TH16110B - Radial self-spreading pattern in the version for writing, servo storage on a disc. - Google Patents

Abstract

How to write down the medium Especially For writing self servos in Turntable on a disc drive with servo actuator To position the tape head Relative to the plate Where the position error signal value is equal to the difference between the reference waveform And the measured signal waveform in relation to its position is derived from the signal read back from the tape head connected by a disc. Including writing a servo on a radial groove, achieved on the plate By using an actuator and finding the reference waveform To be a function of the actuator's closed loop movement function. And has at least one measured position signal waveform The rate of expansion depends on The frequency of the servo loop may be set. So that the closed loop responds to the servo loop will be Less than the total units at every The product of the number of points of the disk rotation frequency But must be high enough to reduce It is possible to write a series of first order along the groove, moving the tape head with the ratio of the known groove to the moving position, and reading selectively. Take part of the positional detail data as one to determine the deviation detail. Representing deviations in the tape head from known proportions, and the use of such deviation details for a second-order distribution at the displaced position with deflection details encoded in a channel. The space between adjacent waveforms can be adjusted without writing in. The deviation plate within the isolated position signal is obtained from the random position error in A servo that may be canceled. Tools for working in different ways And the drive plates are written down this way

Claims (5)

1.How to write product servo drawings in a storage device Such storage device Contains a storage medium with sectors. And a large number of transducers to produce results Between the intermediaries to collect such information One or more such sectors. One sector contains the previously recorded transitions. The method consists of Perform position error signal detection according to the position error value. Such transducers are against at least one previously recorded transition. Servo writing of a type of product with many such sectors while servicing to allow at least one previously recorded shift. Where such writing It consists of adjusting the signal quantity of the servo type of the said product. Using value signals Error position in such a way that the position error is expressed as a servo. 2. Claim Method 1 whereby the adjustment consists of Servo adjustment of Such product By using the error signal at that position In such a way that the error The position is encoded in coded to the servo version of the said product. 3. Method of Claim 1, provided that such adjustments are not included in the code. Contains servo modifications 4. Claim Method 3, whereby the adjustment consists of Value signal collection Error position in the servo model of the said product. To be amended at a later time 5. The method of claim 4 consists in addition to the relative timing of one or More than one sector Of the servo model of such product By using an error signal That position Which is stored in the servo form of the said product 6. Method of claim 3 where such adjustment Consists of changing the frequency value 7. The product servo demodulating method of the said product. 7. Claim Method 1 is supplemented by the servo demodulating of the said product. 8. Product servo drawing device in the data collector. Loud data collector Contains Sector storage medium And many transducers for Resulting in action between the intermediaries to collect such information Many such sectors, one or more More than one sector contains the previously saved transition period. The device consists of The section for detecting the position error signal corresponds to the position error value. Of the said transducer Against at least one previously saved shift and adjustable drawing generator. To draw a servo of a product in a sector Such many While performing a servo to make at least one of the previously recorded changes, the generator contains a section for adjusting the signal volume of the servo. Of such products By using the error signal that position in such a way that the error The position is expressed in the servo form of the said product. 9. Claim Device 8, where the adjustment section contains the servo adjustment section of the said product. By using an error signal, such position in The manner in which the position error value is encoded in coded to the servos of the said product 1 0. Device of Claim 8 where the adjustment section contains the servo modifications of the said product. Clause 1 1. Device of claim 10 where such modification section contains a section for storing such positional error signal data as a servo of the said product. For subsequent revision 1 2. Equipment of claim 11 contains additional sections for correlated time adjustments. Of one or more sectors Of the servo model of such product Using the wrong signal Missed that position Which is stored in the servo form of the said product. 1. 