JPH0818487A - Pair cable high frequency wide band analog transmission system - Google Patents

Abstract

PURPOSE:To provide the inexpensive pair cable high frequency wideband analog transmission system without requiring a sophisticated reception signal adjustment technique at the receiver side. CONSTITUTION:This system is provided with an output level adjustment part 18 having a switch-type equalizer 9 switching the frequency characteristics of the loss of the pair cable according to the transmission frequency band of a high-frequency analog signal and the length of the pair cable for each output terminal 20 of the system to be sent at the side of the receiver through each pair cable connected to the output terminal 20 after amplifying the wide band high frequency analog signal and distributing it to plural output terminals 20 and a switch-type attenuator 8. With the output level adjustment part 18, the equalizer 9 and switches 10 and 11 of the attenuator 8 are switched to a through 7 or equalizer 9, or attenuator 8. The output signal level to a pair cable side is adjusted according to the length of the pair cable. The level of the high frequency analog signal accepted by the receiver is within the optimal level range of the receiver.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pair cable high frequency wide band analog transmission system for transmitting high frequency images such as TV (television) signals using a pair cable.

[0002]

2. Description of the Related Art Information (LA) for building information / communication
An integrated wiring system for transmitting both the N) system and the communication (telephone) system by using a pair cable which is the same transmission medium has been developed, and recently, a wideband high frequency analog signal such as a TV signal is further developed. Due to the frequency-multiplexed transmission, there is an increasing need for technological development that enables transmission of image information using a pair cable.

FIG. 7 (a) shows an example of a conventional paired cable high frequency wideband analog transmission system. This paired cable high frequency wideband analog transmission system includes a level compensation amplifier 1 and a balun (balanced / unbalanced). The balance converters 2 and 12, the reception level adjuster 3, and the receiver 4 are included.

In such a system, for example,
An input signal (high frequency analog signal) such as a TV signal from the outside of the building is input to the level compensation amplifier 1, the loss of the pair cable 6 is compensated to some extent by the level compensation amplifier 1, and the signal is transmitted via the balun 2. Pair cable 6
Is transmitted through. Then, the high frequency analog signal transmitted through the pair cable 6 is applied to the reception level adjuster 3 via the balun 12, and the attenuator or the like provided in the reception level adjuster 3 adjusts the optimum reception level of the receiver 4. The level of the received signal is adjusted so that it is within the range, and the TV
Etc. are received by the receiver 4.

Further, as shown in FIG. 7B, in a paired cable high frequency broadband analog transmission system having a plurality of paired cable 6 (6a, 6b) transmission lines,
A high frequency broadband divider 5 is interposed between the level compensation amplifier 1 and the balun 2, and a plurality of high frequency analog signals amplified by the level compensation amplifier 1 (two in the figure) are provided by the high frequency broadband divider 5. It distributes to the output terminal, through each balun 2 for each output terminal, it passes through the pair cable 6a and 6b,
It is transmitted to the pair cables 6a and 6b. Then, the transmission signal is transmitted via the balun 12 to the reception level adjusters 3a and 3b.
In addition, in the same manner as above, the reception level adjusters 3a and 3b adjust the levels of the received signals so that they fall within the optimum level range of the receivers 4a and 4b, and the signals are received by the receivers 4a and 4b. To be done.

[0006]

By the way, as described above, when a wideband analog signal is frequency-multiplexed and transmitted using a pair cable, the transmission loss of the pair cable is
It is larger than the coaxial cable that has been conventionally used for high frequency wideband analog transmission, and its loss is shown in FIG.
As shown in, the transmission loss depends on the frequency of the transmission signal, and the transmission loss on the high frequency side is larger than the transmission loss on the low frequency side. Therefore, a signal transmitted through the paired cable 6 has a large level difference between the low band side and the high band side of the transmission band due to its frequency characteristic, and therefore the signal received by the receiver 4 side for each frequency. Level adjustment was essential.

