one end of the inductor to the housing, the second end of which is connected to the antenna, the second output of the control device is connected to the control input of the transmitter exciter, providing it is disconnected from the input of the power amplifier during reception periods, the third output of the control device is connected to the control input of the power amplifier to lock its input stages, thus providing a reduction in amplifier noise in receive mode.

эти потери не превысят 1 дБ, что приемлемо для коротковолнового приемника.The low-pass filter (LPF) used in the transceiver is designed to suppress the harmonic components of the transmitted signal and may contain 10 or more LC elements of the Cauer or Chebyshev structure. When one end of the inductor is connected to the housing, the other end of which is connected to the antenna, a parallel circuit is formed from the considered inductor, a capacitor parallel to it and a capacitor connected in parallel to the antenna circuit, the resonance frequency of this circuit will be close to the cut-off frequency of the low-pass filter, which follows from the analysis frequency properties of the LPF Cauer. As a result of this, when the receivers are operating, the frequency band below the cut-off frequency of the low-pass filter parallel to the antenna circuit will be connected to an equivalent inductance, increasing the loss of the received signal due to the mismatch. However, according to calculations in the frequency band from f _min to f _max with the coefficient k _f over the sub-range of operating frequencies,

these losses will not exceed 1 dB, which is acceptable for a shortwave receiver.

A comparative analysis of the considered circuit with the prototype shows that the claimed device differs in structure and connections from the prototype, therefore, it meets the criterion of "novelty." The resonant properties of LC circuits and high-speed switches on p-in diodes are widely known; their use in order to provide a high switching speed of signals with high transmitter power and low-level receiver signals makes it possible to form a duplex communication mode with a time division of signal transmission and reception, including at one frequency, from which it follows that the technical solution meets the criterion of "significant differences".

The drawing shows a structural diagram of a transceiver providing a duplex communication mode with time division of signals and consisting of a transmitter of radio signals of the transmitter 1, power amplifier 2, low-pass filter 3, which in turn consists of series-connected inductors 4, 5 and capacitors 6, 7 , 8, 9, 10, switches 11 and 12, operating on pin diodes 13 with a choke 14, through which a control signal is transmitted, and with a filter capacitor 15, as well as from the receiver 16 and the control device 17, the first exit for which it is connected to the control inputs of the switches of the electronic switch, the second output of the control device is connected to the control input of the exciter of the signal of the transmitter, the third output of the control device is connected to the control input of the power amplifier to lock its input stages.

The transceiver operates as follows.

From the information source, the signal enters the exciter of the radio signals of transmitter 1, from where the modulated signal enters the power amplifier 2, the amplified signal enters the input of the low-pass filter 3, passes through the LC filter elements (serial inductors 4, 5 and capacitors 6, 7, 8 , 9, 10) to the antenna.

A signal passing through the low-pass filter carries information at the operating frequency, and the harmonic components of the signal are suppressed by the filter. When the transmitter signal passes, the switches 11 and 12 are disconnected, therefore, through the low-pass filter 3, the signal from the power amplifier 2 is transmitted to the antenna without attenuation. When commands are received from the control device 17, the exciter of the signal of the transmitter 1 is turned off, the quiescent currents of the transistors are reduced in the power amplifier 2, as a result of which the gain is reduced, a positive voltage is applied to the switch 11 from the control device 16, and under the influence of direct currents flowing through the pin diodes 13 and the inductors 14, the switch 11 is open, while the output of the inductance 5 of the low-pass filter 3 is connected through the switch 11 to the housing, as a result of which a parallel circuit is formed, consisting of an inductor 5 and ndensatorov 9, 10, a tuning frequency close to the cutoff frequency of the LPF, which follows from the calculation and analysis of the characteristic of the LPF Kauer (Chebyshev).

In the receiving mode, a current flows through the diodes 13 of the switch 12, which closes to the housing through the output circuits of the power amplifier and the input circuits of the receiver, as a result of which the high-frequency signal from the antenna is fed to the input of the receiver. A parallel circuit is formed parallel to the antenna circuit (inductor 5, capacitors 9 and 10), which in the operating frequency range of the low-pass filter 3 is inductive in nature, as a result of which the received signal undergoes attenuation of the order of 1 dB. In the receiving mode, at the output of the power amplifier 2, there is not only an information signal of the transmitter (pause), but also its noise component, because under the influence of a locking signal from the control device 17, the power amplifier attenuates the input noise and, in addition, in the transmission circuit, the inductor 5 in the low-pass filter 3 is connected to the housing through open p-i-n diodes 13 of the switch 11.

In the present invention, the low-level signal of the receiver is transmitted through the open channel of the switch 12, and when the signal p-i-n of the transmitter passes through the low-pass filter, the diodes of the switches 11, 12 are turned off, therefore, according to the calculations and experiments, the accumulated charge of the p-i-n diodes ensures reception and transmission of signals without distortion. The presence of isolation circuits for controlling p-i-n diodes 13 increases the switching time from transmitting to receiving mode, but does not exceed 10 microseconds (according to experiments), which is quite sufficient to provide a duplex communication mode.

The undistorted signal transmission with a high power level (up to 1 kW) to the antenna is ensured by the circuit (see drawing) due to the absence of bypass action of the locked pin diodes 13 of the switches 11 and 12. For the same purpose, two pin diodes with the opposite connection can be used in the switches .

Sources of information

1. RF patent №2190301, Н 04 В 7/00, 2000

2. A.S. USSR No. 474948, H 04 In 1/44, 1973.

Claims (1)

A transceiver comprising a transmitter and a low-pass filter (LPF), the path of which uses the first high-speed switch on p-i-n diodes, the output of which is constantly connected to the antenna; a receiver connected to the antenna through a second high-speed switch on p-i-n diodes; a control device, the output of which is connected to the control inputs of high-speed switches on pin diodes, characterized in that the signal from the exciter of the radio signals of the transmitter is fed to a power amplifier, then to the input of the low-pass filter, made in the form of series-connected resonant circuits, as well as that when the receiver is operating the control device provides for switching off the exciter of the radio signal and locking the power amplifier, and the first high-speed switch on pin diodes connects one end of the coil to the housing ki inductance, the second end of which is the output of the low-pass filter.