3. Device of Claim 10, where the part for such modification. Part For changing the servo frequency of the said product 1 4. The device of claim 8 is additionally equipped with an adjustable modulator. For demodulation Servos of such products 1 5. Methods for writing servos on the storage medium of a data collector with a transducer. A deuser and a servo loop to position the transducer In the part of the storage medium Such information, the above method contains Writing one or more transitions on one of the grooves of the multiple grooves of the collector, the gain setting depends on the non-zero frequency of the said servo loop. Which setting as Said to provide a closed loop response of the said servo Which is less than unit size Include at every integer product of the possible rotation frequency by the said servo loop of the medium. Collect such information; And servo operations on one or more transitions on one such groove and writing one or more transitions on other grooves. Using the said servo loop To get the rate Expanded with sleep-zero frequency 1 6. Method for writing servos on storage medium of transducers. Dezers and servo loops for locating such transducers in the storage medium, such methods include; Writing one or more transitions on one of the grooves of the media's bulk groove. While servos on other transitions One or more recorded on such storage medium; and reference waveform determination as a function of the closed-loop response of the said servo and positional error; The waveform is faulty, the position corresponds to the fault. One or more positions of the transducer relative to other transitions If one or more waveforms are inaccurate, the position is obtained under the gain and the non-zero frequency of the said servo loop, where the servo is prepared to suppress or eliminate the main mechanical interference. It can be issued for the transdew-servo and the aforementioned reference waveform will be used to write the groove later on the storage medium. 1 7. Claim Method 16, in which the closed loop response This depends on the frequency and method. These include additional frequency-dependent filtering. The position of the waveform is used in the determination of the reference waveform. 1 8. Method of claim 16 which the determination of the said value is additionally used at least at At the end of the waveform error, the position was saved first. To find the reference waveform, the previously saved position error waveform. In addition, 1 9. Method of claim 16 in which the determination of such reference waveform consists of; at least one calculation of the complexity of Convert intermittent Fouries Of the waveform, position error Multiply at least one such complex complex by that factor, filtering at least one complex f. Therefore, at least one filter relationship will occur; Calculation of the inverse Discrete Fourier transform, due to at least filtration coefficient. One of the greatest such values and the addition of the inverse The conversion of the aforementioned intermittent Fouries to the specified mean reference level. 2 0. The claim 19 method is supplemented by calculating the f-value from the detected function. The predecessor of the closed-loop response; C 2 1. Method of claim 20, in which the computation of the f-value is supplemented by the use of the equation f = (SC) / (1-C), where S contains a step factor and is less than 1 2 2. A device for writing the servo on the storage medium of a built-in storage device. Transducer and servo loop for positioning such transducer in body part. In the storage medium, such equipment consists of A path for writing one or more transitions on one of the many furrows of the body. The central store of such information; The path for setting the gain depends on the non-zero frequency of the said circuit, which The setting is so that it responds to the closed loop of the aforementioned servo that is less than the total unit at every integer product of the possible rotation frequency by the said servo loop of the body. The center holds such information and the path for servos on one or more such transitions on one such groove. And writing one or more of these transitions onto the other The servo loop is used to increase the frequency gain. Non-Zero 2. 3. A device for writing servos on the storage medium of a transducer. A deuser and a servo loop to position the transducer in the storage medium As mentioned, the above equipment contains A path for writing one or more transitions on one of the grooves of the many grooves of such a storage medium. While servos on other transitions One or more that were recorded before. Then on the said storage medium; And the method for determining the reference waveform is a function of the closed loop response of the cycle. The said servo and the waveform position error. , The waveform is wrong, the speaker position corresponds to the wrong Missed one or more locations of the transducer. With other periods One or more, and the waveform is erroneous. The position is obtained from under the horizontal-zero gain of the said servo loop, where the servo would be to suppress or cut the terrestrial action. Mechanical for the transducer , And to which the reference waveform is used to write the next groove on the storage medium. 2 4. Device of claim 23 which responds to such closed loop. Depend on frequency And the device is additionally equipped with a path for filtering the frequency of the faulty waveform. The aforementioned position to be used with the aforementioned means for determination 2. 