JP3674760B2 - Playback envelope level controller - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is provided in a digital VTR or the like having a rotating drum, and when an A / D converter performs A / D conversion on a reproduction signal reproduced from a magnetic tape, the A / D converter The present invention relates to a playback envelope level control device for controlling an input level to a reproduction envelope. In the specification, the envelope is an abbreviation for envelope.
[0002]
[Prior art]
FIG. 10 shows a circuit block diagram of a main part of a digital VTR including a conventional reproduction envelope level control device.
[0003]
1 is a magnetic tape for recording a digital signal, 2a is a magnetic head that has a positive azimuth angle and is arranged on the rotating drum and reproduces a signal from the magnetic tape 1, and 2b has a negative azimuth angle on the rotating drum. Magnetic tape placed 180 ° opposite to the magnetic head 2a 1 3a is a rotary transformer that transmits a reproduction signal from the magnetic head 2a from the rotor side to the stator side, and 3b is a rotary that transmits a reproduction signal from the magnetic head 2b from the rotor side to the stator side. It is a transformer. Reference numeral 4 denotes a head switch generator that generates a control signal for reproducing a reproduction signal from the magnetic head 2a or 2b, and reference numeral 5 denotes a reproduction signal from each of the rotary transformers 3a and 3b by the head switch generator 4. It is a switcher that switches alternately.
[0004]
Reference numeral 6 denotes an amplitude variable device that varies the amplitude of the reproduction signal from the switching device 5 under the control of the amplitude controller 12. Reference numeral 7 denotes an A / D converter that converts the reproduction signal from the amplitude variable unit 6 into a digital value. Reference numeral 8 denotes an automatic equalizer that optimally equalizes intersymbol interference generated in the electromagnetic conversion system from the reproduced signal data from the A / D converter 7. A required reproduced signal is output from the automatic equalizer 8. Is done.
[0005]
Reference numeral 9 denotes a tracking information detector for detecting tracking information from the reproduction signal data from the A / D converter 7, from which the track number on the magnetic tape 1 by the magnetic heads 2 a and 2 b is detected. Tracking information indicating whether tracking is in progress is output. Reference numeral 10 denotes an envelope level detector for separately sampling the reproduction signal level from the reproduction signal data from the A / D converter 7 under the control of the head switch generator 4, and from the envelope level detector 10 to the magnetic head 2a. , 2b is output data indicating which position on the track of the magnetic tape 1 is being tracked.
[0006]
11 is an amplitude adjustment value storage unit that separately stores variable amplitudes of the reproduction signals from the magnetic heads 2a and 2b, and 12 is an amplitude adjustment value from the amplitude adjustment value storage unit 11 under the control of the head switch generator 4. This is an amplitude controller for level conversion.
[0007]
Here, the amplitude variable unit 6, the amplitude controller 12 and the amplitude adjustment value storage unit 11 constitute a conventional reproduction envelope level control device, and the input level of the reproduction signal to the A / D converter 7 is the input thereof. Control so as not to exceed the dynamic range.
[0008]
[Problems to be solved by the invention]
In such a conventional apparatus, if the amplitude adjustment value is not set appropriately, the input level of the reproduction signal is caused by variations in the coercive force of the magnetic tape 1 or variations in reproduction output due to changes over time of the magnetic heads 2a and 2b. May exceed the input dynamic range to the A / D converter 7. Therefore, in the conventional apparatus, in consideration of such variations and the like, the stored value of the amplitude adjustment value in the amplitude adjustment value storage unit 11 is set by the manufacturer at the time of factory shipment, for example.
[0009]
However, in the conventional apparatus, the usage condition and environment assumed at the time of shipment from the factory differ depending on the usage conditions and the environment on the user side thereafter. In some cases, the input level of the reproduction signal is A / When the input dynamic range of the D converter was exceeded, the amplitude adjustment value was a fixed value, so there was no way to deal with it.
[0010]
For this reason, the amplitude adjustment value for the amplitude controller 12 can be controlled so that the input level of the reproduction signal does not exceed the input dynamic range of the A / D converter even if the usage conditions and the environment on the user side change. Is required to do.
[0011]
The present invention prevents the input signal level to the A / D converter from exceeding the input dynamic range of the A / D converter due to variations in the coercive force of the magnetic tape, variations in the reproduction output due to aging of the magnetic head, and others. An object of the present invention is to make it possible to appropriately control the amplitude adjustment value for the amplitude controller.
