Communications - GE D30 Instruction Manual

2 PRODUCT DESCRIPTION
ETHERNET SWITCH (HIGH VOLTAGE, TYPE 2S)
Nominal DC voltage: 110 to 240 V DC
Minimum DC voltage: 88 V DC
Maximum DC voltage: 300 V DC
Input Current: 0.9 A DC maximum
Nominal AC voltage: 100 to 240 V AC, 0.26 to 0.16 A/26 to 39
VA at 50/60 Hz
Minimum AC voltage: 85 V AC, 0.31 A/22 VA at 50/60 Hz
Maximum AC voltage: 265 V AC, 0.16 A/42 VA at 50/60 Hz
Internal fuse: 3 A / 350 V AC, Ceramic, Axial SLO
BLO;
Manufacturer: Conquer; Part number:
SCD-A 003
RS232
Front port: 19.2 kbps, Modbus
RS485
1 or 2 rear ports: Up to 115 kbps, Modbus
together at 36 Vpk
Typical distance: 1200 m
Isolation: 2 kV
ETHERNET (FIBER)
PARAMETER
10MB MULTI-
MODE
Wavelength 820 nm
Connector ST
Transmit power –20 dBm
Receiver sensitivity –30 dBm
Power budget 10 dB
Maximum input –7.6 dBm
power
Typical distance 1.65 km
Duplex full/half
Redundancy yes
The UR-2S and UR-2T only support 100 Mb multimode
ETHERNET (10/100 MB TWISTED PAIR)
Modes: 10 MB, 10/100 MB (auto-detect)
Connector: RJ45
SNTP clock synchronization error: <10 ms (typical)
ETHERNET SWITCH 10/100BASE-T PORTS
Connector type: RJ45
MAXIMUM 10 MBPS ETHERNET SEGMENT LENGTHS
Unshielded twisted pair: 100 m (328 ft.)
Shielded twisted pair: 150 m (492 ft.)
GE Multilin
®
RTU
®
RTU, isolated
FIBER TYPE
100MB MULTI- 100MB SINGLE-
MODE MODE
1310 nm 1310 nm
ST SC
–20 dBm –15 dBm
–30 dBm –30 dBm
10 dB 15 dB
–14 dBm –7 dBm
2 km 15 km
full/half full/half
yes yes
D30 Line Distance Protection System
ETHERNET SWITCH (LOW VOLTAGE, TYPE 2T)
Nominal voltage: 48 V DC, 0.31 A/15 W
Minimum voltage: 30 V DC, 0.43 A/16 W
Maximum voltage: 60 V DC
Internal fuse: 5 A / 350 V AC, Ceramic, Axial SLO
BLO;
Manufacturer: Conquer; Part number:
SCD-A 005
ETHERNET SWITCH FIBER OPTIC PORTS
Maximum fiber segment length calculation:
The maximum fiber segment length between two adjacent
switches or between a switch and a device is calculated as fol-
lows. First, calculate the optical power budget (OPB) of each
device using the manufacturer's data sheets.
OPB P
=

T MIN
where OPB = optical power budget, P
and P = receiver sensitivity.
R
The worst case optical power budget (OPB
lated by taking the lower of the two calculated power budgets, sub-
tracting 1 dB for LED aging, and then subtracting the total insertion
loss. The total insertion loss is calculated by multiplying the num-
ber of connectors in each single fiber path by 0.5 dB. For example,
with a single fiber cable between the two devices, there will be a
minimum of two connections in either transmit or receive fiber
paths for a total insertion loss of 1db for either direction:
Total insertion loss number of connectors 0.5 dB
=

2 0.5 dB
=
The worst-case optical power budget between two type 2T or 2S
modules using a single fiber cable is:
OPB OPB 1 dB (LED aging)
= –
WORST
10dB 1dB 1dB 8dB
– – =
To calculate the maximum fiber length, divide the worst-case opti-
cal power budget by the cable attenuation per unit distance speci-
fied in the manufacturer data sheets. For example, typical
attenuation for 62.5/125 m glass fiber optic cable is approxi-
mately 2.8 dB per km. In our example, this would result in the fol-
lowing maximum fiber length:
Maximum fiber length
=
=
The customer must use the attenuation specified within the manu-
facturer data sheets for accurate calculation of the maximum fiber
length.
MAXIMUM STANDARD FAST ETHERNET SEGMENT LENGTHS
10Base-T (CAT 3, 4, 5 UTP): 100 m (328 ft.)
100Base-TX (CAT 5 UTP):100 m (328 ft.)
Shielded twisted pair: 150 m (492 ft.)
2.2 SPECIFICATIONS

2.2.8 COMMUNICATIONS

P
–
  
R MIN
= transmitter output power,
T
) is then calcu-
WORST

1.0 dB
=
total insertion loss
–
OPB (in dB)
WORST
------------------------------------------------------ -
cable loss (in dB/km)
8 dB
-------------------------- - 2.8km
=
2.8 dB/km
2-17
2