CN211791461U - C-band mixed transmission multiplexer - Google Patents

Abstract

The utility model discloses a C wave band passes multiplexer in mixture belongs to wireless communication technical field. The device comprises a radio frequency filtering unit, a 10MHz reference signal input feed-out unit, a direct current power supply input feed-out unit and a public port. The radio frequency filtering unit comprises a first power isolation module, a low-pass filter, a high-pass filter and a C-band power divider, wherein each branch of the C-band power divider is connected with a C-band radio frequency end; the 10MHz reference signal input feed-out unit comprises a first radio frequency isolation module and a second power isolation module; the direct-current power supply input feed-out unit comprises an overcurrent protection and self-recovery module and a second radio frequency isolation module; and a radio frequency end pin of the public port is connected with the first power isolation module, and a feed end pin is respectively connected with the first radio frequency isolation module and the overcurrent protection and self-recovery module. The device has the advantages of high transmission frequency band, high isolation of each port, simple structure, convenient and flexible use and the like, and can carry out multiplex mixed transmission on C-band signals.

Description

C-band mixed transmission multiplexer

Technical Field

The utility model relates to a wireless communication technology field especially indicates a C wave band mixes and passes multiplexer can carry out the multiplex to C wave band signal and thoughtlessly pass.

Background

In the last decade, the communication technology is rapidly developing, which brings great changes to people's life and makes people get rid of the restriction of wires. In a communication system, both the receiving and transmitting of wireless signals are completed through antennas, if one antenna is provided for each of the receiver and the transmitter, not only the cost and the volume are increased, but also the receiving and transmitting antennas can interfere with each other, so that it is most desirable that the receiving and transmitting systems share one antenna, and the duplexer is a microwave device specially designed for solving the problem.

In recent years, especially with the development of 5G technology, the frequency band used by communication technology is higher and higher, and the requirement for modularization integration is particularly high, so that multiplex mixed transmission of C-band signals is very necessary. The antenna is required to be accessed through a public end, and finally power division and multi-path output are carried out through a low-pass filter, a high-pass filter, power isolation and the like; and secondly, after the product is connected into the system, a reference clock and a power supply can be fed into the channel front-end equipment through the reference end input port and the power supply port. However, prior art receivers lack this capability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a C wave band thoughtlessly passes multiplexer is provided, and it has the characteristics that the transmission frequency range is high, each port isolation is high, simple structure, convenient to use are nimble, can carry out the multiplex to C wave band signal and thoughtlessly pass.

In order to solve the above problem, the utility model adopts the technical scheme that:

a C-band mixed transmission multiplexer comprises a radio frequency filtering unit, a 10MHz reference signal input feed-out unit, a direct current power supply input feed-out unit and a public port;

the radio frequency filtering unit comprises a first power isolation module, a low-pass filter with a 1dB passband cut-off frequency in a C waveband, a high-pass filter with a 1dB passband cut-off frequency in a U waveband and a C waveband power divider with more than one division, wherein each branch of the C waveband power divider is connected with a C waveband radio frequency end;

the 10MHz reference signal input feed-out unit comprises a first radio frequency isolation module and a second power isolation module which are sequentially connected;

the direct-current power supply input feed-out unit comprises an overcurrent protection and self-recovery module and a second radio frequency isolation module which are sequentially connected;

the public port is provided with a radio frequency end pin and a feed end pin, wherein the radio frequency end pin is connected with the input end of the first power isolation module, and the feed end pin is respectively connected with the output ends of the second power isolation module and the second radio frequency isolation module.

Furthermore, the common port is an SMA connector, the radio frequency end pin is connected with an outer conductor of the SMA connector, and the feed end pin is connected with an inner conductor of the SMA connector.

Further, the first radio frequency isolation module is a low-pass filter with a 1dB passband cut to a frequency in a U waveband.

Furthermore, the first power isolation module and the second power isolation module are both blocking devices, the overcurrent protection and self-recovery module is a self-recovery resistor, and the second radio frequency isolation module is an inductive reactance device for allowing a power supply to pass through.

Compared with the prior art, the utility model the advantage do:

1. the utility model discloses in, C wave band signal can two-way indiscriminate transmission with the radio frequency end at public end.

2. The utility model discloses in, 10MHz reference signal can not have insertion loss transmission to public end to have fine isolation effect with the radio frequency end.

3. The utility model discloses in, mains voltage can not have the insertion loss and transmit to public end to have fine isolation effect with the radio frequency end.

