Raisecom
RC1201-2GE16E1T1 Product Description
Raisecom Technology Co., Ltd.
6.5.4 Checking cables
After installation is complete, check the RC1201-2GE16E1T1 as listed in Table 6-7.
Table 6-7 Checking cables
Power wire
and earth
wire
The connection is correct and reliable. Power cable inside the rack,
ground wire and signal line are laid separately; the distance among
power cable outside the rack, ground wire and signal line meet the
design requirements, generally greater than 3 cm.
Wrap wire nose handle and bare wire required with heat-shrinkable
tubing or insulating tape. There is no bare copper wire at wire nose and
connection terminal, flat washer and spring washer are installed
correctly.
Bind the wire straightly and neatly, and all the wire clips should be
aligned towards the same direction.
The rack alignment is correct.
No damage, breakage, and middle connector.
The plug is clean and without damage; plugs made on site should be
proper and plugs connection is correct and reliable.
The line routing is in line with the engineering design manual, easy to
maintenance and capacity expansion.
Optical fibers, optical interfaces and flange plates should be connected
reliably.
Laying tail fiber outside the cabinet shall take protective measures, such
as adding bellows or channels, etc.
6.5.5 Power-on check
Conduct power-on check, as listed in Table 6-8.
Table 6-8 Power-on check
Check that the positive and negative polarities of DC power are
correctly connected. Use a multi-meter to test DC power, ensuring that
the DC power voltage is between -36 V to -72 V or +18 V to +36 V.
Use a multi-meter to test AC power, ensuring that the AC power voltage
is between 176 V to 264 V.
The power insurance capacity must allow the normal operation of the
RC1201-2GE16E1T1 under the maximum power consumption.
Use optical power meter to measure the SFP module and its optical
power is P1. Compare P1 with SFP indicator to confirm that SFP optical
module is working normally.
Connect optical fiber at the ODF side to optical power meter, and the
measured optical power is P2. If the difference between P2 and P1 is
smaller than 1 dB, the optical fiber is connected normally.
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