Title of Invention	DATA TRANSMISSION SYSTEM AND COMPONENTS THEREOF
Abstract	A data transmission system (1) suitable for use with an impact transmissive body (4 or 9) and comprising a data transmitting device (6) having a reciprocable impact impeller head (3) for transmitting an encoded series of discrete mechanical impacts to a first surface of the impact transmissive body (4) and a data receiving device (5) having an impact sensitive transducer (2) at a second surface of the impact trans-missive body (4) substantially opposite to the first surface far picking up vibrations resultant of the series of impacts.

Title of Invention

DATA TRANSMISSION SYSTEM AND COMPONENTS THEREOF

Abstract

A data transmission system (1) suitable for use with an impact transmissive body (4 or 9) and comprising a data transmitting device (6) having a reciprocable impact impeller head (3) for transmitting an encoded series of discrete mechanical impacts to a first surface of the impact transmissive body (4) and a data receiving device (5) having an impact sensitive transducer (2) at a second surface of the impact trans-missive body (4) substantially opposite to the first surface far picking up vibrations resultant of the series of impacts.

Full Text	1A FIELD OF THE INVENTION The invention relates to data transmission systems in general and to impact responsive access control systems in particular. BACKGROUND OF THE INVENTION: In US Patent 4,197,524 to Salem, there is illustrated and described a tap actuated lock for installing on a door's inside surface which is opened when an access combination is tapped on its outside surface. The taps are detected by an impact sensitive device which produces a sensible output in response to an impact. A typical access combination is a four-number code, for example,, 4,3,2,5, which requires the tapping of a first set of four taps, a relatively long pause, the tapping of a second set of three taps, a second relatively long pause, the tapping of a third set of two taps, a third relatively long pause and finally the tapping of a fourth and last set of five taps. Such a procedure takes a relatively long time, in fact, anywhere between about 10 to 20 seconds and renders the access combination relatively insecure. DE 19615932 describes an electronic key sending an access code to an electronic lock by means of wireless (radio) connection. The electronic key has a manual operating button which is also used for programming the access code. A programmable device with reciprocating head is used for pressing the operating button and the access code is entered in Horse-like manner. SUMMARY OF THE INVENTION: In accordance with the present invention, there is provided a data transmission system suitable for use with an impact transmissive body and comprising : 2 (a) a data transmitting device having a reciprocable impact impeller head for transmitting an encoded series of discrete mechanical impacts to a first surface of an impact transmissive body; and (b) a data receiving device having an impact sensitive transducer at a second surface of the impact transmissive body substantially opposite to its first surface for picking up vibrations resultant of said series of impacts. A data transmission system of the present invention is suitable for a wide range of both unidirectional data._transmission applications, for example, transmitting readings constituting data from a sensor or a detector to data collection equipment, transmitting control signals constituting data to actable components, for example, a solenoid, a motor, a valve and the like and bidirectional data transmission, applications. Thus, envisaged applications include, but are not limited to, those in respect of which conventional wired and remote control data transmission systems may be not convenient to install or suitable to operate, for example, transimtting data respectively through and across the walls of a sealed or pressurized container or a reinforced concrete wall. In a data transmission system of the present invention, data is preferably encoded as the time intervals between consecutive impacts thereby defining an "average impact baud rate", namely, the average number of impacts per second. For example, in the case of a solenoid driven impeller head whose minimum and maximum time intervals between consecutive impacts is 30 msec and 100 msec, respectively, and the minimum time interval increment between consecutive impacts is about 1 msec, there are 70 distinguishable intervals each of which can represent an instruction code, a data reading, and the like. With such a solenoid driven impeller head, the average impact baud rate is about 20 impacts per second, however, it is envisaged an average impact baud rate of a data transmission system of the present invention can be considerably increased. A data transmission system of the present invention is particularly suitable for implementation in access control applications, for example, to open a mortise lock, to open a bank safe, to obtain entry into a computerized communication and control network e.g. at an automatic teller machine (ATM) and the like. In such applications, a data transmitting device effectively constitutes an 3 electronically controlled key for typically impacting a single encoded series of impacts, namely, an access combination. In these and other applications, an encoded series of impacts includes, for example, a four interval access combination of 30,45, 55 and 62 msec which can be transmitted in less than a quarter of a second and is one of a total of 704 (i.e. more than 25 million) combinations. BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS For a better understanding of the invention