4. The utility model discloses a direct current path has overcurrent protection and self-resuming function.

In a word, the utility model has the advantages of transmission frequency channel is high, each port isolation is high, simple structure, convenient to use are nimble, can carry out multiplex to C wave band signal and thoughtlessly pass.

Drawings

Fig. 1 is a schematic block diagram of a C-band hybrid multiplexer according to an embodiment of the present invention.

Fig. 2 is a schematic block diagram of the rf filtering unit in fig. 1.

Fig. 3 is a schematic block diagram of the 10MHz reference signal input and output unit of fig. 1.

Fig. 4 is a schematic block diagram of the dc power input and output unit of fig. 1.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

A C-band mixed transmission multiplexer comprises a radio frequency filtering unit, a 10MHz reference signal input feed-out unit, a direct current power supply input feed-out unit and a public port;

the radio frequency filtering unit comprises a first power isolation module, a low-pass filter, a high-pass filter and a power divider with one division and multiple divisions which are sequentially connected. The first power isolation module can adopt a DC blocking device with a voltage withstanding value of more than 25V, so that the effect of preventing a DC power supply from entering a radio frequency link is achieved, and devices in the link are prevented from being damaged; the low-pass filter can adopt a micro-strip filter, the cut-off frequency of a 1dB pass band is in a C wave band, the flatness is 0.4dB, and C wave band signals can pass through the low-loss filter; the high-pass filter can adopt an LTCC filter, the 1dB passband of the LTCC filter is cut to the frequency of a U wave band, the flatness is 0.6dB, and the LTCC filter is mainly used for filtering 10MHz signals; the power divider can select a C-band power divider to ensure normal power division of signals; each branch output by the power divider is connected with a C-band radio frequency end;

the 10MHz reference signal input feed-out unit comprises a first radio frequency isolation module and a second power isolation module which are sequentially connected. The first radio frequency isolation module is used for filtering radio frequency signals while ensuring that 10MHz signals normally pass through, and can be realized by adopting an LC low-pass filter, wherein the 1dB passband of the first radio frequency isolation module is cut to a frequency in a U wave band, and the flatness is 0.2 dB; the second power isolation module can adopt a DC blocking device with a voltage withstanding value of more than 25V, and is used for preventing a DC power supply from entering a 10MHz signal preceding-stage feed-in circuit and avoiding damaging devices in a link.

The direct-current power supply input feed-out unit comprises an overcurrent protection and self-recovery module and a second radio frequency isolation module which are sequentially connected. The overcurrent protection and self-recovery module can adopt a self-recovery resistor, and the maximum passing current of the overcurrent protection and self-recovery module is 1.5A and the maximum fusing current is 2.3A at normal temperature, so that the normal work of a later stage is ensured, and devices are effectively prevented from being burnt by overcurrent; the second radio frequency isolation module can ensure that a power supply can normally pass through, and can adopt an inductive reactance device with a power tolerance value of more than 1W.

The public port has two functions of radio frequency end input and feed end output, wherein a radio frequency end pin is connected with the input end of the first power isolation module, and a feed end pin is respectively connected with the output ends of the second power isolation module and the second radio frequency isolation module.

Furthermore, the public port is an SMA connector, the radio frequency end is an outer conductor of the SMA connector, and the feed end is an inner conductor of the SMA connector.

Specifically, as shown in fig. 1, a C-band mimo multiplexer includes a rf filtering unit, a 10MHz reference signal input and output unit, a dc power input and output unit, and a common port.

The radio frequency filtering unit comprises a first power isolation module, a low-pass filter with a 1dB passband cut-off frequency in a C waveband, a high-pass filter with a 1dB passband cut-off frequency in a U waveband and a C waveband power divider with one division more, wherein each branch of the C waveband power divider is connected with a C waveband radio frequency end;

the 10MHz reference signal input feed-out unit comprises a first radio frequency isolation module and a second power isolation module which are connected in sequence;

the direct-current power supply input feed-out unit comprises an overcurrent protection and self-recovery module and a second radio frequency isolation module which are sequentially connected;

the public port is provided with a radio frequency end pin and a feed end pin, wherein the radio frequency end pin is connected with the input end of the first power isolation module, and the feed end pin is respectively connected with the input ends of the first radio frequency isolation module and the overcurrent protection and self-recovery module.

When the device works, external equipment is connected with the incident frequency filtering unit through a common terminal, passes through the power isolation circuit and the filter, and then is output in a multipath way through the power divider; meanwhile, an external reference signal is connected to the 10MHz reference signal input and output unit and is output from the public end, and an external direct current power supply is connected to the power supply input and output unit and is output from the public end after passing through the overcurrent protection and self-recovery circuit.

