CN101393751B - Data recording method and data reproducing method - Google Patents

Abstract

Provided is a data recording method, wherein if the shortest code length of the write code sequence is n (which is an integer equal to or greater than one), a write pulse waveform that has only one write pulse is assigned to recording mark making periods corresponding to codes with code lengths x of n, n + 1 and n+ 2, and a write pulse waveform that has multiple write pulses Pw is assigned to recording mark making periods corresponding to codes with code lengths x of n +3 or more. For the symbol with length of n, n + 1, when the number of the write pulse (Pw) contained in the write waveshape during the period of forming the recording mark is equal to the period number of bottom power level (Pb) between two recording pulse (Pw), the pulse width of the symbol length of m (namely the symbol length of m contained in the K-th Pb during the recording mark making period) is less than or equal to that of the symbol length of m + 1 (namely the symbol length of m + 1 contained in the K-th Pb during the recording mark making period), and the recording symbol rank is encoded by 17PP modulation encoding mode.

Description

Data record method and data reproducing method

The application is that application number was the 200480009272.2 (applyings date: 2004.3.25; Dividing an application denomination of invention: to data record method and the device of recording medium).

Technical field

The present invention relates to recording medium irradiating lasers such as CDs, form and the mark that record section physical property is not different, the accordingly recording method and device of record data (information).

Background technology

The rewritable CD such as DVD-RAM has the phase change recording film that is arranged on the substrate.If this phase change recording film is subject to having the irradiation of the laser of high-energy-density, then the temperature part of illuminated portion reaches the temperature above fusing point, fusing.Be subject to the CD of irradiation of laser with High Rotation Speed, so the beam spot of laser is along track high-speed mobile on phase change recording film.Therefore, because the part of passing through to melt of beam spot is cooled off at once naturally, solidify in the phase change recording film.By regulating the power of laser at this moment, the melt portions of phase change recording film is cooled off rapidly, becomes noncrystal.In phase change recording film, become non-crystal zone performance refractive index and the light reflectivity different from other zone (crystalline region).The amorphous tagma that forms like this is called " mark ".Zone between " mark " and " mark " is called " interval (space) " in addition, in orbit.

By arranging in orbit such mark and interval, can be at data recording on optical disc.The weak laser that irradiation on the CD is used for reproduction, if measure this intensity of reflected light, with regard to the border (marker edge) at energy certification mark and interval, accordingly, can rendering data.The power that is used for the laser of reproduction remains on and does not melt the low-level of phase change recording film.

About these disk mediums, the rate of information throughput when improving data recording/reproducing improves call wire density, or improves the sweep velocity of the beam spot on the disk medium.

In order to improve call wire density, dwindle mark lengths and gap length, or shorten the variation scale of mark lengths and gap length, shorten the time width for detection of the marker edge position.

, if improve call wire density, the S/N of reproducing signal is than just descending, so do not wish that significantly call wire density rises.

In order on CD, to form small mark with high precision, adopt the Continuous irradiation by one or more laser pulses, form the strategy of writing of each mark at recording film.

According to the first conventional art of putting down in writing in the Unexamined Patent 5-298737 communique, about having a plurality of marks of different length, distribute the spike train of laser.According to the mark lengths that will form, the spike train of the laser that decision should be shone in order to form each mark namely represents the waveform (wave recording) of the Strength Changes of laser.Number and the amplitude of the pulse of irradiation in during being controlled at each mark and forming according to the length of record symbol row.

Wave recording in during described mark forms is divided into two parts such as start portion and further part.The pulse height of each pulse is generally different.In addition, beyond during pulse shaping during in, configuration space produces the record satellite pulse.

According to the technology of Unexamined Patent 5-298737 communique, can not be subjected to the impact of gap length, compensation from the mark of going ahead of the rest to after the thermal diffusion in forward position of mark, can be with high precision control mark width and marker edge position.

In the second conventional art that Unexamined Patent 8-7277 communique is described, each record symbol is decomposed into a plurality of fundamentals of different length, make each key element corresponding with a recording impulse.Then, each record symbol as based on each recording impulse each independently a series of record marks form.

In the 3rd conventional art that Unexamined Patent 9-134525 communique is described, in the multiple-pulse recording mode that is consisted of by the heating pulse of beginning, follow-up a plurality of rear portions heating pulse, rear portion cooling pulse and last cooling pulse, describe when the mark lengths that records for any one party of the even length of recording channel and clock period and odd length, the pulse width that makes rear portion heating pulse and rear portion cooling pulse is the method identical with recording channel and clock period roughly.

In the 4th conventional art of Unexamined Patent 11-175976 communique, description is according to the mark lengths in the record symbol row, Implantation Energy and umber of pulse in during changing this mark and forming, thus the interval of any 2 change points of the Implantation Energy between the unit in during forming for the mark of random length mark is than 1/2 times of detection window width long method also.

In described the first conventional art, a recording impulse is corresponding with the prolongation of the mark lengths of detection window width.Therefore, when the detection window width shortens, be necessary to be semiconductor laser diode than in the past fast high-speed driving record energy generating source.For example use general (1, when 7) modulation system will realize being equivalent to the colored synchronous driving speed of 10MBytes/sec of disk set, the detection window width of reproducing signal becomes approximately 8.3ns (nanosecond), therefore, the shortest record current pulse width becomes approximately 1/2 the approximately 4.2ns of detection window width., need about number ns in the rising of semiconductor laser, be difficult to produce correct recording laser pulse.In addition, namely enable to produce correct recording laser pulse, to phase change disk like that according to the media of the formation of the cooling velocity control mark of heating part, when carrying out the multiple-pulse record, when heating part does not fully cool off, just shine next light pulse, thus normal mark form become impossible.For example, when same use (1,7) modulation system will realize the colored synchronous driving speed of 10MBytes/sec, become the approximately 4.2ns of the record current pulse width that equals the shortest the cool time of recording medium, so according to the characteristic of recording medium, can't correctly form mark.

In described the second conventional art, description is decomposed into each record symbol a plurality of fundamentals of different length, make each key element corresponding with a recording impulse, each record symbol as based on the difference of each recording impulse method that forms of a series of record marks independently., in the prior art, do not consider the thermal equilibrium between the recording impulse corresponding with each key element, when call wire density rose, the control in the marker edge position had problems.In the time of namely will forming the mark corresponding with record symbol, in record symbol start portion and record symbol rearward end, the memory space of the heat of recording film is different, so according to the position, the change of record mark width can't be carried out correct edge record.

In described the 3rd conventional art, in wave recording, to insert near the central authorities during existing mark to form than the detection window width situation of short a lot of pulse also, near other parts of pulse width ratio this significantly change.In the explanation of this conventional art, when carrying out marker edge when record, if the marginal position of mark is correct, with regard to the large problem of change of the signal frame degree that can not become the mark middle body., detect the average level of reproducing signal, when determining the record reproducing device of record-playback condition, the distortion of such reproducing signal brings harmful effect to the action of device.For example when phase change recording medium, same with phase place umbilicate type recording medium, can be with the change detection signal of reflectivity.Therefore, in phase change recording medium, have advantages of easy and the public transcriber of phase place umbilicate type recording medium, but in from the reproducing signal of phase place umbilicate type recording medium, there is not described distortion, so based on the difficulty that becomes with the reproduction of identical device with phase place umbilicate type recording medium.

In addition, in described the 4th conventional art, the recording power level of recording impulse row is by stepped change, so need complicated power control.In addition, when the signal of symbol lengths of record 4Tw, use at least that also high power level is luminous than the average power level of 3Tw length, become densification, when forming micro marks, it is long that irradiation time becomes, so there is the shortcoming that can't form required record mark.

