JP2842793B2 - Variable resistance attenuation circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a variable resistance attenuation circuit, and more particularly to a variable resistance attenuation circuit using a pin diode used as a part of a variable equalizer in a CATV repeater.

[0002]

2. Description of the Related Art Conventionally, as this kind of variable resistance attenuator, for example, there is a variable resistance attenuator described in Japanese Patent Application Laid-Open No. Sho 59-143414. FIG. 2 is a circuit diagram of the variable resistance attenuator.

This variable resistance attenuator comprises a bridge T-type variable attenuator 6 using pin diodes 66 and 68 as variable resistors, and a differential amplifier circuit 7 for controlling a bias current of the pin diodes 66 and 68. The variable attenuator 6 applies an attenuation amount setting voltage 5 to the input signal 101
, And sends it to the load 4 on the transmission line side. The variable attenuator 6 attenuates the input signal 101 by a set value in a state where the variable attenuator 6 matches the circuit impedance of the input / output side transmission line.

The variable amount of attenuation is determined by the pin diode 66,
The bias current at 68 is changed to change the minute AC impedance of the diode, but the condition is that the circuit impedance is maintained in a matched state and the amount of attenuation is varied. In this variable attenuator, in order to satisfy this condition, if the minute AC impedances of the pin diodes 66 and 68, that is, their resistance values are R ₁ and R ₂ , respectively,
The value is always maintain the relationship of _{R 1 × R 2 = R 0} 2.
Note that _R0 indicates a circuit impedance. To satisfy this condition, the bias currents of the pin diodes 66 and 68 are supplied from the differential amplifier 7, and the sum of the bias currents is constant and changes complementarily.

In the variable attenuator 6, the capacitor 6
Reference numerals 1, 62, 65, and 69 denote capacitors for blocking a DC component of the bias current, and resistors 63 and 64 are fixed resistance elements of the attenuator.

The differential amplifier 7 includes transistors 78 and 79 that operate differentially, and resistors 71 and 79 that determine the operating point.
72, 73 and 74, a resistor 75 for fixing the combined collector current of both transistors to a predetermined value, and resistors 76 and 77 for dividing the voltage of the attenuation setting voltage 5 to a predetermined value. The division ratio of the collector currents of the transistors 78 and 79 changes according to the voltage of the attenuation setting voltage 5, and as a result, the bias currents of the pin diodes 66 and 68 of the variable attenuator 6 change complementarily, and as described above, R ₁ × R ₂ =
Satisfy the R ₀ ² relations, attenuation is adapted to vary while maintaining the impedance matching state.

[0007]

As described above, in the prior art, as a means for changing the amount of attenuation, the bias current of both pin diodes is complementarily changed by a differential amplifier. The change in the resistance value with respect to the current is not necessarily a linear relationship, and there are variations in the characteristics of the individual. Therefore, even if the sum of the two bias currents is fixed and each of them is changed complementarily, R ₁ × R ₂ = R
The relationship of ₀ ² cannot be completely satisfied. Therefore,
When the amount of attenuation is changed and set to a predetermined amount of attenuation, the input / output impedance of the attenuator slightly changes, and a perfect matching state cannot be guaranteed. Alternatively, there is a problem that the range of impedance matching is limited with respect to the variable width of the attenuation.

In particular, when used as a variable attenuator in a CATV repeater, the image quality is significantly degraded by the influence of the reflected power generated due to the impedance mismatching state, which is an important problem.

