Mircom Group of Companies 9246AE80D86 Wireless Thermostat Transmitter User Manual LT 6131 OpenBAS HV WLSTH Installation Manual

Mircom Group of Companies Wireless Thermostat Transmitter LT 6131 OpenBAS HV WLSTH Installation Manual

User Manual

Download: Mircom Group of Companies 9246AE80D86 Wireless Thermostat Transmitter User Manual LT 6131 OpenBAS HV WLSTH Installation Manual
Mirror Download [FCC.gov]Mircom Group of Companies 9246AE80D86 Wireless Thermostat Transmitter User Manual LT 6131 OpenBAS HV WLSTH Installation Manual
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Date Submitted2017-06-12 00:00:00
Date Available2017-12-02 00:00:00
Creation Date2017-06-08 13:03:07
Producing SoftwareAcrobat Distiller 17.0 (Windows)
Document Lastmod2017-06-08 13:03:07
Document TitleLT-6131_OpenBAS-HV-WLSTH_Installation_Manual.book
Document CreatorFrameMaker 12.0.4
Document Author: janderson

OpenBAS-HV-WLSTH
Wired and Wireless Thermostat Transmitter
Installation Manual
LT-6131 Rev. 1
June 2017
Table of Contents
1.0
Introduction
1.1
OpenBAS-HV-WLSTH Wired and Wireless Thermostat Transmitter ............................ 6
1.2
Features ......................................................................................................................... 6
2.0
Overview
2.1
Components ................................................................................................................... 7
2.1.1
Controllers ...................................................................................................................... 7
2.1.2
Compatible Modules ...................................................................................................... 8
3.0
Installation
3.1
Parts of the Controller .................................................................................................... 9
3.2
Controller Board Connections ........................................................................................ 10
3.3
Batteries (OpenBAS-HV-WLSTH only) .......................................................................... 10
3.4
Mounting Plate Dimensions ........................................................................................... 12
3.5
Mounting ........................................................................................................................ 12
4.0
Field Wiring
13
4.1
To Wire the Terminals .................................................................................................... 13
4.1.1
Required Tools ............................................................................................................... 13
4.2
Power Supply Connection .............................................................................................. 14
4.3
Wireless Communication (OpenBAS-HV-WLSTH only) ................................................ 15
4.4
RS-485 ........................................................................................................................... 16
4.4.1
RS-485 wiring requirements .......................................................................................... 16
4.5
Buttons ........................................................................................................................... 17
5.0
Specifications
18
6.0
Master Warranty and Warning Information
19
7.0
Special Notices
24
7.1
FCC Notice .................................................................................................................... 24
7.2
RF Exposure Warning .................................................................................................... 24
7.3
RF Exposure Information ............................................................................................... 24
3 (25)
List of Figures
Figure 1
Parts of the controller ..................................................................................................... 9
Figure 2
Board connections ......................................................................................................... 10
Figure 3
Battery connections ........................................................................................................ 11
Figure 4
Mounting plate (back view) ............................................................................................ 12
Figure 5
Power supply - 12 VDC, 12 VAC, 24 VAC, 24 VDC ...................................................... 14
Figure 6
Wireless communication ................................................................................................ 15
Figure 7
Networking with RS-485 ................................................................................................. 16
Figure 8
Buttons ........................................................................................................................... 17
4 (25)
List of Tables
Table 1
Table 2
Controllers ...................................................................................................................... 7
Compatible Modules ...................................................................................................... 8
5 (25)
1.0
Introduction
This document provides information on installing the OpenBAS-HV-WLSTH wireless
thermostat transmitter.
1.1
OpenBAS-HV-WLSTH Wired and Wireless Thermostat
Transmitter
Mircom’s OpenBAS-HV-WLSTH wireless temperature and humidity transmitter and
thermostat works with the OpenBAS-HV-VAVFC receiver controller to provide an easy-to-setup HVAC control for HVAC end unit applications such as: variable air volume (VAV) boxes, fan
and coil units, mini split and water source chiller and heat pump units.
The OpenBAS-HV-WLSTH also connects to the receiver module OpenBAS-HV-RF433R to
communicate with any OpenBAS-HV-NX10 series controller.
