Johnson Controls Metasys Integrator MIG3500 Series Installation Instructions Manual

Type
Installation Instructions Manual

Johnson Controls Metasys Integrator MIG3500 Series is an interface device that connects third-party devices to a Metasys Building Automation System (BAS). The MIG3500 Series unit contains the firmware of the MIG300 Series Metasys Integrator unit, but uses the same hardware platform as the Network Automation Engine (NAE) 45. It allows for communication between different devices using various protocols, making it a versatile solution for integrating third-party systems into a Metasys BAS.

Johnson Controls Metasys Integrator MIG3500 Series is an interface device that connects third-party devices to a Metasys Building Automation System (BAS). The MIG3500 Series unit contains the firmware of the MIG300 Series Metasys Integrator unit, but uses the same hardware platform as the Network Automation Engine (NAE) 45. It allows for communication between different devices using various protocols, making it a versatile solution for integrating third-party systems into a Metasys BAS.

Metasys Integrator® MIG3500 Series Installation Instructions 1
Applications
The Metasys Integrator® MIG3500 Series unit is an
interface device that connects third-party devices to a
Metasys® Building Automation System (BAS). The
MIG3500 uses the same hardware platform as the
Network Automation Engine (NAE) 45, but contains the
firmware of the MIG300 Series Metasys Integrator unit.
See Figure 1.
North American Emissions Compliance
United States
Canada
This equipment has been tested and found to comply with
the limits for a Class A digital device pursuant to Part 15 of
the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference when
this equipment is operated in a commercial environment.
This equipment generates, uses, and can radiate radio
frequency energy and, if not installed and used in
accordance with the instruction manual, may cause
harmful interference to radio communications. Operation
of this equipment in a residential area is likely to cause
harmful interference, in which case the user will be
required to correct the interference at his/her own
expense.
This Class (A) digital apparatus meets all the requirements
of the Canadian Interference-Causing Equipment
Regulations.
Cet appareil numérique de la Classe (A) respecte toutes
les exigences du Règlement sur le matériel brouilleur du
Canada.
Figure 1: Front of MIG3500 Showing Dimensions, mm (in.), and Physical Features
62
2.5
FIG:MIGfrnt_dim
24 VAC
Power Terminal
RJ-45 8-Pin
Ethernet
Port
Config Port - RS-232C
Port
(Commissioning)
N2
End-of-Line
Switch
Vendor A
RS485
Port
Battery
Compartment
System Status
Light-Emitting Diodes
(LEDs)
FIG:MIGfrnt
Restart Switch
Access Hole
Vendor B
RS232C
Port
N2 Bus
RS485
Port
RS485B
End-of-Line
Switch
131
5.2
270
10.6
Metasys Integrator® MIG3500 Series
Installation Instructions
MS-MIG3520-0
Part No. 24-10050-30, Rev. A
Release 10.0
Issued January
27, 2009
Supersedes October 6, 2008
Metasys Integrator® MIG3500 Series Installation Instructions2
Installation
Follow these guidelines when installing an MIG3500:
Transport the MIG3500 in the original container to
minimize vibration and shock damage to the
MIG3500.
Verify that all the parts shipped with the MIG3500.
Do not drop the MIG3500 or subject it to physical
shock.
Do not open the MIG3500 housing (except the
battery compartment). The MIG3500 has no
user-serviceable parts inside.
Parts Included
one MIG3500 with removable terminal plugs
one Lithium non-rechargeable battery (installed
and connected at the factory)
one Installation Instructions sheet
Materials and Special Tools Needed
three fasteners appropriate for the mounting
surface (#8 screws or M4 screws) or one 8 in.
(or longer) piece of DIN rail and appropriate
hardware for mounting the DIN rail
small straight blade screwdriver for securing wires
in the terminal blocks
Mounting
Location Considerations
Follow these guidelines when mounting an MIG3500:
If the MIG3500 is to replace an existing MIG300,
see Legacy MIG300 Replacement Considerations
.
Ensure that the mounting surface can support the
MIG3500 and any user-supplied enclosure.
