Johnson Controls MC-312 N NB IoT Outdoor wireless magnetic contact Guide d'installation

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Guide d'installation
MC-312N NBIoT Outdoor wireless
magnetic contact with auxiliary input
InstallationGuide
Overview of the MC-312N NBIoT
The reference to MC-312N NBIoT throughout this manual includes the model MC-312N NBIoT.
Figure 1: MC-312N NBIoT
1
2
Table 1: Device overview
Callout Component
1 Device
2 Magnet
The MC-312 NBIoT is a wireless outdoor magnetic contact with an auxiliary input. This outdoor
contact is an internet of things (IoT) device and works in narrowband (NB) IoT networks while
connecting with data and device management (DM) servers.
The MC-312N NBIoT has a range of features, which include:
Flat and curved surface installation
Weatherproof and water-resistant IP66 outdoor transceiver
Separate transmissions from sensor and auxiliary input that trigger the same cellular
transmitter
Battery life of up to 2 years with typical use
Integrated magnetic sensor
Anti-masking detection
Auxiliary hardwired input, programmable as either normally open, normally closed, end of
line or double end of line for use with an additional device
Front and back tamper detection
Paintable using non-metallic paint. Suggested paints include: DUPLI-COLOR Vinyl & Fabric
Coating, RUST-OLEUM Plastic, KRYLON Fusion for Plastic
Temperature level reports
Bluetooth low energy (BLE) interface supporting the Installer and User Apps for local settings
Over the air (OTA) and firmware over the air (FOTA) upgrade capability
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Power Save Mode (PSM)
Getting Started
Inserting the Micro SIM card
Important:
- In order to match the temperature range of the device, use an industrial grade IoT/
M2M Micro SIM card. For more information, see Specifications.
- The Micro SIM card tray is located behind the batteries in the device. Before inserting
the Micro SIM card you must remove the batteries. For more information, see Inserting
or replacing the batteries
1. Slide up the metal cover to the OPEN position.
2. Open the cover.
3. Place the Micro SIM card in the tray with the chip face down.
4. Close the metal cover.
5. Slide the cover back to the LOCK position.
Figure 2: Inserting the Micro SIM card
Inserting or replacing the batteries
WARNING:
- There is a risk of explosion if you replace the batteries with an incorrect type.
- Dispose of used batteries according to the battery manufacturer's instructions and
according to local rules and regulations.
1. Insert a flat-head screwdriver into the slots provided and push upward to remove the
decorative cover. See Figure 6
2. Unscrew the battery cover screw, then remove the battery cover. See Figure 3.
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Figure 3: Removing the battery cover
3. To replace the batteries, remove the old batteries and wait one minute.
4. Insert the new batteries with the + and - symbols matching the illustration in the battery
compartment.
5. Replace the battery cover and close the screw. Reattach the decorative cover. See Figure 4 .
Figure 4: Replacing the battery cover
Enrolling the NBIoT device
Note: Before enrolling the device you should perform a link quality test. For more information,
see Performing a link quality test
For the device to operate as expected you must enroll or register the device at the device manager
(DM) server. To do so, complete the following steps:
1. Insert the SIM card into the device. For more information, see Figure 2
2. Insert the batteries. For more information, see Inserting or replacing the batteries
3. Leave the battery cover open.
4. Follow the instruction on the application to enroll and register the device.
Note: You can find your 15 digit IMEI number and PIN code printed on the box of the
device when prompted by the application.
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Installation guidelines
Only qualified service personnel can install the device.
Place the device above the door or window on the fixed frame. Place the magnet on the
movable part of the door or window. Do not place the magnet more than 44.5 mm or 1.75 in.
from the marked side of the device.
Mount the magnet either parallel or perpendicular to the device. For more information, see
Figure 12 or Figure 13
For devices with a back tamper, ensure the device is seated firmly within the bracket at all
times and that the break-away bracket segment is fastened securely to the mounting surface.
For more information, see callout 2 and callout 3 in Figure 7. For more information about
tamper detection, see Tamper detection
Figure 5: Device interior
Callout Description
1 Front tamper switch
2 Sim card holder
3 Anti-masking calibration button
Mounting the NBIoT device on a flat or curved surface
1. Note: Align the device and magnet according to the specifications in Range coverage
directions.