The OpenBAS-HV-WLSTH works in the 433 MHz unlicensed band to provide an RF link with a
matched receiver up to 30 meters in line of sight applications and 15 meters indoors.
When used in wireless applications, it is powered by two AA alkaline batteries which provide
between 12 and 18 months of operation, depending on the transmission rate.
It also comes standard with an integrated RS-485 port supporting multiple protocols.
It can be integrated into any network and used as a standard temperature and humidity
transmitter or as a powerful yet easy to set environment HVAC controller.
It is fully addressable, and when used wirelessly it can be programmed into a group out of 10,
and each group can have up to 199 individual addresses.
When used wired it can be given an address between 1 and 199 depending on the protocol.
1.2
Features
The OpenBAS-HV-WLSTH integrates into Mircom’s unified platform for automating HVAC and
mechanical rooms as well as incorporating energy management features and lighting control
to offer building owners and managers a seamless operation with the following features:
6 (25)
•
Modular design to cover small, medium or large projects.
•
Industry standard Fieldbus protocols to integrate into any existing BAS system, such as
BACnet, Modbus, Optomux, N2-Open, and ASCII.
•
Connects to the NWK-ETH3 controller for integration into IP networks and uses the
most advanced features and protocols such as distributed computing, USB and Cloud
storage, HTML5, JavaScript, XML, Ajax, SMS, and GSM.
•
Modular add-ons for every Building Automation System solution.
•
The OpenBAS software which provides owners and managers a single solution for
managing all their building’s automation needs.
2.0
Overview
2.1
Components
2.1.1 Controllers
Table 1 Controllers
Picture
Model
Description
Wireless and wired temperature and
humidity transmitter and thermostat
• Operates on two AA alkaline
batteries or an external power
supply (12 V AC/DC to 24 V AC/
DC)
OpenBAS-HV-WLSTH
• Battery life is 12 to 18 months
• 2 1/2 digit LCD display
• four keyboard operator interface
for setpoint and calibration setup.
• Line of sight range of 30 meters
and 15 meters indoors
• 1 RS-485 bus
Wired temperature transmitter and
thermostat
OpenBAS-HV-WRDT
• Operates on an external power
supply (12 V AC/DC to 24 V AC/
DC)
• 2 1/2 digit LCD display
• four keyboard operator interface
for setpoint and calibration setup
• 1 RS-485 bus
Minimum order: 100 units
7 (25)
Overview
2.1.2 Compatible Modules
Compatible modules are mounted separately from the controller.
Table 2 Compatible Modules
Model
Description
Wireless Fan & Coil or VAV controller for variable air volume
(VAV) applications
• Wireless receiver for up to 10 temperature transmitters
OpenBAS-HV-VAVFC
• Differential pressure sensor for pressure independent VAV
applications
• Two universal inputs
• 5 digital outputs
• Two analog outputs 0-10 VDC
• Two Fieldbus connections with RS-485 driver
• Can be set as master or slave
Fan & Coil or VAV controller for variable air volume (VAV)
applications
• Two universal inputs
OpenBAS-HV-FCX
• 5 digital relay outputs
• Two analog outputs
• Two Fieldbus connections with RS-485 driver
• Can be set up as master or slave
Minimum order: 100 units
Fan & Coil or VAV controller for variable air volume (VAV)
applications
• Two universal inputs
OpenBAS-HV-VAVX
• Two analog outputs
• Two Fieldbus connections with RS-485 driver
• Can be set up as master or slave
Minimum order: 100 units
OpenBAS-HV-RF433R (OpenBAS-HVWLSTH only)
Wireless 433 MHz RF receiver that integrates up to 10 wireless
transmitters and thermostats into OpenBAS-HV-NX series
controllers through the I2C connection
Mounts in a DIN rail-mounted box
8 (25)
3.0
Installation
3.1
Note:
Installation of OpenBAS controllers should be in accordance with the Canadian
Electrical Code or the National Electrical Code, and comply with all local
regulations. Final acceptance is subject to the Local Authority Having Jurisdiction
(AHJ).