According to described each conventional art, when high transmission speed, can not form mark with enough precision, as a result of, can't realize enough recording areal densities and reliability.

Summary of the invention

The present invention proposes in view of the described fact, and its purpose is to provide: even also can form with high precision data record method and the data recording equipment of mark when transmitting at a high speed.

Data record method of the present invention is by the energy beam irradiation recording medium with pulse type, data as the marginal position information recording/at the mark of a plurality of length and interval on described recording medium, comprise: the step (A) that generates the record symbol row according to the data that should record; According to the symbol lengths of each symbol in the record symbol row, the step (B) of the wave recording of the power modulation of the described energy beam of decision regulation; According to described wave recording, modulate the step (C) of the power of described energy beam; When described step (B) is n (n is the integer more than 1) at the shortest symbol lengths of described record symbol row, for being during record mark corresponding to the symbol of n, n+1 or n+2 forms with symbol lengths x, the assignment record pulse is 1 wave recording, for being that assignment record pulse (Pw) was a plurality of wave recording during record mark corresponding to symbol more than the n+3 formed with symbol lengths x.

In first-selected embodiment, when described step (B) is n (n is the integer more than 1) when the shortest symbol lengths of described record symbol row, symbol lengths is divided into n, n+1, n+2, above at least four of n+3, the symbol lengths m that the number of the recording impulse (Pw) that comprises in the wave recording in during forming about described record mark equates and the symbol of symbol lengths m+1, be during any K the recording impulse that comprises in during the record mark of symbol lengths m forms " the recording impulse width of symbol lengths m ", when being " the recording impulse width of symbol lengths m+1 " during any K the recording impulse that comprises in during the record mark of symbol lengths m+1 forms, determine wave recording, thereby the relation of (the recording impulse width of the recording impulse width of symbol lengths m≤symbol lengths m+1) is set up.

In first-selected embodiment, the number of the recording impulse (Pw) that comprises in the wave recording in during described step (B) forms about described record mark, the symbol lengths m that number is equal to each other during the end power level (Pb) that is clipped by 2 recording impulses (Pw) and the symbol of symbol lengths m+1, at the bottom of comprise in during the record mark of symbol lengths m forms any K power level (Pb) during be " pulse width of symbol lengths m ", at the bottom of comprise in during the record mark of symbol lengths m+1 forms any K power level (Pb) during when being " pulse width of symbol lengths m+1 ", determine wave recording, thereby the relation of (pulse width of the pulse width of symbol lengths m≤symbol lengths m+1) is set up.

In the embodiment of first-selection, be that wave recording in during record mark corresponding to symbol more than the n+3 forms comprises and equals (x-1) divided by 2 merchant's recording impulse with symbol lengths x.

In the embodiment of first-selection, with symbol lengths x be the wave recording in during record mark corresponding to symbol more than the n+3 forms cancellation power level (Pe) during be set as more than the 1Tw.

In the embodiment of first-selection, be set as more than the 1Tw during the end power level (Pb) during the record mark in during each records mark and forms forms.

In the embodiment of first-selection, be set as more than the 1Tw during the cooling power level (Pc) of the wave recording in during each records mark and forms.

In the embodiment of first-selection, according to symbol lengths x, carry out corresponding record mark form during in wave recording in the movement of terminal location of the starting position of the beginning pulse that comprises and cooling pulse.

In the embodiment of first-selection, described movement according to symbol lengths x be n, n+1, n+2, at least 4 intervals more than the n+3, be set as different sizes.

Data recording equipment of the present invention is by the energy beam irradiation recording medium with pulse type, data as the marginal position information recording/at the mark of a plurality of length and interval on described recording medium, comprise: the laser drive part spare that carries out the power modulation of described energy beam; Being recorded to the addressable part that data transformation in the described recording medium is the record symbol row; According to the symbol lengths of each symbol that comprises in the described record symbol row, the mark lengths classification element of the wave recording of the power modulation of the described energy beam of decision regulation; When described mark lengths classification element is n (n is the integer more than 1) at the shortest symbol lengths of described record symbol row, for being during record mark corresponding to the symbol of n, n+1 or n+2 forms with symbol lengths x, the assignment record pulse is 1 wave recording, for being that assignment record pulse (Pw) was a plurality of wave recording during record mark corresponding to symbol more than the n+3 formed with symbol lengths x.

In first-selected embodiment, the number of the recording impulse (Pw) that comprises in the wave recording in during forming about described record mark, the symbol lengths m that number is equal to each other during the end power level (Pb) that is clipped by 2 recording impulses (Pw) and the symbol of symbol lengths m+1, at the bottom of comprise in during the record mark of symbol lengths m forms any K power level (Pb) during be " pulse width of symbol lengths m ", at the bottom of comprise in during the record mark of symbol lengths m+1 forms any K power level (Pb) during when being " pulse width of symbol lengths m+1 ", determine wave recording, thereby the relation of (pulse width of the pulse width of symbol lengths m≤symbol lengths m+1) is set up.

In first-selected embodiment, when the shortest symbol lengths of described record symbol row is n (n is the integer more than 1), symbol lengths x is divided into n, n+1, n+2, above at least 4 of n+3, the symbol lengths m that the number of the recording impulse (Pw) that comprises in the wave recording in during forming about the record mark equates and the symbol of symbol lengths m+1, be during any K the recording impulse that comprises in during the record mark of symbol lengths m forms " the recording impulse width of symbol lengths m ", when being " the recording impulse width of symbol lengths m+1 " during any K the recording impulse that comprises in during the record mark of symbol lengths m+1 forms, determine wave recording, thereby the relation of (the recording impulse width of the recording impulse width of symbol lengths m≤symbol lengths m+1) is set up.

In first-selected embodiment, the number of the recording impulse (Pw) that comprises in the wave recording in during forming about described record mark, the symbol lengths m that number is equal to each other during the end power level (Pb) that is clipped by 2 recording impulses (Pw) and the symbol of symbol lengths m+1, at the bottom of comprise in during the record mark of symbol lengths m forms any K power level (Pb) during be " pulse width of symbol lengths m ", at the bottom of comprise in during the record mark of symbol lengths m+1 forms any K power level (Pb) during when being " pulse width of symbol lengths m+1 ", determine wave recording, thereby the relation of (pulse width of the pulse width of symbol lengths m≤symbol lengths m+1) is set up.

In the embodiment of first-selection, be that wave recording in during record mark corresponding to symbol more than the n+3 forms comprises and equals (x-1) divided by 2 merchant's recording impulse with symbol lengths x.

In the embodiment of first-selection, determine described wave recording, thereby the decline of the basic waveform of the laser pulse in during mark forms and the full interval of rising become more than the detection window width (Tw).

In the embodiment of first-selection, have: according to symbol lengths x, carry out corresponding record mark form during in wave recording in the pulse moving-member of movement of terminal location of the starting position of the beginning pulse that comprises and cooling pulse.

In the embodiment of first-selection, have: according to symbol lengths x be n, n+1, n+2, at least 4 intervals more than the n+3, described movement is set as the record compensating unit of different sizes.