and to show how the same may be carried out in practice, by way of non-limiting examples,.reference will now be made to the accompanying drawings, in which: Fig. 1 is a schematic block diagram of a data transmission system of the present invention; Fig. 2 is a pictorial representation of an access control system including an electronic mortise lock and a hand-held, pen-like electronic key; Figs. 3 and 4 are respectively a cross sectional view and a block diagram of the electronic key of Figure 2; Figs. 5 and 6 are graphical representations of different types of encoded series of discrete mechanical impacts; Figs. 7 and 8 are pictorial representations of the electronic mortise lock of Figure 2 and a data transmitting device respectively activated by a touch keypad and a remote control; Fig. 9 is a pictorial representation of an electronic combination padlock and the hand-held, pen-like electronic key of Figure 2; Fig. 10 is a cross sectional view of a datatransmitting/receiving device; Fig. 11 is a block diagram of a data transmission system of the present invention for transmitting data from a sensing means to a data collection means; Fig. 12 is a block diagram of a data transmission system of the present invention for transmitting data from a control means to an actuable component; and Fig. 13 is a block diagram of a data transmission system of the present invention for transmitting data between two data processing systems. 4 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS With reference now to the drawings, Figure 1 shows a data transmission system 1 including an impact sensitive transducer 2 for sensing vibrations resultant of impacts from an impact impeller head 3 transmitted through an impact transmissive body 4 interdisposed therebetween, the impact sensitive transducer 2 being associated with a data receiving device 5 and the impact impeller head 3 being associated with a data transmitting device 6. Turning now to Figure 2, there is shown an electronic mortise lock 7 including a data receiving device (not shown) coupled to a microphone 8 adapted for intimate juxtaposition against the inside surface of a solid door 9. The door may be opened by a hand-held, pen-like electronic key 10 constituting a data transmitting device. In operation, the microphone 8 picks up vibrations at the door's inside surface which are the result of the impacts against the door's outside surface from the electronic key 10. The vibrations are suitably processed ana then compared to an access combination for selectively operating a motor or solenoid (not shown) to drive a dead bolt 11 between a locking operative position and an unlocking operative position when the encoded series of impacts matches the access combination. As shown in Figures 3 and 4, the electronic "key 10 includes a tubular housing 13 with a closed rear end 13A and an open front end 13B from which extends a tubular leading portion 14A of an electromagnetic device 14, e.g. a push-type solenoid, having a reciprocable pneumatic hammer type impeller head 14B. Interdisposed between the rear end 13A and the push-type solenoid 14 is a battery 15 and a normally open spring biased switch 16 which is closed on depressing the tubular leading portion 14A at key 10 against an impact receiving surface i.e. a door. On closing the switch 16, power is provided to electronic circuitry 17 including a controller 19 for activating the solenoid 14 in accordance with a predetermined code stored in a memory 20. The key 10 is designed to impact an encoded series of impulse-like, high energy impacts as a function of the presence of absence of impacts at a predetermined impact rate (see Figure 5) or time intervals between consecutive impacts (see Figure 6). For example, Figure 5 shows an access combination 5 10100101 where 1 is representative of the presence of an impact and 0 is representative of the absence of an impact whilst Figure 6 shows an access combination 59, 31,49, 51, and 70 msec corresponding to the time intervals between consecutive impacts. Figure 7 shows the electronic mortise lock 7 opened by a data transmitting device 21 including an impact impeller head activated by a touch keypad. Figure 8 shows the electronic mortise lock 7 opened by a data transmtting device 22 including an impact impeller device activated by remote control. Figure 9 shows an electronic combination padlock 23 opened by the electronic key 10. For use in bidirectional data transmitting systems, Figure 10 shows a data transmitting/receiving device 25 including a push-type solenoid 14 and a microphone 8, the former having a reciprocable impeller head 14B for indirectly impacting against an impact transmissive body 26 via an interior wall 27 of the device. Figure 11 shows a data transmission system 28 for transmitting data from a sensing means 29 to a data collection means 31 via an impact impeller device 3 and an impact sensitive transducer 2 disposed on opposite sides of an impact transmissive body 30. Figure 12 shows a block diagram of a data transmission system 33 for transmitting data from a control means 34 to an actuable component 36 via an impact impeller device 3 and an impact sensitive transducer 2 disposed on opposite sides of an impact transmissive body 35. Figure 13 shows a data transmission system 37 for transmitting data between a pair of data processing systems "A11 and "B" 38 and 39 via a pair of transmitting/receiving devices 25 disposed on opposite sides of an impact transmissive body 40. While the invention has been described with respect to a limited number of embodiments, it will be appreciated that many variations, modifications and other applications of the invention may be made. For