Metasys | DT-9100-8104 | DX-9200 LONWORKS Compatible Digital Controller

Metasys European Sales Resource Manual
Application Specific Controllers Section
Product Bulletin
Issue Date
0900
DX-9200 LONWORKS® Compatible Digital Controller
®
The LONWORKS Compatible Digital Controller,
DX-9200 series, is the ideal digital control solution
for air handling unit or distributed lighting and
related electrical equipment control applications.
As a standalone unit, or when integrated into a
LONWORKS network, the controller has both the
hardware and software flexibility to adapt to the
variety of control requirements in its targeted
applications. The controller can extend its input
and output point capability by communicating with
input/output (I/O) modules on an extension bus,
and provides monitoring and control of all
connected points at its built-in LED display.
2785
Figure 1: DX-9200
A separate display unit, DT-9100, with a text and
graphic LCD screen and keypad, provides a
customized presentation of controller data
according to the application and customer
requirements.
Additionally, the controller can share data with
®
other LONMARK compatible devices on the same
LONWORKS network. When the LONWORKS
®
network is integrated into a full Metasys network,
point and control information is available
throughout the Metasys network, and at all
Metasys operator workstations.
2659
Figure 2: DT-9100
Features and Benefits
❑ LONWORKS compatible network variable interface
Interoperates with other LONMARK devices
Open communications network system
❑ Integration into Metasys network via NCM
❑ Dynamic Data Access™ capabilities with Metasys
Facility-wide control efficiency and costeffective information availability
network
❑ Full set of control algorithms in software modules
❑ Graphic configuration tool software
Easy to configure for a wide range of standard
and custom applications
❑ Standalone control of HVAC and other related
Distributed control for system reliability
processes
❑ Real-time clock and time programs
Continued on the next page…
© 2000 Johnson Controls, Inc.
Order No. MET-SRM-C4-19
1
Features and Benefits (Cont.)
Modular hardware set for low-cost installation
in the various applications
❑ Extension bus for additional I/O points
❑ Extension modules for a variety of analog and
digital I/O combinations
Display and override capabilities are available
close to the controlled equipment
❑ Built-in local status display and control panel
❑ Optional text and graphic display unit (DT-9100)
❑ Optional manual override switches on extension
modules
N1 LAN
NCM361
NCM361
Operator
Workstation
XT
XP
DX-9200
DX-9200
METASYS
service
LonWorks
Network
XTM
power
XPx XPx
TCU
VMA
XT Bus
LonWorks
Network
VMA
LonWorks
Router
LonWorks
Router
LonWorks Backbone (optional)
Figure 3: LONWORKS Compatible Digital Controller on the Metasys Network
2
Application Specific Controllers—DX-9200 LONW ORKs Compatible Digital Controller
F lexible Installation
The DX-9200 controller is available with two
styles of base frame mounting. One base frame
is designed for mounting the controller on a
panel plate inside a control panel or directly on
the controlled equipment via DIN rail. The other
base frame is for mounting the controller in the
door of a cabinet. Both styles enable the base
frame to be mounted and connected to the field
wiring before installing the controller.
The DT-9100 display unit is designed for
mounting in the door of a cabinet and a kit is
available to enable the unit to be surface
mounted, for example, on a wall. The display
unit may also be used as a portable device with
a standard 230 VAC/12 VDC power adapter. A
cable is provided to connect the display unit to
the DX-9200 controller.
2826
Figure 4: DX-9200 with Panel Mounting
Base
2786
Figure 5: DX-9200 with Cabinet Door
Mounting Frame
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller 3
E xtension Modules
The extension (XT and XTM) and expansion
(XP) modules may be mounted next to the
controller on the same DIN rail, or remotely, up
to 1200 m from the controller.
extension modules can be connected to the
controller via the RS485 extension bus.
The XTM extension module and its expansion
modules provide a wider and more flexible range
of I/O options as well as a manual override
option on outputs.
