CZ526890A3

CZ526890A3 - Apparatus with a magnetic tape suitable for interaction with a cassette

Info

Publication number: CZ526890A3
Application number: CS905268A
Authority: CZ
Inventors: Johannes Cornelius Anto Muller; Abraham Hoggendoorn
Original assignee: Philips Nv
Priority date: 1989-01-30
Filing date: 1990-01-26
Publication date: 1993-03-17
Also published as: FI900403A0; NL8900214A

Abstract

The system consists of a cassette (4) and an analog recorder (1) comprising analog magnetic heads (15) with which analog information can be recorded in and/or read from longitudinal tracks on a magnetic tape (5) accommodated in the cassette. The system can also comprise a digital recorder (2) having digital magnetic heads (25) with which digital information can be recorded in and/or read from longitudinal tracks. The digital and analog recorders are compatible with each other to such an extent that the analog information recorded by the latter can at least be read with the digital magnetic heads of the former.

Description

1

5268-90 J

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device with a magnetic strip suitable for interacting with a cassette having a housing that includes two substantially parallel main walls, a plurality of transverse walls, and wherein there are two coils and a magnetic strip that is at least partially wound on one of the coils and passes. between the two coils partially through an aperture formed in one transverse wall of the housing, the device being designed to interact with the cartridge in the first cartridge position and in the second cartridge position 180 ° relative to the first position about an axis parallel to the main housing walls and perpendicular to a transverse wall with an aperture extending through the center of the transverse wall, and wherein the apparatus comprises a magnetic head means with at least one magnetic head for reading the information in analog form from the magnetic tape and means for conveying the magnetic tape around the magnetic head means speed.

Such a device is generally known in the form of a standard compact cassette system that includes a device for reading and / or recording information usually in the form of music, in analogue form in longitudinal tracks on a magnetic tape. In this system, the cassette is reversible, so that after the cassette is inverted, recording and / or reproduction of information from or on the magnetic tape can be continued without first rewinding or replacing the cassette. The information is stored on the magnetic tape in longitudinal tracks or is recorded in the longitudinal direction thereof. This standard system is defined in IEC publication 94. 2

The disadvantage of this system is that the signal-to-noise ratio and the quality of the recorded signal are substantially deteriorated compared to the original source signal.

Music quality is worse than with a compact disc system, even with the best compact cassette magnetic tape system and cassettes. In order to improve the quality, the known device has been improved in many respects, for example by using automatic azimuth control and a number of noise reduction systems. These improvements make the system considerably expensive and equally comparable to a compact disk system. Consequently, even high-quality compact cassette systems are much more expensive than a simple compact disk system, although their quality is considerably lower.

However, there is a large number of compact cassette recorders on the market. It is estimated that these devices are around a billion in the world and the number of cartridges is a multiple of that number.

A device having a quality similar to that achieved by a compact disc system device is, for example, an R-DAT system. The disadvantage of this device is that it requires a completely new cartridge and oblique scanning. This results in much more expensive cartridges and devices, and the number of compact cassette system cartridges that are among the users cannot be used in this device. The main disadvantage of such new devices is their difficult market penetration, as these systems are totally incompatible with the well-known & compact 3 cartridge. This incompatibility causes increased user spending and extensive and uncertain investment for manufacturers and software industries. SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a magnetic recording device in which the signal-to-noise ratio as well as the signal itself are greatly improved with minimal system modification, which would allow increased market penetration.

It is an object of the invention that the magnetic head means is also adapted to read and / or record information in digital form in longitudinal tracks on the magnetic tape. By recording and reading the information in digital form, the tape noise has no effect on the signal, and in addition a wider frequency band is obtained so that the recorded signal is improved. The new device does not require a new cartridge type, such as conventional compact cartridges. In addition, the device does not differ much from the compact cassette system in addition to the magnetic head and some electronic parts. This makes it possible to obtain a substantially improved new apparatus with minimal modifications to the existing prior art apparatus.

One embodiment of the device of the present invention is that the device comprises means for compressing or expanding the information in digital form. The information in digital form should be expanded or compressed to be reproduced or recorded in a reduced number of magnetic tape tracks at a given speed of its movement. The number of tracks is then reduced by the number that would be required without the compression or expansion means 4. This data compression and expansion is also relevant to the requirements of the magnetic head. This is because the number of transmission slots of the magnetic head to be processed depends on data reduction and on the recording frequency. Without data reduction, approximately 20 transmission slots would be required to record information at the normal recording frequency. The amount recorded in a unit of time can be reduced by using data compression so that a substantially smaller number of transmission slots can be used at the same recording frequency.

