JPS58105440A - Optical modulating circuit of clamp potential variable video signal - Google Patents

Abstract

PURPOSE:To compensate automatically the fluctuation of optical output and the deterioration of linearity due to a temperature change, by sampling the fixed part of a DC level out of a modulated optical signal and then feeding it back to the reference potential of a clamping circuit of the video signal. CONSTITUTION:A DC level is fixed by a clamping circuit CLP for the video signal which is fed to a video input terminal VIDEO IN. This video signal is converted into a currentIthrough a constant current driving circuit comprising an operational amplifier A1, a transistor TR and a resistance R2 in order to drive a laser diode LD. The backward output of the diode LD undergoes a photoelectric conversion through a photodiode PD, and the current underwent a photoelectric conversion flows to a resistance R3. The generated photoelectric conversion output voltage is amplified by an amplifier A2, and the voltage of the synchronizing signal part is sampled by a sampling/holding circuit to be smoothed through a low-pass filter LPF. The output of the LPF is applied to an operational amplifier A3 along with the DC potential supplied from a variable resistor and then compared with the reference voltage to be amplified.

Description

DETAILED DESCRIPTION OF THE INVENTION (Technical Field) The present invention relates to a laser diode direct image modulation circuit that can automatically correct optical output fluctuations and linearity deterioration due to temperature changes.

(Background Art) A conventional laser diode direct image modulation circuit is shown in FIG. In Figure 1, VIDEOIN is the video input, CL
P is the clamp circuit, A is the operational amplifier, TR is the transistor, LD is the laser diode, R is the resistor, ■ is the current flowing through the laser diode, OPT, OUT are the optical output,
P is the light output level.

FIG. 2 is an explanatory diagram of T1'-th. T, ,T
3 is the temperature of the laser diode, lIn1n is the minimum value of the LD drive current, IItl&+1[ is the maximum value of the LD drive current, P1□. .

22ml IC* P8ma! are the LD temperature 'r, respectively.
, ,'I', ,T, the maximum value of the optical output level, P
lml. * Ptm1n + Psmin are each L
-D temperature T1. T, , is the minimum value of the optical output level for T3.

The setting of the clamp potential of the clamp circuit is best when the LD temperature is T2, and the LD temperature T, (T, <T,
), the optical output level increases and the supplementary light ratio deteriorates.

Conversely, when the LD temperature is Ts (Ts > Tt), the optical output level decreases and the linearity deteriorates. Therefore, there is a drawback that this circuit cannot be used when there is temperature fluctuation.

(Problems to be solved by the invention) The present invention is characterized by extracting a portion with a fixed DC level from a modulated optical signal and feeding it back to the reference potential of a video signal clamp circuit. and to automatically correct linearity deterioration, which will be described in detail below.

(Structure and operation of the invention) FIG. 3 shows an embodiment of the invention, in which VIDEOIN is a video input terminal, PULSE IN is a pulse input terminal, and CL
P is a clamp circuit; 4. A3 is an operational amplifier, TR is a transistor, LD is a laser diode, PD is a photo diode, R1 and R2 are resistors, A2 is an amplifier, 8.
H is sample and hold circuit, LPF is low-pass filter, RV is variable resistor, -B is power supply, (Of) is LD
, (Ob) is the rear output light of the LD, P is the optical output level, OPT, α is the optical output, I is the LD magnetic current CI=rt+Iv), 1 is the LD bias current,
ΔV is the video signal current of the LD.

The operation and function of the circuit will be explained below. Video input terminal V
The video signal input to IDEOIN is passed through the clamp circuit CLP.
The DC level is fixed. A video signal with a fixed DC level is converted to a current I by a constant current drive circuit composed of an operational amplifier A1, a transistor TR, and a resistor R2.
(=In+Iv), and the laser diode L
Drive D.

IB is a bias current determined by the clamp potential, and Iv is a video signal current determined by the video signal input.

The rear output (Ob) of the laser diode LD is photoelectrically converted by the photodiode PD, the photoelectrically converted current flows to the resistor R3, the photoelectrically converted output voltage generated in the resistor R3 is amplified by the amplifier A2, and the sample The voltage of the synchronizing signal portion is extracted by the hold circuit and smoothed by the low-pass filter LPF. The low-pass filter output is applied to an operational amplifier A3 together with a DC potential supplied from a variable resistor, and is compared and amplified with a reference potential. The compared and amplified DC signal is added to the reference potential of the clamp circuit.

