Installation Manual
NetSure™ LMS Data Processing Unit
Installation Instructions, Section 5879 (Issue BA, April 7, 2014)
Spec. No: 58650500, 586505500 Code: Section 5879
Model No: LMS1000 Issue BA, April 7, 2014
[27 of 149]
Gateway Port Connections (if Gateway Software Option is
installed)
The Gateway Software Option allows the LMS1000 to emulate a
“dumb” RS-232 asynchronous terminal interface. When installed,
user input through either a local or remote LMS1000 port is
directed to the customer equipment connected to the LMS1000
Gateway port.
The cable from the LMS1000 Gateway port to the customer
equipment must not exceed 50 feet. This cable must be provided
by the customer.
586505000/586505500: In the 586505000/586505500 system,
the Gateway port is provided via the OEM1 port. Refer to Figure 7
for port location. Refer to Table 3 for port pin assignments. See
"OEM1 Port Connections (if required) (586505000/586505500
Only)" later in these instructions.
582140000/582140001/582126100: In the
582140000/582140001/582126100 system, the Gateway port is
provided via the port located on the front of the LMS CPU circuit
card installed in the Primary Power Bay. This is a 9-pin female D-
type jack (RS-232). Refer to Figure 8 for location. Refer to Table 2
for port pin assignments.
Table 2. Port Located on Front of Main LMS CPU Circuit Card
Installed in Primary Power Bay (9-Pin Female D-Type Jack)
RS-232 Configured as DCE
Port Pin Number Application Input/Output
1 - -
2 Transmitted Data (TxD) Output from System
3
Received Data (RxD)
Input to System
4 Data Set Ready (/DSR) Output from System
5
Signal Ground (Gnd)
-
6
Data Terminal Ready
(/DTR)
Input to System
7
Clear to Send (/CTS)
Input to System
8 Request to Send (/RTS) Output from System
9
-
-
Internal Modem Port Connections
WARNING! The intra-building port(s) of the equipment
or subassembly is suitable for connection to intra-
building or unexposed wiring or cabling only. The intra-
building port(s) of the equipment or subassembly MUST
NOT be metallically connected to interfaces that
connects to the OSP or its wiring. These interfaces are
designed for use as intra-building interfaces only (Type
2 or Type 4 ports as described in GR-1089-CORE, Issue
4) and require isolation from the exposed OSP cabling.
The addition of Primary Protectors is not sufficient
protection in order to connect these interfaces
metallically to OSP wiring. Use shielded phone cable
(grounded at both ends). Note that the LMS1000 RJ-11
jack is connected to chassis ground.
586505000/586505500: If a modem circuit card is installed, the
remote communications phone line connection is made to the
RJ-11 jack located on rear of the Main Cabinet. Refer to Figure 7 for
RJ-11 location.
582140000/582140001/582126100 System: An internal modem
circuit card may be installed on the LMS Main CPU circuit card. The
modem circuit provides an RJ-11 phone jack for customer phone
line connection. Refer to Figure 8 for location.
Ethernet Port Connections (10M)
Note:
The LMS supports an Ethernet connection speed up to
10mbps.
Note:
Also used for the TL1 Port if 'TL1 over Ethernet' software option
installed.
586505000/586505500: The Main Cabinet is connected to the
customer's network running TCP/IP via the RJ-45 jack located on
the rear of the cabinet, labeled "ETHERNET". Refer to Figure 7 for
jack location. Jack pin configuration is a standard Ethernet
scheme, twisted pair (T568A or T568B), 10BaseT, and half duplex.
Use shielded Ethernet cable (grounded at both ends). Note that
the LMS1000 RJ-45 jack is connected to chassis ground.
582140000/582140001/582126100: An RJ-45 jack (labeled
"ETHERNET") is provided inside the Primary Power Bay (near the
LMS Main CPU circuit card) for connection into a customer's
network running TCP/IP. Refer to Figure 8 for location. Jack pin
configuration is a standard Ethernet scheme, twisted pair (T568A
or T568B), 10BaseT, and half duplex.
Use shielded Ethernet cable (grounded at both ends). Note that
the LMS RJ-45 jack is connected to chassis ground.
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