Mount the MIG3500 in proper orientation
(Figure 2). A horizontal mounting orientation is
preferred, but the unit can also be mounted
vertically.
Mount the MIG3500 on an even surface in wall
mount applications whenever possible. If you must
mount the MIG3500 on an uneven surface, be
careful not to crack the mounting clips or MIG3500
housing when tightening the screws. Use shims or
washers to mount the MIG3500 evenly on the
mounting surface.
Mount the MIG3500 in areas free of corrosive
vapors, and observe the environmental limitations
listed in the Technical Specifications
section.
Allow sufficient space for cable and wire
connections (Figure 1).
Do not mount the MIG3500 where the ambient
temperature may exceed 50°C (122°F).
Do not mount the MIG3500 on surfaces that are
prone to vibration or in areas where
electromagnetic emissions can interfere with
MIG3500 communication.
Do not obstruct the MIG3500 housing ventilation
holes.
Do not mount the power transformer below the
MIG3500.
For applications where the MIG3500 is mounted inside
a panel or enclosure, follow these additional guidelines:
Do not install the MIG3500 in an airtight enclosure.
Do not install heat-generating devices in the
enclosure with the MIG3500 that may cause the
ambient temperature to exceed 50°C (122°F).
Mounting the MIG3500
Wall Mount Applications
Use the holes in the three mounting clips for wall mount
applications. To mount the MIG3500 on a wall (or other
vertical surface):
1. Ensure that all three mounting clips are inserted
into the back of the MIG3500 housing. Pull the
bottom two clips outward and snap them firmly into
the extended position (Figure 3).
2. Mark the location of the three wall mount holes
using the dimensions in Figure 2, or hold the
MIG3500 up to the wall as a template and mark the
locations.
3. Drill holes in the wall at the locations marked in
Step 2 and insert wall anchors (if necessary).
4. Position the MIG3500 and insert the screws
through the holes in the mounting clips, and
carefully tighten all the screws.
DIN Rail Mount Applications
To mount the MIG3500 on a DIN rail:
1. Securely mount and center an 8 in. (or longer)
section of DIN rail in the required space.
IMPORTANT: Do not overtighten the mounting
screws. Overtightening the screws may damage the
mounting clips or MIG3500 housing.
Metasys Integrator® MIG3500 Series Installation Instructions 3
2. Ensure that the bottom two mounting clips are
pulled outward and snapped firmly into the
extended position (Figure 3).
3. Hang the MIG3500 by the DIN rail hooks (Figure 3)
on the top track of the DIN rail, and position the
MIG3500 DIN rail channel snugly against the
tracks of the DIN rail.
4. Push the bottom mounting clips up to secure the
MIG3500 on the DIN rail tracks.
To remove the MIG3500 from the DIN rail, snap the
bottom DIN clips to the outward extended position, and
carefully lift the MIG3500 off the DIN rail.
Enclosure Mount Applications
Mount the enclosure per the manufacturer’s
instructions and mount the MIG3500 in the enclosure
following the guidelines in the Location Considerations
and Mounting the MIG3500
sections.
Legacy MIG300 Replacement Considerations
Follow these important guidelines if the MIG3500
replaces an existing MIG300 controller:
The unit size of the MIG3500 is slightly longer than
the MIG300; however, the MIG3500, like the
MIG300, is designed for DIN-rail mounting on the
horizontal plane (Figure 4). You can also mount it
with screws, either horizontally or vertically. See
Mounting the MIG3500
for details.
The wire termination locations on the MIG3500 are
different from the MIG300 (Figure 1). Pay close
attention to this when routing wires to their new
locations on the MIG3500.
Similar to the MIG300, the MIG3500 also requires
24 VAC power. See the Wiring
section.
The N2 Bus termination on the MIG300 is labeled
N2 Port, whereas the N2 Bus termination on the
MIG3500 is called N2 - RS485. If using N2 Bus
wiring that includes a shield, refer to the
N2 Communications Bus Technical Bulletin
(LIT-636018) for additional information on
terminating a shield.