Therefore, in the conventional system, the level adjustment of the signal received on the receiver 4 side is performed by the level adjuster 3 as described above, but the level adjuster 3 adjusts the level for each frequency. In order to do so, an expensive measuring instrument such as a spectrum analyzer or a selective level meter is required, and moreover, using them to measure the frequency and the receiving level of the received signal, and to adjust the level based on the measurement result, Advanced adjustment technology is required. Particularly, in a paired cable high frequency wideband analog transmission system having a plurality of paired cable 6 transmission paths, as in the system shown in FIG. 7B, level adjustment operation is difficult and the system construction cost is high. Become
It was a problem.

The present invention has been made to solve the above-mentioned conventional problems, and an object thereof is a pair cable high frequency wide band analog which does not require an advanced received signal level adjusting technique on the receiver side and is inexpensive. To provide a transmission system.

[0009]

In order to achieve the above object, the present invention is constructed as follows. That is, the present invention is a paired cable high-frequency wideband analog that amplifies a wideband high-frequency analog signal and distributes it to a plurality of output terminals, and then transmits the high-frequency analog signal to the receiver side through each paired cable connected to each output terminal. In the transmission system, for each of the output terminals, one or more switch-switching type equalizers that pre-equalize the frequency characteristics of the loss of the pair cable according to the transmission frequency band of the high-frequency analog signal and the length of the pair cable. And one or more switch-type attenuators are provided, and the length of the pair cable is such that the level of the high-frequency analog signal received by each of the receivers is within the optimum level range of the receiver. There is provided level adjusting means for adjusting the output signal level to the pair cable side by switching the switches of the equalizer and the attenuator according to the above. It is configured as characterized by being.

[0010]

In the present invention having the above structure, a switch for pre-equalizing the frequency characteristic of loss of the pair cable according to the transmission frequency band of the high frequency analog signal and the length of the pair cable for each output terminal to which the pair cable is connected. One or more switching type equalizers and one or more switch switching type attenuators are provided, and the switches of these equalizers and attenuators are switched by the level adjusting means, and each receiver is provided. The output signal level to the pair cable side is adjusted according to the length of the pair cable so that the level of the high frequency analog signal received on the side is in the optimum level range of the receiver. Therefore, even if you do not adjust the level on the receiver side,
A signal adjusted to a level within the optimum level range of the receiver is always received by the receiver.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. In the description of the present embodiment, the same reference numerals will be given to the same names as those in the conventional example, and the detailed description thereof will be omitted.
FIG. 1 is a block diagram showing a main configuration of a signal amplifying / distributing device (CATV-HUB) which is a device on a signal input side of an embodiment of a pair cable high frequency wideband analog transmission system according to the present invention. This device is, for example, a device that amplifies and distributes a broadband high-frequency analog signal of cable television broadcasting that is applied from outside the building to the inside of the building, and transmits the signal to a TV receiver 4 in the building through a pair cable. Yes, input adjustment unit 13, preamplification amplifier 14,
Gain / slope adjustment unit 15, output adjustment amplifier 16, distribution unit 1
7, an output level adjusting unit 18, and a plurality of output terminals 20.

As shown in FIG. 2, a pair cable 6 is connected to each output terminal 20 via a balun 2, and an output end of each pair cable 6 receives a TV or the like via a balun 12. Device 4 is connected. In this embodiment, the pair cable 6 has a length of 100 m or less.

As shown in FIG. 1, the input adjusting section 13 is
It has an attenuator 28 and an equalizer 29, and the input signal is subjected to gain adjustment after the level adjustment of the transmission frequency band is performed by the attenuator 28 and the equalizer 29 provided in the input adjusting unit 13. It is amplified by the output adjusting amplifier 16 via the slope adjusting unit 15, and is distributed to the four output terminals 20 side by the distributing unit 17.