According to a further feature of the invention, the magnetic head means comprises a magnetic head adapted to read information both in analog form and in digital form, and further comprises a magnetic head for recording information at least in numerical form. The use of a separate read head and separate recording head has the advantage that the heads can be made easier.

Another embodiment of the device according to the invention. it is that the magnetic head is designed for reading and writing information in digital form and at least for reading information in analog form. This has the advantage that no positional adjustment of the transmission slots for reading and recording is required.

Another advantage is that the interface between the magnetic head and the magnetic strip can be smaller so that the effective contact of the tape and the head can be achieved more easily.

Another embodiment of the device according to the invention is characterized in that the magnetic head / designed for at least reading both the information in the analogue and the information in the numerical form has a plurality of parallel transmission slots disposed in one row in the front head surface (wherein the transmission slots are arranged in wherein the first sub-combination corresponds to a combination of transfer slots at least to read the information in analog form on the magnetic tape in one direction of its movement. This magnetic head has the advantage that the analog signal on the magnetic tape can be read at less loss than the magnetic heads that read the analog signal by a single slot from the combination of the transmission slots for reading and / or writing the information in digital form because the transmission slots for reading information in analog form, they have substantially the same width as the analog information tracks on the magnetic tape, while the transmission slots for reading digital information are much narrower.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows an overall view of a known apparatus with a compact cassette magnetic tape, FIG. 2 shows an axonometric diagram of a cassette example, FIG. FIG. 4 shows a general view of another embodiment of a magnetic tape apparatus according to the invention, FIG. 5 shows a detail of a known embodiment of a magnetic cartridge of a compact cassette, FIG. 6 is a detail of a first embodiment of a magnetic head according to the invention, FIG. Fig. 7a shows a detail of the magnetic head showing how the transmission slots and their mirror images are stored in the case of a mirror image relative to the center line of the magnetic head of Fig. 7; invention Fig. 8a shows a detail of a third embodiment of the magnetic head according to the invention, Fig. 8b shows a further embodiment of the magnetic head of Fig. 8a, Fig. 9 a view of two magnetic heads according to the invention designed for use in the device shown in Figs. Fig. 4 is a view of another embodiment of a magnetic head according to the invention provided with two combinations of transfer slots; and Fig. 11 is an example of yet another embodiment of a magnetic head according to the invention having two transmission slot combinations.

The system of which the device according to the invention comprises a device with a magnetic strip of the first type, i. 1, a second type device, i.e., a device according to the invention shown in FIG. 3, and a cassette in the form of a well-known audio cassette 4, i.e. a compact cassette standardized according to IEC publication No. 94-7 shown in FIG.

The device 1 shown in Fig. 1 is designed to read and / or record information in analog form on a magnetic tape embedded in the cartridge 4. For this purpose, the device, 1 movable mechanism, is composed of a press roller assembly 10 the drive spindles 11 and 21 and the magnetic head means 13 / consisting of a lubricating head 11 and a first type magnetic head 15 for reading and / or recording information in analog form. This is a cassette recorder of a generally known type (so it will not be described in detail below).

FIG. 2 shows a cassette 4 in more detail. The cassette 4 has a housing having two main walls 41 and 42 and four transverse walls 43, 42 in the housing, the magnetic tape 5 / which is wound on the coils 7 and 48 and passes partially the aperture 49 formed in the transverse wall 43. The cartridge 4 is designed to interact with the device 1 in the first position shown in Fig. 1 and in the second position obtained by rotating the cartridge 4 180 ° about the axis 40 shown in Fig. 2

The device 2 of the second type shown in FIG. 3 is also designed to interact with the cartridge 4. It comprises a press roller assembly 20 and a shaft and drive spindles 22 and 22. The magnetic head means 23 includes a lubricating head 24 and a second type magnetic head 25. The magnetic head 25 is designed to read and record information in a digital camera and to read the information in analog form. To read and record information in digital form, the device 2 has a compression and expansion device 27 which is necessary to record information in digital form on a magnetic tape or to read this information from a magnetic tape in a limited number of information tracks at the same magnetic tape speed as in of the first type. 8

FIG. 4 illustrates another embodiment of the device of the second type. This again has a press roller assembly 30, a drive spindle 31 and 32, a compression and expansion device 37, and a magnetic head means 33. The magnetic head means 33 includes a lubricating head 34 and two magnetic heads of a second type, i.e., a magnetic head 35 for reading information. in analog or digital form, and magnetic head 36 for recording information in digital form.