An extension module set is assembled from
submodules, providing various combinations of
analog and digital (binary) I/O points. Up to eight
2644
Figure 6: Extension Modules with Manual Override
Table 1: Point Configuration
Point Type
Analog Inputs
Quantity
Characteristics
DX-9200
XT
XTM
8
6
4/8
0-10 VDC (impedance 300 KΩ)
0/4-20 mA DC (impedance 100 Ω)
RTD Ni1000 (JCI), A99 (JCI), and Pt1000 (DIN)
XTM only:
RTD Pt100 (DIN), Ni100 (DIN),
potentiometer (5 Kohm)
Digital (Binary) Inputs
8
4/8/16
4/8/16
Digital (Binary) Outputs
6
4/8/16
2…4/8/16
Analog Outputs
4
2
4/8
4
Dry Contacts (potential free)
24 VAC Triacs (minimum 0.05 amps, maximum
0.5 amps)
XT/XTM only: Relay Contact
(max. 250 VAC 3 amps)
XTM only: Relays with momentary, magnetically
latched or electrically held operation
0-10 VDC (10 mA maximum) or
0/4-20 mA DC
0-10 VDC (10 mA maximum) only
4 Application Specific Controllers—LONW ORKS Compatible Digital Controller DX-9200
S ensors and Actuators to Complete the System
The DX-9200 controller and extension modules
are matched to a family of sensors, actuators,
control valves, and dampers needed to complete
the control of HVAC equipment and other cooling
and heating applications. Its sensor inputs can
accept 0-10V transmitters and passive
temperature sensors from the Johnson Controls
range, as well as industry standard 4-20mA
transmitters. Outputs are available to control
both proportional and incremental electric
actuators, as well as motor control relays, staged
heating and cooling and other electrical
equipment such as lighting control relays.
Pneumatic actuators may be controlled by the
use of an external transducer.
1784
2815
Figure 7: Typical Flow Temperature Sensor
Figure 8: Typical Room Temperature Sensor
Table 2: XT Bus Configuration
Maximum number of XT/XTMs per DX
8
Maximum number of I/Os for each XT/XTM
8 analog + 8 digital (binary), or 16 digital (binary)
Maximum number of I/Os from XT/XTMs per DX
64
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
5
Table 3: Flow Chart Module Configuration Options
Flow Chart Module
Configuration Options
Analog Inputs
Sensor/transmitter ranging
High/low limits
Filter constants
Square root
Control Blocks
PID loops
Remote reset logic
Operation modes
Control limits and alarms
Sequencer and step control logic
Digital Inputs
Source points for logic functions
Pulse counters
Calculation Blocks
Averaging
Minimum or maximum select
Enthalpy, wet bulb and dew point
Input selector
Arithmetic calculator
Compare logic
Line segment function
Timer functions
Run-time counter
Totalizer and Integrator
Logic Blocks
“And”, “Or”, “Not”
State change detect
“Set” and “reset” of parameters
Time Schedule Blocks
Yearly holiday calendar
Start-stop times for days of week and holidays
Optimal start/stop modules (2 modules available)
Analog Outputs
High/low ranging
Digital Outputs
Incremental, with or without feedback
Duration adjust type
On/off, including pulse and start/stop
(DX-9200 Controller)
Digital Outputs (XT/XTM Modules)
Trend Log (for DT-9100 only)
On/off, including pulse and start/stop
LONWORKS Network Variable Inputs
Connection to inputs of flow chart modules in the controller
(see tables 4 and 5)
LONWORKS Network Variable
Outputs
Connection to outputs of flow chart modules in the controller
(see tables 4 and 5)
6
12 channels
Analog values (60 samples) or binary values (30 events)
Sample rate (5 seconds to 24 hours)
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
C onvenient Configuration Setup
D isplay Unit (DT-9100)
The DX-9200 controller does not need to be
programmed in the traditional sense. Instead,
the control algorithms, time programs and
input/output point assignments are configured
with the use of a Graphic Configuration Tool,
®
which runs under the Windows operating
system. The graphic software is installed on a
laptop computer which is plugged into the
controller’s RS-232-C port for loading the
application configuration into the controller.
The display unit provides similar features to the
built-in display panel, but the data which appears
on the screen is adapted to suit the application
with user-defined names for each value
displayed. The control of outputs and
modification of operating parameters is
password protected. Trend logs stored in the
controller are shown in graphic format and the
main screen may show the controlled equipment
as a graphic diagram with actual values
displayed. The unit can generate alarms and
keeps a log of alarms with the time and date of
occurrence. The display unit is configured using
the Graphic Configuration Tool.