Other present invention, data recording method , by using a pulse-shaped recording medium of the energy beam irradiation , the length of the data as a plurality of edge positions of marks and spaces recorded to said information recording medium , comprising: generating data to be recorded according to the step of recording the symbol column (A); column according to the recorded mark symbol length of each symbol to determine the energy requirements of the recording beam power modulation waveform step (B); in accordance with the recording waveform , the modulation of the energy beam power step (C); said step (B) n and the symbol of the symbol length corresponding to the length of n 1 during the formation of the recording mark in the recording waveform includes a recording pulse (Pw) is set to 1 a number a , and the symbol corresponding to the recording mark length n of the recording waveform during the formation of the recording pulse contains (Pw) a width of n 1 and the symbol length corresponding to the recording mark in the recording waveform during the formation of the recording pulse contains (Pw) of the width of the following , the symbol length n 2 and n 3 corresponding to the symbol length of the recording mark during the formation of the recording waveform includes a recording pulse (Pw) number set to 2, and n 2 and the symbol length during the formation of the corresponding recording mark in the recording waveform includes a first recording pulse (Pw) with a width corresponding to the symbol length n 3 during the formation of the recording mark in the recording waveform includes a first recording pulse (Pw) the width or less, and n 2 and the symbol length corresponding to the recording mark during the formation of the recording waveforms included in the second recording pulse (Pw) with a width corresponding to the symbol length n 3 during the formation of the recording mark in the recording waveform included in the second recording pulse (Pw) in width or less.

Other data record methods of the present invention are by the energy beam irradiation recording medium with pulse type, data as the marginal position information recording/at the mark of a plurality of length and interval on described recording medium, comprise: the step (A) that generates the record symbol row according to the data that should record; According to the symbol lengths of each symbol in the record symbol row, the step (B) of the wave recording of the power modulation of the described energy beam of decision regulation; According to described wave recording, modulate the step (C) of the power of described energy beam; When described step (B) is n (n is the integer more than 1) at the shortest symbol lengths of described record symbol row, symbol lengths x is divided into n, n+1, n+2, above at least 4 of n+3, the symbol lengths m that the number of the recording impulse (Pw) that comprises in the wave recording in during forming about described record mark equates and the symbol of symbol lengths m+1, be during any K the recording impulse that comprises in during the record mark of symbol lengths m forms " the recording impulse width of symbol lengths m ", when being " the recording impulse width of symbol lengths m+1 " during any K the recording impulse that comprises in during the record mark of symbol lengths m+1 forms, determine wave recording, thereby the relation of (the recording impulse width of the recording impulse width of symbol lengths m≤symbol lengths m+1) is set up.

Other data record methods of the present invention are by the energy beam irradiation recording medium with pulse type, data as the marginal position information recording/at the mark of a plurality of length and interval on described recording medium, comprise: the step (A) that generates the record symbol row according to the data that should record; According to the symbol lengths of each symbol in the record symbol row, the step (B) of the wave recording of the power modulation of the described energy beam of decision regulation; According to described wave recording, modulate the step (C) of the power of described energy beam; The number of the recording impulse (Pw) that comprises in the wave recording in during described step (B) forms about described record mark, the symbol lengths m that number is equal to each other during the end power level (Pb) that is clipped by 2 recording impulses (Pw) and the symbol of symbol lengths m+1, at the bottom of comprise in during the record mark of symbol lengths m forms any K power level (Pb) during be " pulse width of symbol lengths m ", at the bottom of comprise in during the record mark of symbol lengths m+1 forms any K power level (Pb) during when being " pulse width of symbol lengths m+1 ", determine wave recording, thereby the relation of (pulse width of the pulse width of symbol lengths m≤symbol lengths m+1) is set up.

Data recording apparatus according to another by using a pulsed energy beam irradiation recording medium , the length of the data as a plurality of edge positions of marks and spaces recorded to said information recording medium , comprising: performing the energy beam power modulated laser driving member ; put should be recorded to said recording medium for writing the data into symbol sequence encoding means ; said records symbol column contains the symbol length of each symbol to determine the power requirements of the energy beam modulated mark length recording waveform classification part ; classification section of the mark lengths n and the symbol of the symbol length corresponding to the length of n 1 during the formation of the recording mark in the recording waveform includes a recording pulse (Pw) is set to 1 a number a , and the symbol corresponding to the recording mark length n of the recording waveform during the formation of the recording pulse contains (Pw) a width of n 1 and the symbol length corresponding to the recording mark in the recording waveform during the formation of the recording pulse contains (Pw) of the width of the following , the symbol length n 2 and n 3 corresponding to the symbol length of the recording mark during the formation of the recording waveform includes a recording pulse (Pw) number set to 2, and n 2 and the symbol length during the formation of the corresponding recording mark in the recording waveform includes a first recording pulse (Pw) with a width corresponding to the symbol length n 3 during the formation of the recording mark in the recording waveform includes a first recording pulse (Pw) the width or less, and n 2 and the symbol length corresponding to the recording mark during the formation of the recording waveforms included in the second recording pulse (Pw) with a width corresponding to the symbol length n 3 during the formation of the recording mark in the recording waveform included in the second recording pulse (Pw) in width or less.

Other data recording equipments of the present invention are by the energy beam irradiation recording medium with pulse type, data as the marginal position information recording/at the mark of a plurality of length and interval on described recording medium, comprise: the laser drive part spare that carries out the power modulation of described energy beam; Being recorded to the addressable part that data transformation in the described recording medium is the record symbol row; According to the symbol lengths of each symbol that comprises in the described record symbol row, the mark lengths classification element of the wave recording of the power modulation of the described energy beam of decision regulation; When described mark lengths classification element is n (n is the integer more than 1) at the shortest symbol lengths of described record symbol row, symbol lengths x is divided into n, n+1, n+2, above at least 4 of n+3, the symbol lengths m that the number of the recording impulse (Pw) that comprises in the wave recording in during forming about described record mark equates and the symbol of symbol lengths m+1, be during any K the recording impulse that comprises in during the record mark of symbol lengths m forms " the recording impulse width of symbol lengths m ", when being " the recording impulse width of symbol lengths m+1 " during any K the recording impulse that comprises in during the record mark of symbol lengths m+1 forms, determine wave recording, thereby the relation of (the recording impulse width of the recording impulse width of symbol lengths m≤symbol lengths m+1) is set up.

Other data recording equipments of the present invention are by the energy beam irradiation recording medium with pulse type, data as the marginal position information recording/at the mark of a plurality of length and interval on described recording medium, comprise: the laser drive part spare that carries out the power modulation of described energy beam; Being recorded to the addressable part that data transformation in the described recording medium is the record symbol row; According to the symbol lengths of each symbol that comprises in the described record symbol row, the mark lengths classification element of the wave recording of the power modulation of the described energy beam of decision regulation; The number of the recording impulse (Pw) that comprises in the wave recording in during described mark lengths classification element forms about described record mark, the symbol lengths m that number is equal to each other during the end power level (Pb) that is clipped by 2 recording impulses (Pw) and the symbol of symbol lengths m+1, at the bottom of comprise in during the record mark of symbol lengths m forms any K power level (Pb) during be " pulse width of symbol lengths m ", at the bottom of comprise in during the record mark of symbol lengths m+1 forms any K power level (Pb) during when being " pulse width of symbol lengths m+1 ", determine wave recording, thereby the relation of (pulse width of the pulse width of symbol lengths m≤symbol lengths m+1) is set up.

Other data recording equipments of the present invention are by the energy beam irradiation recording medium with pulse type, data as the marginal position information recording/at the mark of a plurality of length and interval on described recording medium, comprise: the step (A) that generates the record symbol row according to the data that should record; According to the symbol lengths of each symbol in the record symbol row, the step (B) of the wave recording of the power modulation of the described energy beam of decision regulation; According to described wave recording, modulate the step (C) of the power of described energy beam; The symbol lengths m that the number of the recording impulse (Pw) that comprises in the wave recording in during forming about described record mark equates and the symbol of symbol lengths m+1, be during any K the recording impulse that comprises in during the record mark of symbol lengths m forms " the recording impulse width of symbol lengths m ", when being " the recording impulse width of symbol lengths m+1 " during any K the recording impulse that comprises in during the record mark of symbol lengths m+1 forms, determine wave recording, thereby the relation of (the recording impulse width of the recording impulse width of symbol lengths m≤symbol lengths m+1) is set up.