example, instead of a microphone, an impact sensitive transducer can be implemented by a piezoelectric device, and the like. Data transmission can be encrypted in accordance with conventional data 6 encryption standards. In addition, for example, in control access applications where access combinations are necessarily matching, they can be periodically updated using conventional algorithm based combination generators hitherto incorporated in vehicle security systems, burglar systems and the like. -7-I CLAIM: 1- A data transmission system (a) a data transmitting device (6) for transmitting discrete mechanical impacts to a first surface of an impact transmissive body (4); and (b) a data receiving device (5) having an impact sensitive transducer (2) at a second surface of the impact transmissive body (4) substantially opposite to the first surface for picking up vibrations resultant of said series of impacts. characterized in that, said data-transmitting device has a reciprocal impact impellar head (3) adapted to transmit said discrete mechanical impacts in encoded series. 2. The system as claimed in claim 1, wherein a series of impacts is encoded as a function of the time intervals between consecutive impacts. 3- The system as claimed in claim 1, wherein a series of impacts is encoded as a function of the presence or absence of impacts at a predetermined impact rate. 4. The system as claimed in claim 1, wherein said data transmitting device is a key (10) of a lock and key combination (7,10) and said data receiving device forms a portion of a lock (7) of the lock and key combination, and said series of impacts is a coded combination for controlling said lock. -8- 5. The system as claimed in claim 4 wherein said system is configured to be hand-held (10,23). 6. The system as claimed in claim 4 wherein said key is activated on its being pressed against said impact transmissive body. 7. The system as claimed in claim 4, wherein said lock is responsive to and average impact baud rate of greater than 20 impacts per second. 8. The system as claimed in claim 1, wherein said data transmitting device (3) forms part of a sensor (29), said series of impacts encoding information on a sensed parameter,and said data-receiving device (2) forms part of a data collector (31) for collecting the sensed information. 9. The system as claimed in claim 1, wherein said data transmitting device (3) forms part of a control module (34),said series of impacts encoding control data, and said data-receiving device (2) is associated with an actuatable component (36) which is actuated upon receipt of actuation control data transmitted by said control module. 10. The system as claimed in claim 1,for transmitting data between two data processing systems ( 38,39), wherein said data transmitting device is part of a first data processing system (38), said data-receiving device is part of a second data -9- processing system (39), and wherein the first data processing system comprises a second data-receiving device identical to said data receiving device and the second data processing system comprises a second data- transmitting device identical to said data-transmitting device. 11. A data transmitting device (10) for use in the data transmission system of claim 1, comprising : a reciprocable impact impeller head (14, 14A, 14B) for transmitting a data-encoding series of discrete mechanical impacts to said impact transmissive body; a controller (19) for activating the impeller head according to a predetermined code; a switch (16) electrically connected to a power source (15) and the controller (19) and for providing power to the controller when the switch is in a closed postion. 12. The device as claimed in claim 11, wherein said device is configured to be hand-held. 13. The device as claimed in claim 12, wherein said device is activated on its being pressed against said impact transmissive body. 14. The device as claimed in claim 11, wherein said device is activated by an integrally formed user interface (21) . 15. The device as claimed in claim 11, wherein said device is activated by a remote control user interface (22). 14. -10- 16. A data receiving device (5) for use in the data transmission system of claim 1, comprising: an impact sensitive transducer for receiving a data-encoding series of impulses from said impact transmissive body through which said impulses are transmitted and responsive to an average impact baud rate of greater than 20 impulses per second. 17. A data transmitting/receiving device (25) for use in the system of claim 1, said system being constructed as a bidirectional data transmission, said device comprising: a reciprocable impact impeller head (14B) adapted to transmit a data-encoding series of discrete mechanical impacts to a surface of said impact transmissive body and an impact sensitive transducer (8) adapted to receive a data-encoding series of impacts from a surface of the impact transmissive body. 18. The device as claimed in claim 17 wherein said impact impeller head (14B) indirectly (27) impacts against an impact transmissive body (26). of L. S. DAVAR & CO Applicants' Agent Dated this 10th day of March, 1998 A data transmission system (1) suitable for use with an impact transmissive body (4 or 9) and comprising a data transmitting device (6) having a reciprocable impact impeller head (3) for transmitting an encoded series of discrete mechanical impacts to a first surface of the impact transmissive body (4) and a data receiving device (5) having an impact sensitive transducer (2) at a second surface of the impact trans-missive body (4) substantially opposite to the first surface far picking up vibrations resultant of the series of impacts.