Program data and parameters loaded into the
controller and into the extension modules are
2
stored in E PROM, so there is no need to reload
software after a loss of power. Real time and
operating data in the controller are stored in
battery backed RAM.
Configuring a controller and its extension
modules is a simple matter of selecting desired
module types to form a flow chart diagram,
connecting inputs to control and logic blocks,
and completing the control strategy by making
the connections from the control and logic blocks
to the outputs. Inputs may come from directly
wired sensors or from LONW ORKS network
variable inputs. Similarly outputs may be sent to
directly wired actuating devices or to LONW ORKS
network variable outputs. As the flow chart is
being filled in, the set point parameters, gains,
alarm limits, start and stop times, etc., are added
to the control and logic blocks to complete the
configuration. Names may be entered for inputs,
outputs and operating parameters for use in the
optional display unit and for project
documentation purposes.
B uilt-in Display Panel
A pplication Versatility
The DX-9200 controller can be configured to
meet a wide variety of HVAC plant applications.
Configurations may be pre-configured for
common applications to use as a foundation to
customize your particular needs. If the preconfigured examples don’t cover your needs,
you can start with a blank flow chart template on
the Graphic Configuration Tool, and configure a
totally customized process to meet your specific
application requirements.
With the LONW ORKS networking capability, an
application may be designed to run in more than
one controller as data may be exchanged
between controllers on the LONW ORKS network.
Network inputs and outputs can be used to
receive or transmit data from other LONMARK
compliant controllers on the LONW ORKS network
that are involved in the overall control strategy.
Once the controller and its extension modules
are configured, the operating parameters and
input/output values can be seen at the display
panel built into the controller. Outputs can be
manually overridden and operating parameters
may be changed by an operator who has
plugged his security key into the controller. The
same information viewed on the face of the
controller can be displayed and changed from
the Graphic Configuration Tool when in online
commissioning mode.
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
7
Table 4: LONMARK Network Variables for Model DX-9200-8454-A General Purpose
Room Control Applications
Network Variables
Variable Type
Quantity
Typical Application
Inputs:
nviSwitch1 – nviSwitch4
SNVT_switch
4
nviSwitch5 – nviSwitch8
SNVT_switch
(state field only)
SNVT_occupancy
4
nviLevPercent1 –
nviLevPercent4
SNVT_lev_percent
4
nviTempP1 – nviTempP8
SNVT_temp_p
8
nviTimeStamp
SNVT_time_stamp
1
nvoSwitch1 – nvoSwitch4
SNVT_switch
4
Send lighting level to network lighting controller
Send required motor status and speed to network
variable speed drive
Send status and value to another LONMARK device
nvoSwitch5 – nvoSwitch8
SNVT_switch
(state field only)
4
Send binary status to another DX-9200 controller
nvoOccupancy1 –
nvoOccupancy4
SNVT_occupancy
4
Send occupancy status to another network device
nvoLevPercent1 –
nvoLevPercent4
SNVT_lev_percent
4
Send relative humidity value to network controller
Send actuator position to another network device
Send analog value to another DX-9200 controller
nvoTempP1 – nvoTempP4
nvoScene1 – nvoScene4
SNVT_temp_p
4
Send temperature value to network controller
SNVT_scene
4
Send command to network lighting controller to
recall or learn a scene configuration
nviOccupancy1 –
nviOccupancy4
4
Network lighting level sensor
Motor status and speed from network variable
speed drive
Status and value from another network device
Binary status from another DX-9200 controller
Network occupancy sensor
Occupancy status from another network device
Network relative humidity sensor
Network actuator position
Analog value from another DX-9200 controller
Network temperature sensor
Temperature value from another network device
Real time clock synchronization from supervisory
device
Outputs:
8
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
Table 5: LONMARK Network Variables for Model DX-9200-8454-D AHU or Discharge Air
Control Applications
Network Variables
Variable Type
Typical Application
nviDuctStatSP
SNVT_press_p
Duct static pressure setpoint input from network sensor
nviFanDiffSP
SNVT_press_p
Fan differential setpoint input from network sensor
nviDAClSP
SNVT_temp_p
Discharge air cooling setpoint input from network controller
nviDAHtSP
SNVT_temp_p
Discharge air heating setpoint input from network controller
nviOutdoorTemp
SNVT_temp_p
Outdoor air temperature input from network sensor or supervisory