[0012]
[Means for Solving the Problems]
The reproduction envelope level control apparatus of the present invention inputs a reproduction signal reproduced from a magnetic tape to an A / D converter, and inputs the reproduction signal from the A / D converter to an equalizer for equalization. A reproduction envelope level control device for controlling an input level to the A / D converter, A sampler for sampling a reproduction signal from the A / D converter as an envelope value during loading of the magnetic tape; Amplitude variable means for varying the amplitude of a reproduction signal reproduced from the magnetic tape and inputting the amplitude to the A / D converter; An amplitude adjustment value initial value storage device for storing an initial value of an amplitude adjustment value, which is an amplitude variable amount of a reproduction signal reproduced from the magnetic tape, and the sampling device Envelope value The difference between the maximum value of the A / D converter and the input level target value of the input dynamic range of the A / D converter, and the initial value of the amplitude adjustment value Appropriate amplitude adjustment value from Calculate Arithmetic control means, Amplitude control means for controlling the amplitude variable means according to the input of the amplitude adjustment value; It is equipped with.
[0013]
According to the invention And magnetic If there is variation in the coercive force of the magnetic tape and variation in the reproduction output due to changes over time in the magnetic head, and the envelope of the reproduction signal of the A / D converter changes, an appropriate amplitude adjustment value is calculated according to this change, Since this calculated value is used as an amplitude adjustment value, the input level of the playback signal is changed to the input dynamic range of the A / D converter even if there are changes in the usage conditions and the environment exceeding the initial prediction on the user side after factory shipment. Therefore, the level of the reproduction signal can be controlled stably.
[0015]
Also, Since the amplitude adjustment value can be accurately calculated so that the reproduction envelope level becomes the input level target value of the A / D converter, a stable reproduction signal that can fully exploit the decomposition performance of the A / D converter can be obtained. The level can be controlled.
[0016]
As a preferred embodiment of the present invention, a table for correcting the amplitude adjustment value according to the difference between the maximum value and the target value is provided, and the calculation is performed with reference to the table.
[0017]
In such a case, the calculation processing time for obtaining the amplitude adjustment value can be shortened by determining in advance the correction amount of the amplitude adjustment value for setting the reproduction envelope level to the input level target value of the A / D converter. It is possible to control the level of the reproduction signal that is stable instantaneously.
[0018]
As a preferred embodiment of the present invention, the table has the reproduction signal level of Magnetic tape In the track Take the average value of the envelope level of each playback signal It is a table about the case where it did not process.
[0019]
In these cases, the playhead is Magnetic tape Regardless of whether or not the recorded track is reproduced on track, the maximum value of the envelope value becomes the maximum value of the input level to the A / D converter. By pre-determining the correction amount of the amplitude adjustment value according to the difference between the maximum value of the envelope value and the input level target value, the calculation processing time for obtaining the amplitude adjustment value can be shortened and instantaneously stable The level of the reproduced signal can be controlled.
[0020]
As a preferred embodiment of the present invention, the table indicates the level of the reproduction signal. Magnetic tape In the track Take the average value of the envelope level of each playback signal It is a table about the case where it processed.
[0021]
In such a case, the maximum envelope value differs depending on whether or not the reproducing head is reproducing the recording track of the recording medium on-track.
Processing time required for level conversion when calculating the difference between the target value of the input level and the maximum value of the envelope value by predetermining the correction amount of the amplitude adjustment value from the maximum value of the envelope during off-track playback And a stable level of the reproduction signal can be controlled instantaneously.
[0022]
As a preferred embodiment of the present invention, the calculation control means measures an amplitude adjustment value initial value memory for storing an initial value of the amplitude adjustment value and a reproduction signal level measurement for measuring the level of the reproduction signal from the A / D converter. And an amplitude adjustment from the amplitude adjustment value initial value memory, the table including a correction amount for the initial value determined according to a difference between the maximum value and the target value for the calculation. Amplitude adjustment value calculation processing means for inputting an initial value and a reproduction signal level of each of the reproduction signal level measuring means and performing the calculation according to the table at a predetermined timing.
[0023]
In such a case, the reference value of the amplitude adjustment value initial value memory Magnetic tape Is stored as an initial value for an amplitude adjustment value at which the level of the reproduction signal input to the A / D converter is ½ of the input dynamic range, and the difference between the maximum value and the target value is stored. Thus, the correction amount from the initial value can be easily calculated, and the amplitude adjustment value can be accurately determined.
[0024]
As a preferred embodiment of the present invention, the calculation control means comprises: Magnetic tape Insertion detecting means for detecting the insertion state of Magnetic tape And a position detecting means for detecting a state until the position reaches a reproducible position, and is detected by the insertion detecting means and the position detecting means. Magnetic tape The timing of the calculation of the amplitude adjustment value is controlled based on the state.
