Fan Coil Unit Controller

Metasys European Sales Resource Manual Application Specific Controllers Section Product Bulletin Issue Date

0198

Fan Coil Unit Controller The TC-9102 Series Fan Coil Unit Controller is designed for digital control of fan coil units with heating and/or cooling coils, and a single-speed, three-speed or variable-speed fan. The comfort set point and occupancy mode may be adjusted from the TM-9100 Series Room Command Module, which can also provide manual override of fan speed in three-speed fan applications. The intelligent room command module also provides local weekly time scheduling control. The controller is designed for field installation or for use by original equipment manufacturers. The fan coil unit controller can operate in standlone mode with local room override control, or it can communicate on the Metasys® N2 Bus, allowing monitoring and facility-wide control applications on the network.

Figure 1: TC-9102 Controller

Figure 2: TM-9160 and TM-9180 Series Room Command Modules

Features and Benefits

❑ Range of models designed for field and factory installations ❑ Relay outputs for fan control

Low-cost installation for a wide range of fan coil unit applications

❑ Choice of output types for heating and cooling control ❑ Software configuration tool ❑ Library of configurations for all models ❑ Multiple modes of operation for various occupancy

Ease of configuration and commissioning Comfort with economy

conditions

❑ Setpoint adjustment and mode override from room command

Local control by occupants

module

❑ Local display of room temperature and set point in intelligent room command module

❑ Weekly time schedule option in intelligent room command module

❑ N2 Bus communications for supervisory network ❑ Dynamic Data Access™ networking software capabilities ❑ Standalone operation

Facility-wide control efficiency and cost-effective information sharing System reliability

❑ Nonvolatile memory (EEPROM) © 1998 Johnson Controls, Inc. Order No. MET-SRM-C4-03

1

N 1 LAN

NCM 300

NCM 300

Operator Wo rksta tion

0 0 Po wer

ME T AS Y S

P ower ME T A S Y S R /T R /T

+3

-3

+3

-3

K

K

T C9 102

T C9102

TM-9160

TC-9102

TM-9160

TC-9102

0

P ower

ME T A S Y S

R /T

+3

-3 K T C9102

TM-9160

TC-9102

XT -9 10 0 DX-9100

XT-B us P ower

ME T A S Y S

R /T

T C9102

s et

XT -9 100

es c

XT M

TC-9102

TM-9180

N2 B us

N2 Bus XT M

XT M

Figure 3: Fan Coil Unit Controller on the Metasys Network

2

Application Specific Controllers—Fan Coil Unit Controller

Companion Workstation

0

Power

-3

+3

METASYS

R/T

K

TC9102

TM-9160

XTM

TC-9102

Power

METASYS

R/T

set

esc TC9102

XT-9100

TM-9180 TC-9102

DX-9100

N2 Bus XT-Bus XT-9100 Figure 4: Metasys Companion with Fan Coil Unit Controller


3

O ccupancy Comfort with Economy and Flexibility The fan coil unit controller offers three modes of operation -- comfort, standby and night -- which can be set from an operator workstation on a Metasys network, or controlled by the local room occupants with override possibilities from the supervisory network. In the simplest and most economical option, a room command module provides the occupant with set point control and a button to switch between comfort and standby modes. Set point adjustment can be restricted within a certain range to allow occupants control over their environment, but not to compromise energy savings. A second option uses an intelligent room command module which has a digital display and shows the current room temperature, set point, time of day and mode of operation. The occupant may adjust the set point and override the mode of operation and fan speed. The intelligent room command module may also be equipped with a time schedule which allows the occupant to enter a weekly schedule for comfort, standby and night modes and to manually set the controller to any

mode, overriding the time schedule. This option gives maximum flexibility to the occupant and allows maximum energy savings when there is no supervisory network installed. Whatever local options are chosen, the controller operating mode can be taken over by the supervisory network and local control is automatically restored if the supervisory network becomes unavailable for any reason. A “window open” sensor may be connected to the controller to switch it to off mode to avoid energy loss. The off mode may also be set by the supervisory network when the space is not in use. Every controller has a low limit function as a standard feature which will operate when a low room temperature is detected, and override any automatic, time schedule, or manual mode of the controller.

W inter/Summer Compensation Feature When the controller is connected to a network and is receiving the outdoor air temperature reading, the room set point may be automatically adjusted on cold winter days or hot

summer days to reduce energy consumption yet maintain occupancy comfort. In winter the set point temperature may be increased to offset the effect of cold surfaces in exterior zones.

H ardware Configuration to Match Applications Various controller hardware models are available to match a wide range of fan coil unit control applications. Each model provides a specific combination of outputs to control heating, cooling and the fan.