Parts of the Controller
Mounting
plate
Enclosure
Figure 1
Parts of the controller
9 (25)
Installation
3.2
Controller Board Connections
Attention: Always disconnect the power before installing accessories.
See chapter 4 for instructions on connecting power and RS-485.
COM1
(RS-485 and
power)
Figure 2
3.3
Board connections
Batteries (OpenBAS-HV-WLSTH only)
Caution:
If you connect the controller to batteries, disconnect the power supply
first. Do not use batteries and an external power supply at the same
time.
OpenBAS-HV-WLSTH uses 2 AA alkaline 1.5 V batteries. Do not use nickel cadmium or
lithium batteries.
Battery life is estimated at 12 to 18 months depending on operating conditions.
10 (25)
Installation
To replace the batteries
1. Disconnect the old batteries.
2. Dispose of the used batteries promptly. Keep away from children. Do not disassemble
and do not dispose of in fire.
3. Connect the new batteries to the connectors shown in Figure 3. Pay attention to polarity.
Battery (+)
Figure 3
Battery (-)
Battery connections
11 (25)
Installation
3.4
Mounting Plate Dimensions
3 41/64” (92 mm)
Mounting
hole
Wiring hole
5 9/64”
(131 mm)
Mounting
hole
Figure 4
3.5
Mounting plate (back view)
Mounting
The controller mounts on the supplied mounting plate, which attaches to a standard single
gang box.
To mount the controller
1. If you are connecting power or RS-485 to the controller, use AWG 22 to 24. Run the
wires to the single gang box and then through the wiring hole on the mounting plate (see
Figure 4).
2. Attach the mounting plate to the single gang box using two screws (see Figure 4).
3. Snap the controller on to the mounting plate.
12 (25)
4.0
4.1
Field Wiring
Caution:
Installation of OpenBAS controllers must be in accordance with the Canadian
Electrical Code or the National Electrical Code, and comply with all local
regulations. Appropriate wiring and conduit should be used in compliance
with local regulations. Final acceptance is subject to the Local Authority
Having Jurisdiction (AHJ).
To Wire the Terminals
Figure 2 on page 10 shows the location of the terminals.
4.1.1 Required Tools
•
Micro screwdriver, bladed, size: 0.4 x 2.0 x 60 mm
•
Wire cutter
•
Wire stripper
To wire the terminals
•
Insert the wire into the bottom round hole on the right side (the side with the labels).
To remove the wire
•
Insert a micro screwdriver into the top hole to release the wire.
13 (25)
Field Wiring
4.2
Power Supply Connection
Caution:
If you connect the controller to a power supply, disconnect the
batteries. Do not use batteries and an external power supply at the
same time.
Use 22-24 AWG wires.
•
12 Vdc, 16.8 mA max.
•
12 Vac 50/60 Hz, 24 mA max.
•
24 Vac 50/60 Hz, 24 mA max.
•
24 Vdc 16.8 mA max.
24 VAC,
12 VAC,
24 VDC,
or 12 VDC
Figure 5
14 (25)
Caution:
0V
Power supply - 12 VDC, 12 VAC, 24 VAC, 24 VDC
An appropriate UL listed class 2 power supply or transformer with
necessary protection devices such as fuses or breakers should be used
to limit the risk of fire. All local codes and regulations for installation
must be observed.
Field Wiring
4.3
Wireless Communication (OpenBAS-HV-WLSTH only)
If you are using wireless communication only and not RS-485, you can power the unit either
from an external power supply (section 4.2) or batteries (section 3.3 on page 10).
Multiple transmitters can be linked to a single receiver or to multiple receivers, depending on
the application. A transmitter can send information to one or more receivers, and a receiver
can receive information from up to ten different transmitters.
Each receiver (OpenBAS-HV-VAVFC or OpenBAS-HV-RF433R) is paired with up to 10
transmitters (OpenBAS-HV-WLSTH). In this way, the receiver can receive signals from some
transmitters, and ignore signals from others, as shown in Figure 6.