[0025]
In such cases, for example, Magnetic tape After detecting insertion ,Magnetic tape Until the camera reaches the correct position for playback , Measure the playback signal enlevel, Magnetic tape Immediately after the camera reaches the correct playback position, the average value or peak value of the measured playback signal enlevel is obtained and compared with the data in the table. , A more optimal amplitude adjustment value can be obtained and the amplitude variable means can be controlled.
As a preferred embodiment of the present invention, the calculation control means comprises: Magnetic tape Insertion detecting means for detecting the insertion state of Magnetic tape A position detection means for detecting a state until the position reaches a reproducible position, and a mode information detection means for detecting mode information such as reproduction, recording, stop, etc., wherein the insertion detection means and the position detection means By detection Magnetic tape The timing for calculating the amplitude adjustment value is controlled on the basis of the state and the mode information by the mode information detecting means.
[0026]
As a preferred embodiment of the present invention, the calculation control means comprises: Magnetic tape Insertion detecting means for detecting the insertion state of Magnetic tape Position detection means for detecting a state until the position reaches a reproducible position, mode information detection means for detecting mode information such as reproduction, recording, stop, and the like, Magnetic tape A recording format detecting means for detecting the recording format of the recording medium, and by detecting the insertion detecting means and the position detecting means Magnetic tape The timing of the calculation of the amplitude adjustment value is controlled based on the state, the mode information by the mode information detecting means, and the recording format information by the recording format detecting means.
[0027]
In such a case, for example, in the case of a VTR that can reproduce a plurality of formats, depending on the format, Magnetic tape And the relative speed changes. Magnetic tape After detecting the insertion of Magnetic tape Comes to the correct position for playback, and Magnetic tape Correctly detect the recording format of the Magnetic tape When the relative speed of the playback signal stabilizes, the playback signal level data is measured for a certain period of time. An amplitude adjustment value can be obtained optimally and the amplitude variable means can be controlled.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
The details of the present invention will be described below with reference to FIGS.
[0029]
(Embodiment 1)
FIG. 1 shows a circuit block diagram of a main part of a digital VTR including a reproduction envelope level control device according to Embodiment 1 of the present invention. The same reference numerals are assigned to the parts corresponding to the same reference numerals as those in FIG. As for the parts related to the reference numerals, only names are listed and their detailed explanations are omitted.
[0030]
In FIG. 1, 1 is a magnetic tape, 2a and 2b are magnetic heads, 3a and 3b are rotary transformers, 4 is a head switch generator, 5 is a switch, and 6 is a recording medium. This is an amplitude variable device serving as an amplitude variable means that can vary the amplitude of a reproduction signal reproduced from the above.
[0031]
7 is an A / D converter, 8 is an automatic equalizer, 9 is a tracking information detector, and 10 is an envelope level detection unit as a reproduction signal level detection means for detecting the reproduction signal level from the amplitude variable unit 6. , 12 is an amplitude controller for controlling the amplitude variable device 6 according to the amplitude adjustment value.
[0032]
The configuration characterized in the first embodiment is that the following calculation control means A1 is provided in place of the conventional amplitude adjustment memory 11.
[0033]
That is, the arithmetic control means A1 in the first embodiment is basically an A / D converter. 7 An appropriate amplitude adjustment value is calculated from the envelope level of the reproduction signal from the input signal, and the calculated value is input to the amplitude controller as the amplitude adjustment value. The calculation is performed by the reproduction from the A / D converter 7. The amplitude adjustment value is calculated from the difference between a predetermined value, preferably the maximum value, of the signal envelope and the input level target value of the input dynamic range of the A / D converter 7.
[0034]
In this case, the calculation control means A1 includes a table for correcting the amplitude adjustment value according to the difference between the maximum value and the target value, and performs the calculation with reference to the table. .
[0035]
Specifically, as shown in FIG. 1, the arithmetic control unit A1 includes a cassette detector 20, a loading position detector 21, a central controller 22, an envelope data sampler 23, and an amplitude adjustment value initial value memory. 24 and an amplitude adjustment value arithmetic processor 25.
[0036]
The cassette detector 20 serves as insertion detection means for detecting each state of insertion and ejection of the recording medium. Cassette insertion information includes inserting a cassette containing the magnetic tape 1 into a VTR and ejecting it to a predetermined position. Detect as.
[0037]
The loading position detector 21 serves as position detection means for detecting a state until the recording medium reaches an appropriate position for reproduction, and loading position information for loading and unloading corresponding to the state in which the magnetic tape 1 is wound around the rotating drum. Detect as.
