We claim:
1. A method of forming an interlayer insulating film, wherein a material containing, as a main component, an organic silicon compound represented by the following general formula:
R1xSi(OR2)4-x
(where R1 is a phenyl group or a vinyl group; R2 is an alkyl group; and x is an integer of 1 to 3) is caused to undergo plasma polymerization or react with an oxidizing agent to form an interlayer insulating film composed of a silicon oxide film containing an organic component.
2. A method of forming an interlayer insulating film according to claim 1, wherein said organic silicon compound is phenyltrimethoxysilane or diphenyldimethoxysilane.
3. A method of forming an interlayer insulating film according to claim 1, wherein said organic silicon compound is vinyltrimethoxysilane or divinyldimethoxysilane.
4. A method of forming an interlayer insulating film, wherein a material containing, as a main component, an organic silicon compound represented by the following general formula:
R1xSiH4-x
(where R1 is a phenyl group or a vinyl group; and x is an integer of 1 to 3) is caused to undergo plasma polymerization or react with an oxidizing agent to form an interlayer insulating film composed of a silicon oxide film containing an organic component.
5. A method of forming an interlayer insulating film according to claim 4, wherein said organic silicon compound is phenylsilane or diphenylsilane.
6. A method of forming an interlayer insulating film according to claim 4, wherein said organic silicon compound is vinylsilane or divinylsilane.
7. A method of forming an interlayer insulating film, wherein a material containing, as a main component, a fluorinated carbon compound having two or more double bonds of carbon atoms in a molecule thereof is caused to undergo plasma polymerization to form an interlayer insulating film composed of a fluorinated amorphous carbon film.
8. A method of forming an interlayer insulating film according to claim 7, wherein said fluorinated carbon compound is composed only of carbon atoms and fluorine atoms.
9. A method of forming an interlayer insulating film according to claim 8, wherein said fluorinated carbon compound is hexafluoro-1,3-butadiene.
10. A method of forming an interlayer insulating film, wherein a material containing, as a main component, a fluorinated carbon compound having a triple bond of carbon atoms in a molecule thereof is caused to undergo plasma polymerization to form an interlayer insulating film composed of a fluorinated amorphous carbon film.
11. A method of forming an interlayer insulating film according to claim 10, wherein said fluorinated carbon compound is composed only of carbon atoms and fluorine atoms.
12. A method of forming an interlayer insulating film according to claim 11, wherein said fluorinated carbon compound is hexafluoro-2-butyne.
13. A method of forming an interlayer insulating film, wherein a material containing, as a main component, a fluorinated carbon compound having a polycyclic structure in a molecule thereof is caused to undergo plasma polymerization to form an interlayer insulating film composed of a fluorinated amorphous carbon film.
14. A method of forming an interlayer insulating film according to claim 13, wherein said fluorinated carbon compound is composed only of carbon atoms and fluorine atoms.
15. A method of forming an interlayer insulating film according to claim 13, wherein said fluorinated carbon compound has a condensed cyclic structure in the molecule thereof.
16. A method of forming an interlayer insulating film according to claim 15, wherein said fluorinated carbon compound is perfluorodecalin, perfluorofluorene, or perfluoro(tetradecahydrophenanthrene).
17. A method of forming an interlayer insulating film, wherein a material containing, as a main component, a gas mixture of an organic silicon compound composed of a compound represented by the following general formula:
R1xSi(OR2)4-x
(where R1 is a phenyl group or a vinyl group; R2 is an alkyl group; and x is an integer of 1 to 3) or of a siloxane derivative and a fluorinated carbon compound is caused to undergo plasma polymerization or react with an oxidizing agent to form an interlayer insulating film composed of a silicon oxide film containing a fluorinated carbon.
18. A method of forming an interlayer insulating film, wherein a material containing, as a main component, a gas mixture of an organic silicon compound and a fluorinated carbon compound having two or more double bonds of carbon atoms in a molecule thereof is caused to undergo plasma polymerization or react with an oxidizing agent to form an interlayer insulating film composed of a silicon oxide film containing a fluorinated carbon.
19. A method of forming an interlayer insulating film according to claim 18, wherein said organic silicon compound is composed of a compound represented by the following general formula:
R1xSi(OR2)4-x
(where R1 is a phenyl group or a vinyl group; R2 is an alkyl group; and x is an integer of 1 to 3) or of a siloxane derivative.
20. A method of forming an interlayer insulating film, wherein a material containing, as a main component, a gas mixture of an organic silicon compound and a fluorinated carbon compound having a triple bond of carbon atoms in a molecule thereof is caused to undergo plasma polymerization or react with an oxidizing agent to form an interlayer insulating film composed of a silicon oxide film containing a fluorinated carbon.
21. A method of forming an interlayer insulating film according to claim 20, wherein said organic silicon compound is composed of a compound represented by the following general formula:
R1 Si (OR2)4-x
(where R1 is a phenyl group or a vinyl group; R2 is an alkyl group; and x is an integer of 1 to 3) or of a siloxane derivative.
22. A method of forming an interlayer insulating film, wherein a material containing, as a main component a gas mixture of an organic silicon compound and a fluorinated carbon compound having a polycyclic structure is caused to undergo plasma polymerization or react with an oxidizing agent to form an interlayer insulating film composed of a silicon oxide film containing a fluorinated carbon.