•
Maximum distance between transmitter and receiver: 15 m (49 ft) indoors, 30 m (98 ft)
outdoors with line of sight
Transmitters
Receivers
OpenBAS-HV-RF433R +
OpenBAS-HV-NX10 series
OpenBAS-HV-VAVFC
Figure 6
Wireless communication
15 (25)
Field Wiring
4.4
RS-485
If you are using RS-485, then you cannot use batteries; you must use an external power
supply. See section 4.2 on page 14.
Figure 7 shows OpenBAS-HV-WLSTH connected over wires for power and RS-485.
Note:
Connect the RS-485 reference wire to the 0V or common of the VAV controller
and the power supply.
4.4.1 RS-485 wiring requirements
•
22 AWG twisted pair
•
Maximum length: 1219.2 m (4000 feet)
•
Mircom recommends shielded cable
OpenBAS-HV-VAVFC,
OpenBAS-HV-FCX, or
OpenBAS-HV-VAVX
d-
D-
d+
D+
ref
Gnd
0V
+V
24V
24VAC or VDC
Power Supply
Figure 7
16 (25)
Networking with RS-485
OpenBAS-HV-WLSTH
or OpenBAS-HV-WRDT
Field Wiring
4.5
Buttons
Figure 8 shows the buttons.
Temperature
setpoint
decrease
Temperature
setpoint
increase
Manual/Auto
On/Off
Figure 8
Buttons
•
Temperature setpoint decrease: In automatic mode, press this button to decrease the
temperature setpoint. In manual mode, press this button to decrease the fan speed.
•
Temperature setpoint increase: In automatic mode, press this button to increase the
temperature setpoint. In manual mode, press this button to increase the fan speed.
•
Manual/Auto: This button switches between manual mode and automatic mode.
•
On/Off: This button turns the HVAC equipment it controls on or off. If the control is off,
the LCD display shows two hyphens on the screen. If the equipment is on, the screen
shows either the current temperature if it is in automatic mode or the speed of the fan if
it is in the manual mode.
17 (25)
5.0
Specifications
Standards:
UL 60730-1
FCC Part 15 / ICES-003, Class “B”
Input:
12 Vdc, 16.8 mA max., or 12 Vac 50/60 Hz, 24 mA max., or 24 Vac 50/60 Hz,
24 mA max., or 24 Vdc 16.8 mA max.
The power supply is required when using RS-485, or when using wireless
communication without batteries
Do not use power supply and batteries at the same time
Power Supply Protection:
Non-replaceable, self-resetting fuse, 1 A
Batteries (OpenBAS-HVWLSTH only):
2 AA alkaline 1.5 V batteries
Battery life: 12 to 18 months
Do not use nickel cadmium or lithium batteries
Do not use batteries and power supply at the same time
Wireless Characteristics
(OpenBAS-HV-WLSTH
only):
Frequency: 433 MHz
Communication Port:
1 RS-485 port supporting the following protocols:
Range: 15 m (49 ft) indoors, 30 m (98 ft) outdoors with line of sight
• BACnet/MSTP
• Modbus/RTU-Slave
• N2-Open
• Optomux
• ASCII
Physical Characteristics:
Weight: 120 g (4.2 oz)
Enclosure dimensions: 130 mm x 93 mm x 26 mm (5 1/8" x 3 21/32" x
1 1/32”
Ambient Conditions:
Operating: 0° to 40°C (32° to 104°F), 10% to 90% RH noncondensing
Indoor Use Only
Purpose of Control:
Thermostat
Construction of Control:
Independently Mounted
Action Type and
additional features:
Type 1
Pollution Degree:
Software Class:
Class A
18 (25)
6.0
Master Warranty and Warning
Information
Terms & Interpretation
In this document the term MGC System refers to all fire alarm, nurse call, and building
automation products manufactured by Mircom Group of Companies, Mircom Technologies
Ltd., MGC Systems Corp or subsidiaries and affiliates and includes specific systems such as
MiCare™, OpenBAS™, and FlexNet™. Moreover, the term MGC System extends to cover all
component parts and software used within such products.
Warning Please Read Carefully
All MGC Systems are subject to terms and conditions of sale as follows:
Note to Installers
This warning contains vital information. As the only individual in contact with system users, it is
your responsibility to bring each item in this warning to the attention of the users of this MGC
System. Failure to properly inform system end-users of the circumstances in which the system
might fail may result in over-reliance upon the system. As a result, it is imperative that you
properly inform each customer for whom you install the system of the possible forms of failure.
