Setting up a remote, electrically independent, low power EchoLink relay: Unterschied zwischen den Versionen
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Dl8rds (Diskussion | Beiträge) (New page: This is actually a quite big project. It involves several sub-projects: * Purchasing the Cisco Linksys WRTSL54GS * A MAX232 level shifter * [[Building a Linux Ubuntu package of Th...) |
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− | This is actually a quite big project. It involves several sub-projects | + | This is actually a quite big project. It involves several sub-projects and precursors. |
− | * Purchasing the [[Cisco Linksys WRTSL54GS]] | + | * Purchasing the [[Cisco Linksys WRTSL54GS]] - done |
− | * [[A MAX232 level shifter]] | + | * [[A MAX232 level shifter]] - built and usable |
− | * [[Building a Linux Ubuntu package of TheLinkBox]] | + | * [[Flashing OpenWRT to the WRTSL54GS]] - done |
+ | * Compiling and installing my own OpenWRT image | ||
+ | * Making sure my [[BX-120 USB-Transceiverinterface mit integrierter Soundkarte, Komplettbausatz|BX-120 USB-Transceiverinterface]] works with the Linksys | ||
+ | * [[Building a Linux Ubuntu package of TheLinkBox]] - done | ||
+ | * [[Compiling a TheLinkBox package for OpenWRT]] | ||
+ | * Testing | ||
+ | * Deployment at [http://www.db0mhb.de DB0MHB] with my [[Standard C-408]] as a TRX system | ||
+ | * Care for the electrical power supply. The Linksys operates 4.1 Watts. I don't know yet how much power the BX-120 consumes. My C-408 consumes quite little. Yet, I don't know how much exactly. I intend to provide an according solar panel. | ||
+ | * Care for connectivity to my station network over DSL. DB0MHB is about 5 km away. Hope, it works. | ||
+ | |||
+ | Important News: | ||
+ | * My focus has shifted away from the Linksys, turning towards the [[ASUS WL-500GP]] model. Reason: It has two USB ports instead of one. | ||
+ | * Yet another change: I am no longer going to use the ASUS router for Echolink control, because there are these new INTEL ATOM CPUs out there now. I am going to give them a try. And the TRX will not be a Bosch KF-166, but a [[Kenwood TR-7625]]. It's cheap, it's robust, it's well to repair and it's efficient. And it has a lot of power reserves (25 watts). | ||
+ | * 2009-09-09 After an intermediate success based on the Intel ATOM, I turned to the BeagleBoard. And it works!!! [[A SVXLink Server based on the BeagleBoard]] |
Aktuelle Version vom 10. September 2009, 04:39 Uhr
This is actually a quite big project. It involves several sub-projects and precursors.
- Purchasing the Cisco Linksys WRTSL54GS - done
- A MAX232 level shifter - built and usable
- Flashing OpenWRT to the WRTSL54GS - done
- Compiling and installing my own OpenWRT image
- Making sure my BX-120 USB-Transceiverinterface works with the Linksys
- Building a Linux Ubuntu package of TheLinkBox - done
- Compiling a TheLinkBox package for OpenWRT
- Testing
- Deployment at DB0MHB with my Standard C-408 as a TRX system
- Care for the electrical power supply. The Linksys operates 4.1 Watts. I don't know yet how much power the BX-120 consumes. My C-408 consumes quite little. Yet, I don't know how much exactly. I intend to provide an according solar panel.
- Care for connectivity to my station network over DSL. DB0MHB is about 5 km away. Hope, it works.
Important News:
- My focus has shifted away from the Linksys, turning towards the ASUS WL-500GP model. Reason: It has two USB ports instead of one.
- Yet another change: I am no longer going to use the ASUS router for Echolink control, because there are these new INTEL ATOM CPUs out there now. I am going to give them a try. And the TRX will not be a Bosch KF-166, but a Kenwood TR-7625. It's cheap, it's robust, it's well to repair and it's efficient. And it has a lot of power reserves (25 watts).
- 2009-09-09 After an intermediate success based on the Intel ATOM, I turned to the BeagleBoard. And it works!!! A SVXLink Server based on the BeagleBoard