Specifications
UHP-1000 SATELLITE ROUTER
INSTALLATION AND OPERATION MANUAL, V. 2.5
(SW VERSION 2.5.X)
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M 30 192.168.1.0 /24 Mod/LOW ->200 0 0 0
Incoming packets with VLAN=30 on the relevant network will be transmitted via modulator with
SVLAN=200, with low priority via channel 0 Traffic Shaper.
command - ip ma 192.168.1.0 /24 ml 200 0 30
M 30.0.0.0 /23 Mod/HIGH->0 0 0 0
command - ip ma 30.0.0.0 /23 mh 0
V Demod. RX->0 IP Router - 0 0
Receive SVLAN 0 with SCPC demodulator.
command - sv re sc 0
V 30 TDMA RX->200 IP Router - 0 0
Receive SVLAN 200 with TDMA demodulator into route Table VLAN 30
command - sv re td 200 30
Unroutable: 0 Last: 0.0.0.0 -> 0.0.0.0 Screened: 0
Number of packets that failed to be routed, as well as IP-addresses of the source and destination of
the last of such packets. .
Screened – Counter of packets that tried to get directly to the modulator from demodulator and have
been dropped.
DSCP: 0:HmH.... . 8:..H.. ... 16:H....H.. 24:........
32:m....... 40:........ 48:........ 56:........
DSCP values map that have to be treated as high priority ones. In this case IP-packets with DSCP field
equal to 0, 2, 11, 16 and 21 will be transmitted with high priority (with map records with md priority),
while packets with fields 1,32 will be transmitted via a medium priority queue. All other packets will
be transmitted via a lower priority queue (LOW).
UDP/RTP ports: 1000-1100
List of ranges of UDP ports for compression of RTP headers.
To clear statistics you may use “clear counters ip” command.
2.10.4 VLAN support
UHP-1000 routers support most of the IEEE 802.1q standard capabilities. Support for multiple route Tables
associated with VLAN values on the Ethernet interfaces is provided.
UHP-1000 router can receive traffic over LAN with VLAN tag 1-1020 and transmit it to the satellite with the
assigned SVLAN value. Reception for satellite and traffic routing to LAN with tagging added is also possible. VLAN 0
is untagged.
Within UHP-1000 router, reception of traffic over one VLAN and immediate resending it back to LAN over another
VLAN without transmitting it via a satellite is impossible.
To summarize, the user can do the following:
Decide which VLAN to use to receive traffic from LAN (or receive untagged to the main Table, with
VLAN=0), having IP-address entered into route Table of this VLAN.
Decide how to route this traffic over to satellite, having map commands entered into Table of this VLAN
and SVLAN number for transmission.
Mix traffic from various VLANs, routing IP networks from VLAN routing tables into the same SVLAN.
Direct traffic from one VLAN by separate routes into different SVLANs.
The command routing IP network to SVLAN always features one of the four priorities (Low, Med, High,
and DSCP), so the user can route networks for transmission with different priorities to the same SVLAN.
On the other end of the channel:
Decide to which routing table of (which VLAN) to receive SVLAN from the satellite.