For the MIG3500, an Ethernet port is available and
is used only for downloading firmware. For details,
refer to the Metasys Integrator 3500 Series
Commissioning Guide (LIT-12011439).
Figure 2: MIG3500 Mounting Screw Hole
Dimensions and Mounting Area Requirements,
mm (in.)
FIG:MIGmnthol
121
4.8
Mounting
Holes
66
2.6
140
5.5
55
2.2
130
5.1
210
8.3
350
13.8
Mounting
Holes
Figure 3: DIN Rail and Mounting Clip Features
on the Back of an MIG3500
FIG:MIG_bck
DIN Rail
Channel
Mounting Clips
(in Extended Positions)
DIN Rail
Hooks
DIN Rail
Hooks
Figure 4: Recommended Installation Location of
MIG3500 and Transformer in Standard Enclosure
FIG:MIGewc_cmp
Metasys Integrator® MIG3500 Series Installation Instructions4
The serial ports on the MIG3500 are not labeled
the same as the serial ports on the MIG300. See
Table 1.
As indicated in Table 1, Port 1 on the older models
is equivalent to the Config Port - RS232C
commissioning port on the MIG3500. When you
commission the device, connect the serial cable
from the computer to the Config Port - RS232C
port on the MIG3500.
Also indicated in Table 1, Port 2 on the older
models has no equivalent port on the MIG3500. A
device using RS-485 communication can be
connected directly to the Vendor A - RS485 port
on the MIG3500. If the device uses RS-232
communication, an RS-232 to RS-485 converter is
needed before you can use this port; or, you can
use the Vendor B - RS2323C port instead.
And lastly in Table 1, Port 3 on the older models is
equivalent to the Vendor B - RS232C port on the
MIG3500. A device connected to Port 3 on the
MIG300 can be switched to the Vendor B -
RS232C port on the MIG3500.
While the MIG3500 is restarting, the LEDs on the
unit indicate its status.
Wiring
Power Supply, Network, and Communication
Connections
See Figure 1 for the location of the power supply
terminal, RS-232 and RS-485 terminals, and Ethernet
port on the MIG3500. For additional information
regarding these connections, refer to the Metasys
Integrator 3500 Series Commissioning Guide
(LIT-12011439).
Power Supply
In North America, the MIG3500 requires a dedicated
Class 2, 24 VAC, 25 VA minimum power supply.
Outside North America, use a 24 VAC Safety
Extra-Low Voltage (SELV) transformer at the
appropriate rating. The minimum input voltage for the
MIG3500 to operate properly is 20 VAC. Maximum
power consumption is 25 VA.
Config Port - RS232C Port
The Config Port - RS232C serial port (Figure 1) is for
a direct connection using a standard 9-pin female to
9-pin female Data Terminal Equipment (DTE) to
DTE null modem cable. Use this port exclusively as a
commissioning port. It provides a VT100 terminal
emulation interface to the unit.
Vendor A - RS485 Network Terminal
The Vendor A - RS485 network terminal is a 4-position
removable, keyed terminal block. Use this terminal for
a vendor device that requires an RS-485 interface.
Vendor B - RS232C Port
The Vendor B - RS232C serial port (Figure 1) is for a
direct DTE connection. Connect to DTE equipment with
a null modem cable or to Data Circuit Equipment (DCE)
with a straight-through cable. Use this port to connect
third-party equipment that requires an RS-232
interface.
N2 - RS485 Bus Terminal
The N2 - RS485 bus network terminal is a 4-position
removable, keyed terminal block. Use this terminal to
connect to MIG3500 to the Metasys N2 network.
Refer to the N2 Communications Bus Technical
Bulletin (LIT-636018) for information and guidelines on
wiring devices on the N2 Bus.
Ethernet Port
The Ethernet connection (10 or 100 Mb/s) is an 8-pin
RJ-45 network port (Figure 1). Use this port only if you
need to load the firmware with the Metasys MIG
Update Utility (MUU) over an Internet Protocol (IP)
network connection. Do not connect the MIG3500 to a
local area network. For information on the MUU, refer
to the Metasys Integrator 3500 Series Commissioning
Guide (LIT-12011439).