System Failures
All MGC Systems have been carefully designed to be as effective as possible. However, there
are circumstances where they may not provide protection. Some reasons for system failure
include:
Inadequate Installation
All MGC Systems must be installed in accordance with all the applicable codes and standards
in order to provide adequate protection. National standards require an inspection and approval
to be conducted by the Local Authority Having Jurisdiction following the initial installation of
the system and following any changes to the system. Such inspections ensure installation has
been carried out properly.
Inadequate Testing
Most problems that would prevent an alarm a MGC System from operating as intended can
be discovered by regular testing and maintenance. The complete system should be tested by
the Local Authority Having Jurisdiction immediately after a fire, storm, earthquake, accident, or
any kind of construction activity inside or outside the premises. The testing should include all
sensing devices, keypads, consoles, alarm indicating devices and any other operational
devices that are part of the system.
IMPORTANT NOTE: End-users of the system must take care to ensure that the system,
batteries, telephone lines, etc. are tested and examined on a regular basis to minimize system
failure.
19 (25)
Master Warranty and Warning Information
System Users
It is important that all system users be trained in the correct operation of the alarm system and
that they know how to respond when the system indicates an alarm.
A MGC System may not function as intended during an emergency situation where the user is
unable to operate a panic or emergency switch by reason of permanent or temporary physical
disability, inability to reach the device in time, unfamiliarity with the correct operation, or related
circumstances.
Insufficient Time
There may be circumstances when a MGC System will operate as intended, yet the
occupants will not be protected from the emergency due to their inability to respond to the
warnings in a timely manner. If the system is monitored, the response may not occur in time
enough to protect the occupants or their belongings.
Moreover, smoke detectors may not provide timely warning of fires caused by carelessness or
safety hazards such as smoking in bed, violent explosions, escaping gas, improper storage of
flammable materials, overloaded electrical circuits, children playing with matches or arson.
Power Failure
Some MGC System components require adequate electrical power supply to operate.
Examples include: smoke detectors, beacons, HVAC, and lighting controllers. If a device
operates only by AC power, any interruption, however brief, will render that device inoperative
while it does not have power. Power interruptions of any length are often accompanied by
voltage fluctuations which may damage MGC Systems or other electronic equipment. After a
power interruption has occurred, immediately conduct a complete system test to ensure that
the system operates as intended.
Battery Failure
If the MGC System or any device connected to the system operates from batteries it is
possible for the batteries to fail. Even if the batteries have not failed, they must be fully
charged, in good condition, and installed correctly.
MGC Systems with wireless transmitters use replaceable batteries. The system is designed
to provide several years of battery life under normal conditions. The expected battery life is a
function of the device environment, usage and type. Ambient conditions such as high humidity,
high or low temperatures, or large temperature fluctuations may reduce the expected battery
life. While each transmitting device has a low battery monitor which identifies when the
batteries need to be replaced, this monitor may fail to operate as expected. Regular testing
and maintenance will keep the system in good operating condition.
Physical Obstructions
Motion sensors that are part of a MGC System must be kept clear of any obstacles which
impede the sensors’ ability to detect movement. Signals being communicated by a MGC
System may not reach the receiver if an item (such as metal, water, or concrete) is placed on
or near the radio path. Deliberate jamming or other inadvertent radio signal interference can
also negatively affect system operation.
Moreover, MGC Systems may fail to operate as intended if motion, heat, or smoke sensors
are not triggered. Sensors in a fire system may fail to be triggered when the fire is in a
chimney, walls, roof, or on the other side of closed doors; and, smoke and heat detectors may
20 (25)
Master Warranty and Warning Information
not detect smoke or heat from fires on another level of the residence or building. In this
situation the control panel may not alert occupants of a fire.
Sensors in a nurse call system may fail to be triggered when movement is occurring outside of
the motion sensors’ range. For example, if movement is occurring on the other side of closed
doors or on another level of the residence or building the motion detector may not be
triggered. In this situation the central controller may not register an alarm signal.
