JPS62216284A - Drive circuit for semiconductor laser - Google Patents

Abstract

PURPOSE:To keep pulse width constant by using the combinational circuit of a diode and a capacitor or the diode as the load of a collector on the side different from a collector to which a semiconductor laser is connected. CONSTITUTION:At least a semiconductor laser 1 is connected as the load of a collector for one transistor 5 constituting a current switch while at least a diode 7 is used as load in a collector for the other transistor 4 organizing the current switch. Accordingly, the VCB of the transistor 4 can be kept constant regardless of the amplitude of pulse currents, the values of currents Ia', Ib', and the reference level of VO is held constant, thus reducing the pulse current dependency of an optical output waveform.

Description

[Detailed Description of the Invention] [Summary] In a semiconductor laser drive circuit using a current switch type, in order to solve the pulse width fluctuation of the optical output due to the fluctuation of the pulse current flowing through the semiconductor laser, the collector on the semiconductor laser connection side of the current switch is It has been disclosed that the pulse width fluctuation of the optical output can be reduced by using a diode or a diode and a capacitor as a load on the collector on the side different from the one shown in FIG.

[Industrial application field]

The present invention relates to a current switch type semiconductor laser drive circuit.

In optical communications, etc., it is required to arbitrarily maintain the optical output pulse width at a constant width, but semiconductor lasers (hereinafter referred to as LDs)
A circuit that is stable against variations in characteristics and temperature fluctuations is required.

[Conventional technology]

A circuit diagram of a conventional current switch type LD drive circuit is shown in FIG. In the figure, reference numeral 1 is an LD, 2 is an LD series load resistance, 3 is a resistor, and 4 to 6 are transistors.

As shown in the figure, a resistor is used as a load on the collector of the current switch on the side different from the LD connection side, or the collector is directly connected to the power supply or GND. Then, the input signal or the reference signal (
by supplying an inverted input signal or a reference signal).
(2) DI is driven and one light is emitted.

[Problem that the invention seeks to solve]

In the conventional current switch type LD drive circuit shown in FIG. 2, a resistor is used as a load on the collector of the transistor 4.5, so changes in the amplitude of the pulse current flowing through the drive circuit cause the transistors 4 and 5 to The flowing currents 1a and Ib change, and the collector potential changes. Therefore, the collector-emitter voltage ■. changes. A reference voltage V raf is applied to the base of the transistor 5, and the amplitude of the pulse current is -. The transistor 4.5 is turned on or off depending on the magnitude relationship between the two.

That is, when +V rllf <V 00, transistor 4
A current flows through V r , transistor 5 is turned off, and V r
af〉■. The opposite is true for . As mentioned above, v.

■ Because +VCI fluctuates due to changes in . The reference level of has fluctuated, ■. , and■. The size relationship between the two will no longer be constant. For this reason, if the amplitude of the pulse current differs depending on the LD characteristics and optical output power, the resistance value of the collector load is adjusted accordingly, and the vcl
It was necessary to keep l constant. Furthermore, when the pulse current changes due to temperature fluctuations, there is a problem in that the pulse width of the optical output changes accordingly.

[Means for solving problems]

The LD drive circuit of the present invention is used as a load of at least a collector on a side different from the collector connected to the LD in a current switch type circuit.

A diode or a combination circuit of a diode and a capacitor is used.

[Effect]

In the case of the present invention, since the collector load is composed of a circuit including a diode, the potential of the collector is maintained at a predetermined level, so that Vo of the transistor is kept constant regardless of the magnitude of the pulse current. It will be done. Therefore, fluctuations in the frequency characteristics of the transistor due to fluctuations in the pulse current can be suppressed, and fluctuations in the optical output waveform caused by this can be suppressed.

〔Example〕

FIG. 1 shows an embodiment of the invention. Code 1 in the diagram is LD
, 2 is a resistor, and 4 to 6 are transistors.

7 is a diode, and 8 is a bypass capacitor.

In the illustrated case, the VCfi of the transistor 4 can be kept constant regardless of the amplitude of the pulse current (that is, regardless of the values of the currents xa' and rb').

The reference level becomes constant, and the dependence of the optical output waveform on the pulse current can be reduced.

Note that in FIG. 1, it is also possible to use a diode instead of the resistor 2 to keep the collector potential of the transistor 5 constant. However, according to the inventor's experiments, it has been confirmed that even the configuration shown in FIG. 1 has sufficient practicality.

〔Effect of the invention〕

As explained above, according to the two aspects of the present invention, it is possible to obtain an optical output waveform that is less dependent on the amount of pulse current of the LD. Then, it becomes possible to keep the pulse width constant.

[Brief explanation of drawings]

FIG. 1 shows a configuration of an embodiment of the present invention, and FIG. 2 shows a conventional configuration. In the figure, 1 is a semiconductor laser, 4, 5.6 are transistors, 7 is a diode, and 8 is a bypass capacitor.

Claims (1)

[Claims] One transistor (5
) as a load on the collector of at least a semiconductor laser (1
) and connect the other transistor (
At least a diode (7) is installed as a load on the collector of 4).
) is used.