system
nviMATSP
SNVT_temp_p
Mixed air temperature setpoint input from network sensor
nviSpaceTemp
SNVT_temp_p
Space temperature input from network sensor
nviSpaceTempSP
SNVT_temp_p
Space temperature setpoint input from network controller
nviCO2ppm
SNVT_ppm
CO2 air quality sensor input from network sensor
nviCO2ppmSP
SNVT_ppm
CO2 air quality setpoint input from network controller
nviOAMinPos
SNVT_lev_percent
Outdoor air minimum position input from network controller
nviOutdoorRH
SNVT_lev_percent
Outdoor air humidity input from network sensor or supervisory
system
nviSpaceRH
SNVT_lev_percent
Space humidity input from network sensor
nviSpaceRHSP
SNVT_lev_percent
Space humidification setpoint input from network controller
nviSpaceDehumSP
SNVT_lev_percent
Space dehumidification setpoint input from network controller
nviSwitch1
SNVT_switch
Switch input (value & state) from another device
nviOccSchedule
SNVT_tod_event
Occupancy scheduler input from supervisory system
nviOccManCmd
SNVT_occupancy
Occupancy override command input from supervisory system
nviApplicMode
SNVT_hvac_mode
Normal command to plant from supervisory system
nviEmergOverride
SNVT_hvac_emerg
Emergency command to plant from supervisory system
nviState1
SNVT_state
Status / alarms (application specific) from another device
nviState2
SNVT_state
Status / alarms (application specific) from another device
nviState3
SNVT_state
Status / alarms (application specific) from another device
nviPriCoolEnable
SNVT_switch
(state field only)
Primary cool enable input from supervisory device
nviPriHeatEnable
SNVT_switch
(state field only)
Primary heat enable input from supervisory device
nviHumEnable
SNVT_switch
(state field only)
Humidification enable input from supervisory device
nviDehumEnable
SNVT_switch
(state field only)
Dehumidification enable input from supervisory device
nviTimeStamp
SNVT_time_stamp
Real time clock synchronization from supervisory device
Inputs:
Continued on the next page…
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
9
Network Variables
(Cont.)
Variable Type
Typical Application
nvoDuctStatPress
SNVT_press_p
Duct static pressure output to supervisory device
nvoRetFanPress
SNVT_press_p
Return fan pressure output to supervisory device
nvoOAEnthalpy
SNVT_enthalpy
Outdoor air enthalpy output to supervisory device
nvoSpaceEnthalpy
SNVT_enthalpy
Space enthalpy output to supervisory device
nvoDischAirTemp
SNVT_temp_p
Discharge air temperature output to supervisory device
nvoLocalOATemp
SNVT_temp_p
Local outdoor air temperature output to supervisory device
nvoMATemp
SNVT_temp_p
Mixed air temperature output to supervisory device
nvoSpaceTemp
SNVT_temp_p
Space temperature output to supervisory device
nvoRATemp
SNVT_temp_p
Return air temperature to supervisory device
nvoOADamper
SNVT_lev_percent
Outdoor air damper position to supervisory device or network
actuator
nvoCoolPrimary
SNVT_lev_percent
Primary cooling output to supervisor or network actuator
nvoHeatPrimary
SNVT_lev_percent
Primary heating output to supervisor or network actuator
nvoSpaceRH
SNVT_lev_percent
Space humidity output to supervisory device
nvoHumidifier
SNVT_lev_percent
Humidifier output to supervisor or network humidifier
nvoSupFanStatus
SNVT_switch
Supply fan status or command to network fan drive
nvoRetFanStatus
SNVT_switch
Return fan status or command to network fan drive
nvoHeatCool
SNVT_hvac_mode
Effective heat/cool output to another network device
nvoApplicMode
SNVT_hvac_mode
Application mode output to another network device
nvoEffectOccup
SNVT_occupancy
Effective occupancy output to another network device
nvoState1
SNVT_state
Status / alarms (application specific) to supervisory device
nvoState2
SNVT_state
Status / alarms (application specific) to another device
nvoState3
SNVT_state
Status / alarms (application specific) to another device
nvoState4
SNVT_state
Status / alarms (application specific) to another device
nvoEconEnabled
SNVT_switch
(state field only)
Economizer Enabled status to supervisory device or another
network device
nvoDehumidifier
SNVT_switch
(state field only)
Dehumidifier status to supervisory device or command to network
dehumidifier
nvoCWFlow
SNVT_switch
(state field only)
Condenser Water Flow status to supervisory device
nvoCWPump
SNVT_switch
(state field only)
Condenser Water Pump status to supervisory device
nvoUnitStatus
SNVT_hvac_status
Unit Status Output to supervisory device
Outputs:
10
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
P assword Protection
The controller has an optional feature to prevent
unauthorized access to its application software
configuration. When the configuration is loaded
by the Graphic Configuration Tool with a userdefined password, it cannot be uploaded by
another tool unless the password is entered.