[0009]

SUMMARY OF THE INVENTION A variable resistor attenuating circuit according to the present invention uses a first pin diode for a series arm variable resistor and a second pin diode for a parallel arm variable resistor, and uses an external control voltage. A bridge T-type variable attenuator that varies a bias current of the first pin diode and sets an attenuation amount to a predetermined value by a bias current of the second pin diode that is automatically controlled inside at the same time; One of the four-wire-side winding circuits is connected to the external input terminal and the other to the detection output terminal, and the two-wire-side winding circuit of the hybrid transformer is connected to the input of the bridge T-type variable attenuator and connected to the external input terminal. When an input signal is applied, a mismatch current generated at the detection output terminal due to a mismatch state of the input impedance of the bridge T-type variable attenuator is reduced by the mismatch. A hybrid transformer circuit for detecting a power, advance the complaints in the center of the reference attenuation (reduced衰量variable width when the positive and negative phase states is determined by the input signal to the variable attenuation by the external control voltage of the Fuheiko current A polarity signal indicating whether the normal impedance value of the bridge T-type attenuator set in the direction of the bridge T-type attenuator changes in the direction of high (+) or low (-) or the direction of the change. And a band-pass filter for extracting a pilot signal included in the unbalanced current, amplifying the output signal of the band-pass filter, and rectifying the signal in the + direction or one direction according to the polarity signal. An amplifying rectifier circuit that outputs a DC voltage indicating a change direction and a change amount of an attenuation amount that is changed by a control voltage; A DC amplifier that amplifies and changes according to the DC voltage with the reference attenuation amount as a reference current and outputs the bias current of a second pin diode that controls the mismatch current to approach zero. Control circuit. Further, the hybrid transformer circuit has a winding ratio of n (an integer of 2 or more): 1 between the external input terminal side and the detection output terminal side on the 4-wire side.
May be asymmetric.

More specifically, a bias current of the first pin diode is controlled by an external control voltage using a first pin diode as a variable resistor of a serial arm and a second pin diode as a variable resistor of a parallel arm. And a bridge T-type variable attenuator for setting the attenuation amount to a predetermined value by changing the one of the four-wire-side winding circuit to the external input terminal, the other to the detection output terminal, and the two-wire side winding circuit to the bridge. When an input signal is applied to the external input terminal by being connected to an input of a T-type variable attenuator, an unbalanced current generated at the detection output terminal due to a mismatch state of the input impedance of the bridge T-type variable attenuator is mismatched. A hybrid transformer circuit for detecting the reflected power of the unbalanced current, a phase comparator for determining the positive / negative phase state of the unbalanced current based on the input signal, and a pilot signal included in the unbalanced current. And a band-pass filter for extracting the output signal of the band-pass filter, amplifying the output signal of the band-pass filter, and rectifying the output signal of the phase comparator to output a positive / negative DC signal. And a control circuit comprising a DC amplifier for amplifying and then outputting as a bias current of the second pin diode.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a circuit diagram of the present embodiment.

In FIG. 1, a variable attenuator 1 is a bridge T-type variable attenuator using pin diodes 16 and 18 as variable resistors for varying the amount of attenuation.
Reference numerals 2, 15, and 19 denote DC blocking capacitors for the bias currents 103 and 104 of the pin diodes 16 and 18, and the resistor 1
Reference numerals 3 and 14 denote fixed resistors constituting an attenuator. This variable attenuator controls the bias current of the pin diodes 16 and 18 and adjusts the resistance values R ₁ and R ₂ to R ₁ × R ₂ = R
₀ ² (R ₀ is the circuit impedance)
By changing the individual values, the input / output impedance (R ₀ ) is maintained in a matched state to change the attenuation. That is, by changing the bias current 104 with the voltage of the external attenuation amount setting voltage 5, the bias current 103 automatically follows this and satisfies the condition of R ₁ × R ₂ = R ₀ ² . .

The reflected power detecting circuit 2 detects the reflected power generated by the input impedance mismatch of the variable attenuator 1 by using the hybrid transformer 21. When the input signal 101 is applied to both ends of the 4-wire winding 21b and the balanced resistor 22 of the hybrid transformer 21, the input impedance of the variable attenuator 1 connected to the 2-wire winding 21a is If the resistance value (corresponding to the value of the circuit impedance) is not balanced, the unbalanced current 10 across both ends of the 4-wire-side winding 21C and the balanced resistor 22 depends on the degree of the unbalance.
2 is born. This is detected as reflected power.