Other data recording equipments of the present invention are by the energy beam irradiation recording medium with pulse type, data as the marginal position information recording/at the mark of a plurality of length and interval on described recording medium, comprise: the step (A) that generates the record symbol row according to the data that should record; According to the symbol lengths of each symbol in the record symbol row, the step (B) of the wave recording of the power modulation of the described energy beam of decision regulation; According to described wave recording, modulate the step (C) of the power of described energy beam; The number of the recording impulse (Pw) that comprises in the wave recording in during forming about described record mark, the symbol lengths m that number is equal to each other during the end power level (Pb) that is clipped by 2 recording impulses (Pw) and the symbol of symbol lengths m+1, at the bottom of comprise in during the record mark of symbol lengths m forms any K power level (Pb) during be " pulse width of symbol lengths m ", at the bottom of comprise in during the record mark of symbol lengths m+1 forms any K power level (Pb) during when being " pulse width of symbol lengths m+1 ", determine wave recording, thereby the relation of (pulse width of the pulse width of symbol lengths m≤symbol lengths m+1) is set up.

Description of drawings

Following brief description accompanying drawing.

Fig. 1 is the figure of all structures of expression data recording equipment of the present invention.

Fig. 2 is the figure of the structure of explanation recording processing system shown in Figure 1.

Fig. 3 (a)～(h) is for the figure of explanation based on the action of the recording processing system of the present invention and conventional art.

Fig. 4 (a)～(j) is the figure of the wave recording that adopts among the embodiment 1 of expression data recording equipment of the present invention.

Fig. 5 (a)～(i) is the figure of wave recording of recording processing system of the data recording equipment (comparative example) of expression conventional art.

Fig. 6 (a)～(j) is the figure of the wave recording that adopts among the embodiment 2 of expression data recording equipment of the present invention.

Fig. 7 (a)～(j) is the figure of the wave recording that adopts among the embodiment 3 of expression data recording equipment of the present invention.

Fig. 8 is the figure of the example of explanation ecad mark compensation of the present invention.

Fig. 9 is the figure of the example of explanation ecad mark compensation of the present invention.

Figure 10 is the figure of structure that represents the recording processing system of data recording equipment in the past.

Figure 11 (a)～(j) is the figure of the wave recording that adopts among the embodiment 4 of expression data recording equipment of the present invention.

Figure 12 (a)～(j) is the figure of the wave recording that adopts among the embodiment 5 of expression data recording equipment of the present invention.

Figure 13 (a) and (b) expression be used to form 2 kinds of wave recordings of 4Tw length mark, Figure 13 (c) and (d) be the figure of the shape of the mark of pattern ground expression formation respectively.

Embodiment

Writing in the strategy of in the past optical disc apparatus, as mentioned above, for the shape that makes mark does not enlarge at terminal part, so increase multipulse number.

The present inventor finds with the high-speed record data time, replaces increasing multipulse number, increases pulse width, can keep rightly the shape of mark, expects the present invention.From now on, if data transfer rate surpasses 72Mbps, become high level, more the writing in the strategy in the past of multipulse number, be necessary further to improve the frequency of operation of the semiconductor laser that the light source as data recording equipment uses., be difficult to further improve the frequency of operation of semiconductor laser.

And in first-selected embodiment of the present invention, as described later, about the shorter mark of symbol lengths 2～4Tw, because be with 1 pulse recording data, need not further improve the characteristic of semiconductor laser.In addition, the shape of the mark of formation is appropriate, so read error does not increase.

Below, with reference to accompanying drawing, embodiments of the invention are described.

[embodiment 1]

The embodiment 1 of data recording equipment of the present invention at first, is described.

In the present embodiment, as recording medium, use the CD of inversion of phases, but the recording medium that can use among the present invention is not limited to such CD.For example, if by injecting the light such as magnetic energy, electron beam energy in addition, the local recording medium that forms " mark " different from other part physical propertys of energy, just suitable in the present invention use.

Feature of the present invention is, when the recording medium identifying recording layer, and can be with the write strategy of high precision control to the level of the energy (record energy) of recording medium irradiation.Here, the level of energy " record " mean stride detection window width (the variation unit of the marginal position at mark and interval) about 1/2 during the averaged energy levels of laser instrument.When in order to suppress certain reasons such as laser noise, and the frequency in cycle that overlap ratio is equivalent to the detection window width in wave recording is also during high a lot of frequency content, mean stride the effect that can ignore this frequency content above during averaged energy levels.

At first, with reference to Fig. 1.Fig. 1 represents all structures of the first-selected embodiment of data recording equipment of the present invention.The device of the present embodiment has optical pick-up, recording processing system, reproduction processes system as shown in Figure 1.

Optical pick-up has: the laser instrument 110 of Emission Lasers 123; The collimation lens 109 of laser 123 parallelizations; Semi-transparent semi-reflecting lens 108; Laser 123 is converged to object lens 116 on the CD 117; Converge the catoptrical detection lens 106 from CD 117; The photodetector 100 of detection of reflected light; The prime amplifier 101 of the output of photodetector 100 amplification.

The laser instrument 110 of the present embodiment is that the NA of object lens 116 is 0.85 with the semiconductor laser of wavelength 405nm vibration.In Fig. 1, only represent a kind of laser instrument 110, the optical system corresponding with it, but an optical pick-up can have the light source module of the laser of outgoing different wave length, the optical system corresponding with it.

Recording processing system shown in Figure 1 has: the scrambler 113 that record data 127 is transformed to record symbol row (NRZI) 126; Generate the wave recording circuit for generating 112 of level generation signal 125 according to record symbol row (NRZI) 126; Pulse walking circuit 115 according to level generation signal 125 production burst generation signals 130; Drive circuit for laser 111 according to pulse generating signal 130 output laser drive currents 124.From 119 pairs of scramblers 113 of reference generator and wave recording circuit for generating 112 input reference time signals 128.Signal 128 frequency reference time of the present embodiment is 72MHz, detection window width Tw=7.58ns.The recording processing system also has power setting device 114 and record compensator 118.

Reproduction processes system shown in Figure 1 has: receive from the reproducing signal 120 of prime amplifier 101 outputs of optical pick-up, carry out the waveform equalizer 103 that wave shape equalization is processed; Reproducing signal is transformed to the binaryzation device 104 of binaryzation reproducing signal; 121 decodings of binaryzation reproducing signal, generate the code translator 105 of rendering data 122.

The following describes the action of the data recording equipment of Fig. 1.

The scrambler 113 of recording processing system receives the record data 127 that be recorded on the CD 117, and these record data 127 are transformed to record symbol row (NRZI) 126 corresponding with the marker spacing that forms on the CD 117.Wave recording circuit for generating 112 receiving record symbol ranks 126 are transformed to the level generation signal 125 corresponding with wave recording.Scrambler 113 and wave recording circuit for generating 112 with reference time, generator 119 produced reference time signal 128 synchronous working.

Pulse walking circuit 115 incoming level generation signals 125 send to drive circuit for laser 111 to it as pulse generating signal 130.At this moment, according to the record compensation tabular value of record compensator 118, the waveform of the pulse type of compensation level generation signal 125 forms pulse generating signal 130 to pulse walking circuit 115 on time shaft.

Drive circuit for laser 111 produces laser drive current 124 according to pulse generating signal 130.In these laser drive current 124 injection lasers 110, drive laser 110.Laser instrument 110 is according to given wave recording Emission Lasers 123.The power level of laser 123 changes according to wave recording.

