LAN connections | Wired LAN |
\Wired Connections, Multiple Client PC to a Single VTR
DHCP OFF
IP ADDRESS 192. 168. 100. 101
SUBNET MASK 255. 255. 255. 000
LAN connections | Wireless LAN |
The
A list of LAN card currently supported by the
Wireless Caveats
DHCP OFF
PROXY SERVER NO USE DHCP SERVER NO USE
IP ADDRESS 192. 168. 100. 100 SUBNET MASK 255. 255. 255. 000
Adverse condition of signals may result in the video being
IP ADDRESS 192. 168. 100. 102 SUBNET MASK 255. 255. 255. 000
DHCP OFF
IP ADDRESS 192. 168. 100. 103
SUBNET MASK 255. 255. 255. 000
DHCP OFF
IP ADDRESS 192. 168. 100. 104
SUBNET MASK 255. 255. 255. 000
Hub
10/100
Caution
Set a unique number to avoid doubling
IP ADDRESS 192. 168. 100. XXX
SUBNET MASK 255. 255. 255. 000
Set the same domain
In addition, although there are several channels available, as shown below, there is a five channel overlap for each channel, limiting the actual number of channels available in environments where other wireless LANs are present. For example, if a wireless LAN using channel 2 is already in use at near position, the lowest channel you can use for your setup would be channel 7.
Perform the following settings for the above configuration.
●DHCP must be OFF.
●Connect using a
●If clients will be connecting through an Intranet or the Internet, consult you IT department and request a IP address for the VTR.
●VTR and Client PC are set the same domain and different IP addresses.
Cautionary items concerning Wireless LAN (WLAN)
●For the WLAN ESS ID, input the values of ESSID set in: Ad hoc mode: PC of other party
Infrastructure: Access point
●WLAN AD HOC MODE
When IBSS is set, the NETWORK MODE setting of the wireless LAN card on the PC side must be set to 802.11 Adhoc. When AHDM is set, the NETWORK MODE setting of the wireless LAN card on the PC side must be set to Adhoc. Depending on the LAN card on the PC side, only 802.11 Adhoc mode may be available.
●WLAN CH is the wireless frequency band used for communication. If there is an access point, adapter, etc., using the same band in the proximity, there may be a hindrance in the communication and may reduce throughput or the quality of commu- nication. When setting, check the settings of surrounding access points, etc., to avoid doubling.
F r e q u e n c y b a n d s ( I S M b a n d s ) a n d (IEEE803.11b standard)
N. America | : FCC / 2.412~2.462GHz (11 channels) |
Europe | : CE ETSI / 2.412~2.472GHz (13 channels) |
Japan | : 2.412~2.4835GHz (14 channels) |
France | : 2.457~2.472GHz (4 channels) |
Spain | : 2.457~2.462GHz (2 channels) |
Since adjacent channels causes signal interference, channels are normally spaced 5 channels apart.
(Set according to operating environment.)
| 2417 | 2427 | 2437 | 2447 | 2457 | 2467 |
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2412 | 2422 | 2432 | 2442 | 2452 | 2462 | 2472 | 2484 | Center | |||||
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| frequency |
1ch
2ch
3ch
4ch
5ch
6ch
7ch
8ch
9ch
10ch
11ch
12ch
13ch
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| 14ch |
1ch frequency band | 6ch frequency band | 11ch frequency band | 14chch frequencyfrequencybandband |
22 | 23 |