[0038]
The central controller 22, based on the cassette insertion information input from the cassette detector 20 and the loading position information input from the loading position detector 21, respectively, embeds levels for the envelope data sampler 23 and the amplitude adjustment value arithmetic processor 25. Timing signals for sampling and amplitude adjustment value calculation are generated.
[0039]
The envelope data sampler 23 detects that the magnetic tape 1 has come to an appropriate position from which the magnetic tape 1 can be reproduced from the loading position information obtained by the loading position detector 21 when the cassette insertion information detected by the cassette detector 20 is detected as cassette insertion. Until that time (during loading), the reproduction signal level from the envelope level detector 10 is sampled by the control from the central controller 22 as reproduction signal level measuring means.
[0040]
The amplitude adjustment value initial value memory 24 has a reproduction signal level to the A / D converter 7 for each of the magnetic heads 2a and 2b when a reference magnetic tape used for adjusting the amplitude adjustment value is reproduced on track. The initial value of the amplitude adjustment value that is ½ of the input dynamic range of the A / D converter 7 is stored.
[0041]
The amplitude adjustment value arithmetic processor 25 obtains the maximum value of the embedded data sampled by the embedded data sampler 23 under the control of the central controller 22 and inputs the maximum value and the input dynamic range of the A / D converter 7. Tables shown in FIG. 3 and FIG. 4 based on the initial value of the amplitude adjustment value from the amplitude adjustment value initial value memory 24 for calculating the amplitude adjustment value for calculating the difference from the level target value and eliminating the difference between the two values. Calculate according to
[0042]
The operation of the first embodiment will be described with reference to FIGS.
[0043]
Here, FIG. 2 shows an operation sequence of the reproduction envelope level control device of FIG. 1, and FIG. 3 is used for calculation of correction of the amplitude adjustment value when the envelope level detector 10 does not process the average value in the track. FIG. 4 shows a table used for calculation of correction of the amplitude adjustment value when the envelope level detector 10 processes the average level in the track.
[0044]
In FIG. 2, a indicates the timing of cassette insertion detection and cassette ejection detection, b indicates the timing of unloading, loading, loading completion, unloading, and unloading, and d indicates sampling OFF (sampling is not performed). No), sampling ON (sampling) timing, e indicates the amplitude adjustment value initial value setting, amplitude adjustment value correction amount calculation, amplitude adjustment value correction amount setting, amplitude adjustment value initial value setting Each timing is shown.
[0045]
3 and 4, the maximum value of the reproduction signal envelope−the input level target value of the input dynamic range = the envelope level difference X and the correction amount (the value corrected from the initial value) from the initial value of the corresponding amplitude adjustment value. Is set as the amplitude adjustment value). In the table of FIG. 3, when X> +6 dB, the value obtained by subtracting −6 dB from the initial value of the amplitude adjustment value is used as the amplitude adjustment value. When +6 dB ≧ X> +3 dB, the value obtained by subtracting −3 dB from the initial value of the amplitude adjustment value. Is the amplitude adjustment value, and when +3 dB ≧ X, the amplitude adjustment value initial value is 0 dB, that is, the initial value is used as the amplitude adjustment value. In the table of FIG. 4, when X> +3 dB, a value obtained by subtracting −6 dB from the initial value of the amplitude adjustment value is used as the amplitude adjustment value. When +3 dB ≧ X> +1.5 dB, the initial value of the amplitude adjustment value is − The value reduced by 3 dB is used as the amplitude adjustment value. When +1.5 dB ≧ X, the initial value of the amplitude adjustment value is 0 dB, that is, the initial value is used as the amplitude adjustment value.
[0046]
When the cassette detector 20 detects that the cassette is ejected, the central controller 22 does not perform the correction calculation of the initial value of the amplitude adjustment value in the amplitude adjustment value initial value memory 24 with respect to the amplitude adjustment value calculation processor 25. The initial value is supplied as it is as an amplitude adjustment value to the amplitude controller 12 to control the amplitude variable device 6.
[0047]
When the cassette detector 20 detects the cassette insertion state, the central controller 22 causes the envelope data sampler 23 to start sampling of the envelope data from the envelope level detector 10.
[0048]
When the loading position detector 21 detects the completion of loading of the magnetic tape 1, the central controller 22 causes the envelope data sampler 23 to finish sampling the envelope data from the envelope level detector 10.
[0049]
Immediately thereafter, the central controller 22 searches the amplitude adjustment value arithmetic processing unit 25 for the sample of the maximum value from the embedded data sampled by the embedded data sampling unit 23, and the embedded level detector 10 determines the embedded level within the track. When the average value processing is not performed, the envelope level difference X = (maximum value−½ of the input dynamic range of the A / D converter) is obtained, and when the envelope level detector 10 processes the average level within the track, the envelope level difference X is calculated. Level difference X = (maximum value−¼ of input dynamic range of A / D converter) is obtained.