Converge on the CD 117 by collimation lens 109, semi-transparent semi-reflecting lens 108, object lens 116 from the laser 123 of laser instrument 110 emissions.Laser 123 spot heating of the pulse type that converges are with the phase change recording film on the CD 117 of High Rotation Speed, along track formation mark and the interval of CD 117.At this moment, if separate short interval, the laser 123 irradiation phase change recording films of pulse type, then the melt portions of phase change recording film connects, and forms a long mark.As mentioned above, the power level of laser 123 exists with ... wave recording, so if appropriately control wave recording, just can be by long mark of a plurality of pulse shapings.

On reproducing CD 117 during the data of record, the flag column that scans on the CDs 117 with the lower powered laser 123 of the degree of not destroying the mark that forms on (fusing) phase change recording film.Reflected light from CD 117 incides detection lens 106 by object lens 116, semi-transparent semi-reflecting lens 108.

Laser by CD 117 reflections converges on the photodetector 100 by detecting lens 106.Photodetector 100 is transformed to electric signal to incident light according to the light distribution of sensitive surface merchant's laser.This electric signal is by after being arranged on prime amplifier 101 in the photodetector 100 and amplifying, generate with CD 117 on scanning position mark have or not corresponding reproducing signal 120.

Reproducing signal 120 is subject to wave shape equalization by waveform equalizer 103 and processes, and is transformed to binaryzation reproducing signal 121 at binaryzation device 104.105 pairs of binaryzation reproducing signals of code translator 121 carry out the inverse transformation of scrambler 113, generate rendering data 122.

CD 117 can be can recorded information record surface be any one of the single-layered disk of individual layer and 2 layers of dish that record surface that can recorded information is 2 layers.In addition, except the disk medium of the rewriting type that uses phase-change recording material, can also be the disk medium that can only carry out 1 writable type of appending for 1 time.

Coded system also can be 17PP modulation, 8-16 modulation except (1,7) modulation.During the 8-16 modulation, the shortest symbol lengths becomes 3T, but at this moment, can be at the present embodiment that uses (1,7) modulation symbol lengths have been added 1 example.

Further describe the structure example of recording processing system shown in Figure 1 below with reference to Fig. 2.

Record data 127 are transformed to expressive notation length, gap length, their the record symbol row 126 of start position information by scrambler 113.Record symbol row 126 pass to mark lengths sorter 201 and wave recording table 202.In mark lengths sorter 201,, the mark lengths of record symbol row 126 classification result's length category signal 204 that serves as a mark is input in the wave recording table 202 according to given rule.

Counter 200 reference record symbol ranks 126, take the time timing that reference time, signal 128 began from the mark starting position as the unit handle, generation count signal 205.Wave recording table 202 sends to pulse walking circuit 115 to the level generation signal 125 of the given wave recording of reflection according to record symbol row 126, mark lengths category signal 204, count signal 205.

According to the record compensation tabular value of record compensator 118, compensate the waveform of the pulse type of level generation signal 125 at time shaft, send to drive circuit for laser 111 as pulse generating signal 130.Signal 208 occurs in Pc generation signal 206, Pb generation signal 207, the Pe that pulse generating signal 130 comprises the power level of expression regulation wave recording, signal 209 occurs Pw.Drive circuit for laser 111 is according to pulse generating signal 130 drive laser 110.

Record symbol row below with reference to Fig. 3 (a)～(h) explanation the present embodiment.It should be noted that, sometimes because reason arbitrarily, with reference to recording figure forming or the symbol lengths lamp of front and back, length or level during the part of fine setting wave recording.In the explanation of following wave recording, when carrying out such record compensation, the wave recording before relatively finely tuning.Therefore, in the explanation of following wave recording, sufficiently long distance is striden in the front and back that are illustrated in the mark of formation, when recording figure forming is identical.Here, " sufficiently long distance " mean than since stride detection window width degree during the injection of record energy and a lot of distance of distance on the affected media

Fig. 3 (a) expression becomes the signal 128 reference time of the time reference of operation of recording." Tw " is 1 cycle of clock.

The result's of NRZI conversion record symbol row 126 are carried out record data by scrambler 113 in Fig. 3 (b) expression.The signal waveform of expression record symbol row 126 shifts between the level of the level of " 1 " and " 0 ".The detection window width equals Tw, is the least unit of the variable quantity of the mark lengths of record symbol row 126 and gap length.

The mark of physical record and the flat shape at interval on Fig. 3 (c) pattern ground expression CD.For the record of data, Yi Bian make power level change, Yi Bian the beam spot at the laser that CD forms is moved from left to right, form the row of the mark shown in Fig. 3 (c) in Fig. 3 (c).The corresponding formation of level of " 1 " in the mark 301 shown in Fig. 3 (c) and the record symbol row 126.The level of the length of mark 301 and record symbol row 126 be " 1 " during proportional.

Fig. 3 (d) represents count signal 205.From time that the beginning at mark 301 and interval 302 begins with the timing of Tw unit.

Fig. 3 (e) is for figure relatively, the mark lengths category signal 307 of expression device in the past.In this device in the past, when mark lengths is categorized as odd-multiple length and even-multiple length.

The wave recording 303 of the device in the past that the record symbol row 126 of Fig. 3 (f) expression and Fig. 3 (b) are corresponding.Generate wave recording 303 with reference to count signal 205, record symbol row 126, mark lengths category signal 307.

The mark lengths category signal 204 of Fig. 3 (g) expression the present embodiment.In the present embodiment, mark lengths is separated into the shortest symbol lengths (2T), the second short symbol lengths (3T), the 3rd short symbol lengths (4T), the 4th short following symbol lengths, about the 4th short following symbol lengths, be categorized as the symbol lengths of odd-multiple and the symbol lengths of even-multiple.

The wave recording 304 of the present embodiment that the record symbol row 126 of Fig. 3 (h) expression and Fig. 3 (b) are corresponding.Generate this wave recording 304 with reference to count signal 205, record symbol row 126, mark lengths category signal 204.

Below, describe the signal waveform that is used for mark formation of the present invention in detail with reference to Fig. 2 and Fig. 4 (a)～(j).Fig. 4 (a)～(j) represents respectively wave recording 400～407.

In addition, in the present embodiment, the coded system of scrambler 113 (Fig. 3) is after (1,7) coded modulation, carries out NRZI modulation, so mark lengths, gap length one are decided to be below the above 8Tw of 2Tw., as synchronizing signal, when inserting consciously the signals such as 9Tw, also can adapt to., this fact is not limited the coding rule of scrambler 113, can use the present invention to the scrambler 113 with arbitrarily coding rule (for example 8-16) modulation.

The mark lengths sorter 201 of the present embodiment at first the symbol lengths n of the mark that should form difference for 2T, 3T, 4T or 5T with upper etc. 4.Then when symbol lengths n be 5T when above, carry out division (calculation of remainder) based on divisor 2 for (n-1), obtain the merchant.Mark lengths sorter 201 is serve as a mark length category signal output of this merchant.If for example symbol lengths n is 5, the merchant based on divisor 2 (5-1)=4 is 2.In addition, if symbol lengths n is 6, the merchant based on divisor 2 (6-1)=5 also is 2.Therefore, about the mark of 5Tw and 6Tw length, all export identical mark lengths category signal.

According to such mark lengths category signal, can identification record during the even-multiple length of mark/be spaced apart detection window width Tw of symbol rank and during odd-multiple length.In the present embodiment, for simplicity, divisor is set as 2, but can uses other divisors more than 3.In addition, the mark lengths sorter 201 of the present embodiment is according to the calculation action of remainder, but the present invention is not limited thereto.

Below with reference to Fig. 4 (a)～(j).