Full Text

1A
FIELD OF THE INVENTION
The invention relates to data transmission systems in general and to impact responsive access control systems in particular. BACKGROUND OF THE INVENTION:
In US Patent 4,197,524 to Salem, there is illustrated and described a tap actuated lock for installing on a door's inside surface which is opened when an access combination is tapped on its outside surface. The taps are detected by an impact sensitive device which produces a sensible output in response to an impact. A typical access combination is a four-number code, for example,, 4,3,2,5, which requires the tapping of a first set of four taps, a relatively long pause, the tapping of a second set of three taps, a second relatively long pause, the tapping of a third set of two taps, a third relatively long pause and finally the tapping of a fourth and last set of five taps. Such a procedure takes a relatively long time, in fact, anywhere between about 10 to 20 seconds and renders the access combination relatively insecure.
DE 19615932 describes an electronic key sending an access code to an electronic lock by means of wireless (radio) connection. The electronic key has a manual operating button which is also used for programming the access code. A programmable device with reciprocating head is used for pressing the operating button and the access code is entered in Horse-like manner. SUMMARY OF THE INVENTION:
In accordance with the present invention, there is provided a data transmission system suitable for use with an impact transmissive body and comprising :

2
(a) a data transmitting device having a reciprocable impact impeller head for transmitting an encoded series of discrete mechanical impacts to a first surface of an impact transmissive body; and
(b) a data receiving device having an impact sensitive transducer at a second surface of the impact transmissive body substantially opposite to its first surface for picking up vibrations resultant of said series of impacts.
A data transmission system of the present invention is suitable for a wide range of both unidirectional data._transmission applications, for example, transmitting readings constituting data from a sensor or a detector to data collection equipment, transmitting control signals constituting data to actable components, for example, a solenoid, a motor, a valve and the like and bidirectional data transmission, applications. Thus, envisaged applications include, but are not limited to, those in respect of which conventional wired and remote control data transmission systems may be not convenient to install or suitable to operate, for example, transimtting data respectively through and across the walls of a sealed or pressurized container or a reinforced concrete wall.
In a data transmission system of the present invention, data is preferably encoded as the time intervals between consecutive impacts thereby defining an "average impact baud rate", namely, the average number of impacts per second. For example, in the case of a solenoid driven impeller head whose minimum and maximum time intervals between consecutive impacts is 30 msec and 100 msec, respectively, and the minimum time interval increment between consecutive impacts is about 1 msec, there are 70 distinguishable intervals each of which can represent an instruction code, a data reading, and the like. With such a solenoid driven impeller head, the average impact baud rate is about 20 impacts per second, however, it is envisaged an average impact baud rate of a data transmission system of the present invention can be considerably increased.
A data transmission system of the present invention is particularly suitable for implementation in access control applications, for example, to open a mortise lock, to open a bank safe, to obtain entry into a computerized communication and control network e.g. at an automatic teller machine (ATM) and the like. In such applications, a data transmitting device effectively constitutes an