To remove the decorative cover, insert a flat-head screwdriver into the slot provided and push
upward. See Figure 6
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Figure 6: Removing decorative cover
2. Unscrew the lower screw from the device cover and separate the device from the bracket. See
Figure 7
Figure 7: Seperating the device
3. Mark, drill, and screw the required amount of holes in the mounting surface with one of the
following options:
- For tamper protection, use both middle holes. See Figure 8 and callout 2 and callout 3
in Figure 7.
- For a standard mount, use the uppermost and lowermost hole in the device bracket
only. See Figure 8 and callouts 1 and 4 in Figure 7.
- To mount the device impermanently on a curved surface, insert the straps through
the slots in the device and magnet brackets. Fasten both straps to the curved surfaces.
See Figure 9
Note: Straps are not included with the product.
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Figure 8: Flat surface mounting
Figure 9: Curved surface mounting
4. Reattach the device to the bracket and close the cover screw. Close the decorative cover. See
Figure 8.
5. Mount the magnet base to an adjacent surface with the two supplied screws and attach the
magnet to the magnet bracket. See Figure 8.
Note: The magnet can be mounted parallel or perpendicular to the device. Ensure that
the magnet and device sensor markings align, depending on the magnet orientation.
For more information, see Figure 12 or Figure 13.
Tamper detection
The device is tamper protected front and back. The front tamper switch of the device activates
when the cover is removed. The unit also has a back-tamper switch under the PCB. As long as the
PCB is seated firmly within the base, the switch lever will be pressed against a special break-away
base segment that is loosely connected to the base. Any unauthorized tampering with these items
will result in an alarm.
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Figure 10: Back tamper
Tamper detection includes the following features:
Tamper alarm report when the cover is removed. For more information, see Figure 5
Tamper alarm report when the back tamper is opened
Tamper restore message when you close the front cover and back tamper
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Advanced settings
Anti-Mask guidelines
The anti-mask (AM) feature detects sabotage attempts, such as magnetic tampering.
Complete the anti-mask learning process only after the enrollment process. Ensure that the
device and the magnet are in the final installation position. This must be the shortest distance
between the magnet and the device.
Note: For more information on the enrollment process, see Enrolling the NBIoT device.
To receive an alert when something interferes with the magnet, set the anti-mask
configuration to Enable.
Keep any additional magnets away from the device during the calibration process. A screw
driver with a magnetic tip can also interfere.
For more information see Calibrating the anti-mask
Calibrating the anti-mask
1. Position the device and magnet pointers to face each other, as shown in Figure 12 or Figure
13.
2. Ensure that the device and magnet are placed no more than 5 mm or 0.2 in. apart on the Z
plane. See Figure 12 or Figure 13
3. Press and hold the anti-masking calibration button for 6 to 8 seconds to start the anti-mask
learning process. Do not release the anti-masking calibration button while the yellow LED
is lit. Release the button after the green LED lights at 6 seconds and before 8 seconds. If
successful, the green LED flashes three times. If unsuccessful, the red LED flashes three
times.
4. During the anti-mask learning process, the sensor and the magnet must be stable for 10
seconds. If the door is open while you press the anti-masking calibration button, the anti-
mask learning process is ignored.
Performing a link quality test
You should perform this test before enrolling to ensure the device is in an optimum position. To
perform the link quality test, follow these steps:
1. Insert the SIM card. For more information, see Inserting the Micro SIM card
2. Insert the batteries. For more information, see Inserting or replacing the batteries
3. Leave the battery cover open.
4. Open the user application.
Note: You can find the 15-digit IMEI number and pin code on the box of the device when
prompted by the application.
5. The application can report the link quality as Strong, Good, Fair, or Poor.
Note: A strong or good link quality is required for UL installations.
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Wiring the auxiliary input
Note: To see more information about possible wiring options, see Auxiliary wiring options
1. Remove the jacket at the end of the cable to expose the wires within.
2. Perforate the silicon gasket at the back of the NBIoT device with a 0.8 mm. or 0.03 in. pin.
3. Pass each wire through an entry hole and out the opposite side.
4. Remove the insulation from the end of each wire.
5. Connect each wire to the relevant terminal, referencing Auxiliary wiring options.
6. Screw the terminal closed using a flat head screwdriver.
Auxiliary wiring options
Add more devices to the circuit for normally closed (NC), normally open (NO), end of line (EOL), or
double end of line (DEOL) applications. For more information regarding each application type, see
the following definition list:
NC: Use only series connected NC sensor contacts if the auxiliary input of the detector is
defined as a normally closed type. An EOL resistor is not required. See callout B in Figure 11.
