JPH07273683A - Antenna system - Google Patents

Abstract

PURPOSE:To obtain an inexpensive antenna system in which an image signal is eliminated by an image rejection mixer so as to eliminate image disturbance thereby using a low IF frequency. CONSTITUTION:An RF(Radio Frequency) amplifier 2 is connected to an antenna element 1 and a 1st input section RF of an image rejection mixer 3 is connected to an output section of the RF amplifier 2, a local oscillator 4 is connected to a 2nd input section Lo of the image rejection mixer 3 and a twisted pair wire 5 is connected to the output section IF of the image rejection mixer 3 to configure the antenna system 6. Furthermore, the tip of the twisted pair wire 5 is connected to an input section of a GPS receiver. Since the image rejection mixer 3 of the antenna system 6 eliminates an image signal, a low IF frequency is used.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a vehicle-mounted GPS (Glob
al Positioning System) The present invention relates to an antenna device used in a device.

[0002]

2. Description of the Related Art A GPS device comprises an antenna device and a GPS receiver connected to the antenna device, and a block circuit diagram thereof is shown in FIG. In FIG. 7, 61 is an antenna element, and the antenna element 61 includes
A low-noise RF (Radio Frequency) amplifier 62 is connected, and a coaxial cable 64 having a coaxial connector 63 at its tip is connected to an output portion of the RF amplifier 62 to form an antenna device 65.

The coaxial connector 63 is connected to the input connector 71 of the GPS receiver 70, and the received signal is G
It is transmitted to the PS receiver 70. The reception signal transmitted to the GPS receiver 70 is sent to a data processing unit to which a display unit, an interface, a keyboard, a clock and the like are connected via a high frequency unit and a signal processing unit.

Of these, as shown in FIG. 8, the high frequency section includes an RF amplifier 80, a bandpass filter 81 connected to the output section of the RF amplifier 80, a mixer 82,
83, local oscillators 84 and 85, and IF amplifier 8
A two-stage frequency conversion unit 88, 89 composed of 6, 87,
An IF filter 90 connected between the frequency conversion units 88 and 89 is connected to the output unit of the bandpass filter 81.

[0005]

However, in the above-mentioned conventional antenna device 65, the cost of the coaxial connector 63 and the coaxial cable 64 for signal transmission is high, and it takes time to connect the coaxial connector 63 and the coaxial cable 64. Therefore, the cost of the antenna device 65 is high.

For this reason, a bandpass filter and a single-stage frequency conversion unit are incorporated in the output section of the RF amplifier 62 of the antenna device 65, and a reception signal of 1575 MHz is received at 4-5.
An attempt has been made to realize cost reduction of an antenna device by converting to an IF (Intermediate Frequency) frequency of MHz and using a twisted pair wire which is cheaper than the coaxial cable 64. This is because the use of a low IF frequency eliminates the need to consider impedance matching on the transmission line and reduces the signal loss due to the conductor loss of the transmission cable.

However, since the IF frequency is much lower than the reception frequency, the image frequency approaches the reception frequency, and the bandpass filter cannot sufficiently remove unnecessary signals, resulting in image interference. .

Therefore, in order to eliminate this image interference, at the output section of the RF amplifier 62 of the antenna device 65, an RF amplifier 80 and an RF amplifier similar to the high frequency section of the GPS receiver 70 shown in FIG. In addition to the bandpass filter 81 connected to the output of 80, the mixer 8
2, 83, local oscillators 84 and 85, and IF amplifiers 86 and 87, and frequency converters 88 and 89, and an IF filter 90 connected between the frequency converters 88 and 89.
It has been considered to connect a circuit having at least two stages of frequency conversion units, which is configured by connecting the and to the output unit of the bandpass filter 81, but in this case, two stages of the antenna device 65 are provided. There is a problem in that the frequency conversion unit is added, and the cost due to this is higher than the cost reduced by replacing the coaxial cable 64 with the twisted pair wire.

The present invention has been made to solve such a problem, and is provided with a transmission cable other than a coaxial cable and an image rejection mixer that eliminates image interference in a single-stage frequency conversion section. It is an object of the present invention to provide an antenna device which is inexpensive and inexpensive.