The devices 2 and 3 of the second type shown in FIGS. 3 and 4 are quietly only slightly away from the device of the first type. The difference is mainly in the different magnetic head means 23 and 33, and in the numerical electronic circuits, such as the compression and expansion devices 27, 37 and the necessary analogue and digital-to-analog converters.

FIG. 5 shows a known first-type magnetic head 25, i.e. a compact cassette system having two transfer slots 16 disposed in one half of the front face 16 divided into two halves by the middle line 17. This magnetic head 25e is formed for reading and recording information in analogue form.

FIG. Figures 6, 7, 8a and 8b illustrate embodiments of magnetic heads 25, 28 and 29 of the second type, i.e. according to the invention, which are designed for use in the device 2 of the second type shown in Fig. 3. the transfer slots 62, 63 are also disposed in one half of the head face 60, which is divided halfway through the line 6 '. In the magnetic head 28 shown in Fig. 7, the transmission slots 72 and 73 are distributed over the entire width of the head face 70 in such a way that, in the case of a mirror image to the center line 7J, the mirror images 74 of the transfer slots 72, 73 will be located between the transfer slots 72, 73 without any overlap, see Fig. 7a. In addition to one transmission slot combination of FIG. 6, the magnetic head 29a of the second type shown in FIG. 8a has a further combination comprising two transmission slits 84 for reading the information in analog form. This magnetic head 29g may be formed of two halves. The composite magnetic head 29§ may be formed by folding one half of the magnetic head 25 shown in Fig. 6 and one half of the known magnetic head 15 shown in Fig. 5. Alternatively, the magnetic head 29 may be formed as an integrated unit by connecting transmission slots 82, 83 and 84 in one magnetic head.

FIG. 8b illustrates another variation of the composite magnetic head 29b. In this variation, the known magnetic head 15 shown in Fig. 5 and the magnetic head 25 shown in Fig. 6 are assembled. This arrangement can be made much simpler than the arrangement shown in Fig. 8a. The magnetic head 29b has two end faces 86a and 86b. In one half, located on one side of the middle line 87, the front head surface 86a has major transfer slots 89 and an auxiliary transfer slot 89a for reading and recording information in a cleaning form. In the second half, on the other side of the middle line 87, the front face 1086b of the transmission slot 88 has at least read information in analog form. The auxiliary transfer slots 63, 73, 83 and 89a are designed for reading and recording auxiliary information. This auxiliary information may include, for example, information about the information recorded on the magnetic tape or the head position data relative to the beginning or end of the tape. The main transmission slots 62, 72, 82 and 82 are designed to read and record information in digital form. In addition, the transmission slots 62 and 72 are designed to read information in analog form. When the front face 70 of the second type magnetic head 28 is projected onto the front face 16 of the first type magnetic head 15, at least one projection 100 of the magnetic head transmission slot 28 lies on each transmission slot 18 of the magnetic head 15 as shown in FIG. 7b. It is preferred that the projection 1.0 of the transmission slot of the second type magnetic head 28 lies in the center of each transmission slot 18 of the first type magnetic head 15, as shown in FIG. 7b. For automatic reversal, the magnetic heads 25, 28 and 29 can be rotated 180 ° about axis 1C1 to interact with the track combination of information on the magnetic tape for reading and / or recording in the opposite direction of the magnetic tape, see Figure 7a. The magnetic head 28 shown in Fig. 7 may be displaced by a distance 102 to reverse automatically, see Fig. 7a. This distance 102 should be substantially equal to half the distance 103 between the centers of the two adjacent transmission slots 72. 11

FIG. Fig. 9 shows a combination of two magnetic heads 35 and 36 of a second type suitable for use in the apparatus shown in Fig. 4. The magnetic head 35 is designed to read information in digital form by transmission slots 92 and 93 and to read information in analog form by transmission slot 94. the head 36 is formed to read the information in digital form by the transmission slots 96 and 97. The slots 93 and 97 are auxiliary transfer slots, and the slots 92 and 96 are the main transmission slots. The eight major transfer slots 92, 96 and one auxiliary transfer slot 93, 97 are disposed in one half of the head face 90 that is divided, the two halves of the middle line 91, and the transmission slots 94 for information in analog form are located in the second half.

FIG. 10 shows a second type magnetic head 105 which is provided with two combinations of transfer slots. One combination comprises an auxiliary transfer slot 109a and a main transfer slot 108a and is adapted to interact with the magnetic tape in one direction of its movement.

The second combination comprising the auxiliary transfer slot 109b and the main transfer slot 108b is adapted to interact with the magnetic tape in the opposite direction of its movement. As a result, it is not necessary to rotate or move the magnetic head in the event of an automatic reversal. The action of the magnetic head may be adapted to move the magnetic tape in the opposite direction by disconnecting the working combination and activating the second combination. 12

The coupled transmission slots of the combination on the magnetic head 105 shown in FIG. 10 are all located in one half of the head face 1.06, which is divided in two halves by the middle line 107. It will be appreciated that it is also possible to connect the transfer slot of one combination and the transmission slot of the other combining to obtain a magnetic head having interconnected combinations for digital information.

FIG. 11 shows a magnetic head HO which is very advantageous for self-reversing because the magnetic head need not be rotated or moved for this purpose. The middle line 113 divides the front head surface into two halves 111 and 112. Each half is provided with a first sub-group 116, or 119 transmission slots for reading or recording information in digital form, and a second sub-group 117, or 118 transmission slots for at least reading the information in analog form. . The embodiments of the invention described and illustrated in the drawings are only examples. The invention is not limited by these examples, but a number of variations are possible within the spirit of the present invention, the essence of which is defined in the appended invention, that the known longitudinal analogue recording system is expanded to obtain digital longitudinal recording by adding digital recording devices. Such a system provides substantial advantages when the essence of the present invention is utilized to form cleaner recording devices so as to be compatible with the original recording system, at least in order to be able to play back analog recording cassettes.

For example, in contrast to the embodiments described above, embodiments of the present invention are possible in which the devices are designed to reproduce both digital and analog signals, for example, playback devices with cassettes for vehicles or portable cassette devices, or devices that can perform both analog and digital readings and record. Furthermore, it is possible to dispense with a lubricating head. By appropriately guiding and positioning the magnetic tape relative to the magnetic head, new recording tracks containing new information can be recorded over the existing recording tracks.

yi

Claims

JOD t, v »E ® CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA CA 115 '· L " * to ATS Η TO your IT 7 > Γ 'eats > o < c · CD < »I-Z > n > * o < £. " < Π N. rttihhr

øs > <

A magnetic tape device suitable for interacting with a magnetic head, processing a signal unit and a transport element, a tape, adding a magnetic, head of content. several. the partial headers of each transfer slot, the slots of the subheads. they are arranged in the head surface of the magnetic head and are substantially arranged. in the. this head surface is bisected by a central line perpendicular to the transmission slots, wherein said slots comprise a combination of at least three transfer slots (62, 63) 82, 82; 92.93, 96.97 $ 108a, 109a), which are formed τ of the head surface (60 $ 90.95) on one side of the middle line / 61; 81 $ 91 / and taking during., Reading. or recording, the information in digital form during the conveyance of the tape in the direction of conveyance of the tape is processed by the signal unit (27, 37) connected only to the sub, heads whose slots (62, 63 * 82.83 $ 92.93), 96 * 97 $ 108a, 109a) refers to said combination.

2 * Device according to claim. 1 characterized in that the combination comprises nine transfer slots / 62.63; 82, 83, 92.93, 96.97, 108a, 909 / v.

3 * Device according to claim; 1 st or 2 y. t.í.ii ^. the slot comprises a further combination of at least three slits of the slots 108b, 109b, respectively, by said combination and tapered; second, midline, line / 107 / V p č ów ów ^ ^ hem hem hem hem hem hem hem ku ku ku ku ku ku ku ku ku ku ku ku ku ku. the expensive direction of conveyance of the tape is the processing, unit, signal (27, 37) being connected to the subheads only, whose slots (T08b, 109b) belong to said dictional combination.

4 · Apparatus according to claim 3

1

i '' .... that. The slits 1 comprise a further combination of two transmitted - gaps. C bia, '/ $ 84; 94 (Fig. 94); ; r priSemž; during. The wall or pseBi ^ tt information analogue and quot; ; · 'Whites: transports'; in the direction of doping, the pound is. processing: unit-signal / 27; 37 / linked only; with partial heads ,. whose slits / 84; 94 / belongs to the other combination ·, 6 ”· Equipment. according to claim 1,2,3,4 or 5 in y. and wherein the signal processing unit / 27; 37 / includes a compression circuit assembly and an expansion circuit assembly.

JUDr. Ivan KORÉČEK 'AJvoicát - C43 C4 PRAHA 1. Žitná 25

her