BE886249R - DEVICE FOR MEMORIZING THE INSTANTANEOUS POSITION OF A MAGNETIC TAPE CONTAINED IN A CASSETTE - Google Patents

Description

       

  The present invention relates to modifications and improvements to the device for memorizing the instantaneous position of a magnetic tape contained in a cassette

  
of the kind as described in the Belgian patent

  
 <EMI ID = 1.1>

  
These improvements relate more particularly to the memory element contained in the cassette and to the information relating thereto.

  
They aim to ensure automatic processing of said information so as to limit

  
maximum user intervention. This

  
allows in particular the processing of a larger number

  
 <EMI ID = 2.1>

  
improper handling of controls at entry

  
erroneous data, etc ... On the other hand this automation ensures a much simpler use

  
of the recording device which can then be

  
made available to the general public.

  
1. Organization of memory

  
The memory element contained in the cassette makes it possible to memorize:
- the position of the magnetic strip relative to each of its ends

  
(example: position relative to each face

  
 <EMI ID = 3.1>
 <EMI ID = 4.1>
 at the end of the last recording made (on each side in the case of a reversible cassette)
- a title and classification number for each cassette, possibly name of the performer.

  
Its internal organization (for a reversible cassette) is detailed in Figure 1 of the accompanying drawings:

  
address 0: value of the counter associated with coil 1

  
1A: number of recordings on side 1 1B. number of recordings on side 2

  
 <EMI ID = 5.1>

  
example capacity)

  
3A: classification number of the cassette

  
3B: memorized states

  
0. operating side 1 = side 1

  
0 = side 2

  
1. cassette inserted on a device

  
not equipped for memory circuit control

  
2. device not equipped. Check

  
memory content. Resynchronization

  
3. overflow for

  
side 1

  
4. overflow for

  
side 2

  
5.

  
6. reconfiguration in progress.

  
4 position of the end of the last recording made on side 1

  
5 position of the end of the last recording made on side 2

  
6 counter value associated with coil 2

  
 <EMI ID = 6.1>

  
12): position of the first recording on the

  
side 1

  
13 to 15: title of this recording (6 characters

  
alphanumeric)

  
16: position of the second recording on

  
side 1

  
etc ...

  
2. Operation (figure 2):
Figure 2 attached shows Figure 12 of the second improvement patent No 879.620 filed October 25, 1979 with some modifications which will emerge from the following:

  
When the cassette provided with its memory is inserted into the device equipped with the means allowing the operation of said memory, the microprocessor 60 automatically reads the information stored in the cassette and displays it on the television screen (fig.3).

  
We get for example:
- the title of the cassette: SPORTS
- its classification number: 4
- the operative side of the cassette: 1
- the instantaneous position of the strip relative to this face: 285
- the recordings made:

  
x on side 1 - recording: 1 - title:

FOOTBALL - start: 0000

  
- recording: 2 - title:
HOCKEY - start: 1235
- recording: 3 - title:
JUMPING - start: 2175 x same on side 2.
- the position of the tape from which a recording can be made (side 1: 3349).

  
This is generally the position of the tape corresponding to the end of the last recording made
- the possibilities offered to the user, namely:

  
 <EMI ID = 7.1>

  
search for a position, etc ...)

  
2 - registration and / or modification of titles

  
recordings made

  
3 - registration and / or modification of the title of

  
the cassette, its number, the position of the various recordings.

  
This information is displayed on the screen as long as the commands relating to the running of the strip are not actuated, and can be recalled at any time during the running of the strip by acting on a button 100 in conjunction with the keyboard 65 of selection of an address.

  
In the case of a VCR, this button is used to switch the video signals carried by the tape and the information contained in the memory.

  
When the record button is pressed, the device automatically stores the instant position of the tape
(start of recording) in the register following that corresponding to the last recording. If we refer to FIG. 3 and if the user wishes to record on side 1 of this cassette a new broadcast following the three recordings already made, the tape is then positioned

  
at 3349 and when the record button is pressed, the device insures the following recording in the memory: 1.4. 3349

  
When the recording ends, the device then automatically records the instantaneous position of the tape from which a new recording can be made, for example:
"FREE 5123".