4

All models accept inputs for the local control of occupancy mode, temperature set point, fan speed override and shutoff from a window contact. The temperature sensor may be mounted in the fan coil unit or in the room command module.


Table 1: Controller Output Options Heating and Cooling Outputs

0 to 10 VDC analog (10 mA) Pair of triacs (24 VAC, 0.5 mA) for:

Fan Control Outputs

•

incremental control (Position Adjust Type)

•

duration adjust on time cycle

•

two-stage on/off

Single relay contact for on/off fan (230V 3A) Three relay contacts for three-speed fan (230V 3A) 0 to 10 VDC analog (10 mA) for fan speed controller

Table 2: Controller Inputs Room Temperature

NTC sensor (in room command module or mounted in fan coil unit)

Set Point Adjust

12 to 28°C or +/-3 K from room command module

Occupancy Mode Override

Comfort/Standby

Three-Speed Fan Override

Auto/Off/1/2/3 (in comfort mode)

Window Sensor

Volt-free contact (closed = window closed)

Occupancy Sensor

Volt-free contact (closed = occupied)

C onvenient Configuration Setup The fan coil unit controller is delivered with the appropriate software and hardware configuration and with factory-set parameters such that no onsite programming is necessary to set the fan coil unit into operation. A software tool is available, however, which runs on a laptop or notebook PC, to enable the installer to adjust operating parameters such as standby mode and night mode set points and control loop tuning parameters, if required, and to provide online data for the verification of the control sequence. A record of all parameter changes can be stored in memory or on diskette.

Once configured, commissioned, and connected to a network, the controller’s operating parameters may be changed from a Metasys operator workstation. The controller has additional capabilities to help manage your facility. For example, the user can assign high and low alarm limits to analog inputs, which will alert an operator at the Metasys operator workstation when a problem occurs, such as a room temperature exceeding comfort or safety limits.


5

N etworking Capabilities As powerful as the controller is by itself, your facility will benefit even more when fan coil unit controllers are part of a larger Metasys network. Each fan coil unit controller can be connected to the Metasys N2 Bus. Either a network control module (NCM) or workstation can be programmed to provide added energy management and supervisory control capabilities, such as optimal start, demand limiting, trend log, run-time totalization, and more.

module, makes all information from each controller available throughout the facility. This makes it possible, for example, to reset supply water temperatures based on the load demands of the fan coil unit controllers, and to adjust the room set points based on a common outdoor air temperature for the building or each zone of the building. Dynamic Data Access also makes sensor values, operating status, and any other parameters in the controller available to operators anywhere in your facility.

The Metasys Dynamic Data Access networking software, available from the network control

P recise, Flexible Control As a member of the fully integrated system or as a standalone controller, the fan coil unit controller represents the best way to fully optimize the operation of your distributed HVAC

6

equipment. It combines ease of setup and operation, flexibility of application, and precise control for comfort and energy management.


Notes


7

S pecifications TC-9102 Fan Coil Unit Controller Product

TC-9102 Series Fan Coil Unit Controller TC-9102 Series for remote set point TC-9112 Series with integral setpoint Available with fixed or separable terminals

Power Requirements Ambient Operating Conditions Ambient Storage Conditions Dimensions (H x W x D) Shipping Weight

24 VAC, ±15%, at 50/60 Hz, 3 VA (not including actuating devices) 0° to 50°C / 32° to 120°F 10 to 90% RH Noncondensing -20° to 70°C / 0° to 160°F 10 to 95% RH 108 x 118 x 31 mm / 4.3 x 4.7 x 1.2 in. 0.3 kg / 11 oz

TM-9100 Series Room Commmand Modules Product

Supply Voltage Ambient Operating Conditions Ambient Storage Conditions Dimensions (H x W x D) Shipping Weight

TM-9100 Series Room Commmand Modules TM-9150 Series

Without set point dial

TM-9160 Series

With set point dial and optional fan speed override

TM-9170 Series

As TM-9160, but without NTC Room Temperature Sensor

TM-9180 Series

Intelligent room command module with digital display and weekly time scheduling control

TE-9100-8501

Unit Mount NTC Room Temperature Sensor

Power from TC-9102 Series Controller 0° to 40°C / 32° to 104°F 10 to 90% RH Noncondensing -20° to 70°C / 0° to 160°F 10 to 95% RH 80 x 80 x 33 mm / 3.2 x 3.2 x 1.3 in. 0.15 kg / 6 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.

Metasys is a registered trademark of Johnson Controls.

