Application Guide

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SAG586505000 System Application Guide

SAG586505500 Spec. No. 586505000 (Model LMS1000)

Issue AZ, April 7, 2014 Spec. No. 586505500 (Model LMS1000)

Page 26 of 62

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1.4 Software Features

1.4.1 User Interface: Users can interface with LMS1000 through the local port using a

local terminal, through a modem (if optional modem installed), through the Ethernet port via a

TELNET session, through the Ethernet port using a MIB browser, or through the Ethernet port

over the Internet via a WEB Browser.

The local port default parameters are 8 data bits, 1 stop bit, and no parity. These defaults

cannot be changed. The data rate of the local port is software selectable from 110 to 19200

bits/s. The data rate is factory set to 19200 bits/s.

The modem port default parameters are 8 data bits, 1 stop bit, and no parity. These defaults

cannot be changed. When answering, the data rate of the internal modem switches to match

the incoming call. When reporting, the modem data rate will be set to the speed that is

programmed in the user configuration of the user being called. When the modem performs a

callback, it will call at the speed it answered at.

A user can also interface with LMS1000 via a Telnet session. The LMS1000 presently

supports only one Telnet session at a time. To support a Telnet session or MIB browser

access, the unit’s IP address must be set using the IP command.

1.4.2 Security: When a user logs onto the system, the user is prompted to enter a "User

Password".

User configurations provide a "User Access Level" which can be used to limit the

commands available to a particular user through the local and remote ports.

The SNMP feature does not support multiple access levels.

Added security for Ethernet connections is provided via the user configurable Host

address list.

1.4.3 Unit Identification: Each LMS1000 can be uniquely identified through a programmable unit

name, unit number, system identifier (TL1 option), unit header, and unit pager code.

Each LMS1000 is uniquely identified through a programmable unit TCP/IP address.

1.4.4 Alarm Classes: The alarm class feature allows easier relay and LED programming, and helps

classify and identify alarms in system reports and scans. There are eight alarm classes

(numbered 1 through 8) available. Individual channel alarms (Analog, Binary, etc.) can be

assigned to a particular Alarm Class. This Alarm Class then appears as part of the SCAN,

ALARMS, and LOG reports to help identify the type of alarm. Relay control programs can be

as simple as R0001 = K2, which means relay channel one will energize when there is an

alarm for any channel whose Alarm Class is two.

1.4.5 Introduction to Channels:

(A) Channel Identification (I/O Numbering Scheme): The LMS1000 provides analog and

binary input monitoring points, and extended relay contact output points. In addition, local

front panel programmable LEDs are provided. Each input and output point is directly

associated with a channel. Thus there are LMS1000 analog, binary, relay, and LED

channels. In the LMS100, you can combine two or more analog inputs into one function

channel, and advance software options provide energy management channels. This

adds function channels and energy management channels to the list of channel types in

the LMS1000.

In the LMS1000 system; the 586505000/586505500 Main Cabinet or

582140000/582140001/582126100 Primary Bay, the 586505000/586505500 Expansion

Cabinets or 582140000/582140001/582126100 Secondary Bays, the

586505000/586505500 Expansion Assemblies, and the MCA Interface are referred to as

nodes. A node is a grouping of I/O's in a common assembly, cabinet, or bay.

LMS1000 channels are identified through a type designation (A = analog, B = binary,

R = relay, L = LED, F = function, and E = energy management), a Node Number (I/O

grouping) prefix, and an input/output number. Remember, a particular channel’s type

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