5. Equipment of Claim 23, which means such method for further determination of the method. A path to use at least one wrong waveform, the position was saved before. To find the waveform As mentioned above, the waveform missed the previously saved location. Will be the wrong waveform In addition, 2 6. The device of claim 23, in which the aforementioned approach for finding such reference waveforms, consists of a method for calculating at least one of the four Fourier series complexes. Intermittent Of the wrong waveform position; A path for multiplication of at least one such complex membrane with at least one complex filter factor. Therefore, at least one filtering relationship will occur; Method for calculating the inverse of the discrete Fourier transforms from the coincidence. Filter at least one such value; and A path for adding the said discrete Fourier transform to the mean reference level. Specified to produce such a reference waveform 2 7. The device of claim 26 is supplemented with a method for calculating the f-value from the pre-determined function of the said closed loop response, C 2 8. Device of claim 27, which provides a means for further computation of the f-number. With the way of using the equation f = (SC) / (1-C), where S consists of a step factor and is less than 1 2. 9. Method for writing a servo on the storage medium of a storage medium with a transducer. W-servo and servo loop to position the transducer in part of the storage medium, method Such includes Writing one or more transitions on one of the medium's many grooves. Collect such information Setting up the first frequency gain of the servo loop for writing purposes. Transitions of one or more on other grooves. Of such many grooves, and the servo on the range Change one or more on one such groove. And writing product servo pattern on body In the middle of collecting such information The use of gain depends on the second frequency of the said servo loop, the rate Amplified by the aforementioned second frequency of the said servo loop whose value differs beyond the gain The first frequency 3 0. Method for detecting the required pitch (pitch) of the groove to write on the storage medium. Data of a storage device containing a transducer, such methods include Selection of reference mean mean initial identification; Writing transitions on each groove of many such grooves, many such grooves are Less than the total number of such furrows, which many such furrow distances are detected. With such initial specified mean reference value A measurement of the first associated amplitude of the transitions written on one of the grooves of the many grooves and the second relative amplitude of the transitions written on the other grooves of the many grooves, Compare the first relative amplitude and the second relative amplitude. Positioning the transducer relative to the aforementioned comparison; Repeating such measurements, comparing and positioning until comparison. The indication of the aforementioned first associated amplitude is almost equal to that of the second associated amplitude, which yields the corresponding amplitude at the measurement; A relative amplitude comparison that measures the pre-detected value to differ from the aforementioned pre-determined values; and To determine the second specified mean reference value is used such difference, the specified mean reference value at These two marks are used to write a groove next to the pitch of the groove as stated herein. 3 1. Method of claim 30 in which the radiators consist of separate reading and writing sections 3 2. The method of claim 30, in which the detection consists of To delete the different functions as Said from the reference mean, indicating such beginning To obtain the second specified reference mean 3 3. Method of claim 30 in which the pre-detected value corresponds to the required gap. 3 4. Method of claim 30 for which the amplitude involved to be measured is equal to the sum of the said relative amplitudes of the written transitions on the groove. One groove and its associated amplitude. 3 5. Device for detecting the required groove pitch (pitch) of the groove written on the body. Storage medium, data collector with a transducer, such a device consists of a means For selecting the reference average, specify the starting value; Pattern generator improvements To write the transitions on each of these many grooves Such a large number of grooves is less than the total number of such grooves, the spacing of such large grooves is determined by such initial mean reference value, the path for the amplitude measurement is concerned. At one of the transitions written on one of the grooves. Of many grooves and the second corresponding amplitude of transitions written on other grooves of such a large number of grooves; A method for comparing the aforementioned relative amplitude and its associated amplitude. Second, the method for locating the aforementioned transducer relative to the aforementioned comparison; A path for such measurements to repeat, to compare and to position until comparison. As mentioned above, such one relative amplitude is almost equal to that second relative amplitude; Which results in the relative amplitude that is measured A method for comparing the amplitude is relevant to that measurements for amplitude. The relevant Jude that measured the pre-determined value Is different from the aforementioned pre-determined values and the method for detecting the second specified mean reference value is used as such difference, the aforementioned second nominal reference value. To write the groove next to the pitch (pitch) of the required groove. 3. 