  
By pressing the "EDIT" key, the user can then enter, via the alphanumeric keyboard 65, a title for this new recording: for example SKI 80. Then appears

  
on the screen :

  

 <EMI ID = 8.1>


  
If the user no longer wishes to keep a given recording or part of a recording, the position of the strip corresponding to the start of the new recording is memorized (for example 1350 side 1) and inserted into the memory part relating to the side 1. The position of the tape corresponding to the end of the recording is also memorized (for example
2523) and compared with the values stored for the records made previously so as to ensure automatic updating of the memory. Then appears on the screen:

  

 <EMI ID = 9.1>


  
and reference 1.3. flashes to indicate to the user that it relates to a new recording. By acting on the "RECONFIGURATION" key, the user can then complete, using the alphanumeric keyboard 65, the updating of the content of the memory.

  
To view a recording (for example HOCKEY), the user enters using the alphanumeric keyboard 65 the reference of this recording (1.2.) And the microprocessor 60 automatically reads from memory 50 the position of the start of this recording (1235 ). This value is then compared to the instantaneous position of the tape and the latter is driven at high speed to be positioned at the start of the chosen recording.

  
As indicated in FIG. 1, certain states of the cassette and / or of the device on which it is used are also memorized for information, control and security. For example :
- the operative side is memorized so that the value of the instantaneous position of the strip is correctly processed and memorized
- '.' state of the device (equipped / not equipped to activate the memory) on which the cassette has been or is used is also memorized as a control.
 <EMI ID = 10.1>
 therefore if other registrations are still made, we can no longer assign them a number, title, ...

  
- memorization of the last function performed or in progress (editing, reconfiguration, etc.).

  
Another improvement will be described and illustrated below with reference to FIGS. 4, SA and 5B.

  
In a device such as that described in Belgian patent No 871.596, it is desirable for various reasons that the user can at all times know the exact quantity of magnetic tape still available (or already used) on one or both sides sides of a reversible cassette.

  
It has already been proposed in Belgian patent No 855,968 of June 21, 1977 relating to "Process and

  
 <EMI ID = 11.1>

  
of a material from a supply reel to a take-up reel "of the applicant, a device for calculating the position of the magnetic strip.

  
However, we can consider another very simple and very precise method of locating

  
the position of the magnetic strip which can be applied very well to a cassette containing a memory.

  
The aim of this improvement is to propose a method of locating the position of

  
the magnetic strip which is reliable, precise and simple to make.

  
This method is essentially characterized in that during the running of the strip, a signal representative of the quantity of strip wound on or unwound from said reel is delivered for at least one of the reels, in that e. function

  
 <EMI ID = 12.1> of the cassette, said signal is combined with a standard signal representing the total capacity of

  
the magnetic strip to update

  
of the instantaneous position of the strip with respect to one and / or the other of its ends.

  
Referring to Figures 4, SA, SB:
Two axes 1-2 drive or are driven by the coils 3-4 of magnetic tape 5 contained in the cassette 6 and are rigidly linked to motors 7-8 ensuring the driving of the coils.

  
When the strip 5 runs from left to right, the reel 3 is the supply reel, the reel 4 being the receiving reel.

  
The two axes 1-2 are provided with 9-10 plates which associated with opto-electronic devices
11-12 deliver electronic pulses when the coils 3-4 are rotated (8 pulses per revolution in the example described).

  
These pulses are transmitted to an electronic circuit 60 (fig.? And 3) which in a mode

  
advantageous realization is a microprocessor working under the orders of a well defined program. These components allow a

  
high concentration of control circuits and low prices makes them particularly attractive.

  
In this case, this microprocessor is used to perform the various functions

  
of the recorder, namely for example:
- device operation check <EMI ID = 13.1>
- programming of recordings (in the case of video devices)
- automatic search for transmitting stations, etc.

  
When a cassette is inserted into the device, the total capacity of the cassette is introduced either manually (using the keyboard

  
65) in the microprocessor, either automatically by reading information carried by the cassette

  
 <EMI ID = 14.1>

  
plaintiff of December 9, 1977).

  
As soon as the magnetic strip is driven and stored on the take-up reel, the pulses delivered by the opto-electronic device associated with it, are counted in

  
a register R1 of the microprocessor. The same operation is performed in a register R2 for the pulses coming from the supply coil. The pulse counts are also a function of the direction of travel of the strip indicated in circuit 60.
(microprocessor), to decide whether the corresponding pulses should be added or subtracted.