The waveform of Fig. 4 (a) expression signal reference time 128.The count signal 205 that Fig. 4 (b) expression is produced by counter 200.Start the time of beginning by detection window width Tw timing from mark.It is corresponding with the beginning at mark or interval that count signal is transferred to 0 timing.Signal waveform when Fig. 4 (c)～(j) expression forms the mark of 2Tw length～9Tw length.

It should be noted that, " mark form during " of this instructions is defined as from the lifting position of beginning pulse during the down position of final pulse shown in Fig. 4 (j).

Wave recording during mark when forming the 2Tw length mark forms shown in Fig. 4 (c), by below the above 1Tw of length 0.5Tw, the pulse of horizontal Pw consists of.

Wave recording during mark when forming the 3Tw length mark forms shown in Fig. 4 (d), by below the above 2Tw of length 1Tw, the pulse of horizontal Pw consists of.Long 0.5Tw during forming than the mark of 2Tw length during mark forms.

Wave recording during mark when forming the 4Tw length mark forms shown in Fig. 4 (e), by below the above 2.5Tw of length 1.5Tw, the pulse of horizontal Pw consists of.Long 0.5Tw during forming than the mark of 3Tw length during mark forms.

In the data recording equipments in the past such as DVD player or register, the mark of 4Tw length shown in Figure 13 (a), during mark forms in, form according to the wave recording that comprises 2 recording impulses (Pw).The wavelength of recording impulse is about 650nm in DVD.In such device, if form the 4Tw length mark with the recording impulse (Pw) shown in Figure 13 (b), just shown in Figure 13 (c), produce the width of mark in the problem of terminal part expansion., in the present embodiment, namely use a recording impulse shown in Figure 13 (b) also can be shown in Figure 13 (d) like that repeatability form well the mark of suitable shape.

It should be noted that, as follow-on CD, exploitation Blue-ray Disc (BD).But, in BD, the wavelength of the laser that uses in the recoding/reproduction as 400nm about.In addition, the material of the recording layer among the BD and form also from DVD in recording layer material and form different.In addition, between BD and DVD, there are a lot of differences in physical arrangement.In BD, compare with DVD, be necessary to make the width of recording impulse and interval narrower than DVD, so if data transfer rate improves, even then use the recording impulse of the waveform shown in Figure 13 (a), the shape of 4Tw length mark also might be out of shape.And when forming the 4Tw length mark with 1 recording impulse shown in Figure 13 (b), in BD, also can obtain the mark of the shape of hope.

Wave recording during mark when forming the 5Tw length mark forms shown in Fig. 4 (f), after the pulse of length 1Tw, horizontal Pw then length 1Tw, horizontal Pe during, length 1Tw, horizontal Pw during.

Wave recording during mark when forming the 6Tw length mark forms shown in Fig. 4 (g), after the pulse of length 1Tw, horizontal Pw then length 2Tw, horizontal Pe during, length 1Tw, horizontal Pw during.

Form 7Tw and 9Tw length mark (more than the symbol lengths 5Tw, and the wave recording during the mark in the time of the odd length mark of detection window width Tw) forms is shown in Fig. 4 (h) and 4 (i), respectively the central authorities of mark forming portion as shown in Figure additional marking length 2Tw length 1Tw, horizontal Pe during, length 1Tw, horizontal Pw during.

Form the 8Tw length mark (more than the symbol lengths 5Tw, and the wave recording during the mark in the time of the even length mark of detection window width Tw) forms is shown in Fig. 4 (i), respectively the central authorities of mark forming portion as shown in Figure additional marking length 2Tw length 1Tw, horizontal Pe during, length 1Tw, horizontal Pw during.

It should be noted that, the signal waveform in during the non-formation of mark is according to gap length, until during next mark forms, keep the Pe level.In the present embodiment, 305 the shortest Pe level (the shortest cooling period) was set as 1Tw during mark formed.

If according to the impact of the ascending velocity/decline rate that adopts above the present embodiment of writing strategy, just can obtain the light output that is not subjected to semiconductor laser component, the energy repeatability forms the effect of suitable mark well.For example when data transfer rate was 72Mbps, Tw became 7.6ns.At this moment, because 0.5Tw=3.8ns so if ascending velocity and the decline rate of the output of the light of semiconductor laser component are 2ns, then can't reach the level of peak power and end power, can't form required mark shape.And if adopt the strategy of writing of the present embodiment, even ascending velocity and the decline rate of the output of the light of semiconductor laser component are not brought up to more than the present level, also can in wave recording, realize the modulation of the laser power of loyalty.

In addition, in the present embodiment, the symbol lengths m that the number of the recording impulse (Pw) that comprises in the wave recording in during forming about the record mark equates and the symbol of symbol lengths m+1, be during any K the recording impulse that comprises in during the record mark of symbol lengths m forms " the recording impulse width of symbol lengths m ", when being " the recording impulse width of symbol lengths m+1 " during any K the recording impulse that comprises in during the record mark of symbol lengths m+1 forms, determine wave recording, thereby the relation of (the recording impulse width of symbol lengths m)≤(the recording impulse width of symbol lengths m+1) is set up.

Accordingly, can obtain that to make mark shape be the effect of suitable shape.

In the present embodiment, each symbol lengths x be the wave recording during the corresponding record mark of the above symbol of n+3 forms cancellation power level (Pe) during be set as more than the 1Tw.Accordingly, even ascending velocity and the decline rate of the output of the light of semiconductor laser component are about 2ns, also can carry out with required recording power the modulation of laser instrument, so can obtain the effect that repeatability forms mark well.

[embodiment 2]

The embodiment 2 of data record method of the present invention is described below with reference to Fig. 6.

Only pass through the operation program of the data recording equipment of change embodiment 1, just can carry out the data record method of the present embodiment.Therefore, the structure of the data recording equipment of the present embodiment has the structure identical in fact with Fig. 1 and structure shown in Figure 2, does not repeat detailed explanation.

With reference to Fig. 6 (a)～(j), the wave recording 600～607 of expression the present embodiment.

By Fig. 6 (a)～(j) and Fig. 4 (a)～(j) are compared, as can be known, the signal waveform 600～607 that adopts in the present embodiment is similar with the signal waveform 400～407 of Fig. 4.Shown in Fig. 6 (c)～(e), signal waveform 600～602 is identical with signal waveform 400～402.The difference of embodiment 1 and embodiment 2 is that symbol lengths n is the form of the above signal waveform of 5Tw.

With reference to Fig. 6 (f).Wave recording is after the pulse of 1Tw, horizontal Pw during the formation of 5Tw length mark, then length 1Tw, horizontal Pb during, length 1Tw, horizontal Pw during.Here, it should be noted, by 2 pulses clip during in horizontal Pb also lower than horizontal Pe.

Wave recording is shown in Fig. 6 (g) during the formation of 6Tw length mark, and 305 after the pulse of 1Tw, horizontal Pw during mark formed, then length 2Tw, horizontal Pb during, length 1Tw, horizontal Pw during.

More than the symbol lengths 5Tw, and the wave recording during the odd-multiple length mark of detection window width Tw is such as Fig. 6 (h) with (j), the central authorities of mark forming portion as shown in Figure additional marking length 2Tw length 1Tw level, Pb during, length 1Tw, horizontal Pw during.

More than the symbol lengths 5Tw, and the wave recording during the even-multiple length mark of detection window width Tw is shown in Fig. 6 (i), the central authorities of mark forming portion as shown in Figure additional marking length 2Tw length 1Tw, horizontal Pb during, length 1Tw, horizontal Pw during.