[0050]
Since on-track playback is not possible while the magnetic tape 1 is being loaded, the average level of the envelope in the track is ½ that of on-track playback.
[0051]
The amplitude adjustment value calculator 25 is a table shown in FIG. 3 when the envelope level detector 10 does not process the average level in the track (processing for obtaining the average value of the envelope levels of each reproduction signal in the track of the magnetic tape). In addition, when the envelope level detector 10 processes the average level within the track, the amplitude initial value of each head in the amplitude adjustment value initial value memory 24 is corrected according to the table of FIG. The calculation result is supplied as an amplitude adjustment value to the amplitude controller 25 to control the amplitude variable device 6.
[0052]
Thereafter, the corrected amplitude adjustment value is maintained until the cassette discharge state is detected by the cassette detector 20.
[0053]
When the cassette discharge state is detected by the cassette detector 20, the central controller 22 does not correct the amplitude initial value in the amplitude adjustment value initial value memory 24 with respect to the amplitude adjustment value arithmetic processing unit 25, and performs the amplitude adjustment value. Is supplied to the amplitude controller 12 to control the amplitude variable device 6.
[0054]
As described above, in the first embodiment, the input signal level to the A / D converter 7 is A / D converted due to variations in the coercive force of the magnetic tape 1 and variations in reproduction output due to aging of the magnetic heads 2a and 2b. The amplitude adjustment value for the amplitude controller 12 can be controlled so as not to exceed the input dynamic range of the device 7.
[0055]
(Embodiment 2)
FIG. 5 shows a circuit block diagram of a main part of a digital VTR including a reproduction envelope level control device according to the second embodiment of the present invention. The same reference numerals are given to the parts corresponding to those in FIG. Detailed description of the parts related to is omitted.
[0056]
The arithmetic control means A2 characterized in the second embodiment is that a mode switch detector 26 is added. The mode switch detector 26 detects mode information such as reproduction, recording, and stop as an example of mode information detection means.
[0057]
The central controller 22 generates timing signals for envelope level sampling and amplitude adjustment value calculation from the cassette insertion information from the cassette detector 20 and the loading position information from the loading position detector 21, and detects the mode switch at the time of the envelope level sampling. The amplitude adjustment value calculation method is selected and controlled from the mode information from the device 26.
[0058]
The operation will be described with reference to FIG. FIG. 6 shows an operation sequence in the case where there is no change in mode information during the loading completion from the cassette insertion time in the reproduction envelope level control device of FIG. 6a, b, d, and e correspond to a, b, d, and e in FIG. 2, respectively, and FIG. 6c shows mode information.
[0059]
When the cassette detector 20 detects that the cassette is ejected, the central controller 22 controls the amplitude adjustment value calculation processor 25 as an amplitude adjustment value without performing the correction calculation on the amplitude initial value in the amplitude adjustment value initial value memory 24. The amplitude variable device 6 is controlled.
[0060]
When the cassette detector 20 detects that the cassette has been inserted, when the loading position detector 21 detects that the loading is complete, the central controller 22 holds the mode information from the mode switch detector 26 at this time and also performs the envelope data sampling. The device 23 is caused to sample the envelope data from the envelope level detector 10 for a predetermined time. Immediately after sampling, the central controller 22 Finds the maximum value sample from the envelope data sampled by the envelope data sampler 23 with respect to the amplitude adjustment value calculation processor 25, and if the envelope level detector 10 does not process the average level in the track, the difference in the envelope level is detected. = (Maximum value−½ of A / D input dynamic range), and when the envelope level detector 10 processes the average level in the track, the difference in the envelope level = (maximum value−A / D input dynamic range) 1/4). Since the mode information does not change from the cassette insertion detection until loading is completed, the magnetic tape 1 is stopped when loading is completed. Accordingly, since on-track playback is not possible during the sampling of the envelope data, the average of the envelope levels within the track is half the level during on-track playback. The adjustment value calculation processor 25 follows the table in FIG. 3 when the envelope level detector 10 does not process the average level within the track, and also when the envelope level detector 10 processes the average level within the track. 4 corrects the amplitude initial value of each head in the amplitude adjustment value initial value memory 24 according to the table of FIG. 4 and supplies the calculation result as an amplitude adjustment value to the amplitude controller 12 to control the amplitude variable unit 6. To do.