NO: Use only parallel connected NO sensor contacts if the auxiliary input of the detector is
defined as a normally open type. An EOL resistor is not required. See callout A in Figure 11.
EOL: For EOL supervision, use NC or NO sensor contacts. A 5.6 kΩ EOL resistor must be wired
at the far end of the zone loop. See callout C and callout D in Figure 11.
DEOL: For DEOL supervision, use NC sensor contacts only. Two 5.6 kΩ EOL resistors must be
wired at the far end of the zone loop. For more information, see callout E in Figure 11 .
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Figure 11: Alarm circuit options with E.O.L. resistors
Callout Description
A NO switch
B NC switch
C EOL: NO switch; 5.6 kΩ resistor
D EOL: NC switch; 5.6 kΩ resistor
E DEOL: NC switch only;
R1=5.6 kΩ resistor; S1=tamper
R2=5.6 kΩ resistor; S2=Alarm
Range coverage directions
Depending on what type of surface you mount the device and magnet, there are optimum ranges.
When you mount the device and magnet on a slide door, refer to X. When you mount the device
and magnet on a roller shutter, refer to Y. When you mount the device and magnet on a normal
door, refer to Z. For more information, see Table 2 and Figure 12 or Figure 13.
Table 2: Range coverage directions
Non-metallic surface Metallic surface
Axes Open Close Open Close
X up 40 mm or 1.6 in. 33 mm or 1.3 in. 32 mm or 1.26 in. 25 mm or 0.98 in.
X down 22 mm or 0.9 in. 17 mm or 0.67 in. 17 mm or 0.67 in. 8 mm or 0.3 in.
Y 71 mm or 2.8 in. 52 mm or 2 in. 48 mm or 1.89 in. 35 mm or 1.38 in.
Z 85 mm or 3.35 in. 55 mm or 2.17 in. 55 mm or 2.17 in. 30 mm or 1.2 in.
Note: The values stated may vary by up to 10%. For steel installations, the gaps cannot be less
than 3.2 mm or 0.126 in.
Note: X up refers to the upper half of the X plane and X down refers to the bottom half of the
device on the X plane. See Figure 12, and Figure 13.
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Figure 12: Parallel range coverage directions
Figure 13: Range coverage directions with perpendicular magnet
Configuring the NBIoT device
To configure the NBIoT device settings, open the AlarmInstall application and see the options in the
following definition list:
To set the auxiliary input, select one of the following options: Normally open, Normally
closed, End of line, Double end of line or Disabled. The default setting is Disabled. For
more information, see Auxiliary wiring options
Anti-mask: To enable anti-mask protection, select Enabled. To disable anti-mask protection,
select Disabled. The default setting is Disabled.
Note: The installer can configure locally through the BLE interface or remotely using the DM
Server. Remote configuration is delivered to the NBIoT device when it is in wake up mode.
Managing the Bluetooth low energy interface
1. To activate the Bluetooth low energy (BLE) interface insert the batteries. The BLE then actives
for an initial 3 mins.
2. Ensure the tamper is open. The BLE remains active while the tamper is open.
3. The BLE interface disables when you close the tamper and there is no active BLE session.
Note: If the device does not appear in a scanner search, remove and reinsert the
batteries and ensure the tamper is open to reactive the BLE.
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Specifications
Frequency Band (MHz) 4G Bands: B1, B2, B3, B4, B5, B8, B12, B13, B18, B19, B20, B25, B26,
B27, B28, B66, B71, B85
BLE: 2.4 to 2.5 GHz
SIM card type Industrial grade IoT/M2M Micro SIM (3FF)
Maximum Tx Power LTE: 21 dBm (Power Class 5)
BLE: 5dBm
Alarm input One internal and one auxiliary
Communication protocol LwM2M
Battery type 2 x AA Ultimate Lithium Energizer battery only
Battery life expectancy Up to 2 years with typical use
Low battery threshold 3.0V *
* Dependant on temperature. From -10°C to 66°C the threshold is
3.05V
Battery supervision Every 24 hours
Operating Temperature -40°C to 66°C or -40°F to 151°F
Color Dark gray
Relative Humidity (RH) Average relative humidity of approximately 75% non-condensing.