Table 1: Port Comparisons: MIG300 to MIG3500
MIG300 MIG3500 Usage
Commissioning
Port
Config -
RS232C
Configuration/
Commissioning
Vendor Port A
1
1. On the MIG300, this is an RS232C port. On the
MIG3500, this is a native RS485 port.
Vendor A -
RS485
Vendor device
communication
Vendor Port B Vendor B -
RS232C
Vendor device
communication
N2 N2 - RS485 N2 Bus communication
Metasys Integrator® MIG3500 Series Installation Instructions 5
Wiring the MIG3500
Mount the MIG3500 securely before wiring the unit.
See the Mounting
section.
Follow these guidelines when wiring an MIG3500:
Route the supply power wires and communication
cables at least 50 mm (2 in.) away from the vent
slots on the sides of the MIG3500 housing.
Provide slack in the wires and cables. Keep cables
routed neatly around the MIG3500 to promote
good ventilation, Light-Emitting Diode (LED)
visibility, and ease of service.
To wire the MIG3500:
1. Connect the three N2 Bus wires to the removable
4-terminal plug as shown in Figure 5 and plug into
the port labeled N2 - RS485. If a shield is present,
follow standard practices for terminating a shield
as discussed in the N2 Bus literature. Refer to the
N2 Communications Bus Technical Bulletin
(LIT-636018).
2. If you have a vendor device with an RS-232
interface, connect the appropriate computer cable
to the Vendor B - RS232C port as shown in
Figure 6.
IMPORTANT: Do not connect 24 VAC supply
power to the MIG3500 before finishing wiring and
checking all wiring connections. Short circuits or
improperly connected wires may result in permanent
damage to the equipment.
IMPORTANT: Use copper conductors only. Make
all wiring in accordance with local, national, and
regional regulations. The MIG3500 is a low-voltage
(<30 VAC) device. Do not exceed the MIG3500
electrical ratings.
IMPORTANT: Do not remove the terminal block
keys. The terminal block plugs and the terminal
sockets are keyed to fit together in the correct
configuration only.
IMPORTANT: Prevent any static electric discharge
to the MIG3500. Static electric discharge can
damage the MIG3500 and void any warranties.
IMPORTANT: Make sure the building automation
network wiring meets the specifications, rules, and
guidelines in the Power Supply, Network, and
Communication Connections section in this
document.
Figure 5: N2 Bus Wiring
N2 - RS485
(N2 Bus)
Terminal
Block
N2 - RS485
(N2 Bus)
Terminal Block
Plug
FIG:MIGN2_bs
SHLD
COM
-
+
N2+N2-REF
Figure 6: RS-232 Vendor Wiring
From Vendor Device
(RS232)
FIG:RS232-conn
To
Vendor B - RS232C Port
Metasys Integrator® MIG3500 Series Installation Instructions6
3. If you have a vendor device with an RS-485
interface, connect its communication wires to the
Vendor A - RS485 terminal block plug as shown in
Figure 7.
4. If you have a second vendor device with an
RS-232 or RS-485 interface, connect an RS-232 to
RS-485 converter between the appropriate vendor
port on the MIG3500 and the vendor device,
referring to Figure 6 (RS-232) or Figure 7
(RS-485). This connection may also require a
gender changer or 9-to-25 pin adapter.
5. Connect the 24 VAC supply power wires from the
transformer to the removable 3-terminal plug as
shown in Figure 8. The middle terminal is not used.
Note: Power supply wire colors may be different on
transformers not manufactured by Johnson Controls.
Follow the transformer manufacturer’s instructions or
the project installation drawings.
Note: When connecting 24 VAC power to the
MIG3500s and field devices on the network, be
consistent so that transformer phasing is uniform
across the devices. Powering devices with uniform 24
VAC supply power phasing reduces noise,
interference, and ground loop problems. The MIG3500
does not require an earth ground connection.