The control circuit 3 inputs the unbalanced current 102,
The resistance of the pin diode 18 is controlled by the bias current 103 so that the unbalanced current 102 is minimized.
Fixed resistance attenuators 31 and 32 for appropriately adjusting the input signal level, a phase comparator 33 for detecting the polarity of the unbalanced current 102, and a band-pass filter for extracting a pilot signal included in the unbalanced current 102 34, an amplifier 35 for amplifying the pilot signal, a rectifier circuit 36 for discriminating the positive / negative direction of the pilot signal based on the output signal of the phase comparator and rectifying the rectified output. Reference numeral 103 denotes a DC amplifier 37 for supplying the pin diode 18.

Next, the operation of this embodiment will be described. The input signal 101 passes through the hybrid transformer 21, undergoes predetermined attenuation by the variable attenuator 1, is sent out to a transmission line, and is terminated by the load 4. The amount of attenuation of the variable attenuator 1 is set to an arbitrary value by an attenuation amount setting voltage 5. A reference attenuation amount is set as the attenuation amount. In this case, the reference attenuation amount is 25 dB when the center of the variable width is set, for example, when the variable width is 5 to 45 dB. The bias current 104 of the pin diodes 18 and 14 is set in advance so that the unbalance current 102 at the time of the reference attenuation amount becomes zero.
103 is adjusted and set. That is, in this state, the input impedance of the variable attenuator 1 is a normal value. First, the operation of the case where the attenuation is increased from the reference value will be described. First, since the operation of decreasing the attenuation setting voltage 5 is performed, the bias current 104 decreases and the resistance of the pin diode 16 increases. . Accordingly, although the attenuation of the variable attenuator 1 increases, the input impedance of the variable attenuator 1 is shifted in a direction larger than the circuit impedance Ro, resulting in a mismatch state. As a result, an unbalanced current 102 having a negative polarity is generated. The change direction of the unbalance current is detected by the phase comparator 33 of the control circuit 3. That is, the phase comparator 33 inputs a part of the unbalanced current 102 via the resistance attenuator 31 and a part of the input signal 101 via the resistance attenuator 32, and compares the phases of the two to determine whether the unbalanced current 102 is positive or negative. Detects the phase state and outputs a polarity signal. When the polarity signal is the input impedance of the variable attenuator 1 was Families higher than the normal value direction, negative (-) positive when was the polar Further Families lower direction (+) becomes polarity, in this case - the polarity. Further, the unbalanced current 102 is input to the band-pass filter 34 via the resistance attenuator 31, and extracts a pilot signal or the like inserted into the input signal 101 and used for line monitoring or the like. After the bi-rot signal is amplified by the amplifier 35, it is input to the rectifier circuit 36, where the phase comparator 33
The rectification corresponding to this polarity is performed by the polarity signal from the rectifier to generate a positive (+) or negative (-) DC voltage. The DC voltage indicates a variable direction and the change amount of the variable attenuation amount, in this case - with a direct-current voltage having a predetermined voltage value. This DC voltage is input to the DC amplifier 37 and amplified there, and at the same time, level-shifted, current-converted and output as the bias current 103. That is, the bias current 103 is increased or decreased by the DC voltage input from the rectifier circuit 36, centered on the reference current set so that the input impedance of the variable attenuator 1 becomes a normal value at the time of the reference attenuation. In this case, the bias current 10
Numeral 3 controls the resistance value of the pin diode 18 to decrease in the direction of increasing the reference current. That is, since the resistance value of the pin diode 18 is reduced, the input impedance of the variable attenuator 1 is automatically controlled so as to decrease and approach a matching state. Since the change in the unbalance current 102 is sufficiently enlarged to change the bias current 103, the value of the unbalance current remaining as a control residue, that is, the amount of mismatch is small and does not pose a practical problem.