An output level adjusting section (pre-equalization circuit) 18 is provided for each output terminal 20, and the output level adjusting section is provided.
Reference numeral 18 denotes a switch-type equalizer 9 for pre-equalizing the frequency characteristic of loss of the pair cable 6 according to the transmission frequency band of the high frequency analog signal transmitted to the pair cable 6 and the length of the pair cable 6. And switchable type 2
It has one attenuator 8 and a through 7. The attenuation amount per stage of the attenuator 8, that is, the attenuation amount AT _S when one attenuator 8 is switch-connected to the circuit of the output level adjusting unit 18 is 10 dB. Also, the equalizer 9
Correction amount per one stage, that is, the output level adjusting unit 18
The correction amount EQ _S when one equalizer 9 is switch-connected to the circuit is also 10 dB. The frequency characteristic of this equalizer 9 is as shown in FIG. In the range of 70 to 300 MHz, the transmission loss becomes smaller as the frequency becomes higher.

That is, the frequency of the transmission signal is 70 to 300 M.
When the frequency is between Hz, as shown in FIG. 6, the loss of the paired cable 6 has a frequency characteristic that increases as the frequency increases, whereas the frequency characteristic of the equalizer 9 has the opposite characteristic. In addition, the loss becomes smaller as the frequency becomes higher, whereby the equalizer 9 pre-equalizes the frequency characteristic of the paired cable 6, that is, the transmission loss of the paired cable 6 in advance. It is possible to make the state almost independent of.

The output level adjusting unit 18 is provided with level adjusting means (not shown), and the level adjusting means adjusts the level of the high frequency analog signal received by each of the receivers 4 of the receiver 4. The switch 10 of the equalizer 9 and the switch of the attenuator 8 are made to correspond to the length of the pair cable 6 connected to the output terminal 20 so as to be within the optimum level range.
11 is switched to adjust the output signal level to the pair cable 6 side.

In designing the output level adjusting unit 18, the range of the receiving level of each receiver 4 is RL [dBm].
V] to RH [dB mV], and the level deviation is R _S [d
B], the transmission loss per unit length at the highest frequency of each pair cable 6 is PH '[dB / m], and the transmission loss per unit length at the lowest frequency is PL [dB / m].
m] and the upper limit of the length of the pair cable 6 connected to the output terminal 20 is Lmax [m], the maximum loss Phrmax [dB] due to the pair cable is Phrmax = PL × Lmax
[DB], maximum level difference between pair cables Prmax [d
B] is Prmax = (PH-PL) × Lmax [dB].

The signal level after distribution by the distributor 17 is A ₀ [dB mV], and the post-distribution pre-equalization amount is E.
_If it is ₀ [dB], the attenuation amount AT _S and the number of stages n per stage of the attenuator 8 provided in the output level adjusting unit 18 are
Is, for example, the value of the post-distribution level A ₀ is set to A ₀ -Phrm
Assuming that ax> RL is satisfied, A ₀ −AT _S × n
<RH and R _S ≧ AT _S ≧ (A ₀ −RH) / n (where n is the smallest integer). The correction amount EQ _S and the number of stages k per stage of the equalizer 9 provided in the output level adjusting unit 18 are | E ₀ + EQ _S × k−Prmax | ≦ R _S (where k is a minimum integer), and , EQ _S ≦ R _S.

Within the range satisfying the above equation, the attenuation amount AT _S per stage of the attenuator 8, the number n of stages, and the per stage of the equalizer 9 are made to correspond to the maximum length of the pair cable 6. The correction amount EQ _S and the number of stages k are appropriately determined, and the switches of the attenuator 8 and the equalizer 9 are switched according to the length of each pair cable 6.

Next, a specific example of this embodiment will be shown. In the present embodiment, a high frequency analog signal of a cable TV signal of 90 to 300 MHz is transmitted to the pair cable 6, and this pair cable 6 transmits a 90 MHz signal as shown in FIG. Transmission loss of 20 dB / 100 m, 300 M
Since there is a transmission loss of 37 dB / 100 m when transmitting a Hz signal, the transmission loss per unit length (1 m) of the paired cable 6 at the highest frequency (300 MHz) is 3.7.
[DB / m], the transmission loss per unit length of the pair cable 6 at the lowest frequency (90 MHz) is 2.0 [dB / m]. The optimum receiving level range of the cable TV receiver 4 is 25 [dBmV] as the highest level and 5 [d] as the lowest level.
BmV] and level deviation (level difference between channels)
The allowable range is 10 [dB].