Wiring Considerations and Guidelines for Network Integrations
Figure 7: RS-485 Vendor Wiring
Vendor A
RS485
Terminal Block
Plug
FIG:vndrA
+
-
REF
From Vendor Device (RS-485)
Figure 8: 24 VAC Supply Power Wiring
Power Terminal
Block
Power Terminal
Block Plug
Wires from
Johnson Controls
24 VAC Class 2
Power Transformer
Brown Wire
(COM)
Orange Wire
(24 VAC)
FIG:MIGpwr_prt
24V~
COM
HOT
Table 2: Guidelines for Vendor Networking
Category Rules/Maximums Allowed
General The MIG3500 can have either:
One RS-485 device interface and one RS-232 device interface
Two RS-485 device interfaces
1
Two RS-232 device interfaces
1
1. One of the device interfaces requires RS232 to RS485 converter as an additional component.
Only daisy
-chained devices
Number of Supported Devices Refer to the vendor-specific application note available on QuickLit.
RS-232 Cable Length Up to 19,200 baud: 15 m (50 ft) between MIG3500 and vendor equipment
Higher than 19,200 baud: 4 m (13 ft) between MIG3500 and vendor equipment
RS-485 Cable Length and Type 1,500 m (5,000 ft) twisted pair cable without a repeater
4,500 m (15,000 ft) twisted pair cable from an NAE and the farthest FC device (three
segments of 1,500 m [5,000 ft] each, separated by repeaters)
2,000 m (6,600 ft) between two fiber modems
RS-485 Cable Wire Type and Size Solid or stranded 22 AWG recommended (24 AWG twisted pair or larger is acceptable)
Terminations EOL switch available for RS-485 B terminal port (if required)
Metasys Integrator® MIG3500 Series Installation Instructions 7
Setup and Adjustments
Battery
The MIG3500 is shipped with a battery installed and
connected. If the MIG3500 experiences a power loss,
the battery maintains the current time and date stored
in the unit. The battery is non-rechargeable and field
replaceable.
Turning On the MIG3500
After applying 24 VAC power, the MIG3500 requires
approximately 2 minutes to start up and become
operational. See the LED Test Sequence at Startup
section.
Startup is complete and the MIG3500 is operational
when the (green) RUN LED is On steady and the (red)
FAULT LED is Off (Figure 11). If this is a new MIG3500
without a firmware image, the RUN LED continues to
flash, indicating that the unit needs to be
commissioned with the MUU. Refer to the Metasys
Integrator 3500 Series Commissioning Guide
(LIT-12011439) for additional information on
commissioning an MIG3500.
Disconnecting Power from the MIG3500
When 24 VAC supply power to a MIG3500 is
disconnected or lost, the MIG3500 turns off
immediately.
Setting N2 Bus End-of-Line Switch
N2 Bus applications require at least one terminated
device on each N2 Bus segment; but two terminated
devices, one at each end of the N2 Bus segment, are
recommended. The MIG3500 has an End-of-Line
(EOL) switch that allows you to set the MIG3500 as a
terminated device. The MIG3500 is shipped with the
EOL A switch in the factory default, ON (up) position
(Figure 9). Set the EOL A switch to the appropriate
position for each MIG3500 in your network. For more
details, refer to the Setting Terminations section of the
N2 Communications Bus Technical Bulletin
(LIT-636018).
Setting RS485 EOL B Switch
RS485 serial protocol bus segments require proper
EOL termination to reduce interference from signal
bounce back on the bus segment. An EOL switch for
the Vendor A - RS485 port on the MIG3500 is provided
for this purpose. Vendor devices at either end of the
RS485 bus must be set as terminated devices. The
MIG3500 is shipped with the EOL B switch in the
factory default, ON (up) position (Figure 10). Set the
EOL B switch to the appropriate position for each
MIG3500 in your network.
Troubleshooting
LED Status Indicators
The MIG3500 has a bank of LEDs to indicate power
and network communication status. Figure 11 shows
the LEDs and Table 3 describes the LED indications.