[0061]
Thereafter, the corrected amplitude adjustment value is maintained until the cassette detector 20 detects the cassette ejection state. When the cassette discharge state is detected by the cassette detector 20, the central controller 22 does not correct the amplitude initial value of the amplitude adjustment value initial value memory 24 with respect to the amplitude adjustment value calculation processor 25, and calculates the initial amplitude. The value is supplied as an amplitude adjustment value to the amplitude controller 12 to control the amplitude variable device 6.
[0062]
FIG. 7 shows an operation sequence diagram in the case where the mode switch information is changed to reproduction between the cassette insertion time and the completion of loading in the reproduction envelope level control device of FIG. 7a, b, d, and e correspond to a, b, d, and e in FIG. 2, respectively, and FIG. 7c shows mode information.
[0063]
When the cassette detector 20 detects that the cassette is inserted, when the loading position detector 21 detects the completion of loading, the central controller 22 holds the mode information from the mode switch detector 26 at this time and also uses the envelope data sampling device. 23, the envelope data from the envelope level detector 10 is sampled for a predetermined time when a stable on-track reproduction state is reached. Immediately after the end of sampling, the central controller 22 searches the amplitude adjustment value arithmetic processing unit 25 for a sample of the maximum value from the embedded data sampled by the embedded data sampler 23, and the envelope level difference = (maximum value−A / D input). Find 1/2 of the dynamic range. The adjustment value calculation processor 25 corrects the amplitude initial value of each head in the amplitude adjustment value initial value memory 24 according to the table of FIG. 3, and supplies the calculation result as an amplitude adjustment value to the amplitude controller 12 to vary the amplitude. The device 6 is controlled.
[0064]
As described above, in the second embodiment as well, as in the first embodiment, the input to the A / D converter 7 is caused by variations in the coercive force of the magnetic tape 1, variations in reproduction output due to changes over time of the magnetic heads 2a and 2b, and others. The amplitude adjustment value for the amplitude controller 12 can be controlled so that the signal level does not exceed the input dynamic range of the A / D converter 7, and the amplitude adjustment value calculation method can be selected and controlled by the mode information, which is more preferable. Amplitude adjustment value can be set.
[0065]
(Embodiment 3)
FIG. 8 shows a circuit block diagram of the main part of the digital VTR including the playback envelope control device according to the third embodiment of the present invention. The same reference numerals are given to the parts corresponding to those in FIG. A detailed description of the relevant part is omitted. The arithmetic control means A3 characterized in the third embodiment is a VTR capable of reproducing two recording formats, and includes an amplitude adjustment value memory 27 and an amplitude adjustment value memory 28 having an initial amplitude value for each format, and further reproduced. A recording format detector 29 for detecting the recording format of the recording medium is provided.
The recording format detector 29 detects recording format information of the recording medium as recording format information detecting means. The amplitude adjustment value memory switching unit 30 receives the recording format information from the recording format detector 29. control The initial value of the amplitude adjustment value according to the recording format of the recording medium is selected from the amplitude adjustment value memory 27 or the amplitude adjustment value memory 28 by the device 22 and transmitted to the amplitude adjustment value calculator 25. Also central control Vessel 22 Is The timing signal of the envelope sampling and the amplitude adjustment calculation is generated from the cassette insertion information from the cassette detector 20, the loading position information from the loading position detector 21 and the recording format information from the recording format detector 29, and at the time of the embedded sampling. The amplitude adjustment value calculation method is selected and controlled from the mode information from the mode switch detector 26.
[0066]
The operation will be described with reference to FIG. FIG. 9 shows an operation sequence in the case where there is no change in the mode information during the loading completion from the cassette insertion time in the reproduction envelope level control device of FIG. 9a, b, c, d, and e correspond to a, b, c, d, and e in FIG. 6, respectively, and FIG. 9f shows recording format information. When the cassette detector 20 detects that the cassette is ejected, the central controller 22 sends an amplitude adjustment value initial value memory to the amplitude adjustment value arithmetic processor 25. According to the recording format information of either 27 or 28 The amplitude initial value is supplied to the amplitude controller 12 as an amplitude adjustment value without performing correction calculation, and the amplitude variable device 6 is controlled.
[0067]
When the cassette detector 20 detects the cassette insertion state, the loading position detector 21 detects the completion of loading, and the recording format detector 29 detects valid recording format information. After that, change the recording format until the relative speed between the magnetic tape 1 and the magnetic heads 2a and 2b is stabilized. control The apparatus 2 waits for A time. When waiting time A elapses, control The unit 22 holds the mode information from the mode switch detector 26 at this time, and causes the envelope data sampler 23 to sample the envelope data from the envelope level detector 10 for a certain period of time. After the sampling is completed, the central controller 22 searches the amplitude adjustment value arithmetic processing unit 25 for the sample of the maximum value from the embedded data sampled by the embedded data sampler 23, and the embedded level detector 10 averages the embedded level within the track. When the value processing is not performed, the difference in the envelope level = (maximum value−½ of the A / D input dynamic range) is obtained, and when the envelope level detector 10 processes the average level within the track, the difference in the envelope level = (maximum). Value-1/4) of the A / D input dynamic range.