The distributor 17 of the CATV-HUB 25 of this embodiment.
The level after distribution is 44 [dBmV], and the output level adjusting unit 18
The correction value of the equalizer 9 is 10 dB, the number of stages is 1, the attenuation amount of the attenuator 8 is 10 dB, and the number of stages is 2.

This embodiment is constructed as described above,
Next, the operation will be described. As mentioned above, CAT
The signal amplified in the V-HUB 25 and distributed by the distribution unit 17 is output from each output terminal 20 side to each pair cable 6 side, but in the present embodiment, one signal is provided for each output terminal 20. Output level adjuster 18 having a rectifier 9 and two attenuators 8
Is provided, and the switches 10 and 11 are switched by the level adjusting means (not shown) of the output level adjusting unit 18, and, for example, as shown in FIG.
When the length of the pair cable 6 connected to is equal to or less than 40 m, the switch 10 on the equalizer 9 side is switch-connected to the through 7 side, and the switches 11 on the two attenuator 8 sides are both on the attenuator 8 side. Switch connected.

Similarly, by switching the switches by the level adjusting means, as shown in FIG. 4B, when the length of the pair cable 6 is 45 to 50 m, the switch 10 is connected to the through 7 side, One side attenuator 8 side switch
11 is connected to the through 7 side, and the switch 11 on the other side of the attenuator 8 is connected to the attenuator 8 side. Similarly, when the length of the pair cable 6 is 50 to 70 m, it is shown in FIG. Thus, the switch 10 is connected to the equalizer 9 side, and the switch 11 on one side is
Is connected to the through 7 side, and the switch 11 on the other side is connected to the attenuator 8 side. When the length of the pair cable 6 is 70 to 100 m, the switch 10 is connected to the equalizer 9 side and the switch 11 is connected to the attenuator 8 side, as shown in (d) of FIG. .

As described above, the equalizer 9 and the attenuator 8 are switch-connected to each other, and the level of the high frequency analog signal transmitted to the pair cable 6 is the characteristic line c,
As shown in d, both are within the optimum reception level range of the receiver 4, and the reception level (characteristic line when the signal of the lowest frequency (90 MHz) among the signals to be transmitted is transmitted to the pair cable 6 c) and the highest frequency (300 M
The level difference from the reception level (characteristic line d) when the signal of (Hz) is transmitted to the pair cable 6 is the level of the receiver 4 regardless of the length of the pair cable 6 within 100 m. It is within the allowable range of the deviation (10 [dB]).

As in the conventional system, the output terminal
When the high-frequency analog signal is transmitted to the pair cable and received by the receiver 4 without providing the output level adjusting unit 18 on the 20 side, the reception level becomes as shown by characteristic lines a and b in FIG.
Upper limit of the optimum level range of the receiver 4 (25 [dBmV])
Out of the signals that are transmitted or transmitted,
The level difference between the reception level (characteristic line a) when the lowest frequency signal is transmitted to the pair cable 6 and the reception level (characteristic line b) when the highest frequency signal is transmitted to the pair cable 6 is The level deviation may exceed the allowable range. Therefore, some level adjustment on the receiver 4 side is indispensable.

According to this embodiment, as described above, the CAT
By switching the switches 11 and 10 of the attenuator 8 and the equalizer 9 of the output level adjusting section 18 provided for each output terminal 20 of the V-HUB 25, the output signal level to the pair cable 6 side is adjusted in advance (preliminary adjustment). (Equalization), the signal is transmitted to the pair cable 6 and received by each receiver 4, and the level of the high frequency analog signal is set within the optimum level range of the receiver 4, so that the receiver is provided as in the conventional case. It is not necessary to provide the reception level adjuster 3 on the 4 side to adjust the reception level, and neither the advanced reception signal level adjustment technique on the receiver 4 side is required. And
Since it is not necessary to provide the reception level adjuster 3, an expensive measuring instrument such as a spectrum analyzer or a selection level meter for adjusting the level by the reception level adjuster 3 is not required, and the system is inexpensive accordingly. be able to.