IMPORTANT: Wait for the MIG3500 to complete
the start-up sequence and the RUN LED to go On
steady before initiating any other action on the
MIG3500.
Figure 9: N2 Bus EOL A Switch in the
Factory Default ON (Up) Position
FIG:MIG_EOL
1
Figure 10: RS485 EOL B Switch in the Factory
Default ON (Up) Position
FIG:MIG_EOL
1
Figure 11: MIG3500 LED Designations
ETHERNET
10 LINK
100 LINK
RUN
POWER
FAULT
N2 PORT TX
VENDOR A TX
VENDOR B TX
VENDOR B RX
FIG:MIG_LED
Metasys Integrator® MIG3500 Series Installation Instructions8
LED Test Sequence at Startup
When you connect power to the MIG3500, it initiates a
2-second LED test to verify the operational status of its
LEDs. After this test, the operating system is loaded,
the MIG3500 application starts, the MIG3500 database
is loaded from flash memory, and MIG3500
initialization occurs.
A steady On RUN LED indicates a fully initialized
MIG3500. For details, refer to the Metasys Integrator
3500 Series Commissioning Guide (LIT-12011439).
For more information about the other possible
behaviors of the MIG3500 LEDs, see Table 3.
Repair Information
If you replace an MIG3500 on a site with a new
MIG3500 for any reason, or add a new MIG3500 to a
site, you must update the system database to ensure
that the new MIG3500 is recognized and able to
communicate with the site.
Refer to the Metasys Integrator 3500 Series
Commissioning Guide (LIT-12011439) for information
on removing an MIG3500 from service and configuring
a replacement MIG3500.
Table 3: MIG3500 LED Designations, Normal Status, and Descriptions
LED Designation Normal Status Descriptions/Other Conditions
POWER (Green) On Steady On Steady = Unit is getting power from the 24 VAC supply.
Off Steady = Unit is shut down.
FAULT (Red) Off Steady Flicker Once, Then Device Continually Restarts = Internal fault has
occurred.
N2 PORT TX
(Green)
Flicker Flicker = Normal communications; the N2 Bus is transmitting and receiving
data. Flickers are generally in sync with data transmission, but should not be
used to indicate specific transmission times.
Off Steady = No field controllers are defined for the MIG3500 N2 Bus.
VENDOR A TX
(Green)
Flicker Flicker = Data is being transmitted from the MIG3500 to the vendor device
connected to the Vendor A - RS485 port.
VENDOR B TX
(Green)
Flicker Flicker = Data is being transmitted from the MIG3500 to the vendor device
connected to the Vendor B - RS232C port.
VENDOR B RX
(Green)
Flicker Flicker = Data is being received by the MIG3500 from the vendor device
connected to the Vendor B - RS232C port.
ETHERNET (Green) Flicker Flicker = Data is transferring on the Ethernet connection. This LED is only
active when the MUU is downloading the firmware to the unit.
Off Steady = No Ethernet traffic on the Ethernet connection, indicating the
MUU is not in use or is not downloading the firmware to the unit.
10/LINK (Green) On Steady On Steady = Ethernet connection is established at 10 Mbps.
100/LINK (Green) On Steady On Steady = Ethernet connection is established at 100 Mbps.
RUN (Green) On Steady On Steady = MIG3500 software is fully initialized.
Off = MIG3500 unit is not powered or is starting up.
On 0.5 seconds, Off 0.5 seconds = MIG3500 software is starting up.
Table 4: MIG3500 Ordering Information
Product Code
Number
Description
MS-MIG3520-0
1
MIG3500 Metasys Integrator: Requires a 24 VAC power supply. Each model includes one RS-232-C
commissioning port, one_RS-232-C vendor serial port, one RS-485 vendor port, one N2 Bus
communication port, one Ethernet port, and a battery.
MS-MIGSWO-1 Metasys Integrator software with latest version of all downloadable drivers/tables used to
commission MIG3500.