3
electronically controlled key for typically impacting a single encoded series of impacts, namely, an access combination. In these and other applications, an encoded series of impacts includes, for example, a four interval access combination of 30,45, 55 and 62 msec which can be transmitted in less than a quarter of a second and is one of a total of 704 (i.e. more than 25 million) combinations.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS
For a better understanding of the invention and to show how the same may be carried out in practice, by way of non-limiting examples,.reference will now be made to the accompanying drawings, in which:
Fig. 1 is a schematic block diagram of a data transmission system of the present invention;
Fig. 2 is a pictorial representation of an access control system including an electronic mortise lock and a hand-held, pen-like electronic key;
Figs. 3 and 4 are respectively a cross sectional view and a block diagram of the electronic key of Figure 2;
Figs. 5 and 6 are graphical representations of different types of encoded series of discrete mechanical impacts;
Figs. 7 and 8 are pictorial representations of the electronic mortise lock of Figure 2 and a data transmitting device respectively activated by a touch keypad and a remote control;
Fig. 9 is a pictorial representation of an electronic combination padlock and the hand-held, pen-like electronic key of Figure 2;
Fig. 10 is a cross sectional view of a datatransmitting/receiving device;
Fig. 11 is a block diagram of a data transmission system of the present invention for transmitting data from a sensing means to a data collection means;
Fig. 12 is a block diagram of a data transmission system of the present invention for transmitting data from a control means to an actuable component; and
Fig. 13 is a block diagram of a data transmission system of the present invention for transmitting data between two data processing systems.

4
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
With reference now to the drawings, Figure 1 shows a data transmission system 1 including an impact sensitive transducer 2 for sensing vibrations resultant of impacts from an impact impeller head 3 transmitted through an impact transmissive body 4 interdisposed therebetween, the impact sensitive transducer 2 being associated with a data receiving device 5 and the impact impeller head 3 being associated with a data transmitting device 6.
Turning now to Figure 2, there is shown an electronic mortise lock 7 including a data receiving device (not shown) coupled to a microphone 8 adapted for intimate juxtaposition against the inside surface of a solid door 9. The door may be opened by a hand-held, pen-like electronic key 10 constituting a data transmitting device.
In operation, the microphone 8 picks up vibrations at the door's inside surface which are the result of the impacts against the door's outside surface from the electronic key 10. The vibrations are suitably processed ana then compared to an access combination for selectively operating a motor or solenoid (not shown) to drive a dead bolt 11 between a locking operative position and an unlocking operative position when the encoded series of impacts matches the access combination.
As shown in Figures 3 and 4, the electronic "key 10 includes a tubular housing 13 with a closed rear end 13A and an open front end 13B from which extends a tubular leading portion 14A of an electromagnetic device 14, e.g. a push-type solenoid, having a reciprocable pneumatic hammer type impeller head 14B. Interdisposed between the rear end 13A and the push-type solenoid 14 is a battery 15 and a normally open spring biased switch 16 which is closed on depressing the tubular leading portion 14A at key 10 against an impact receiving surface i.e. a door. On closing the switch 16, power is provided to electronic circuitry 17 including a controller 19 for activating the solenoid 14 in accordance with a predetermined code stored in a memory 20.
The key 10 is designed to impact an encoded series of impulse-like, high energy impacts as a function of the presence of absence of impacts at a predetermined impact rate (see Figure 5) or time intervals between consecutive impacts (see Figure 6). For example, Figure 5 shows an access combination