[0068]
Then center control The initial amplitude value is read from the amplitude adjustment value initial value memory 27 or the amplitude initial value from the amplitude adjustment value initial value memory 28 according to the recording format information from the recording format detector 29, and the initial amplitude value is converted into the envelope level difference. Therefore The correction calculation is performed, and the calculation result is supplied to the amplitude controller 12 as an amplitude adjustment value to control the amplitude variable unit 6.
[0069]
Thereafter, the corrected amplitude adjustment value is maintained until the cassette detector 20 detects the cassette ejection state. When the cassette discharge state is detected by the cassette detector 20, the central controller 22 sends an amplitude adjustment value calculation processor 25 to the central controller 22. According to recording format information Amplitude adjustment value initial value memory From 27 or 28 Without correcting the initial amplitude value, the initial amplitude value is supplied as an amplitude adjustment value to the amplitude controller 12 to control the amplitude variable device 6.
[0070]
As described above, in the third embodiment, as in the first and second embodiments, the variation in the coercive force of the magnetic tape 1 and the magnetic head The amplitude adjustment value for the amplitude controller 12 is set so that the input signal level to the A / D converter 7 does not exceed the input dynamic range of the A / D converter 7 due to variations in the reproduction output due to changes with time of 2a and 2b and others. In addition to being controllable, it is possible to select the amplitude adjustment calculation method based on the mode information, and to erroneously sample the envelope data in a transient state in which the relative speed of the magnetic tape 1 and the magnetic heads 2a and 2b changes depending on the recording format information Therefore, a more preferable amplitude adjustment value can be set reliably according to the recording format.
[0071]
【The invention's effect】
As described above, according to the present invention, , Magnetism If there is variation in coercive force of the magnetic tape or variation in reproduction output due to changes in the magnetic head over time, the envelope level of the reproduction signal of the A / D converter will change. According to this change, an appropriate amplitude adjustment value is calculated. Since the calculated value is used as the amplitude adjustment value, the input level of the reproduction signal is input to the A / D converter even if the usage conditions and the environment change beyond the initial prediction on the user side after factory shipment. Thus, the dynamic range is not exceeded, so that the level of the reproduction signal can be stably controlled.
[0072]
Therefore, stable A / D conversion of the reproduction signal is possible for variations in reproduction output due to variations in the coercive force of the magnetic tape and wear of the magnetic head. Therefore, stable operation of the automatic equalizer and accurate tracking operation of the servo And the stable error rate of the identification data can be ensured.
[0073]
On the other hand, when the input level of the A / D converter is sampled after the magnetic tape is inserted and loading is completed, the contact state between the magnetic tape and the magnetic head becomes very stable, and accurate amplitude control can be performed from the mode information during sampling. Therefore, the advantageous effect that the reproduction signal input level to the A / D converter can be supplied more stably can be obtained.
[0074]
Also, since the reproduction signal input level to the A / D converter is controlled only once when the magnetic tape is inserted, there is an effect that the servo tracking control in the magnetic tape reproduction state is not affected.
[Brief description of the drawings]
FIG. 1 is a circuit block diagram of a main part of a digital VTR including a playback envelope level control device according to a first embodiment of the present invention.
FIG. 2 is an operation sequence diagram of the playback envelope level control apparatus according to the first embodiment of the present invention.
FIG. 3 is an amplitude adjustment value correction amount conversion table when the envelope level detector of the reproduction envelope level control apparatus according to the first embodiment of the present invention does not process the average level in the track.
FIG. 4 is an amplitude adjustment value correction amount conversion table when the envelope level detector of the reproduction envelope level control device according to the first embodiment of the present invention processes the average level in the track.
FIG. 5 is a circuit block diagram of a main part of a digital VTR including a reproduction envelope level control device according to a second embodiment of the present invention.
FIG. 6 is an operation sequence diagram in the case where there is no change in mode switch information from the cassette insertion time to the completion of loading in the reproduction envelope level control apparatus according to the second embodiment of the present invention.
FIG. 7 is an operation sequence diagram when mode switch information is changed to reproduction between the cassette insertion time and loading completion in the reproduction envelope level control apparatus according to the second embodiment of the present invention.