6. Equipment according to claim 35, which the transducer consists of separate reading and writing parts. Claim 35 The method for detection consists of: Adjust the subtraction factor to subtract the aforementioned function from the aforementioned initial nominal reference value to obtain the aforementioned second nominal reference value. say Corresponding to the gap 3 9. Equipment according to claim 35 for which the amplitude involved to be measured is equal to the sum. The relative amplitude of the transitions written on one such groove. And the amplitude is related 4 0. Methods of propagating patterns in the data collector, such data collector consists of: Data storage medium And transducers to affect the storage medium, such methods include; Writing during storage transition of storage medium, transition on body The middle holds such information while taking the servo on other transitions. That has been recorded before onto the medium Collect such information Detection during such write shift, insertion position error signal Incompatible with the error, the position of the transducer is related to such other transitions; And data acquisition, during such write changes, position error signals The fault signal, the position used to calculate the reference groove value, will be recorded together with the transition period. 4 1. Method of claim 40, which signals an error, such position is consistent with the designation. Almost instantaneously of such positional error 4 2. The method of claim 40 is supplemented by the calculation of the reference groove values, such computation consists of a pre-determined function of the position error signal. That have been added to the specified average reference level To obtain the said reference value 4 3. The method of claim 42 is supplemented by recording the said reference value 4 4. The method of claim 42 includes additionally. To move to a new radial position using the aforementioned groove value. And supplemented with Reproduction of such writing, detection and recording for many transitions written at the new radius position 4 5. The method of claim 44 is supplemented by repeating such calculations, shifts, Writing, detection and recording for a large number of radius locations of the storage medium 4 6. Method of claim 40, supplemented by the duplication of such writing, detection and storage of such information, during Changed writing, until many sessions To be written at the radius of the storage medium. 4 7. Diffusion device in the data collector, such a storage device consists of. A storage medium and a transducer for the effect between such storage mediums, such devices include Adjustment of the format generator to write, during the writing change of the storage medium, the transition on the such storage medium while performing the servos on other pre-recorded transitions on the storage medium; Method for detection, during such writing changes The position error signal corresponds to the location error of the transducer. In connection with such other transitions; And improving the memory to keep the data, during such a write change, the said position error signal will be prepared to save the position error signal. It is used to calculate the reference groove in conjunction with the aforementioned replacement period to detect corrections for errors. 4 8. The equipment of claim 47 with an error signal. Immediate detection of such a fault position. 4 9. The equipment of claim 47 consists of a controller that can be programmed to calculate the reference groove value. The regulator provides a means for combining functions that Pre-detection of error signals the saved locations. Corresponding to the average reference level at In order to obtain such reference value 5 0. Method for writing the pattern on the exchange. (recliprocating) using the transdue Servo and servo loop In order to position the transducer in the medium of exchange (recliprocating) such methods include Writing one or more patterns on one of the grooves of the exchange medium's many grooves. (recliprocating) such while performing servos on other formats. One or more That was recorded before Then on such exchange medium and the reference waveform determination is a function of the closed loop response of the said servo, and the positional error waveform, such position error waveform corresponds to the error. One or more positions of the transducer are related to one or more other patterns, and the waveform is wrong. Can be obtained under the horizontal-zero gain of the said servo-cycle, which the servo suppresses Or quickly interfering with the main mechanical parts of the body Transducer And that such reference waveform can be used to write the pattern respectively on the medium. 5 1. The method of claim 50, in which the response to the closed loop is frequency dependent. And which way In addition, filtering depends on the frequency of the faulty waveform at the location for use in the determination of the said reference waveform. 5 2. Method of claim 50, in which the determination of such values is supplemented by Least used One wave form Erroneously, the location was saved before To find the reference waveform, the waveform is in error, the previously saved position. 5 3. Method of claim 50, in which the determination of such reference waveform consists of calculating at least one of the complexity of the Fourier transform. Discrete lines of the image Wave position error Multiplying at least one complex membrane by at least one such complex filter f factor will produce at least one filtering relationship. Calculation of the intermittent Fouries transform inverse from at least the filtering circle One such value and the summation of the discrete Fourier transform inverse. To the specified average reference level 5. The method of claim 53 is supplemented by the calculation of the f-number from the detected function. Prior to the closed loop response, C 5 5. Method of claim 54, in which the computation of f is supplemented by the equation f = (SC) / (1-C), where S consists of Step factor And smaller than 1 5 6. Equipment for writing patterns on the exchange. (recliprocating) using a transducer And a servo loop for positioning the transducer