Fig. 2 is a schematic block diagram of the rf filtering unit of the above-mentioned apparatus, which includes four parts, namely, a power isolation part, a low-pass filter, a high-pass filter, and a power divider.

The power supply isolation isolates a direct current power supply fed out from a public end, ensures that only radio frequency signals enter a rear-stage circuit, and prevents the direct current power supply from damaging rear-stage devices; the low-pass filter filters a C-band signal input by external equipment to obtain a DC-C-band signal, then the high-pass filter filters a 10MHz reference signal fed out from a common end to obtain a required C-band signal, and finally the C-band signal is output in a multi-path mode through the power divider.

The radio frequency filtering unit is used for carrying out band-pass filtering on C-band signals coming from external equipment, filtering interference and realizing multi-path output. The unit can adopt a filter with a microstrip structure and has the advantages of simple structure, low cost and high isolation of each port.

Fig. 3 is a schematic block diagram of a 10MHz reference signal input and output unit in the above-described apparatus, which includes two parts, i.e., a radio frequency isolation circuit and a power isolation circuit. Because the 10MHz reference signal is output through the public end, and the port is also a radio frequency input port and a direct current power supply feed-out port, the radio frequency signal and the direct current power supply are respectively isolated at the reference signal input port, thereby protecting equipment accessed to the device.

Fig. 4 is a schematic block diagram of a dc power input and output unit of the above-described apparatus, which includes two parts, namely, an overcurrent protection and self-recovery circuit and a rf isolation circuit. The direct current power supply enters the equipment through the input port and feeds the direct current power supply to the rear-stage device from the public end, so that the normal work of the system is ensured. When improper operation causes short circuit and overcurrent of a rear-stage circuit, the unit can automatically cut off the power supply so as to protect a rear-stage device and can automatically recover after the problem is solved. Since the feed-out port has the radio frequency signal entering, the radio frequency signal needs to be isolated in the unit in order to protect the externally accessed direct current power supply.

The unit has overcurrent protection and self-recovery functions, bears large current in normal work, and can effectively ensure normal work of the post-stage equipment.

The working principle of the C-band hybrid transmission multiplexer is as follows:

the device isolates a direct-current power supply through a power supply isolation circuit, filters stray at a high end of an isolated radio-frequency signal through a high-pass filter, filters stray at a low end including a 10MHz reference signal fed out from the common end through a low-pass filter to obtain a C-band signal accessed by the external device, and finally outputs the C-band signal in a multi-path way through a power divider; meanwhile, an externally input 10MHz reference signal is fed out from a public end, so that the system can be conveniently accessed to an external reference; in addition, a direct current power supply can be connected to the direct current power supply input feed-out unit of the device, and power is supplied to the rear-stage active device through the public port.

In a word, the utility model has the advantages of transmission frequency channel is high, each port isolation is high, simple structure, convenient to use are nimble, can carry out multiplex to C wave band signal and thoughtlessly pass.

Claims (4)

1. A C-band mixed transmission multiplexer is characterized by comprising a radio frequency filtering unit, a 10MHz reference signal input feed-out unit, a direct current power supply input feed-out unit and a public port;

the radio frequency filtering unit comprises a first power isolation module, a low-pass filter with a 1dB passband cut-off frequency in a C waveband, a high-pass filter with a 1dB passband cut-off frequency in a U waveband and a C waveband power divider with more than one division, wherein each branch of the C waveband power divider is connected with a C waveband radio frequency end;

the 10MHz reference signal input feed-out unit comprises a first radio frequency isolation module and a second power isolation module which are sequentially connected;

the direct-current power supply input feed-out unit comprises an overcurrent protection and self-recovery module and a second radio frequency isolation module which are sequentially connected;

the public port is provided with a radio frequency end pin and a feed end pin, wherein the radio frequency end pin is connected with the input end of the first power isolation module, and the feed end pin is respectively connected with the output ends of the second power isolation module and the second radio frequency isolation module.

2. The multiplexer of claim 1, wherein the common port is an SMA contact, the rf terminal pin is connected to an outer conductor of the SMA contact, and the rf terminal pin is connected to an inner conductor of the SMA contact.

3. The multiplexer of claim 1, wherein the first RF isolation module is a low pass filter with a 1dB passband cut to a frequency in the U-band.

4. The multiplexer of claim 1, wherein the first and second power isolation modules are dc blocking devices, the over-current protection and self-recovery module is a self-recovery resistor, and the second rf isolation module is an inductive reactance device for passing power.

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