Figure 4 is an explanatory diagram of the operation of Figure 3, where T, , T2 are the temperatures of the laser diode (Tt>Tt), and IBl is the temperature T1.
IBl is the bias current at temperature T, pmax is the maximum optical output level, Pml.

is the minimum value of the light output level. When the temperature changes from T to T2, the reference potential of the clamp potential changes, and the bias current IB1 changes to 2, operating to keep the optical output level constant.

Figure 5 shows an example of a clamp circuit, where A4 is a low impedance buffer, CI and C2 are capacitors, and A5
is a high input impedance buffer, TR1 is a switching transistor, and R3 is T when there is no pulse input.
This is a bias resistor for cutting off R1.

FIG. 6 is a diagram showing the relationship between the video signal (a) and the pulse signal (b) of the crank circuit shown in FIG.
) has the phase and pulse width to clamp or sample and hold the sync signal part.

In FIG. 5, when the clamp pulse (b) is present, the transistor TR1 becomes conductive, and the synchronizing signal portion is fixed at the reference potential.

(Effects of the Invention) As explained above, in the embodiment, a part of the optical output is photoelectrically converted and fed back to the reference potential of the clamp circuit, so optical output fluctuations and linearity deterioration due to temperature changes are automatically corrected. There are advantages that can be achieved.

The present invention has a circuit that can automatically correct optical output fluctuations and linearity deterioration due to temperature changes, so it can be used in optical terminal equipment for video signal transmission used in places where there are temperature changes. .

[Brief explanation of drawings]

Figure 1 shows a conventional laser diode direct image modulation circuit.
Fig. 2 is an explanatory diagram of the operation of Fig. 1, Fig. 3 is a circuit diagram of an embodiment of the present invention, Fig. 4 is an explanatory diagram of the operation of Fig. 3, Fig. 5 is an embodiment of the clamp circuit, Fig. 6 is an explanatory diagram of the operation of FIG. 5. VIDEOIN...Video input terminal PULSE IN...Pulse input terminal LD...
...Laser diode TR, TR1...Transistor R, R1, R2...Resistor At, A3...Operation amplifier CLP...Clamp circuit A2. A4. A
5...Amplifier Rv......Variable resistor S, H...Sample/hold circuit LPF...
・・・・・・Low pass filter PD・・・・・・・
・・Photo diode P・・・・・・・・・・Light output level□■・・・・・・・・・・・・Laser diode driving current 1m1n・・・・・・・・・··laser·
Diode minimum drive current Im&! ......Laser diode maximum drive current OPT, OUT...
...Light output T,,T,,T, ...Laser diode temperature 1, ...Laser diode bias current Iv... ......Laser diode video signal current (Of)...Laser diode front output light (Ob)...Laser diode rear output light -E... ...Power Supply 15 Patent Applicant Oki Electric Industry Co., Ltd. Patent Application Agent Megumi Yamamoto - Procedural Amendment (Voluntary) February 7, 1981 Kazuo Wakasugi, Commissioner of the Patent Office, Case 1 Showa I patent application No. 203474 2, name of the invention Clamp potential variable video signal light modulation circuit 3, relationship with the case of the person making the amendment Patent applicant name (029) Oki Electric Industry Co., Ltd. It is determined by the following. (2) In the 18th line of the same page, "flows to resistor R3, easily resistor" is corrected to "flows to resistor RIK, flows to resistor R1". (3) "R, Rj, R2-..." on page 7, line 9 of the specification
...resistance" to "R, R1, flt2.1't3...
...resistance". that's all

Claims (1)

[Claims] In an optical modulation circuit that directly modulates laser light with a video signal including a synchronization signal, a laser diode (LD)
A photoelectric conversion element (PD) receives an optical signal proportional to the optical output of the PD and converts it into an electrical signal, and a sample-and-hold circuit (S) extracts a portion of the output with a fixed DC level.
, H), a low-pass filter (LPF) that smoothes the sample-and-hold circuit output, an amplifier (A3) that compares and amplifies the low-pass filter output and a reference potential, and operates with the compared and amplified DC output as a clamp potential. A clamp circuit that clamps the input video signal, and a laser beam whose current is proportional to the output clamped by the clamp circuit.
Constant current drive circuit (AI) that supplies the diode (LD)
/TR). A variable crank potential video signal light modulation circuit.