23. A method of forming an innerlayer insulating film according to claim 22, wherein said organic silicon compound is composed a compound represented by the following general formula:
R1xSi(OR2)4-x
(where R1 is a phenyl group or a vinyl group; R2 is an alkyl group; and x is an integer of 1 to 3) or of a siloxane derivative.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A method for parameter setting in a communications system, the system comprising:
a user terminal capable of running application sessions;
a gateway node; and
a settings server;
wherein the method comprises:
in response to recognizing a predefined application-related action in the user terminal, transmitting from the user terminal to the gateway node a request message for initializing a retrieval of application-related control protocol settings, wherein the control protocol is a session initiation protocol (SIP);
receiving the request message in the gateway node;
in response to the receipt of the request message, retrieving identification information on the user terminal from a mobile network, wherein the identification information on the user terminal includes a mobile subscriber international integrated services digital network number MSISDN;
transmitting the request message and the identification information from the gateway node to the settings server;
receiving the request message and the identification information in the settings server;
based on the request message and the user terminal identification, defining, in the settings server, application-specific control protocol settings for the user terminal; and
transmitting the control protocol settings via the gateway node to the user terminal.
2. The method according to claim 1, wherein the method comprises:
receiving the control protocol settings in the user terminal; and
storing the control protocol settings in the user terminal, wherein respective parameter settings of the user terminal are set according to the control protocol settings.
3. The method according to claim 1, wherein the application-related action includes using the application in the user terminal for the first time.
4. The method according to claim 1, wherein the application-related action includes setting up the application in the user terminal.
5. The method as claimed in claim 1, wherein the method comprises creating, in the settings server, user terminal-specific control protocol settings; and transmitting the user terminal-specific control protocol settings to the user terminal.
6. The method as claimed in claim 1, wherein the method comprises creating, in the settings server, user terminal-specific access point settings; and transmitting the user terminal-specific access point settings to the user terminal.
7. The method according to claim 1, wherein the method comprises transmitting the user terminal-specific control protocol settings from the settings server to a control server.
8. The method according to claim 1, wherein the method comprises transmitting the user terminal-specific access point settings from the settings server to a control server.
9. The method as claimed in claim 1, wherein the application includes a voice-over-internet protocol VoIP application.
10. The method as claimed in claim 1, wherein the application includes an online game that can be downloaded and played on the user terminal.
11. A communications system comprising:
a user terminal capable of running application sessions;
a gateway node; and
a settings server;
wherein the system is configured to:
in response to recognizing of a predefined application-related action in the user terminal, transmit from the user terminal to the gateway node a request message for initializing a retrieval of application-related control protocol settings, wherein the control protocol is a session initiation protocol (SIP);
in response to receiving the request message in the gateway node, retrieve identification information on the user terminal from a mobile network, wherein the identification information on the user terminal includes a mobile subscriber international integrated services digital network number MSISDN;
transmit the request message and the identification information from the gateway node to the settings server;
in response to receiving the request message and the identification information in the settings server, define application-specific control protocol settings for the user terminal; and
transmit the control protocol settings via the gateway node to the user terminal.
12. The system according to claim 11, wherein in response to receiving the control protocol settings in the user terminal, the system is configured to store the control protocol settings in the user terminal, wherein respective parameter settings of the user terminal are set according to the control protocol settings.
13. The system as claimed in claim 11, wherein it is configured to create user terminal-specific control protocol settings; and transmit the user terminal-specific control protocol settings to the user terminal.
14. The system as claimed in claim 11, wherein it is configured to create user terminal-specific access point settings; and transmit the user terminal-specific access point settings to the user terminal.
15. The system according to claim 11, wherein it is configured to transmit the user terminal-specific control protocol settings andor access point settings to a control server.
16. A gateway node of a communications system, the system further comprising:
a user terminal; and
a settings server;
wherein the gateway node is configured to:
receive from the user terminal a request message for initializing a retrieval of application-related control protocol settings, wherein the control protocol is a session initiation protocol (SIP);
in response to receiving the request message, retrieve identification information on the user terminal from a mobile network, wherein the identification information on the user terminal includes a mobile subscriber international integrated services digital network number MSISDN;
transmit the request message and the identification information to the settings server;
receive, from the settings server, application-specific control protocol settings defined for the user terminal; and
transmit the control protocol settings to the user terminal.
17. A settings server of a communications system, the system comprising:
a user terminal; and
a gateway node;
wherein the settings server is configured to:
receive, from the gateway node, identification information on the user terminal, and a request message for initializing a retrieval of application-related control protocol settings, the identification information on the user terminal having been retrieved from a mobile network, wherein the identification information on the user terminal includes a mobile subscriber international integrated services digital network number MSISDN, wherein the control protocol is a session initiation protocol (SIP);
based on the request message and the user terminal identification, define application-specific control protocol settings for the user terminal; and
transmit the control protocol settings to the user terminal via the gateway node.
18. The settings server as claimed in claim 17, wherein it is configured to:
create user terminal-specific control protocol settings; and
transmit the user terminal-specific control protocol settings to the user terminal.
19. The settings server as claimed in claim 17, wherein it is configured to: create user terminal-specific access point settings; and transmit the user terminal-specific access point settings to the user terminal.
20. The settings server according to claim 17, wherein it is configured to transmit the user terminal-specific control protocol settings andor the user terminal-specific access point settings to a control server.
21. A gateway node according to claim 16, wherein the application includes a voice-over-internet protocol VoIP application.
22. A gateway node according to claim 16, wherein the application includes an online game that can be downloaded and played on the user terminal.