[0010]

In order to achieve the above object, in the present invention, an antenna element, an RF amplifier connected to the antenna element, and an image rectifier connected to an output section of the RF amplifier are provided. And a local oscillator connected to the image rejection mixer, and a transmission cable connected to the output section of the image rejection mixer.

Further, an antenna element, an RF amplifier connected to the antenna element, an image rejection mixer connected to the output of the RF amplifier, and a voltage controlled oscillator connected to the image rejection mixer, A control voltage extraction circuit connected between the output section of the image rejection mixer and the voltage controlled oscillator, and a transmission cable connected to the output section of the image rejection mixer. is there.

Further, an antenna element, an RF amplifier connected to the antenna element, an image rejection mixer connected to the output of the RF amplifier, and a voltage controlled oscillator connected to the image rejection mixer, It comprises an output part of the image rejection mixer and a transmission cable connected to the voltage controlled oscillator.

Further, the transmission cable is characterized in that it is made of a material other than a coaxial cable.

Further, the present invention is characterized in that an IF amplifier is connected between the output section of the image rejection mixer and the transmission cable.

[0015]

With the above arrangement, the image signal can be removed by the image rejection mixer.
Image interference does not occur even if the reception frequency and the image frequency are close to each other by using the low IF frequency. Further, since the IF frequency of low frequency is used, signal loss is small even if a transmission cable other than the coaxial cable is used.

Further, the antenna device provided with the voltage controlled oscillator can always keep the oscillation frequency of the voltage controlled oscillator constant by adjusting the control voltage.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of an antenna device according to the present invention will be described below with reference to FIGS. 1 and 2 show an antenna device according to first and second embodiments of the present invention.

In FIG. 1, reference numeral 1 is an antenna element, an RF amplifier 2 is connected to the antenna element 1, and an output portion of the RF amplifier 2 is connected to a first input portion RF of an image rejection mixer 3. Then, in the second input section Lo of the image rejection mixer 3,
The local oscillator 4 is connected, and the twisted pair wire 5 is connected to the output section IF of the image rejection mixer 3 to form an antenna device 6. The tip of the twisted pair wire 5 is connected to the input section of a GPS receiver (not shown).

When the output level of the antenna device 6 is insufficient, as shown in FIG. 2, an antenna in which an IF amplifier 7 is connected between the output part IF of the image rejection mixer 3 and the twisted pair wire 5. Configuring device 8,
It is also possible to increase the output level.

Among them, the image rejection mixer 3 has an input section RF or an output section IF as shown in FIG.
Mixer (single balance mixer or double balance mixer) between two 90 ° hybrids with
11 and 12 are connected to each other, and a 0 ° hybrid having an input section L _O is connected between the mixers 11 and 12, which has an effect of suppressing an image signal without using a filter. . The input section RF is connected to the output section of the RF amplifier 2, the output section IF is connected to the twisted pair wire 5 or the IF amplifier 7, and the input section L _O is connected to the local oscillator 4.

As shown in FIG. 4, mixers (single balance mixers or double balance mixers) 21 and 22 are provided between a 90 ° hybrid having an input section RF and a 0 ° hybrid having an output section IF. Connected to the mixer 21 and 22 and provided with an input section L _O 90
The image rejection mixer 3a configured by connecting hybrids can also be used.

The antenna device 6 thus configured
Since the image signal can be removed by the image rejection mixers 3 and 3a, the IF 8 can use a low IF frequency. Therefore, a particularly expensive coaxial connector or coaxial cable is not required, and it is possible to perform transmission with less signal loss even with an inexpensive twisted pair wire 5. Further, since the low-frequency IF signal from which the image signal has been removed is output from the antenna devices 6 and 8, the GPS receiver does not require a high-frequency unit.

Next, FIGS. 5 and 6 show antenna devices according to the third and fourth embodiments of the present invention. Note that the same or corresponding parts as those of the antenna devices 6 and 8 are designated by the same reference numerals, and description thereof will be omitted.

As shown in FIG. 5, the voltage controlled oscillator 3 is connected to the input section Lo of the image rejection mixer 3, 3a.
1 is connected to the output unit CO, and the control voltage extraction circuit 32 of the voltage controlled oscillator 31 is connected between the control input unit CI of the voltage controlled oscillator 31 and the output unit of the IF amplifier 7 to form the antenna device 33. To be done. Also, as shown in FIG.
Image rejection mixer 3,3a Input section Lo
Is connected to the output section CO of the voltage controlled oscillator 31, and the control voltage is supplied from the GPS receiver side to the control input section CI of the voltage controlled oscillator 31 via the flat cable 34, thereby configuring the antenna device 35.

The antenna device 33 thus configured,
35 has the same effect as the antenna devices 6 and 8 and can improve the thermal stability of the IF frequency.
That is, even when the ambient temperature of the antenna devices 33 and 35 rises and the oscillation frequency of the voltage controlled oscillator 31 is about to change, by adjusting the control voltage supplied to the voltage controlled oscillator 31 according to the temperature change, Since the oscillation frequency of the voltage controlled oscillator 31 can be always kept constant,
The thermal stability of the IF frequency can be increased.

In the antenna devices 33 and 35,
Output section IF of image rejection mixer 3, 3a
The IF amplifier 7 is connected between the twisted pair wire 5 and the flat cable 34, but the IF amplifier 7 can be omitted if high output is not particularly required.

As the transmission cable, in addition to the twisted pair wire 5 and the flat cable 34, a parallel cable or a multi-core cable in which a plurality of cables are bundled can be used.
Especially for high frequencies is not required.

[0028]

As described above, according to the antenna device of the present invention, the image signal can be removed by the image rejection mixer to eliminate the image interference, so that the low IF frequency can be used. it can. Therefore, an expensive coaxial connector or a coaxial cable is not required, and transmission with a transmission cable other than the coaxial cable can be performed with less signal loss, and an inexpensive antenna device can be provided.

Further, in the antenna device provided with the voltage controlled oscillator, the control voltage can be adjusted so that the oscillation frequency of the voltage controlled oscillator can always be kept constant, so that the thermal stability of the IF frequency can be improved. .

Further, since the low frequency IF signal from which the image signal has been removed is output from the antenna device,
The high frequency part of the GPS receiver is unnecessary, which can contribute to cost reduction of the GPS receiver and the GPS device.

[Brief description of drawings]

FIG. 1 is a block diagram of an antenna device according to a first embodiment of the present invention.

FIG. 2 is a block diagram of an antenna device according to a second embodiment of the present invention.

FIG. 3 is a block diagram of a first image rejection mixer used in the antenna device of the present invention.

FIG. 4 is a block diagram of a second image rejection mixer used in the antenna device of the present invention.

FIG. 5 is a block diagram of an antenna device according to a third embodiment of the present invention.

FIG. 6 is a block diagram of an antenna device according to a fourth embodiment of the present invention.

FIG. 7 is a block diagram of a conventional antenna device and a GPS receiver.

FIG. 8 is a block diagram of a high frequency unit of a conventional GPS receiver.

[Explanation of symbols]

 1 Antenna Element 2 RF Amplifier 3, 3a Image Rejection Mixer 4 Local Oscillator 5 Twisted Pair Wire 6, 8, 33, 35 Antenna Device 7 IF Amplifier 31 Voltage Controlled Oscillator 32 Control Voltage Extraction Circuit 34 Flat Cable

Claims (5)

[Claims] 1. An antenna element, an RF amplifier connected to the antenna element, an image rejection mixer connected to an output of the RF amplifier, a local oscillator connected to the image rejection mixer, An antenna device comprising a transmission cable connected to an output section of an image rejection mixer. 2. An antenna element, an RF amplifier connected to the antenna element, an image rejection mixer connected to the output of the RF amplifier, and a voltage controlled oscillator connected to the image rejection mixer. An antenna device comprising a control voltage extraction circuit connected between an output section of the image rejection mixer and the voltage controlled oscillator, and a transmission cable connected to an output section of the image rejection mixer. . 3. An antenna element, an RF amplifier connected to the antenna element, an image rejection mixer connected to the output of the RF amplifier, and a voltage controlled oscillator connected to the image rejection mixer. An antenna device comprising an output unit of the image rejection mixer and a transmission cable connected to the voltage controlled oscillator. 4. The antenna device according to claim 1, wherein the transmission cable is made of a material other than a coaxial cable. 5. The antenna device according to claim 1, further comprising an IF amplifier connected between the output section of the image rejection mixer and the transmission cable.