FIG. 8 is a circuit block diagram of a main part of a digital VTR including a playback envelope level control device according to a third embodiment of the present invention.
FIG. 9 is an operation sequence diagram when recording format information is determined by loading completion from the cassette insertion time in the reproduction envelope level control apparatus according to the third embodiment of the present invention.
FIG. 10 is a circuit block diagram of a main part of a digital VTR including a conventional reproduction envelope level control device.
[Explanation of symbols]
1 Magnetic tape
6 Amplitude variable device
7 A / D converter
10 Envelope level detector
A1, A2 , A3 Arithmetic control means
20 Cassette detector
21 Loading position detector
22 Central controller
23 Embedded data sampler
25 Adjustment value processor
26 Mode switch detector
24 , 27, 28 Amplitude adjustment value initial value memory
29 Recording format detector

Claims (8)

When the reproduction signal reproduced from the magnetic tape is input to the A / D converter and the reproduction signal from the A / D converter is input to the equalizer and equalized, the input to the A / D converter is input. A playback envelope level control device for controlling the level,
A sampler for sampling a reproduction signal from the A / D converter as an envelope value during loading of the magnetic tape;
Amplitude variable means for varying the amplitude of a reproduction signal reproduced from the magnetic tape and inputting the amplitude to the A / D converter;
An amplitude adjustment value initial value storage for storing an initial value of an amplitude adjustment value which is an amplitude variable amount of a reproduction signal reproduced from the magnetic tape;
You computation proper amplitude control value calculated from an initial value of a difference and the amplitude adjustment value of the input level target value of the input dynamic range of the maximum value and the A / D converter of the envelope value from said sampling device Control means;
Amplitude control means for controlling the amplitude variable means according to the input of the amplitude adjustment value;
A playback envelope level control device comprising: The playback envelope level control device according to claim 1, wherein
A reproduction envelope level control device comprising a table for correcting the amplitude adjustment value according to a difference between the maximum value and the target value, and performing the calculation with reference to the table . The playback envelope level control device according to claim 2,
The reproduction envelope level control apparatus according to claim 1, wherein the table is a table when the reproduction signal level is not processed to take an average value of envelope levels of reproduction signals in a track of a magnetic tape . The playback envelope level control device according to claim 2 ,
The reproduction envelope level control device according to claim 1, wherein the table is a table when the level of the reproduction signal is processed to take an average value of the envelope levels of the reproduction signals in the track of the magnetic tape . The playback envelope level control device according to any one of claims 2 to 4 ,
The arithmetic control means is
An amplitude adjustment value initial value memory for storing an initial value of the amplitude adjustment value;
Reproduction signal level measuring means for measuring the level of the reproduction signal from the A / D converter;
An amplitude adjustment value initial value from the amplitude adjustment value initial value memory, comprising the table in which a correction amount for the initial value is determined according to a difference between the maximum value and the target value for the calculation; And an amplitude adjustment value calculation processing means for inputting the reproduction signal level of each of the reproduction signal level measurement means and performing the calculation according to the table at a predetermined timing;
With a, and wherein the reproduction envelope level controller. The playback envelope level control device according to claim 5 , wherein
The arithmetic control means is
An insertion detecting means for detecting an insertion state of the magnetic tape;
Position detecting means for detecting a state until the magnetic tape reaches a reproducible position;
A reproduction envelope level control device, characterized in that the timing of the calculation of the amplitude adjustment value is controlled based on the state of the magnetic tape detected by the insertion detection means and the position detection means . The playback envelope level control device according to claim 5 , wherein
The arithmetic control means is
An insertion detecting means for detecting an insertion state of the magnetic tape;
Position detecting means for detecting a state until the magnetic tape reaches a reproducible position;
Mode information detecting means for detecting mode information such as reproduction, recording, stop, etc.
Controlling the timing of operation of the amplitude control value on the basis of the mode information by the magnetic tape of the state and mode information detection hands stage by detecting the position detection means and said insertion detecting means, reproduction envelope level control, characterized in that apparatus. The playback envelope level control device according to claim 5 , wherein
The arithmetic control means is
An insertion detecting means for detecting an insertion state of the magnetic tape;
Position detecting means for detecting a state until the magnetic tape reaches a reproducible position;
It further comprises mode information detection means for detecting mode information such as reproduction, recording, stop, etc., and recording format detection means for detecting the recording format of the magnetic tape,
Controlling the timing of the calculation of the amplitude adjustment value based on the state of the magnetic tape detected by the insertion detecting means and the position detecting means, the mode information by the mode information detecting means, and the recording format information by the recording format detecting means. A reproduction envelope level control device characterized by the above.

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