My Lab Equipment: Unterschied zwischen den Versionen
Dl8rds (Diskussion | Beiträge) (→Naval Radio) |
Dl8rds (Diskussion | Beiträge) (→Naval Radio) |
||
| Zeile 59: | Zeile 59: | ||
* [[HyGain AV-680]] | * [[HyGain AV-680]] | ||
| − | == | + | == Marine Radio == |
As a vacational sailor and holder of two naval radio degrees (SRC-equivalent, LRC), I own and operate these devices: | As a vacational sailor and holder of two naval radio degrees (SRC-equivalent, LRC), I own and operate these devices: | ||
* [[ICOM M9]] | * [[ICOM M9]] | ||
| Zeile 65: | Zeile 65: | ||
* [[ICOM M91D]] | * [[ICOM M91D]] | ||
* [[ICOM M400BB]] | * [[ICOM M400BB]] | ||
| + | |||
| + | See also: [[Icom BP-84 Repair]] | ||
== Computer Science Equipment == | == Computer Science Equipment == | ||
Aktuelle Version vom 28. August 2021, 22:11 Uhr
Inhaltsverzeichnis
1 Location
- Richard Strauss Str. 2, 93133 Burglengenfeld
- IARU Locator JN69AF
- Position: 49° 12,6' N // 012° 03,2' E
2 Radio Equipment
2.1 Short Wave
There's some wisdom saying that you need a good receiver first of all. The next thing you should think about is a good antenna. I have been experimenting with several antenna types, mainly with the simpler versions of Inverted Vee and Quad Loop, but I have come to the insight that a good multiband vertical is a decent compromise between space consumption and multiband usability. That's why I have purchased a GAP TITAN. The next thing to consider is a sufficiently good transmitter. I solved the transmitter / receiver question first by buying a sturdy Kenwood TS-520S valve TRX. A very good decision, I must say now 15 years later. Around 2001 I bought a second hand TS-930SAT, and this is now my core device.
Here's an overview of my nice little shortwave toys:
- Kenwood TS-930SAT
- MosFET-PA
- Kenwood TS-450SAT and the power supply Kenwood PS-33
- Kenwood SM-220
- Kenwood SW-200 with
- Kenwood LF-30A
- Kenwood TL-922 (not yet)
- MFJ-1026 Signal Enhancer
- Kenwood TS-520S
- Kenwood MC-85
- ETM-9C
- Junker Morse Key
- RigBlaster Plus
- BX-120 USB-Transceiverinterface mit integrierter Soundkarte, Komplettbausatz
- MX20-2 - Another transceiver interface to drive an Echolink project
- USPR-2 - SDR TRX
- YAESU FT-767GX - Base rig for 4L9MH
- Homebrew PA 2x GU74B
2.2 VHF
- Kenwood TS-790A and the power supply Kenwood PS-30
- Kenwood TR-7625
- Standard C-408
- Diamond MX3000N Triplexer 2/70/23
- T7F, PLL based data transceiver
- KS-900, crystal based data transceiver for 9,6 kBit/s
- K-NET, crystal-based data transceiver for 9,6 kBit/s
- KF-166, crystal-based data transceiver for APRS
- KF-166, another one, for Echolink experiments - will be sold soon.
2.3 Digi modes
- TNC2S, terminal node controller for 1,2 kBit/s
- TNC2H, terminal node controller for 9,6 kBit/s
- TNC2Multi, terminal node controller for 1k2 and 9k6
- SCS PTC2, a PACTOR modem
2.4 Antennas
As a member of DARC e.V. I enjoy full insurance of all antennas:
- GAP TITAN
- Diamond X-6000
- Diamond X-30
- MBVV-2000-VOX - mast preamplifier
- HyGain AV-680
3 Marine Radio
As a vacational sailor and holder of two naval radio degrees (SRC-equivalent, LRC), I own and operate these devices:
- ICOM M9
- ICOM M11 - sold it
- ICOM M91D
- ICOM M400BB
See also: Icom BP-84 Repair
4 Computer Science Equipment
4.1 Embedded devices
Hardware:
- Cisco Linksys WRTSL54GS
- ASUS WL-500GP
- Fonera Router
- D-Link DNS-323
- ... uncountable Raspberry Pi boards in uncountable usage scenarios...
Software:
4.2 Network connection
- modern DSL connection, 16 MBit/s
- HAMNET connection 34 MBit/S voa DB0MHB, DB0HSR
- Mikrotik CRS 125 as a central router architecture
- standard 1 GBit network speed
- fiber interconnect
4.3 Core Workstation BMH1
- Productive System
- 2,66 GHz Intel Core Duo
- 4 Gb RAM
- Ubuntu 14.4 OS
4.4 2 identical Laptops DELL Precision M6500
- Productive...
- 1,87 GHz i7 CPU 8 Core
- 32 GB RAM
- Ubuntu 14.4 OS
4.5 APC SmartUPS-3000VA
- Electrical BackUp for availability and failover experiments