5
10100101 where 1 is representative of the presence of an impact and 0 is representative of the absence of an impact whilst Figure 6 shows an access combination 59, 31,49, 51, and 70 msec corresponding to the time intervals between consecutive impacts.
Figure 7 shows the electronic mortise lock 7 opened by a data transmitting device 21 including an impact impeller head activated by a touch keypad. Figure 8 shows the electronic mortise lock 7 opened by a data transmtting device 22 including an impact impeller device activated by remote control. Figure 9 shows an electronic combination padlock 23 opened by the electronic key 10.
For use in bidirectional data transmitting systems, Figure 10 shows a data transmitting/receiving device 25 including a push-type solenoid 14 and a microphone 8, the former having a reciprocable impeller head 14B for indirectly impacting against an impact transmissive body 26 via an interior wall 27 of the device.
Figure 11 shows a data transmission system 28 for transmitting data from a sensing means 29 to a data collection means 31 via an impact impeller device 3 and an impact sensitive transducer 2 disposed on opposite sides of an impact transmissive body 30.
Figure 12 shows a block diagram of a data transmission system 33 for transmitting data from a control means 34 to an actuable component 36 via an impact impeller device 3 and an impact sensitive transducer 2 disposed on opposite sides of an impact transmissive body 35.
Figure 13 shows a data transmission system 37 for transmitting data between a pair of data processing systems "A11 and "B" 38 and 39 via a pair of transmitting/receiving devices 25 disposed on opposite sides of an impact transmissive body 40.
While the invention has been described with respect to a limited number of embodiments, it will be appreciated that many variations, modifications and other applications of the invention may be made. For example, instead of a microphone, an impact sensitive transducer can be implemented by a piezoelectric device, and the like. Data transmission can be encrypted in accordance with conventional data

6
encryption standards. In addition, for example, in control access applications where access combinations are necessarily matching, they can be periodically updated using conventional algorithm based combination generators hitherto incorporated in vehicle security systems, burglar systems and the like.

-7-I CLAIM:
1- A data transmission system (a) a data transmitting device (6) for transmitting discrete mechanical impacts to a first surface of an impact transmissive body (4); and
(b) a data receiving device (5) having an impact sensitive transducer (2) at a second surface of the impact transmissive body (4) substantially opposite to the first surface for picking up vibrations resultant of said series of impacts.
characterized in that,
said data-transmitting device has a reciprocal impact impellar head (3) adapted to transmit said discrete mechanical impacts in encoded series.
2. The system as claimed in claim 1, wherein a series of impacts is encoded as a function of the time intervals between consecutive impacts.
3- The system as claimed in claim 1, wherein a series of impacts is encoded as a function of the presence or absence of impacts at a predetermined impact rate.
4. The system as claimed in claim 1, wherein said data transmitting device is a key (10) of a lock and key combination (7,10) and said data receiving device forms a portion of a lock (7) of the lock and key combination, and said series of impacts is a coded combination for controlling said lock.

-8-
5. The system as claimed in claim 4 wherein said system is configured to be hand-held (10,23).
6. The system as claimed in claim 4 wherein said key is activated on its being pressed against said impact transmissive body.
7. The system as claimed in claim 4, wherein said lock is responsive to and average impact baud rate of greater than 20 impacts per second.
8. The system as claimed in claim 1, wherein said data
transmitting device (3) forms part of a sensor (29), said series
of impacts encoding information on a sensed parameter,and said
data-receiving device (2) forms part of a data collector (31) for
collecting the sensed information.
9. The system as claimed in claim 1, wherein said data
transmitting device (3) forms part of a control module (34),said
series of impacts encoding control data, and said data-receiving
device (2) is associated with an actuatable component (36) which
is actuated upon receipt of actuation control data transmitted by
said control module.
10. The system as claimed in claim 1,for transmitting data
between two data processing systems ( 38,39), wherein said data
transmitting device is part of a first data processing system
(38), said data-receiving device is part of a second data