According to the present embodiment, the number of the recording impulse (Pw) that comprises in the wave recording in during forming about the record mark, the symbol lengths m that number is equal to each other during the end power level (Pb) that is clipped by 2 recording impulses (Pw) and the symbol of symbol lengths m+1, at the bottom of comprise in during the record mark of symbol lengths m forms any K power level (Pb) during be " pulse width of symbol lengths m ", at the bottom of comprise in during the record mark of symbol lengths m+1 forms any K power level (Pb) during when being " pulse width of symbol lengths m+1 ", determine wave recording, thereby the relation of (pulse width of the pulse width of symbol lengths m≤symbol lengths m+1) is set up.Symbol lengths is shorter, approximately easily produces the savings of heat in marked terminal section, but according to and the relation of (pulse width of the pulse width of symbol lengths m≤symbol lengths m+1) can obtain the savings that relaxes heat, adjust the effect of the shape of mark.

In the present embodiment, being set as more than the 1Tw during the end power level (Pb) of the wave recording during each record mark formation.Accordingly, even rising and the decline rate of the output of the light of semiconductor laser component are 2ns, also can carry out with required recording power the modulation of laser instrument, so can obtain the effect that the energy repeatability forms mark well.

[embodiment 3]

Below, with reference to Fig. 7, the embodiment 3 of data record method of the present invention is described.

Only pass through the operation program of the data recording equipment of change embodiment 1, just can carry out the data record method of the present embodiment.Therefore, the structure of the data recording equipment of the present embodiment has the structure identical in fact with Fig. 1 and structure shown in Figure 2, does not repeat detailed explanation.

With reference to Fig. 7 (a)～(j), the wave recording 700～707 of expression the present embodiment.

By Fig. 7 (a)～(j) and Fig. 6 (a)～(j) are compared, as can be known, the signal waveform 700～707 that adopts in the present embodiment is similar with the signal waveform 600～607 of Fig. 6.The difference of embodiment 2 and embodiment 3 is: place below the above 1.5Tw of length 1Tw beginning during the non-formation of mark, horizontal Pc during, keep the Pe level before then during next mark forms.In the present embodiment, this horizontal Pc is set as different power levels with horizontal Pb, but horizontal Pc and horizontal Pb can be set as equal.

[embodiment 4]

Below, with reference to Figure 11, the embodiment 4 of data record method of the present invention is described.

Only pass through the operation program of the data recording equipment of change embodiment 1, just can carry out the data record method of the present embodiment.Therefore, the structure of the data recording equipment of the present embodiment has the structure identical in fact with Fig. 1 and structure shown in Figure 2, does not repeat detailed explanation.

With reference to Figure 11 (a)～(j), the wave recording 1100～1107 of expression the present embodiment.

By Figure 11 (c)～(j) and Fig. 4 (c)～(j) relatively, as can be known, the signal waveform 1100,1101 that adopts in the present embodiment, 1103～1107 with the signal waveform 400,401 of Fig. 4,403～407 identical.The point of feature is shown in Figure 11 (e) in the present embodiment, the wave recording when forming the 4Tw length mark after the pulse of 0.5Tw, horizontal Pw, then length 1Tw, horizontal Pe during, length 0.5Tw, horizontal Pw during.Then, kept the Pe level before during next mark forms.

Figure 11 (b1) is the count signal 205 that is produced by counter 200, with the time timing of detection window width Tw to beginning from the mark beginning.It is corresponding with the beginning at mark or interval that count signal is transferred to 0 timing.

Figure 11 (b2) is the sub-count signal 210 that is produced by counter 200, and for reference signal, phase place becomes 180 °.Count signal is transferred to 0 timing postpones 180 ° from the beginning at mark or interval phase place.

Shown in Figure 11 (e), the pulse width of Pw is 0.5Tw, but so long as the above width of 0.5Tw get final product.Here, any or both sides and the sub-count signal of the starting end of each pulse and terminal are synchronous.

In the present embodiment, rising part and the sub-count signal 210 of the sloping portion of the 1st pulse in the signal waveform 1102 of 4Tw length and the 2nd pulse are synchronous.

[embodiment 5]

Below with reference to Figure 12, the embodiment 5 of data record method of the present invention is described.

Only pass through the operation program of the data recording equipment of change embodiment 1, just can carry out the data record method of the present embodiment.Therefore, the structure of the data recording equipment of the present embodiment has the structure identical in fact with Fig. 1 and structure shown in Figure 2, does not repeat detailed explanation.

With reference to Figure 12 (a)～(j), the wave recording 1200～1207 of expression the present embodiment.

The waveform of Figure 12 (a) expression signal reference time.Figure 12 (b1) is the count signal 205 that is produced by counter 200, with the time timing of detection window width Tw to beginning from the mark beginning.It is corresponding with the beginning at mark or interval that count signal is transferred to 0 timing.Figure 12 (b2) is the sub-count signal 210 that is produced by counter 200, and for reference signal, phase place becomes 180 °.Count signal is transferred to 0 timing postpones 180 ° from the beginning at mark or interval phase place.

Wave recording when forming the 2Tw length mark is made of the pulse of length 1Tw, horizontal Pw shown in Figure 12 (c).During the non-formation of mark begin to place length 1Tw, horizontal Pc during, keep the Pe level before then during next mark forms.

Wave recording when forming the 3Tw length mark is made of the pulse of length 2Tw, horizontal Pw shown in Figure 12 (d).During the non-formation of mark begin to place length 1Tw, horizontal Pc during, keep the Pe level before then during next mark forms., during forming than the mark of 2Tw during mark forms more than the long 0.5Tw.

Wave recording when forming the 4Tw length mark shown in Figure 12 (e), after the pulse of length 1Tw, horizontal Pw, then length 1Tw, horizontal Pb during, length 1Tw, horizontal Pw during.During beginning placement length 1Tw, horizontal Pc, then before during next mark formation, keep the Pe level during the non-formation of mark.

During the even-multiple length mark of detection window width Tw, shown in Figure 12 (g), (i), the central authorities of mark forming portion as shown in Figure additional marking length 2Tw length 1Tw, horizontal Pb during, length 1Tw, horizontal Pw during.During beginning placement length 1Tw, horizontal Pc, then before during next mark formation, keep the Pe level during the non-formation of mark.

Wave recording when forming the 5Tw length mark shown in Figure 12 (f), after the pulse of length 1Tw, horizontal Pw, then length 2Tw, horizontal Pb during, length 1Tw, horizontal Pw during.During beginning placement length 1Tw, horizontal Pc, then before during next mark formation, keep the Pe level during the non-formation of mark.

Wave recording when forming the 7Tw length mark shown in Figure 12 (h), after the pulse of length 1Tw, horizontal Pw, then length 1.5Tw, horizontal Pb during, length 1Tw, horizontal Pw during, length 1.5Tw, horizontal Pb during.During beginning placement length 1Tw, horizontal Pc, then before during next mark formation, keep the Pe level during the non-formation of mark.

Here, any one party of the starting end of intermediate pulse and terminal or both sides and sub-count signal are synchronous.In the drawings, the rising part of the 2nd pulse and sloping portion and sub-count signal are synchronous.

Below, shown in Figure 12 (j), when the odd-multiple length mark of detection window width Tw, the central authorities of mark forming portion as shown in Figure additional marking length 2Tw length 1Tw, horizontal Pb during, length 1Tw, horizontal Pw during.During beginning placement length 1Tw, horizontal Pc, then before during next mark formation, keep the Pe level during the non-formation of mark.

In the present embodiment several, the Pe level is identical power level with Pb, Pc level, but can make Pe level and Pb, Pc level different.

The example of ecad mark compensation is described with reference to the accompanying drawings.In high-density optic recording, occur according to record condition, the record that marker edge moves is interfered.In order to prevent the deterioration of the tracer signal that it causes, can carry out the compensation of ecad mark.