  
 <EMI ID = 15.1>

  
supposes that a new cassette has been introduced into the apparatus, that is to say in which the entire strip is stored on the supply reel; the two registers R1 and R2 are therefore zero (fig.5A).

  

 <EMI ID = 16.1>
 

  
to display the amount of the stored tape

  
on the take-up reel (amount of tape used); then the microprocessor will ensure the registration of

  
 <EMI ID = 17.1>

  
in display 21.

  
The total capacity of the magnetic tape having been entered automatically (assumed to be 1000 to simplify the calculations), the microprocessor will ensure the registration of the complement to
1000 of the value of register R2 in the display

  
22 or 950.

  
If the cassette is removed, these two values can be advantageously stored in the memory circuit of the cassette as described in detail in Belgian patent Xo 871,596 of the applicant.

  
If the cassette is now re-inserted into the recording device after being inverted, the value 100 appears on the display
22, while the value 950 appears on the display 21.

  
To perform this calculation and the corresponding display simply, we always calculate the complement to the total capacity of the value:
- of register R2 to display said complement following the display device 22 <EMI ID = 18.1> inverted before storing these values.

  
In this way, we were able to produce an excessively simple prototype that did not include

  
 <EMI ID = 19.1>

  
(microprocessor program) to obtain very precise and very reliable results.

  
Rather than displaying a measurement representing the amount of tape used

  
 <EMI ID = 20.1>

  
feeling the remaining amount of the magnetic tape; in the case shown in Figures and 5B, we would then obtain on the display 21 the value
900 and on display 22 the value 50.

  
On the other hand, it may be more interesting to have an indication in duration (hours, minutes, seconds) of the remaining quantity of magnetic tape on each of its faces rather than a number of pulses. Indeed, such an indication is directly usable for anyone handling the device.

  
Considering that &#65533; each reel turn its external radius increases by the thickness of the strip, which experimentally is very close to reality, we can from the number

  
of laps completed, calculate the length of the magnetic strip very simply and fairly precisely
(in meters or hours, minutes, seconds) stored on said coil.

  
 <EMI ID = 21.1>

  
We therefore obtain for the total length:

  

 <EMI ID = 22.1>


  
Expressed in time:

  

 <EMI ID = 23.1>


  
v: scrolling speed

  
normal.

  
 <EMI ID = 24.1>

  
strip thickness and hub radius which is c:
general standard for a cassette system, one can very easily calculate from the number

  
 <EMI ID = 25.1>

  
information delivered by the optoelectronic sensor) the length of the strip, expressed in meters or in time, stored on one of the coils.

  
Knowing the total capacity of the cassette, we can easily deduce the length of tape stored on the other reel. In this

  
specific case, we need only one detector associated with one of the two coils.

  
But if you wish to have a check of these calculations to know with certainty the instantaneous position of the magnetic strip, and therefore avoid errors which could be caused by a bad pulse counting, by

  
an abnormal winding of the strip, etc., the sensors are kept on each of the reels, as shown in FIGS. 2 and 4. Consequently, the quantity of strip stored on each reel will be obtained by calculation and as the total length of the

  
tape is known from the very type of cassette, we can check the calculations made by the microprocessor.

  
If the thickness and the hubs of the reels are different for certain types of cassettes, it can be provided that the cassette, in

  
more to wear an indication of the total capacity

  
 <EMI ID = 26.1>

  
Applicant), also carries de, indications relating to different characteristics (thickness of the strip, size of the hubs of the coils, etc.). Provision may also be made, if these characteristics are standardized for a cassette system, to store them in the microprocessor and for the latter to select them automatically when it has detected the type of cassette introduced into the device.

  
For example for a 2-hour cassette, the microprocessor extracts from its memory the thickness of the strip (example: 20 microns), the radius of the hubs of the reels (example: 15 mm), etc.

  
The above formula being valid for whole numbers of turns, one can very easily surround a correction for fractions of number of turns. Indeed, for a number (x + 1) of turns in a

  

 <EMI ID = 27.1>


  
y = length of the strip wound on the (x + l) th

  
turn

  
e = strip thickness

  
P = number of pulses delivered per coil revolution p = number of pulses delivered by the coil

  
associated with the detector, and

  
L = 1 + y

CLAIMS

  
1. Device for memorizing the instantaneous position of a magnetic tape contained in a cassette of the kind as described in Belgian patent No 891.596 of October 27, 1978, characterized in that means are provided for ensuring processing information memorized by the memory element.