in the body In the said exchange, such equipment consists of A path for writing one or more patterns on one of the many furrows. Such exchange center while performing servos on other models. One or more That was recorded before Then on such exchange medium and the path for determining the reference waveform is a function of the closed loop response of the loop. Such servo And the waveform error position, the waveform error position is consistent with the wrong Missing one or more positions of the transducer is associated with one or more other patterns, and the waveform is wrong with that position. Can be found under the gain depending on the sleep-zero frequency of the cycle Such a servo, which the servo will suppress Or eliminates the fast mechanical interference of the transducer, and that such reference waveform can be used to write the pattern respectively on the said exchange. The response of the aforementioned closed loop will depend on the frequency and the additional components of the device. The path for filtering depends on the frequency of the faulty waveform. That position For use by the said method for determination 5 8. Equipment of claim 56, the method for such determination is supplemented by the A passage for using at least one waveform. Erroneously, the location was saved before To find the image value Such reference wave The waveform is wrong, where it was saved first. In order to get the wrong waveform, loud position In addition, 5. 9. Equipment of claim 56, in which the method for determining the values of such reference waveforms, consists of the path for calculating at least one conversion complexity. Discrete Fouries of a positional error waveform. The path for multiplication of at least one complex membrane. Such with at least one of the complex filter factors f Therefore, at least one filtering relationship will occur. The path for the inverse value, the discrete Fouries transform from the symposium. Filter at least one such value and the method for adding the inverse of the discrete Fourier transform. With reference level The average is specified to produce such a reference waveform 6 0.The device of claim 59 is supplemented with a path for bowing the f-value from the pre-determined function of the closed loop response, C 6. 1. The device of claim 60, which the aforementioned method for calculating f, is supplemented by the method for applying the equation. f = (S-C) / (1-C), where S consists of a step factor and is less than 1.6. 2. Methods for writing patterns on exchange media. (recliprocating) using a transducer and a servo loop for positioning the transducer in the medium. Such exchange And the method includes Writing one or more patterns on one of the grooves of the many grooves of such exchange medium, the gain setting depends on the non-zero frequency. Of the said servo loop Which the installation is loud It prepares a closed-loop response of the said servo that is smaller than the combined unit that For every integer product of the possible rotation frequency by the said servo loop of the exchange center Replace the servos on one or more such patterns on one such groove. And drawing One or more designs on the other groove By using the aforementioned servo loop to provide the gain depending on the non-zero frequency of 6 3. Methods for writing patterns on exchange media. (recliprocating) using a transducer and a servo loop for positioning the transducer in the medium. Such exchange And the method includes Writing one or more patterns on one of the grooves of the many grooves of the said exchange medium, setting the gain depends on the frequency one of the said servo loop. In order to use in Write one or more patterns on each other of the many grooves and servos on one or more of the above patterns. And writing patterns Product servos on such exchange medium The use of gain depends on the second frequency on the band. Around the said servo The gain is based on the aforementioned second frequency of the servo loop that differs beyond the gain depending on the first frequency 6. 4.Device for writing patterns on the exchange. A transducer and a servo loop are used for positioning the transducer in the part of the said exchange medium, and the device consists of: A method for writing one or more patterns on one of the many furrows of the body. In the middle of such exchange The path for setting the gain depends on the non-zero frequency of the said servo loop. This setting handles the smaller closed-loop response of the said servo. The sum unit that every numeric product of the possible rotation frequency. By the servo loop of the body The exchange center and the path for servos on one or more such patterns on the groove and writing one or more patterns on the other. The use of the aforementioned servo loop to provide the gain depends on the Sleep frequency - such zero 6 5. A device for writing patterns on exchange media. A transducer and a servo loop are used for positioning the transducer in the part of the said exchange medium, and the device consists of: A path for writing one or more patterns on one groove of a large number of mediums. Such exchange The path for setting the gain depends on the first frequency of the servo loop, it is used to write one or more patterns on the other grooves on many such grooves and the path for the servo on the pattern. Such as one or more on one groove. And drawing A servo model of the product on the exchange medium, using a second frequency dependent gain. Of the said servo loop The gain depends on the aforementioned second frequency of the broken servo loop. Different than the gain depends on the frequency one mentioned.