Other Impairments
Similarly, Alarm Notification Appliances such as sirens, bells, horns, or strobes may not warn
or waken a sleeping occupant if there is an intervening wall or door. It is less likely that the
occupants will be alerted or awakened when notification appliances are located on a different
level of the residence or premise.
Audible notification appliances may be interfered with by other noise sources such as stereos,
radios, televisions, air conditioners, appliances, or passing traffic. Audible notification
appliances, however loud, may not be heard by a hearing- impaired person.
Software
Most MGC Systems contain software. With respect to those products, MGC does not warrant
that the operation of the software will be uninterrupted or error-free or that the software will
meet any other standard of performance, or that the functions or performance of the software
will meet the user’s requirements. MGC shall not be liable for any delays, breakdowns,
interruptions, loss, destruction, alteration or other problems in the use of a product arising out
of, or caused by, the software.
Telephone Lines
Telephone service can cause system failure where telephone lines are relied upon by a MGC
System. Alarms and information coming from an MGC System may not be transmitted if a
phone line is out of service or busy for a certain period of time. Alarms and information may
not be transmitted where telephone lines have been compromised by criminal tampering, local
construction, storms or earthquakes.
Component Failure
Although every effort has been made to make this MGC System as reliable as possible, the
system may fail to function as intended due to the failure of a component.
Security and Insurance
Regardless of its capabilities, no MGC System is a substitute for property or life insurance.
Nor is the system a substitute for property owners, renters, or other occupants to act prudently
to prevent or minimize the harmful effects of an emergency situation.
Moreover, building automation systems produced by MGC are not to be used as a fire, alarm,
or life safety systems.
21 (25)
Master Warranty and Warning Information
Warranty
Limited Warranty
Mircom Technologies Ltd., MGC Systems Corp. and MGC System International Ltd. together
with their subsidiaries and affiliates (collectively, MGC) warrants the original purchaser that for
a period of three years from the date of manufacture, proprietary manufactured product shall
be free of defects in materials and workmanship, under normal use. During the warranty
period, MGC shall, at its option, repair or replace any defective product upon return of the
product to its factory, at no charge for labor and materials. Non-proprietary, third party or
OEM product shall be warranted in accordance with the warranty period of the
manufacturer. Any replacement and/or repaired parts are warranted for the remainder of
the original warranty or ninety (90) days, whichever is longer. The original owner must
promptly notify MGC in writing that there is defect in material or workmanship, such written
notice to be received in all events prior to expiration of the warranty period.
International Warranty
The warranty for international customers is the same as for any customer within Canada and
the United States, MGC shall not be responsible for any customs fees, taxes, or VAT that may
be due.
Conditions to Void Warranty
This warranty applies only to defects in parts and workmanship relating to normal use. It does
not cover:
•
damage incurred in shipping or handling;
•
damage caused by disaster such as fire, flood, wind, earthquake or lightning;
•
damage due to causes beyond the control of MGC such as excessive voltage,
mechanical shock or water damage;
•
damage caused by unauthorized attachment, alterations, modifications or foreign
objects;
•
damage caused by peripherals (unless such peripherals were supplied by MGC);
•
defects caused by failure to provide a suitable installation environment for the products;
•
damage caused by use of the products for purposes other than those for which it was
designed;
•
damage from improper maintenance;
•
damage arising out of any other abuse, mishandling or improper application of the
products.
Warranty Procedure
To obtain service under this warranty, please return the item(s) in question to the point of
purchase. All authorized distributors and dealers have a warranty program. Anyone returning
goods to MGC must first obtain an authorization number. MGC will not accept any shipment
whatsoever for which prior authorization has not been obtained. NOTE: Unless specific preauthorization in writing is obtained from MGC management, no credits will be issued for
custom fabricated products or parts or for complete fire alarm system. MGC will at its sole
option, repair or replace parts under warranty. Advance replacements for such items must be
purchased.
22 (25)
Master Warranty and Warning Information
Note: MGC’s liability for failure to repair the product under this warranty after a reasonable
number of attempts will be limited to a replacement of the product, as the exclusive remedy for
breach of warranty.