This feature has been designed to protect
standard application configurations of OEM
(Original Equipment Manufacturer) users.
N etworking Capabilities
As powerful as the DX-9200 controller is by itself
or with extension modules, your facility will
benefit even more when controllers are
connected to a LONW ORKS network to make use
of the peer-to-peer communication feature,
enabling the controllers to share and pass data
with other LONMARK compliant controllers on the
network.
However, further benefits will be realized when
the LONW ORKS network is part of a larger
Metasys network. A Metasys Network Controller
Module (NCM) can be programmed to provide
added energy management and supervisory
control capabilities, such as trend log, historical
data storage, electrical demand limiting and
more. The NCM may communicate not only with
DX-9200 controllers but also with any other
LONMARK compliant devices for which standard
interface files are available.
The Metasys Dynamic Data Access networking
software, available from the Network Controller
Module, makes information from each controller
available throughout the facility, so that it is
possible, for example, to reset the boiler or
chiller discharge temperature set point based on
the demand requirements of a group of terminal
unit controllers. Dynamic Data Access also
makes sensor values, operating status, and
other parameters in the controller available to
operators anywhere in your facility.
I nteroperability with Other L
ONMARK
Compliant Devices
The DX-9200 controller conforms to the
LONW ORKS specifications for network data
transmission. The input and output network
variables of the DX-9200 controller for
interoperable applications are shown in tables 4
and 5. These variables may be bound to network
variables with the same SNVT data type in other
LONMARK compliant devices using a third party
LONW ORKS network configuration tool.
These variables also represent the data that can
be monitored by a supervisory system such as
the Metasys network. Access to all of the internal
operating and configuration data of the controller
is available using the Graphic Configuration
Tool.
Further information about compatibility and
interoperability with other LONMARK devices may
be requested from your local Johnson Controls
office.
H VAC Control with Flexibility
The DX-9200 controller represents the best way
to fully optimize the operation of your HVAC or
lighting equipment control applications. It can be
used as a member of the fully integrated
Metasys system, as a device on a LONW ORKS
network, or as a standalone controller, with or
without the optional display unit. It combines
ease of setup and operation, flexibility of
application, and precise control for comfort and
energy management.
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
11
S pecifications
DX-9200 LONWORKS Digital Controller
Product Codes
LONWORKS Communication
Power Requirements
Ambient Operating
Conditions
Ambient Storage
Conditions
DX-9200 LONWORKS Digital Controller
DX-9200-8454-x Controller
(x defines LONWORKS interface option, A or D)
DX-9200-8996 Cabinet Door Mounting Frame
DX-9200-8997 Panel Mounting Base
(See Table 1 for controller point configuration and
tables 4 and 5 for LONMARK network interface variables)
FTT10a transceiver
24 VAC ± 15 %, 10 VA (at 24 VAC), 50/60 Hz
0° to 40°C / 32° to 100°F
10 to 90% RH Noncondensing
-20° to 70°C / 0° to 160°F
5 to 95% RH Noncondensing
Dimensions (H x W x D)
Controller With Cabinet Door Mounting Frame
Controller With Panel Mounting Base
164 x 200 x 114mm / 6.5 x 7.9 x 4.5 in.
200 x 184 x 100 mm / 7.9 x 7.3 x 3.9 in. Allow minimum of
160 mm / 6.3 in. depth for hinged door clearance.