1. For the European version, add an E after the code number. For repair parts, replace the -0 suffix with -700.
Metasys Integrator® MIG3500 Series Installation Instructions 9
Technical Specifications
Table 5: MIG3500 Accessories Ordering Information
Product Code
Number
Description
Y65T31-0 Power transformer (Class 2, 24 VAC, 40 VA maximum output), no enclosure
AS-XFR050-0
Power transformer (Class 2, 24 VAC, 50 VA maximum output), no enclosure
EN-EWC25-0 Standard enclosure with dimensions: 406 x 406 x 190 mm (16 x 16 x 7.5 in.)
MM-CVT101-0 RS232 to RS485 Converter (old style)
AS-CVTPRO300-1 Zone Bus/N2 Bus Interface Converter with 120 VAC/3 VDC External Power Adapter (North American
version)
IU-9100-8401 RS232 to RS485 Interface Unit (European use only)
MIG3500 Model
Power Requirement Dedicated nominal 24 VAC, Class 2 power supply (North America), Safety Extra-Low
Voltage (SELV) power supply (Europe), at 50/60 Hz (20 VAC minimum to 30 VAC
maximum)
Power Consumption 25 VA maximum
Ambient Operating Temperature 0 to 50°C (32 to 122°F)
Ambient Operating Conditions 10 to 90% RH, 30°C (86°F) maximum dew point
Ambient Storage Temperature -40 to 70°C (-40 to 158°F)
Ambient Storage Conditions 5 to 95% RH, 30°C (86°F) maximum dew point
Battery Non-rechargeable lithium 3.0 V, 160 mAh; typical life of 5 to 7 years at 21°C (70°F)
Panasonic® CR2025 or equivalent
Processor 192 MHz Renesas™ SH4 7760 RISC processor
Memory 128 MB Flash nonvolatile memory
128 MB Synchronous Dynamic Random Access Memory (SDRAM)
Operating System Microsoft® Windows® CE embedded
Network and Serial Interfaces One Ethernet port; 10/100 Mb/s; 8-pin RJ-45 connector
One optically isolated RS-485 port; 9600 bps; pluggable and keyed 4-position terminal
block
Two RS232C serial ports with standard 9-pin sub-D connectors that support standard
baud rates.
Dimensions
(Height x Width x Depth)
131 x 270 x 62 mm (5.2 x 10.6 x 2.5 in.)
Minimum space for mounting: 210 x 350 x 110 mm (8.3 x 13.8 x 4.3 in.)
Housing Plastic housing material: ABS + polycarbonate; Protection: IP20 (IEC60529)
Mounting On flat surface with screws on three mounting clips or a single 35 mm DIN rail
Shipping Weight 1.2 kg (2.7 lb)
Compliance United States
UL Listed (PAZX), UL 916
FCC compliant, CFR47, Part 15, Class B
Canada
UL Listed (PAZX7), CAN/CSA C22.2 No. 205
Industry Canada compliant
Europe
EMC Directive, 89/336/EEC
Australia/New Zealand
C-Tick mark compliant
The performance specifications are nominal and conform to acceptable industry standard. For application at conditions beyond these
specifications, consult the local Johnson Controls® office. Johnson Controls, Inc. shall not be liable for damages resulting from misapplication
or misuse of its products.
Published in U.S.A. www.johnsoncontrols.com
Metasys Integrator® MIG3500 Series Installation Instructions10
Metasys® and Johnson Controls® are registered trademarks of Johnson Controls, Inc.
All other marks herein are the marks of their respective owners. © 2009 Johnson Controls, Inc.
Building Efficiency
507 E. Michigan Street, Milwaukee, WI 53202
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Johnson Controls Metasys Integrator MIG3500 Series Installation Instructions Manual

Type
Installation Instructions Manual

Johnson Controls Metasys Integrator MIG3500 Series is an interface device that connects third-party devices to a Metasys Building Automation System (BAS). The MIG3500 Series unit contains the firmware of the MIG300 Series Metasys Integrator unit, but uses the same hardware platform as the Network Automation Engine (NAE) 45. It allows for communication between different devices using various protocols, making it a versatile solution for integrating third-party systems into a Metasys BAS.

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