Disclaimer of Warranties
This warranty contains the entire warranty and shall be in lieu of any and all other warranties,
whether expressed or implied (including all implied warranties of merchantability or fitness for
a particular purpose) and of all other obligations or liabilities. MGC neither assumes nor
authorizes any other person purporting to act on its behalf to modify or to change this
warranty, or to assume for it any other warranty or liability concerning this product.
This disclaimer of warranties and limited warranty are governed by the laws of the province of
Ontario, Canada.
Out of Warranty Repairs
MGC will at its option repair or replace out-of-warranty products which are returned to its
factory according to the following conditions. Anyone returning goods to MGC must first obtain
an authorization number. MGC will not accept any shipment whatsoever for which prior
authorization has not been obtained.
Products which MGC determines to be repairable will be repaired and returned. A set fee
which MGC has predetermined and which may be revised from time to time, will be charged
for each unit repaired.
Products which MGC determines not to be repairable will be replaced by the nearest
equivalent product available at that time. The current market price of the replacement product
will be charged for each replacement unit.
The foregoing information is accurate as of the date of publishing and is subject to change or
revision without prior notice at the sole discretion of the Company.
WARNING: MGC recommends that the entire system be completely tested on a regular basis.
However, despite frequent testing, and due to, but not limited to, criminal tampering or
electrical disruption, it is possible for this product to fail to perform as expected.
NOTE: UNDER NO CIRCUMSTANCES SHALL MGC BE LIABLE FOR ANY SPECIAL,
INCIDENTAL, OR CONSEQUENTIAL DAMAGES BASED UPON BREACH OF
WARRANTY, BREACH OF CONTRACT, NEGLIGENCE, STRICT LIABILITY, OR ANY
OTHE LEGAL THEORY. SUCH DAMAGES INCLUDE, BUT ARE NOT LIMITED TO, LOSS
OF PROFITS, LOSS OF THE PRODUCT OR ANY ASSOCIATED EQUIPMENT, COST OF
CAPITAL, COST OF SUBSTITUTE OR REPLACEMENT EQUIPMENT, FACILITIES OR
SERVICES, DOWN TIME, PURCHASER’S TIME, THE CLAIMS OF THIRD PARTIES,
INCLUDING CUSTOMERS, AND INJURY TO PROPERTY.
MGC MAKES NO WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR
PURPOSE WITH RESPECT TO ITS GOODS DELIVERED, NOR IS THERE ANY OTHER
WARRANTY, EXPRESSED OR IMPLIED, EXCEPT FOR THE WARRANTY CONTAINED
HEREIN.
23 (25)
7.0
Special Notices
7.1
FCC and IC Regulatory Statements
FCC ID: 2ABFD-9246AE80D86
IC ID: 1156A-DF9DBB57B1
This device complies with Part 15 / ICES-003 of the FCC / Industry Canada Rules.
Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference that may cause
undesired operation.
Cet appareil est conforme à la partie 15 du FCC et à la norme NMB-003 /ICES-003
d’Industrie Canada.
Son fonctionnement est sujet aux deux conditions suivantes:
(1) le dispositif ne doit pas produire de brouillage préjudiciable, et
(2) ce dispositif doit accepter tout brouillage reçu, y compris un brouillage susceptible de
provoquer un fonctionnement indésirable.
7.2
RF Exposure Warning
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled
environment. In order to avoid the possibility of exceeding the FCC radio frequency exposure
limits, human proximity to the antenna shall not be less than 20 cm during normal operation
and must not be co-located or operating in conjunction with any other antenna or transmitter.
7.3
RF Exposure Information
This equipment complies with ISED RSS-102 radiation exposure limits set forth for an
uncontrolled environment. This transmitter must be installed to provide a separation distance
of at least 20 cm from all persons and must not be co-located or operating in conjunction with
any other antenna or transmitter.
Cet équipement est conforme avec ISED RSS-102 des limites d'exposition aux rayonnements
définies pour un environnement non contrôlé. Cet émetteur doit être installé à au moins 20 cm
de toute personne et ne doit pas être colocalisé ou fonctionner en association avec une autre
antenne ou émetteur.
24 (25)
25
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