JPH0740677B2 - Wave shaping circuit - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a waveform shaping circuit that corrects a loss of a bipolar signal due to a cable and shapes an output waveform into a predetermined shape.

〔Overview〕

The present invention relates to a waveform shaping circuit for compensating for the loss of a bipolar signal due to a cable, by connecting to the cable through a circuit composed of the same element that is connected in series to each of the two wires on the sending side configured in a balanced system. , It has a simple and inexpensive circuit configuration.

[Conventional technology]

Conventionally, a circuit in which a bridged T type circuit is balanced-converted has been used as a waveform shaping equalizer. FIG. 4 is a block diagram of a conventional waveform shaping circuit. In FIG. 4, 1,
2 is a transistor, 3 is a resistor, 4 is a transformer, 5 is an impedance arm, which is added to prevent the circuit from opening when the transistors 1 and 2 are "off", and 24-27 are bridged T-type equalization. Resistors that make up the vessel,
21 to 23 are impedance arms of the equalizer, 8 is a cable, and 9 is a terminating resistance at the far end. This waveform shaping circuit is a circuit that sends out a bipolar waveform by turning "ON" and "OFF" the transistors 1 and 2. The loss generated in the cable 8 is corrected by the equalizers 21 to 27, and a predetermined output waveform is sent out. There is.

[Problems to be solved by the invention]

However, in a line for transmitting digital signals, the system does not necessarily have to have an accurate constant impedance, and using such a conventional waveform shaping circuit as it is requires many components and makes the circuit configuration complicated and expensive. was there.

The present invention solves the above-mentioned drawbacks, and an object of the present invention is to provide a waveform shaping circuit that can correct the loss due to the cable and equalize the output waveform, and that has a simple circuit configuration and is inexpensive.

[Means for solving problems]

According to the present invention, in a waveform shaping circuit including an equalizer connected to two wires on the sending side configured by a balanced system, the equalizer is connected in series to the two wires on the sending side. It is characterized in that each of the two circuits is composed of the same constituent element.

In the present invention, each of the two circuits may be a circuit in which a series circuit of a coil and a capacitor and a resistor are connected in parallel.

[Work]

The present invention provides a cable loss in a circuit composed of the same constituent elements connected in series to each of two wires on the sending side configured in a balanced system, that is, a circuit in which a series circuit of a coil and a capacitor and a resistor are connected in parallel. By equalizing, the correction of the cable loss can be performed with a simple and inexpensive circuit.

〔Example〕

 Embodiments of the present invention will be described with reference to the drawings.

The balanced bridged equalizer is composed of four resistors and three impedance arms as shown in FIG. If the termination is a constant resistance, the input impedance will be constant. However, the condition of constant resistance is not particularly required, and only the shape of the transmission waveform is defined as a standard.
Therefore, an equivalent circuit that preserves only the shape of the loss of the cable is sufficient. Such a circuit is shown in FIG.
24 to 27 and the impedance arm 23 are removed.

FIG. 1 is a block diagram of a waveform shaping circuit according to an embodiment of the present invention. In FIG. 1, transistors 1 and 2 are
"ON" and "OFF" transistors on each base
Signal to input. The emitters of the transistors 1 and 2 are both grounded, and the collectors are connected to both ends of the primary coil of the transformer 4, respectively. The middle point of the primary coil of the transformer 4 is connected to the constant voltage Vcc via the resistor 3.

Here, the feature of the present invention is a cable loss correction portion surrounded by a chain line. That is, one output of the secondary coil of the transformer 4 is connected to one input of the impedance arm 5 and the input of the impedance 6, and the other output of the secondary coil of the transformer 4 is connected to the other input of the impedance arm 5. The bipolar signal is connected to the input of the impedance 7 having the same value as the impedance 6, and the bipolar signals are input to the impedances 6 and 7. The middle point of the secondary coil of the transformer 4 is grounded. Impedance arm 6,
The outputs of 7 are connected to the inputs of cable 8 respectively to compensate for cable loss. The output of the cable 8 is connected across the resistor 9.

The operation of the waveform shaping circuit having such a configuration will be described. In FIG. 1, the impedance arm 5 is an impedance arm for preventing the circuit from opening when the transistors 1 and 2 are “off”. A bipolar signal is output from the secondary coil of the transformer 4 by the "on" and "off" of the transistors 1 and 2, and the impedance arms 6 and 7 composed of the same components respectively
The loss generated in the cable 8 is corrected and a predetermined output waveform is sent out.

Generally, the characteristics of the cable are such that the loss increases as the frequency increases. Therefore, the characteristic of the equalizer for correcting this must be of a type in which the loss decreases as the frequency increases. The initial value of the equalizer is obtained from the spectrum of the input obtained by Fourier transforming the input waveform, the spectrum of the output obtained by Fourier transforming the output waveform, and the loss characteristic of the cable. The final circuit constant is obtained by waveform approximation using this initial value.

FIG. 2 is a block diagram showing each part of the waveform shaping circuit of the present invention by a transfer function. H _IN (ω) is the input spectrum, H _OUT (ω) is the output waveform spectrum, H
_CBL (ω) is the transfer function of the cable and H _EQL (ω) is the transfer function of the equalizer.

H _OUT (ω) = H _EQL (ω) × H _CBL (ω) × H _IN (ω) ……
(1) From equation (1) FIG. 3 shows a circuit in the case where the equalizer is configured by the transfer function obtained from the equation (2). FIG. 3 is a detailed block diagram of the waveform shaping circuit of the present invention. In FIG. 3, the same parts as those in FIG. 1 are designated by the same reference numerals. 5 ₁ is a coil, 5 ₂
Is a resistor, 11 and 12 are resistors of the same value, 13 and 14 are coils of the same value, and 15 and 16 are capacitors of the same value. Resistance 11,
The coil 12, the coils 13, 14 and the capacitors 15, 16 constitute a secondary attenuation equalizer having a concave attenuation characteristic to correct the loss due to the cable 8.

〔The invention's effect〕

As described above, the present invention has an excellent effect that the loss of the cable can be corrected to equalize the output waveform, and the circuit can be simple and inexpensive.

[Brief description of drawings]

FIG. 1 is a block diagram of a waveform shaping circuit according to an embodiment of the present invention. FIG. 2 is a block diagram showing each part of the waveform shaping circuit of the present invention by a transfer function. FIG. 3 is a detailed block diagram of the waveform shaping circuit of the present invention. FIG. 4 is a block diagram of a conventional waveform shaping circuit. 1, 2 ...... transistor, 3, 5, _2, 9,11,12,24～27
...... Resistance, 4 ...... Transformer, 5 ₁ , 13, 14 ...... Coil, 5
~ 7, 21 ~ 23 ... Impedance arm, 15, 16 ... Capacitor.

Claims (2)

[Claims] 1. A waveform shaping circuit including a fixed equalizer connected to two transmission-side wires, which is configured by a balanced system, wherein the equalizers are connected in series to the two transmission-side wires, respectively. A waveform shaping circuit characterized by comprising two circuits, each of which has the same constituent element. 2. The waveform shaping circuit according to claim 1, wherein each of the two circuits is a circuit in which a series circuit of a coil and a capacitor and a resistor are connected in parallel.