When the attenuation is reduced from the reference value
The control direction is the opposite direction, but the operation is the same as the operation described above.
It is like . That is, since the voltage of the attenuation amount setting voltage 5 is reduced, an unbalance current 102 having a negative polarity is generated. Bias current 103 is reduced, the resistance of the pin diode 18 is increased, and controls so that the upper Gaité alignment input impedance.

Further, the above-mentioned control works even with respect to variations in the characteristics of the pin diode or the like, changes in temperature, aging, etc., so that the matching state of the input impedance is automatically maintained.

When the hybrid coil 21 has a 4-wire-side winding ratio of 1: 1, the input signal suffers a passing loss of 3 dB. Therefore, if it is desired to reduce this, an asymmetrical winding such as 1: 9 is required. A line ratio may be used.

[0019]

As described above, the variable resistance attenuating circuit of the present invention detects the mismatch state of the input impedance by the unbalanced current using the hybrid transformer, and determines the resistance value of the pin diode based on the detected output. Since it is controlled to be in a matching state, an optimum matching state can be maintained in a wide variable range, and a stable matching state can be maintained with respect to variations in components such as pin diodes and changes in characteristics. effective. Especially CATV
When used in a repeater, it is possible to prevent a deterioration in image quality due to a mismatch state, and to have a great effect on stabilizing image quality.

[Brief description of the drawings]

FIG. 1 is a circuit diagram of one embodiment of the present invention.

FIG. 2 is a circuit diagram of a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Variable attenuator 2 Reflected power detection circuit 3 Control circuit 4 Load 5 Attenuation setting voltage 16, 18 pin diode 21 Hybrid coil 22 Balanced resistance 31, 32 Resistance attenuator 33 Phase comparator 34 Bandpass filter 35 Amplifier 36 Rectification Circuit 37 DC amplifier 101 Input signal 102 Unbalanced current 103, 104 Bias current

Claims (2)

(57) [Claims] 1. A bias current of the first pin diode is varied by an external control voltage using a first pin diode as a variable resistor of a serial arm and a second pin diode as a variable resistor of a parallel arm. A bridge T-type variable attenuator for setting the attenuation to a predetermined value by a bias current of the second pin diode which is automatically controlled internally, and one of a 4-wire side winding circuit of a hybrid transformer and an external input terminal. The bridge T-type variable attenuator is connected to the detection output terminal and the two-wire side winding circuit of the hybrid transformer is connected to the input of the bridge T-type variable attenuator and an input signal is applied to the external input terminal. A hybrid transformer circuit for detecting an unbalanced current generated at the detection output terminal due to a mismatch state of the input impedance as reflected power due to the mismatch. When, the reference attenuation (in advance the Fuheiko current at the center of the reduced衰量variable width is set to 0 when the variable attenuation by the external control voltage determines the sign phase states of the Fuheiko current by the input signal And a phase comparator for outputting a polarity signal indicating the direction in which the normal impedance value of the bridge T-type attenuator set in the above-mentioned T-type attenuator changes in a high (+) or low (-) direction. A band-pass filter for extracting a pilot signal included in the unbalanced current; an output signal of the band-pass filter; amplifying an output signal of the band-pass filter; An amplification rectifier circuit that outputs a DC voltage indicating the direction of change and the amount of change, and the level of the DC voltage is shifted and DC-amplified, and the time of the reference attenuation is used as a reference current. And a DC amplifier that outputs a bias current of a second pin diode that changes in accordance with the DC voltage and controls the unbalance current to approach zero. Damping circuit. 2. The hybrid transformer circuit according to claim 1, wherein the winding ratio between the external input terminal side and the detection output terminal side on the 4-wire side is n ( 2
2. The variable resistance attenuating circuit according to claim 1, wherein the variable resistance attenuating circuit is asymmetrical with the above integer): 1.