Dimensions (LxWxD) 105 mm x 52 mm x 35 mm (4.1 in. x 2 in. x 1.4 in.)
Device weight (including
batteries)
154 g or 5.4 oz
Device limitations
DSC wireless systems are very reliable and are tested to high standards. However, the device can be
installed in a place with bad LTE communication. Bad RSSI signal causes the network connection to
become unstable which can cause significant delay in sending alarms or alerts.
Receivers may be blocked by radio signals occurring on or near their operating frequencies,
regardless of the digital code used.
A receiver responds only to one transmitted signal at a time.
Wireless devices should be tested regularly to determine if there are sources of interference
and to protect against faults.
Compliance with standards
MC-312N NBIoT complies with the following standards:
MC-312N NBIoT USA: FCC (915 MHz): CFR 47 part 15, 22/24
Canada: IC-RSS-247
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Note: This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment generates,
uses and can radiate radio frequency energy and, if not installed and used in accordance with
the instructions, may cause harmful interference to radio communications. However, there
is no guarantee that interference will not occur in a particular installation. If this equipment
does cause harmful interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the interference by
one or more of the following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
Consult the dealer or an experienced radio / TV technician for help.
Cet équipement a été testé et jugé conforme aux limites s’appliquant à un appareil numérique de
classe B, conformément à la Partie 15 des réglementations de la FCC. Ces limites ont été élaborées
pour offrir une protection raisonnable contre les interferences nuisibles dans une installation
résidentille.
This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numerique de la classe B est conforme a la norme NMB-003 du Canada.
WARNING: Changes or modifications to this unit not expressly approved by the party
responsible for compliance could void the user’s authority to operate the equipment.
This device complies with Part 15 of the FCC Rules and with ISED license-exempt RSS standard(s).
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.
Le présent appareil est conforme aux CNR d'ISED applicables aux appareils radio exempts de
licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas
produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique
subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.
To comply with FCC and IC RF exposure compliance requirements, the device should be located at
a distance of at least 20 cm from all persons during normal operation. The antennas used for this
product must not be co-located or operated in conjunction with any other antenna or transmitter.
Le dispositif doit être placé à une distance d'au moins 20 cm à partir de toutes les personnes au
cours de son fonctionnement normal. Les antennes utilisées pour ce produit ne doivent pas être
situés ou exploités conjointement avec une autre antenne ou transmetteur.
Limited Warranty
Digital Security Controls warrants that for a period of 12 months from the date of purchase, the
product shall be free of defects in materials and workmanship under normal use and that in
fulfilment of any breach of such warranty, Digital Security Controls shall, at its option, repair or
replace the defective equipment upon return of the equipment to its repair depot. This warranty
applies only to defects in parts and workmanship and not to damage incurred in shipping or
handling, or damage due to causes beyond the control of Digital Security Controls such as
lightning, excessive voltage, mechanical shock, water damage, or damage arising out of abuse,
alteration or improper application of the equipment.
The foregoing warranty shall apply only to the original buyer, and is and shall be in lieu of any and
all other warranties, whether expressed or implied and of all other obligations or liabilities on the
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part of Digital Security Controls. Digital Security Controls neither assumes responsibility for, nor
authorizes any other person purporting to act on its behalf to modify or to change this warranty,
nor to assume for it any other warranty or liability concerning this product.
In no event shall Digital Security Controls be liable for any direct, indirect or consequential
damages, loss of anticipated profits, loss of time or any other losses incurred by the buyer in
connection with the purchase, installation or operation or failure of this product.
Warning: Digital Security Controls 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.
Important Information: Changes or modifications not expressly approved by Digital Security Controls
could void the user’s authority to operate this equipment.
INTERNET: www.dsc.com
©2022 Johnson Controls. All rights reserved. JOHNSON CONTROLS, TYCO and DSC are trademarks
and/or registered trademarks. Unauthorized use is strictly prohibited.
D-308924 Rev.00 05/22
©2022 Johnson Controls. All rights reserved. JOHNSON CONTROLS and DSC are trademarks and/or registered trademarks.
Unauthorized use is strictly prohibited.
D-308914 MC-312N NBIoT Rev. 0
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Johnson Controls MC-312 N NB IoT Outdoor wireless magnetic contact Guide d'installation

Catégorie
Les smartphones
Taper
Guide d'installation