-9-
processing system (39), and wherein the first data processing system comprises a second data-receiving device identical to said data receiving device and the second data processing system comprises a second data- transmitting device identical to said data-transmitting device.
11. A data transmitting device (10) for use in the data transmission system of claim 1, comprising :
a reciprocable impact impeller head (14, 14A, 14B) for transmitting a data-encoding series of discrete mechanical impacts to said impact transmissive body;
a controller (19) for activating the impeller head according to a predetermined code;
a switch (16) electrically connected to a power source (15) and the controller (19) and for providing power to the controller when the switch is in a closed postion.
12. The device as claimed in claim 11, wherein said device is configured to be hand-held.
13. The device as claimed in claim 12, wherein said device
is activated on its being pressed against said impact transmissive
body.
14. The device as claimed in claim 11, wherein said device is activated by an integrally formed user interface (21) .
15. The device as claimed in claim 11, wherein said device is activated by a remote control user interface (22).
14.

-10-
16. A data receiving device (5) for use in the data
transmission system of claim 1, comprising:
an impact sensitive transducer for receiving a data-encoding series of impulses from said impact transmissive body through which said impulses are transmitted and responsive to an average impact baud rate of greater than 20 impulses per second.
17. A data transmitting/receiving device (25) for use in the
system of claim 1, said system being constructed as a
bidirectional data transmission, said device comprising:
a reciprocable impact impeller head (14B) adapted to transmit a data-encoding series of discrete mechanical impacts to a surface of said impact transmissive body and an impact sensitive transducer (8) adapted to receive a data-encoding series of impacts from a surface of the impact transmissive body. 18. The device as claimed in claim 17 wherein said impact impeller head (14B) indirectly (27) impacts against an impact transmissive body (26).

of L. S. DAVAR & CO Applicants' Agent
Dated this 10th day of March, 1998
A data transmission system (1) suitable for use with an impact transmissive body (4 or 9) and comprising a data transmitting device (6) having a reciprocable impact impeller head (3) for transmitting an encoded series of discrete mechanical impacts to a first surface of the impact transmissive body (4) and a data receiving device (5) having an impact sensitive transducer (2) at a second surface of the impact trans-missive body (4) substantially opposite to the first surface far picking up vibrations resultant of the series of impacts.

Documents:

00390-cal-1998-abstract.pdf

00390-cal-1998-claims.pdf

00390-cal-1998-correspondence.pdf

00390-cal-1998-description(complete).pdf

00390-cal-1998-drawings.pdf

00390-cal-1998-form-1.pdf

00390-cal-1998-form-2.pdf

00390-cal-1998-form-3.pdf

00390-cal-1998-pa.pdf

390-CAL-1998-FORM-27-1.pdf

390-CAL-1998-FORM-27.pdf

390-cal-1998-granted-abstract.pdf

390-cal-1998-granted-claims.pdf

390-cal-1998-granted-correspondence.pdf

390-cal-1998-granted-description (complete).pdf

390-cal-1998-granted-drawings.pdf

390-cal-1998-granted-examination report.pdf

390-cal-1998-granted-form 1.pdf

390-cal-1998-granted-form 2.pdf

390-cal-1998-granted-form 3.pdf

390-cal-1998-granted-letter patent.pdf

390-cal-1998-granted-pa.pdf

390-cal-1998-granted-reply to examination report.pdf

390-cal-1998-granted-specification.pdf

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Patent Number

195497

Indian Patent Application Number

390/CAL/1998

PG Journal Number

30/2009

Publication Date

24-Jul-2009

Grant Date

18-Nov-2005

Date of Filing

10-Mar-1998

Name of Patentee

ILAN GOLDMAN

Applicant Address

3 HAYASMIN ST., HERZELIYA

Inventors:

#	Inventor's Name	Inventor's Address
1	ILAN GOLDMAN	3 HAYASMIN ST., HERZELIYA 46631

PCT International Classification Number

G06F 7/04

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA