Title of Invention

PROGRAMMING APPARATUS FOR TRANSMITTER/RECEIVER SYSTEMS FOR CONTACTLESSLY ACTUATING DOORS AND GATES

Abstract

The invention relates to a programming apparatus for programming transmitter/receiver systems for contactless actuation of doors and gates. For actuation of a door or a gate by a transmitter of a transmitter/receiver system a transmitter code is read into an associated receiver and compared there with receiver codes. The programming apparatus according to the invention comprises a computer unit for management of the transmitter codes and the receiver codes of the transmitter/receiver systems. In addition, the programming apparatus according to the invention includes an input unit for definition of the transmitter codes and the receiver codes of the transmitter/receiver systems. Moreover, the programming apparatus according to the invention comprises an interface unit for connection of transmitters and receivers, by way of which receiver codes can be issued at connected receivers and transmitter codes at connected transmitters. In the computer unit there are defined, for each transmitter/receiver system, transmitter codes for the transmitter thereof as subsets of the receiver codes of the receiver thereof.

Full Text

FORM 2 THE PATENT ACT 1970 (39 of 1970) The Patents Rules, 2 003 COMPLETE SPECIFICATION (See Section 10, and rule 13) TITLE OF INVENTION PROGRAMMING APPARATUS FOR TRANSMITTER/RECEIVER SYSTEMS FOR CONTACTLESSLY ACTUATING DOORS AND GATES APPLICANT(S) a) Name b) Nationality c) Address SOMMER ANTRIEBS-UND FUNKTECHNIK GMBH GERMAN Company HANS-BOKLER-STRASSE 21-27, 73230 KIRCHHEIM, GERMANY PREAMBLE TO THE DESCRIPTION The following specification particularly describes the invention and the manner in which it is to be performed:- DESCRIPTION The invention relates to a programming apparatus for transmitter/receiver systems for contactless actuation of doors and gates. Transmitter/receiver systems of that kind form multi-component systems for remote control or remote coding of doors and gates. A multi-component system of that kind serves, for example, for radio-controlled opening and closing of one or more garage doors. A hand-held radio transmitter as transmitter, by which a transmitter code can be transmitted to a radio receiver, which is associated with the door drive of a garage door, as receiver in order to open or close the garage door by remote control, is present for each authorised person. The opening or closing of the garage door is in that case released by way of an actuating device when the transmitted transmitter code corresponds with a receiver code stored in the radio receiver. For input of the transmitter codes into the transmitters or the receiver code into the receiver mechanically actuable coding switches can be provided at these units. A coding switch of that kind comprises a switch strip with a predetermined number of switches, wherein each switch has two switching states. Through actuation of the switches there can be input into the transmitter and receiver a binary code as code word, the length of which is predetermined by the number of switches. A device for allocation of codes of that kind in code-controlled multi-component systems is known from WO 99/76 759, in which the manual code switches are replaced by programmable coding circuits. This coding circuit has, instead of a switch strip with switches, a number, which corresponds with a number of switches, of manually actuable actuating devices which are a component of a programming device for input of code words. The thus-constructed coding circuit therefore comprises a control surface corresponding with the coding switches so that these units are compatible and in a given case can be exchanged with one another. However, through coupling of the actuating devices to 2 23 JUN 2008 the programming device a code word of any length can be input, wherein the length of the code word is dependent on, in particular, the number of the actuating device. The invention has the object of providing a programming apparatus for transmitter/receiver systems for contactless actuation of doors and gates which has a high level of operating convenience and in addition ensures reliable and simple allocation of codes for the transmitter/receiver systems. The features of claim 1 are provided for fulfilment of this object. Advantageous forms of embodiment and expedient developments of the invention are described in the subclaims. The programming apparatus according to the invention serves for programming transmitter/receiver systems for contactless actuation of doors and gates. For actuation of a door or a gate a transmitter code is read from a transmitter of a transmitter/receiver system into an associated receiver and compared there with receiver codes. The programming apparatus according to the invention comprises a computer unit for management of the transmitter codes and the receiver codes of the transmitter/receiver systems. In addition, the programming apparatus according to the invention includes an input unit for definition of the transmitter codes and receiver codes of the transmitter/receiver systems. Moreover, the programming apparatus according to the invention comprises an interface unit for connection of transmitters and receivers, by way of which receiver codes can be output at connected receivers and transmitter codes at connected transmitters. Defined in the computer unit for each transmitter/receiver system are transmitter codes for the transmitter thereof as subsets of the receiver codes of the receiver thereof. The basic concept of the invention thus consists in predetermining the transmitter codes and receiver codes of transmitter/receiver systems, which are for contactless actuation of doors and gates, centrally by way of the clamping apparatus. The transmitter/ receiver systems can generally transmit infrared signals, ultrasound 3 23 JUN 2008 signals, radio signals or optical signals for remote control or remote operation of doors or gates. In that case, a transmitter/receiver system preferably comprises a receiver associated with an actuating device for actuation of a door or gate. Moreover, the transmitter/receiver system preferably comprises several transmitters in the form of hand-held devices. With particular advantage, the codes of several transmitter/receiver systems can be predetermined by the programming apparatus according to the invention. In that case the transmitter/receiver systems can be used for, in particular, opening and closing garage doors. In this connection a significant advantage consists in the fact that coding strips or coding circuits of the transmitters and receivers for input of code words are no longer needed. Apart from the fact that this leads to a considerable constructional simplification of the transmitters and receivers, the input of codes for the transmitter/receiver systems is substantially simplified for the user by the central input possibility via the programming apparatus. In that case a further significant advantage of the invention consists in that the management of the transmitter codes and receiver codes of the transmitter/receiver systems takes place centrally in the programming apparatus, which can be inspected and checked by the user at any time. If several transmitter/receiver systems are managed in the programming apparatus these are advantageously each provided with an identification on the basis of which they can be uniquely identified. The identification can in that case be predetermined in user-specific manner. The transmitter codes and receiver codes of the respective transmitter/receiver system can be called up and displayed under the identification in the programming apparatus. Moreover, editing for allocation of the transmitter codes and receiver codes can be carried out by way of the input unit. The receiver codes for the receiver are then initially predetermined for a transmitter/receiver system. This can be carried out by direct input of the receiver 4 23JUN2008 codes by way of the input unit. With particular advantage there is stored in the computer unit a list of codes from which the receiver codes can be selected. Multiple selection of a code can be avoided by masking once-predetermined codes by way of the computer unit. Instead of a contact strip with switches corresponding to the number of switches, this code decoder has a number of manually operable operating units which are component parts of a programming unit for entering code words. The code decoder constructed in this way therefore has an operating interface corresponding to the code switches so that these units are compatible and can be exchanged with each other. A code word of any length can be entered by coupling the operating units at the programming unit, where the length of the codeword is especially independent from the number of the operating unit. An access system for a building is identified from the FR 2 837 270 A which has a remote control unit with a transponder and an assigned transmitter and receiver. A central access unit is also provided which can allow access to the building, depending on the signals received from the remote control unit. A programming unit is also provided whose access data can be read out and checked from a memory in the remote control unit and where data can be read into the central access unit. The DE 198 21 998 C1 is a signal - operated locking system for doors and gates. The locking system uses at least three types of signal codes as authorization codes, namely freely copyable standard codes; security codes which can only be copied once and security codes which cannot be copied to allow uncontrolled duplication of the authorization code on one hand but also a simply duplication option of this authorization code if this is wanted. The standard components (standard transmitter) used in a locking system can differentiate which code is respectively concerned in a learning program where a new authorization code has to be programmed in. The signal codes which are used also have identifications which can also be modified during learning. Safety codes can only be transmitted by a special programming unit (secure transmitter) which has the security codes in an original identification. The identification is changed when this security code is 5 23JUN2008 copied. A learning procedure with a security code copied in this way will be denied whereas the standard components (standard transmitter, for example) can pass on a standard code in the same way. The US RE 37,986 E is a remote control system for garage doors. This system consists of a receiver where several codes from assigned transmitters can be saved. The receiver can be programmed so that the garage door can be opened when several codes are received from transmitters. The invention is based on the task of providing a programming unit for transmitter / receiver systems for the contactless operation of doors and gates which has a high degree of operating comfort and also a secure and easy allocation of codes for the transmitter/receiver systems. The features of claim are provided for solving this task. Advantageous forms of construction and useful developments of the invention are described in the sub¬claims. The programming device in accordance with the invention is used for programming transmitter / receiver systems for the contactless operation of doors and gates. A transmitter code is read from a transmitter of a transmitter/receiver system into an assigned receiver and compared there with receiver codes to operate a door or a gate. The programming device in accordance with the invention has a computer unit for managing the transmitter code and the receiver code of transmitter / receiver systems. The programming unit in accordance with the invention also has an input unit for defining the transmitter codes and receiver codes of transmitter/receiver systems. The programming unit in accordance with the invention also has an interface unit for the connection of transmitters and receivers which is used to output receiver codes to connected receivers and transmitter codes to connected transmitters. A list of codes is saved in the computer unit where receiver codes can be selected by using the input unit. As an alternative, the receiver codes can be inputted by using the input unit. A 23 JUN2008 transmitter code can be specified for a transmitter of a transmitter / receiver system by using the input unit to make a selection from the receiver codes of the assigned receiver. A receiver code awarded as a transmitter code will also be masked in the computer unit where masked receiver codes are disabled for a further award of transmitter codes. The main idea of the invention lies in the fact that the transmitter codes and receiver codes of transmitter / receiver systems for the contactless operation of doors and gates have to be award centrally via the programming unit. The transmitter / receiver systems can mainly transmit infrared signals, ultrasonic signals, radio signals or optical signals for the remote control or remote operation of doors or gates. A transmitter/receiver system preferably has a receiver which is assigned to an operating unit for the operation of a door or a gate. The transmitter / receiver system preferably has several transmitters in the form of hand held devices. The specification of codes from several transmitter / receiver systems is especially advantageous with the programming unit in accordance with the invention. The transmitter / receiver systems can be used here especially for opening and closing garage doors. A considerable advantage here lies in the fact that coding strips or code decoders in the transmitters and receivers for the input of code words are no longer required. The central input option via the programming unit greatly simplifies the input of codes for the transmitter / receiver systems, quite apart from the fact that this leads to a considerable, constructive simplification of the transmitter and receiver. A further, considerable advantage of the invention, lies here in the fact that management of the transmitter codes and receiver of the transmitter / receiver systems takes place centrally in the programming unit which can be seen and checked by the user at any time. The invention is explained in the following by way of the drawings, in which: 7 23 JUN 2008 Figure 1 shows a schematic illustration of a closing system with a transmitter/ receiver system for contactless actuation of a garage door, Figure 2 shows a schematic illustration of a programming apparatus for programming of transmitter/receiver systems according to Figure 1, Figure 3 shows a list of codes, which are stored in the programming apparatus, for definition of receiver codes for transmitter/receiver systems and Figure 4 shows a list of receiver codes of a transmitter/receiver system. Figure 1 schematically depicts a closing system 1 for contactless actuation of a garage door 2. Instead of a garage door 2 a gate or a door can in general be actuated by the closing system 1. The closing system 1 comprises a transmitter/ receiver system with several transmitters 3 and a receiver 4 associated with the transmitters 3. The receiver 4 is mounted in the region of the garage door 2 and connected with a door drive 5 by which the garage door 2 can be closed and opened. The transmitters 3 respectively have identical construction. Each transmitter 3 is in that case constructed as a hand-held transmitter integrated in a housing 6. The transmitter 3 comprises a radio transmission module 7 for transmission of coded radio signals. The transmitter 3 is actuable by means of buttons (not illustrated), wherein predetermined radio signals are emitted by actuation of specific button combinations. Moreover, a processor 8 with integrated memory unit and an interface unit 9 are integrated in the transmitter 3. The processor 8 takes over control of the individual components of the transmitter 3. 23JUN2008 The receiver 4 comprises a radio receiving module 10 for reception of the radio signals of the transmitter 3, as well as a processor 11 with integrated memory unit, in which the radio signals of the transmitter 3 are decoded, and an interface unit 9', which is identical with the interface unit 9 of the transmitter 3. For actuation of the garage door 2 a transmitter 3 is actuated so that this communicates, by the emitted radio signals, a transmitter code to the receiver 4. The decoded transmitter code is compared in the processor 11 of the receiver 4 with receiver codes stored in the memory unit of the processor 11 in the receiver 4. If the read-in transmitter code corresponds with one of the stored receiver codes the door drive 5 for opening and closing the garage door 2 is actuated. Individual transmitter codes are stored in the transmitters 3 of the transmitter/receiver system, wherein these are filed in the receiver 4 as receiver codes. Thus, only these transmitters 3 form authorised transmitting units by means of which the garage door 2 can be opened and closed. In general, transmitter/receiver systems of that kind can transmit and receive, instead of radio signals, also optical signals, especially infrared signals, ultrasound signals or the like. In every case transmission of the signals takes place in the form of transmitter codes which are compared, at the receiver, with receiver codes for release of the actuation of a door or a gate. In the case of complex installations in buildings typically also several closing systems 1 can be used. In particular, several closing systems 1 with transmitter/receiver systems according to Figure 1 can be used for opening and closing a number of garage doors 2. The programming apparatus 12 according to Figure 2 is provided for configuring transmitter/receiver systems of that kind, particularly for allocation of the transmitter codes and receiver codes for the individual transmitter/receiver systems. 9 23 JUN2008 The programming apparatus 12 comprises an interface unit 9" for connection of the transmitters 3 and receivers 4 of transmitter/receiver systems according to Figure 1. In that case the interface unit 9" of the programming apparatus 12 is constructed identically to the interface uiiits 9, 91 of the transmitters 3 and receivers 4. In the present case the interface units 9, 9', 9" are constructed as interface adapters each with a respective serial interface. The connection between the programming apparatus 12 and a transmitter 3 or receiver 4 is produced by way of a connecting cable (not illustrated). The portable transmitters 3 are for this purpose brought to the programming apparatus 12. The receiver 4 is also brought for this purpose to the programming apparatus 12/ wherein the receiver 4 is connectible with the programming apparatus befofe being placed in operation. In addition, the receiver 4 can also be detached from its respective installation position at the garage door 2 and connected with the programming apparatus 12. In that case the receiver 4 does not need to have an own voltage supply. Finally, the receiver 4 can in principle also be connected, at its respective installation position at the garage door 2, with the programming apparatus 12. In principle, the interface units 9, 9', 9" can also be formed by interfaces for contactless data transmission between the programming apparatus 12 on the one hand and the transmitters 3 and the receivers 4 of the transmitter/receiver systems on the other hand. The data transmission can be carried out by exchange of optical signals, particularly infrared signals, radio signals or ultrasound signals. The programming apparatus 12 comprises a computer unit 13 for controlling the functions and components of the programming apparatus 12. Moreover, the programming apparatus 12 has a control field 14 which serves as display unit for display of data and as input unit for input of data. Finally, the programming apparatus 12 comprises an interface 15 by way of which the programming apparatus 12 is connectible with a corresponding interface 15' of a 10 23JUN2008 personal computer 16. The personal computer 16 comprises a processor unit 17 as well as a terminal 18 and a keyboard 19. The terminal 18 can be used as display unit for the connected programming apparatus 12. The keyboard 19 of the personal computer 16 can be used as input unit for the programming apparatus 12. In general, the programming apparatus 12 can also be constructed as an autonomous unit which can be operated without a personal computer 16 or the like. Moreover, the programming apparatus 12 can also be integrated in a personal computer 16 or the like. The programming apparatus 12 serves for programming transmitter/receiver systems, particularly for programming transmitter codes into the transmitters 3 and receiver codes into the receivers 4 of preferably several transmitter/receiver systems. For a transmitter/receiver system, prior to placing this in operation the receiver 4 is initially connected with the programming apparatus 12 by way of the interface unit 9'. A predetermined number of receiver codes is then input for the receiver 4 by way of the input unit. These receiver codes are preferably stored in the computer unit 13 of the programming apparatus 12 under an identification characterising the transmitter/receiver system to which the receiver 4 belongs. The identification can preferably be freely selected by the user. The programming can be carried out by direct input of the receiver codes by way of the input unit. In a particularly advantageous form of embodiment the programming can take place in menu-guided manner, wherein a number of codes, from which the user can select the receiver codes, stored in the computer unit 13 of the programming apparatus 12 are displayed to the user. A table of that kind with codes CI, C2,... CN is schematically illustrated in Figure 3. The user can select from these codes a predetermined number as receiver codes. In order to avoid multiple allocation of a code as receiver code a code predetermined once as a receiver code is masked by way of the computer unit 13 of the 23 JUN 2008 programming apparatus 12 so that this is blocked for further allocation as a receiver code. In the case of the example of embodiment the first two codes are masked, which is displayed to the user by way of an appropriate graphical marking. The remaining codes C3, ... CN are still available for allocation as receiver codes. Depending on the respective construction of the software in the computer unit 13 the codes C1, C2, ... are allocated as receiver codes in correspondence with their sequence in the table or can be freely selected by the user. In the case of the preferred menu-guided programming of the receiver 4 preferably also further data can be input into the programming apparatus 12. The constructional type of the receiver 4 as well as the serial number thereof, for example, belong to these data. Moreover, a receiver 4 can have several channels for reception of radio signals. In that case the channel of the receiver 4 to which the receiver codes to be read in are respectively allocated can also be input. The number of the associated transmitter 3 and thus the total number of the receiver codes to be input can preferably also be interrogated prior to commencement of prograrnming of the receiver 4. After the receiver codes have been input into the programming apparatus 12 these are read by the programming apparatus 12 into the connected receivers 4. The reading-in process carried out is displayed to the user preferably by way of the display unit of the programming apparatus 12. In the present case, M receiver codes EC1,... ECM, which are illustrated in the table in Figure 4, were learnt for a receiver 4 of a transmitter/receiver system. The transmitter codes for the transmitters 3 of this transmitter/receiver system are subsequently allocated by way of these learnt receiver codes. For programming of a transmitter 3 this is connected by way of the interface unit 9" with the programming apparatus 12. The user then selects from the table of the 23 JUN 2008 receiver codes, which table is displayed at the display unit, a receiver code which is assigned to the transmitter 3 as transmitter code. This assignment is stored together with further data of the transmitter 3, particularly the constructional type and the serial number of the transmitter 3, in the computer unit 13 of the programming apparatus 12 under the identification of the relevant transmitter/receiver system. The transmitter code is thereafter read by the programming unit 12 into the transmitter 3, wherein the reading-in process is again displayed by way of the display unit and acknowledged. So that different transmitters 3 are allocated individual, unique transmitter codes, there takes place after allocation of a transmitter code from the table according to Figure 4 as transmitter code a masking of this receiver code. This receiver code is thus blocked for further allocation as a transmitter code. The masking of the predetermined receiver code is again graphically displayed. In the present example of embodiment the receiver code EC2 in Figure 4 is marked, whereas the remaining receiver codes are still available for allocation as transmitter codes. After allocation of the transmitter codes for the transmitters 3 and the receivers 4 of a transmitter/receiver system the corresponding closing system 1 is operationally ready. In addition, after placing in operation, the transmitter codes and receiver codes for a transmitter/receiver system can be changed by means of the programming apparatus 12. In particular, transmitter codes and receiver codes can also be erased. The corresponding programming of changes takes place by way of the programming apparatus 12 in correspondence with the first allocation of transmitter codes and receiver codes. The current versions of the transmitter codes and receiver codes allocated for the transmitter/receiver systems are managed in the programming apparatus 12. In particular, the history of different versions of sets with transmitter codes and 13 23JUN2008 receiver codes for a transmitter/receiver system can be stored there. Preferably, for this purpose also the points in time of creation of the individual versions are established. These versions can be displayed by way of the display unit. If management of the transmitter codes and receiver codes is not possible solely by the programming apparatus, the connected personal computer 16 can be additionally used for that purpose. 23JUN2008 Reference Numeral List (1) closing system (2) garage door (3) transmitter (4) receiver (5) door drive (6) housing (7) radio transmission module (8) processor (9) interface unit (10) radio reception module (11) processor (12) programming apparatus (13) computer unit (14) control field (15,15') interface (16) personal computer (17) processor unit (18) terminal (19) keyboard C1 code CN code EC1 receiver code ECM receiver code 23 JUN 2008 We Claim: A programming device for transmitter/receiver systems for the contactless operation of doors and gates where a transmitter code from the transmitter (3) of a transmitter / receiver system is read in an assigned receiver /4) for operating a door or a gate and is compared there with the receiver code, consisting of the following components: * a computer unit (13) for managing the transmitter code and the receiver code of the transmitter / receive systems, * an input unit for the definition of the transmitter code and the receiver code of the transmitter / receiver systems, * and an interface unit (9") for the connection of transmitters (3) and receivers (4) over which receiver codes are sent to connected receivers (4) and transmitter codes are sent to connected transmitters (3), where a list of codes is saved in a computer unit (13) where the input unit can be used to select receiver codes from it or where the input unit can be used to input receiver codes, where a transmitter code can be specified for a transmitter (3) of a transmitter / receiver system by using the input unit to select the assigned receiver (4) from the receiver codes and Where an allotted receiver code is masked in the computer unit (13) as a transmitter code and where masked receiver codes are disabled for an optional allotment of the transmitter code. - A programming device in accordance with claim 1, characterized by the fact that this has a display unit used for the visual display of the transmitter codes and the receiver codes. 16 2 3JUN2008 3. A programming device in accordance with claims 1 or 2, characterized by the fact that a specific identification is assigned to the transmitter codes and the receiver codes of a transmitter / receiver system in this device. 4. A programming device in accordance with claim 3, characterized by the fact that the transmitter codes and the receiver codes of a transmitter / receiver system are stored in the computer unit (13) under the identification. 5. A programming device in accordance with claims 3 or 4, characterized by the fact that the identification can be specified via the input unit. 6. A programming device in accordance with one of the claims 1 to 5, characterized by the fact that the receiver codes for a receiver (4) and/or the transmitter codes for a transmitter (3) of a transmitter/receiver system can be changed by using an input unit. 7. A programming device in accordance with claim 6, characterized by the fact that the transmitter codes and/or the receiver codes can be deleted by using an input unit. 8. A programming device in accordance with one of the claims 1 to 7, characterized by the fact that, the respective update version of the transmitter code and the receiver code is stored in the computer unit (13). 9. A programming device in accordance with claim 8, characterized by the fact that updated transmitter codes can be outputted to the respective transmitters and / or updated receiver codes can be outputted to the respective receiver (4) via the interface unit (9"). 10. A programming device in accordance with claims 1 to 9, characterized by the fact that this can be connected to a personal computer (16). 17 23 JUN 2008 11. A programming device in accordance with claims 1 to 9, characterized by the fact that this is integrated into a personal computer (16). 12. A programming device in accordance with claims 10 or 11, characterized by the fact that the display unit is formed by a terminal (18). 13. A programming device in accordance with claims 10 to 12, characterized by the fact that the display unit is formed by a keyboard (19). 14. A programming device in accordance with claims 1 to 13, characterized by the fact that the interface unit (9") has at least one interface adapter. 15. A programming device in accordance with claims 1 to 14, characterized by the fact that the interface unit (9") has at least one interface (15) for contactless data transmission.

Documents:

823-MUMNP-2006-ABSTRACT 23-6-2008.pdf

823-mumnp-2006-abstract(23-06-2008).doc

823-mumnp-2006-abstract(23-6-2008).pdf

823-mumnp-2006-abstract.doc

823-mumnp-2006-abstract.pdf

823-mumnp-2006-cancelled pages(23-6-2008).pdf

823-MUMNP-2006-CLAIMS 23-6-2008.pdf

823-mumnp-2006-claims(granted)-(23-06-2008).doc

823-mumnp-2006-claims(granted)-(23-6-2008).pdf

823-mumnp-2006-claims.doc

823-mumnp-2006-claims.pdf

823-mumnp-2006-corresondance-received.pdf

823-MUMNP-2006-CORRESPONDENCE 23-6-2008.pdf

823-mumnp-2006-correspondence(23-6-2008).pdf

823-mumnp-2006-correspondence(ipo)-(5-11-2008).pdf

823-mumnp-2006-description (complete).pdf

823-MUMNP-2006-DESCRIPTION(COMPLETE) 23-6-2008.pdf

823-MUMNP-2006-DRAWING 23-6-2008.pdf

823-mumnp-2006-drawing(23-6-2008).pdf

823-mumnp-2006-drawings.pdf

823-MUMNP-2006-FORM 1 23-6-2008.pdf

823-mumnp-2006-form 1(23-6-2008).pdf

823-mumnp-2006-form 18(13-7-2006).pdf

823-mumnp-2006-form 2 23-6-2008.pdf

823-mumnp-2006-form 2(granted)-(23-06-2008).doc

823-mumnp-2006-form 2(granted)-(23-6-2008).pdf

823-MUMNP-2006-FORM 2(TITLE PAGE) 23-6-2008.pdf

823-mumnp-2006-form 3(10-7-2006).pdf

823-mumnp-2006-form 5(10-7-2006).pdf

823-mumnp-2006-form-1.pdf

823-mumnp-2006-form-2.doc

823-mumnp-2006-form-2.pdf

823-mumnp-2006-form-3.pdf

823-mumnp-2006-form-5.pdf

823-mumnp-2006-form-pct-isa-210.pdf

823-mumnp-2006-form-pct-isa-220.pdf

823-mumnp-2006-form-pct-isa-237.pdf

823-mumnp-2006-pct-search report.pdf

823-mumnp-2006-power of attorney(23-6-2008).pdf

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