Ecad mark compensation as shown in Figure 8, be to the above mark of 2T mark (2Tm), 3T mark (3Tm), 4T mark (4Tm), 5T (〉=5Tm), make the irradiation starting position of laser and the compensating movement of pulse width variation.

One example of the ecad mark compensation when Fig. 8 represents that recording power is two-value.Symbol lengths according to the record mark, mark starting end position in the described parameter is by moving dTtop and Ttop, record mark terminal location can suppress the starting end of mark and the edge of terminal and move by Tlp and dTlp are moved, and obtains good signal quality.

One example of the ecad mark compensation when Fig. 9 represents that recording power is 4 value.According to the symbol lengths of record mark, the mark starting end position in the described parameter is by moving dTtop and Ttop, and record mark terminal location can suppress the starting end of mark and the edge of terminal and move by dTe is moved, and obtains good signal quality.Here, recording power is 4 values, but Pb=Pc when being 3 value, also can use identical mark compensation.

It should be noted that, the amount of movement that produces by record compensation use lag line can with from reference time small amount of movement for example Tw/16 move as unit.

In addition, record when compensation, can be according to basic waveform, from beginning compensation with the synchronous position of count signal, also can be from beginning compensation with the synchronous position of sub-count signal.

Here, in basic waveform, the width of the end power level in during each pulse width, mark form and the width of cooling power are more than the 1T, but after carrying out described record compensation, each pulse width of each mark lengths is at least more than the 0.5Tw.At this moment, be difficult to be subject to the impact of the response speed of laser instrument, can relax record condition.

[comparative example]

Pattern below with reference to the wave recording 500～506 of the device of Fig. 5 (a)～(i) explanation comparative example.

With reference to Figure 10.Figure 10 is the figure of structure of the recording processing system of this device of expression.

Scrambler 1013 receiving record data 1027 among Figure 10 are transformed to record symbol row 1026.Mark lengths sorter 1001 carries out the division based on divisor 2 (calculation of remainder) for symbol lengths n according to record symbol row 1025.Mark/the interval of this mark lengths category signal 1001 identification record symbol rank when the even-multiple length of detection window width Tw and during odd-multiple length.

Counter 1000 usefulness detection window width Tw units produce count signal instant from the time of mark beginning beginning.Fig. 5 (b) represents count signal 1005.It is corresponding with the beginning at mark or interval that count signal is transferred to 0 timing.

To counter 1000 and scrambler 1013 input reference time signals 1028.Count signal 1005 input wave recording tables 1002.Wave recording table 1002 pair drive circuit for laser 1011 transmission level generation signals, drive circuit for laser 1011 output laser drive currents 1024.

Wave recording when Fig. 5 (c) expression forms the 2Tw length mark.305 pulses by length 1Tw, horizontal Pw1 consisted of during mark formed.During the non-formation of mark begin to place length 1Tw, horizontal Pb during, keep the Pa level before then during next mark forms.

Wave recording when Fig. 5 (d) expression forms the 3Tw length mark.305 after the pulse of length 1Tw, the horizontal Pw1 identical with Fig. 5 (c) during mark formed, then length 1Tw, horizontal Pw2 during.Same with the wave recording shown in Fig. 5 (c) during the non-formation of mark, begin to place length 1Tw, horizontal Pb during, keep the Pa level before then during next mark forms.About the waveform during the non-formation of mark, the waveform shown in later Fig. 5 (e)～(f) too.Be during the non-formation of mark not according to gap length, begin to place length 1Tw, horizontal Pb during, keep the Pa level before then during next mark forms.305 the shortest cooling period became 1Tw during mark formed.

Wave recording when Fig. 5 (e) expression forms the 4Tw length mark.305 after the pulse of length 1Tw, the horizontal Pw1 identical with Fig. 5 (c) during mark formed, then length 1Tw, horizontal Pa during, length 1Tw, horizontal Pw3 during.

Fig. 5 (f) and (h) wave recording when expression forms 5Tw mark lengths and 7Tw mark lengths respectively.When the odd-multiple length mark of detection window width Tw, during length 1Tw, the horizontal Pa of the rear end of mark forming portion additional marking length 2Tw, length 1Tw, horizontal Pw3 during.During the non-formation of mark not according to gap length, begin to place length 1Tw, horizontal Pb during, then until during next mark forms, keep the Pa level.

Fig. 5 (g) and (i) wave recording when expression forms 6Tw mark lengths and 8Tw mark lengths respectively.When the even-multiple length mark of detection window width Tw, during length 1Tw, the horizontal Pa of the rear end of mark forming portion additional marking length 2Tw, length 1Tw, horizontal Pw3 during.

In comparative example, to compare with the embodiment of the invention, the recording power of recording impulse example is by step-like change, so the control of complicated power necessitates.In addition, when the mark of record mark lengths 4Tw, be necessary at least in the 3Tw length, use than average power level also high power level make semiconductor Laser device luminous.When the recording density rising of CD, when requiring to form small mark, in comparative example, it is long that irradiation time can't become, so there is the shortcoming that can't obtain required mark shape.

According to the present invention, to the recording medium Implantation Energy, form and the mark that record section physical property is not different, accordingly, in the data recording equipment of record data, can form well mark with the high speed precision.Accordingly, as recording mode, can use the marker edge recording mode favourable to high call wire densityization.

According to more than, high speed, highly reliableization of seeking recoding/reproduction action can realize the miniaturization of information record carrier and recording medium simultaneously, so favourable aspect cost.

Claims (2)

1. data record method is by the energy beam irradiation recording medium with pulse type, and as the marginal position information recording/at the mark of a plurality of length and the interval data record method on the described recording medium, described data record method comprises data:

Generate the steps A of NRZI data according to the data that will record;

According to the symbol lengths x of each symbol that comprises in the NRZI data, the step B of the wave recording of the power modulation of the described energy beam of decision regulation; And

According to described wave recording, modulate the step C of the power of described energy beam;

Described step B, the shortest symbol lengths in described NRZI data is 2 o'clock, for with symbol lengths x be during the corresponding record mark of 2 and 3 symbol forms, the assignment record pulse is 1 wave recording, and for symbol lengths x be during the corresponding record mark of symbol more than 4 forms, assignment record pulse (Pw) is a plurality of wave recording

With symbol lengths x be wave recording in during the corresponding record mark of symbol more than 4 forms decide wave recording so that it comprises with x divided by the mode of the recording impulse of merchant's equal amount of 2,

After recording impulse, arrange cooling power level (Pc) during and cancellation power level (Pe) following closely during,

The shortest symbol lengths of described NRZI data is 2.

2. a reproducting method reproduces by following recording method recorded data,

In the described recording method, shine by the energy beam with pulse type, data carried out record as the mark of a plurality of length and the marginal position information at interval,

According to described recording method,

The power modulation of described energy beam, the symbol lengths x according to each symbol that comprises in the NRZI data that generate according to the data that will record is stipulated by wave recording,

The shortest symbol lengths in the NRZI data is 2 o'clock, for with symbol lengths x be during the corresponding record mark of 2 and 3 symbol forms, the assignment record pulse is 1 wave recording, and for symbol lengths x be during the corresponding record mark of symbol more than 4 forms, assignment record pulse (Pw) is a plurality of wave recording

With symbol lengths x be wave recording in during the corresponding record mark of symbol more than 4 forms, comprise the recording impulse divided by merchant's equal amount of 2 with x,

After recording impulse, arrange cooling power level (Pc) during and cancellation power level (Pe) following closely during,

The shortest symbol lengths of described NRZI data is 2,

Described reproducting method comprises:

Step to described recording medium illumination beam; With

Reproduce the step of described record mark.

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