The present invention is not limited to the above-mentioned embodiment, and various embodiments can be adopted. For example, in the above embodiment, the CATV-HUB 25 has four output terminals 20.
However, the number of output terminals 20 is not necessarily four, and the number of output terminals 20 is not limited to four.
The number is appropriately set, and is distributed by the distribution unit 17 according to the number.

Further, in the above embodiment, the output level adjusting section
Although 18 has a configuration including one equalizer 9 having a correction amount EQ _S of 10 dB and two attenuators 8 having an attenuation amount AT _S of 10 dB, the equalizer provided in the output level adjusting unit 18 9 and the number of attenuators 8, the correction amount EQ _S of the equalizer 9 and the attenuation amount AT _S of the attenuator 8 are set appropriately, and the switches 10 of the equalizer 9 and the attenuator 8 are set. The switch switching by the level adjusting means 11 and 11 is also appropriately performed according to the length of the pair cable 6 connected to the output terminal 20.

Further, although the above embodiment has described the cable television broadcasting as an example of the pair cable high frequency wide band analog transmission system, the pair cable high frequency wide band analog transmission system of the present invention is not necessarily applied only to the cable television broadcast. However, the present invention is not limited to this, and is applied to a wideband high frequency analog transmission system such as high frequency image transmission using a pair cable.

[0030]

According to the present invention, the switch of the switch changeover type equalizer and the attenuator provided for each output terminal is switched by the level adjusting means to the side of the pair cable connected to each output terminal. The output signal level of is adjusted according to the length of the pair cable so that the level of the high frequency analog signal transmitted by the pair cable and received by each receiver is within the optimum level range of the receiver. , Even if the pair cables connected to the respective output terminals have different lengths, the receiver side can always receive the signal within the optimum level range of the receiver.

Therefore, there is no need for a receiving level adjuster or the like for adjusting the receiving level on the receiver side as in the prior art, and an expensive spectrum analyzer or selection for adjusting the receiving level by the receiving level adjuster is required. A level meter or the like is not required, and it is possible to construct a system whose cost is correspondingly low, and it is also possible to eliminate the need for advanced level adjustment technology for level adjustment on the receiver side.

[Brief description of drawings]

FIG. 1 is a diagram showing a CA provided on a signal input side of an embodiment of a pair cable high frequency broadband analog transmission system according to the present invention.
FIG. 3 is a block diagram showing a main configuration of a TV-HUB 25.

FIG. 2 is an explanatory view of a main part showing the entire system of the above embodiment.

FIG. 3 is a graph showing frequency characteristics of the equalizer 9 provided in the output level adjusting unit 18 of the above embodiment.

FIG. 4 is an explanatory diagram showing an operation of an output level adjusting unit 18 of the above embodiment.

FIG. 5 is a graph specifically showing a level adjustment effect by the output level adjustment unit 18 of the above-described embodiment.

FIG. 6 is a graph showing an example of frequency characteristics of transmission loss of a pair cable.

FIG. 7 is an explanatory diagram showing an example of a conventional paired cable high frequency broadband analog transmission system.

[Explanation of symbols]

 4 Receiver 6 Pair cable 7 Through 8 Attenuator 9 Equalizer 10, 11 Switch 18 Output level adjuster 20 Output terminal

Claims (1)

[Claims] 1. A pair cable high frequency wide band analog transmission for amplifying a wide band high frequency analog signal and distributing it to a plurality of output terminals, and then transmitting the high frequency analog signal to a receiver through each pair cable connected to each output terminal. In the system, for each of the output terminals, one or more switch-switching equalizers for pre-equalizing the frequency characteristics of loss of the pair cable according to the transmission frequency band of the high-frequency analog signal and the length of the pair cable. And one or more switch-type attenuators are provided, and the length of the pair cable is adjusted so that the level of the high-frequency analog signal received by each of the receivers is within the optimum level range of the receiver. Correspondingly, level adjustment means is provided for adjusting the output signal level to the pair cable side by switching the equalizer and attenuator switches. A high-frequency wideband analog transmission system for paired cables.