    

Claims (1)

2. Device according to claim 1, characterized in that the memory element contained in the cassette makes it possible to store: - the position of the magnetic strip relative to each of its ends (example position in relation to each side in the case of reversible cassettes) - for each recording made on the tape: x its serial number x a title (alphanumeric character) x its position on the magnetic strip (start and possibly end of registration) - the type and characteristics of the cassate (e.g. total capacity, ...) - the position of the magnetic tape corresponding to the end of the last recording made (on each side in the case of a reversible cassette) - a name and classification number for each cassette. 3. Device according to claims 1 and 2, characterized in that when the cassette provided with its memory element is inserted into the device equipped with means allowing the operation of the memory element: automatically - <EMI ID = 28.1> or some of them. 4. Device according to claim 3, characterized in that the information is displayed on the television screen as long as the commands relating to the running of the tape are not actuated, these being able to be  <EMI ID = 29.1> band by acting on a button (100) in connection with the keyboard (72) for selecting an address in the memory circuit. 5. Device according to claim 4, characterized in that in the case of a video recorder the button (100) is used to switch the video signals carried by the tape and the information contained in the memory. 6. Device according to any one of claims 1-5, characterized in that when the recording button is pressed, the device automatically stores the instantaneous position of the tape (start of recording) in the register according to that corresponding to the last recording and in that when the recording ends the device automatically registers the instantaneous position of the tape from from which a new recording can be made. 7. The different uses of the devices according to claims 1-7 such as described and illustrated by Figure 3 of the accompanying drawings. 8. Device according to any one of claims 1-7, characterized in that one also stores certain information title  <EMI ID = 30.1> it is used for example: - operative side - state of the device (whether or not equipped for memory activation) on which the cassette has been or is used - overflow - memorization of the last function performed or in progress (editing, reconfiguration). 9. Method for locating the instantaneous position of a magnetic tape contained in a cassette, provided with a device for memorizing the instantaneous position of the genre tape  <EMI ID = 31.1> the applicant and more particularly for reversible cassettes characterized in that during the running of the strip, a signal representative of the quantity of strip wound on or unwound from said reel is delivered for at least one of the reels, in that depending on the sense I scroll the tape and the onerative side of the cassette, we  <EMI ID = 32.1>    <EMI ID = 33.1>   <EMI ID = 34.1> the value of the complement to the total capacity of the magnetic tape having been entered, of the value of the register corresponding to the supply reel. 17. Device according to any one of claims 9-16, characterized in that when the cassette is removed from the device, the values of the two displays are stored in a cassette memory circuit (Belgian patent No 871.596). 18. Device according to claim 17 characterized in that the cassette is reintroduced into the recording device after being inverted, the value of one of the displays appears in the other display and vice versa. 19. Device according to any one of claims 9-18, characterized in that to carry out the calculation and the corresponding display it is made so that one always calculates the complement to the total capacity of the value <EMI ID = 35.1> the complement on a display - registers of the take-up reel and the take-up reel, when the cassette is inverted before storing these values. 20. Device according to any one of claims 9-19, characterized in that a value representing the remaining quantity of the magnetic strip is displayed. 21. The method of claim 9 characterized in that an indication is determined in duration of the remaining amount of magnetic tape on each of the faces of the cassette. 22. The method of claim 21, characterized in that for this determination or calculation it is considered that each turn of the coil  <EMI ID = 36.1> strip and in that from the number of turns performed, the length of the strip stored on the reel is calculated. 23. Process according to the claims  <EMI ID = 37.1> length of magnetic tape stored on the reel we use the formula below:  <EMI ID = 38.1> e is the thickness n the number of turns  <EMI ID = 39.1> the total length being  <EMI ID = 40.1> expressed in time:  <EMI ID = 41.1> (v being the speed of normal scrolling). 24. The method of claim 23 characterized in that knowing the characteristics: thickness of the strip and radius of the hub,  <EMI ID = 42.1> the total capacity of the cassette, we deduce the length of tape stored on the other reel.