Shipping Weight
Controller: 1.8 kg / 4 lb. 0 oz
Panel Mounting Base: 0.8 kg / 1 lb. 12 oz
Cabinet Door Mounting Frame: 0.8 kg / 1 lb. 12 oz
Agency Listings
CE Directive 89/336/EEC EN50081-1, EN50082-1
UL Listed, CSA Certified, FCC Compliant
DT-9100 Display Unit
Product Codes
Communication
Power Requirements
Dimensions (H x W x D)
12
DT-9100-8104 Display Unit with Panel Mounting Kit
DT-9100-8902 Wall Mounting Kit
DT-9100-8901 12 VDC Power Supply for 230 VAC Source
RS-232-C (cable provided)
24 VAC +15%/-10%, 4 VA (at 24 VAC) or 9 to 18 VDC, 2 VA
150 x 180 x 47 mm / 5.9 x 7.1 x 1.9 in.
Shipping Weight
0.8 kg / 1 lb. 12 oz
Agency Listings
CE Directive 89/336/EEC EN50081-1, EN50082-1
UL Listed, CSA Certified, FCC Compliant
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
Extension and Expansion Modules
Product Codes
Product Codes
Agency Listing
XT and XP Modules without Manual Override
XT-9100
Extension Module
XP-9102
6 Analog Inputs, 2 Analog Outputs
XP-9103
8 Digital (Binary) Outputs (triacs)
XP-9104
4 Digital (Binary) Inputs, 4 Digital Outputs (triacs)
XP-9105
8 Digital (Binary) Inputs
XP-9106
4 Digital (Binary) Outputs (relay) (European Model)
XP-9107
4 Digital (Binary) Outputs (relay) (North American Model)
(See Table 1 for module point configurations)
5.5 VA
4 VA
1 VA
2 VA
6 VA
6 VA
XTM and XPx Expansion Modules with Manual Override Option on Outputs
XTM-905
Extension Module
XPA-421
4 Analog Inputs
XPA-442
4 Analog Outputs
XPA-821
6 Analog Inputs, 2 Analog Outputs
XPB-821
8 Binary Inputs
XPM-401
4 Binary Inputs, 2 Momentary Relay Binary Outputs
XPL-401
4 Binary Inputs, 3 Latching Relay Binary Outputs
XPE-401
4 Binary Inputs, 3 Electrically Latching Relay Binary Outputs
XPE-404
4 Binary Inputs, 4 Electrically Latching Relay Binary Outputs
XPT-401
4 Binary Inputs, 4 Binary Outputs (Triacs)
XPT-861
8 Binary Outputs (Triacs) (Manual Override not available.)
(See Table 1 for module point configurations)
5.5 VA
4 VA
6 VA
4 VA
3 VA
4 VA
5 VA
5 VA
6 VA
2 VA
-
All modules: CE Directive 89/336/EEC EN 50081-1, EN 50082-1
XPM, XPL and XPE only: CE Directive 73/23/EEC EN 60730
All modules, except XPA-4xx-x:
UL Listed, CSA Certified, FCC Compliant
Power Requirements
Extension Module
Expansion Modules
Transformer Module
Dimensions (H x W x D)
(1 Module)
Shipping Weight
24 VAC +10% / -15 %, 50/60 Hz, 5.5 VA at 24 VAC
24 VAC +10% / -15 %, 50/60 Hz, see above for VA ratings at 24 VAC
(TR-9100) 230 VAC, 50/60 Hz, up to 12 VA
118 x 70 x 57 mm / 4.7 x 2.8 x 2.3 in.
Extension Module: 0.15 kg / 5.3 oz
Expansion Module: 0.12 - 0.25 kg / 4.2 - 8.8 oz, depending on module type
Transformer Module: 0.47 kg / 1 lb. 1 oz
The performance specifications are nominal and conform to acceptable industry standards. 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, and reserves the right to change or supplement the contents of this publication.
Metasys® is a registered trademark of Johnson Controls. Microsoft® Windows® is a registered trademark of the Microsoft Corporation.
LONWORKS® and LONMARK® are trademarks of the Echelon Corporation.
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller 13
14
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller 15
Johnson Controls International
Westendhof 8
45143 Essen
Germany
16
www.johnsoncontrols.com
Metasys European Sales Resource Manual
Rev. Level 0900
Printed in Germany
Application Specific Controllers—DX-9200 LONW ORKS Compatible Digital Controller
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