Johnson Controls International Westendhof 8 45143 Essen Germany

8


www.johnsoncontrols.com Metasys European Sales Resource Manual Rev. Level 0198 Printed in Germany

Metasys Network Sales Resource Manual Application Specific Controllers Section Product Bulletin Issue Date

635

1095

TC-9102 Terminal Controller

The TC-9102 Terminal Controller, the latest addition to the application specific controller product line, is an electronic device for digital control of fan coil unit applications. Four controller models offer a competitive advantage for those projects that require a Direct Digital Control (DDC) fan coil application. You can easily configure point inputs and outputs for control of the fan coil as either a standalone controller or connected to the Metasys Network through a Network Control Module (NCM), or through the Companion System. Figure 1: TC-9102 Fan Coil Controller

Features and Benefits ❑ HVAC PRO for Windows,

Easy to configure and commission

Release 6.00

❑ N2 Bus Communication

Facility-wide control efficiencies

❑ Compact Size

Ideal for space limited installation

❑ On/Off, 3-speed, and

Maximum comfort and control

Proportional Speed Fan

❑ Internal Relays

No additional relays required for motors up to and including 1/8 hp

❑ N2 Opto-Isolation

Minimum electrical noise

❑ Wall-mounted Thermostat

User-friendly adjustment

with Setpoint Dial and Occupancy Button on Cover

© 1995 Johnson Controls, Inc. Code No. LIT-635063

1

❑ Standalone Operation or

Choices for application needs

Networking Capabilities

2 Application Specific Controllers—TC-9102 Terminal Controller

A pplication The TC-9102 Terminal Controller is targeted for application specific DDC control similar to the existing UNT and VAV controllers. However, unlike the VAV, heating and cooling can be sequenced from a single output. And, unlike the VAV and UNT, it has 3-speed fan control. The TC-9102 is the perfect solution for fan coil unit applications and features four different models. The type of model used is determined by the type of fan control and heating/cooling control required. The control functions are HVAC PRO for Windows (Release 6.00) configurable.

The HVAC PRO for Windows (Release 6.00) software sets the control modes. The occupancy sensor input and the occupancy button (on the TM-9100 thermostat) modify the control modes. A low limit temperature function is a standard feature, which overrides any automatic, time schedule, or manual mode when a low temperature is detected. When an outdoor temperature is received from a network, the room setpoint will automatically adjust to reduce energy consumption, while maintaining occupancy comfort.

Table 1: Ordering TC-9102 Models Points

Rating

Analog Inputs: Zone Temperature Remote Setpoint Fan Override (-0332 only)

32 to 105°F (NTC) 0 to 10K ohms (Potentiometer) 0 to 10K ohms (Potentiometer)

Binary Inputs: Window Contact Occupancy Sensor Occupancy Button on Thermostat

-0221 Fan: On/Off Heat/Cool: 0 to 10 VDC

-0330 -0331 -0332 Fan: Fan: Fan: 0 to 10 VDC On/Off 3-Speed Heat/Cool: Incremental*

2

2

2

3

3

3

3

3

2

1

0

0

1

4

5

7

<1K ohms <1K ohms <1K ohms

Analog Outputs: Heat/Cool (2-proportional) Fan

10 mA at 10 VDC maximum 10 mA at 10 VDC maximum

Binary Outputs: Heat/Cool (4-incremental) Fan

0.5 Amperes at 24 VAC 3 Amperes at 120/250 VAC

* 2-stage, PAT, or DAT heating/cooling control options available. Both heating/cooling must use the same option.

N ew Sensors In order to complete your TC-9102 fan coil application, you must order the new TM-9100 thermostat. The TM-9100 has sleek styling with an adjustable dial on the thermostat face for ease of use. It also has Light Emitting Diode (LED) indicators and an occupancy button feature for mode override.

The TM-9100 uses a Negative Temperature Coefficient (NTC) sensor. The TC-9102 is not compatible with the TE-6400 series thermostat or with the TM-9100 series thermostat.


C onvenient Configuration Designed for fan coil unit applications, the TC-9102 Controller can be easily configured using the HVAC PRO for Windows software tool. Programs loaded into the TC-9102 are saved in nonvolatile E2PROM memory, so there is no need to reload software after a loss of power. You can load the configuration from a laptop via the N2 Bus. This commissioning allows you to load multiple controllers from one location. Configuring the TC-9102 is a simple matter of responding to a series of “yes/no” and multiple choice questions, and then specifying setpoints and other parameters.

Metasys Network Configuration Your facility benefits even more when the TC-9102 Controller is part of larger Metasys Network. The TC-9102 can connect to the Metasys via the N2 Bus to either a Network Control Unit or Companion System. When using the network configuration, the TC-9102 may be downloaded via remote access or HVAC PRO for Windows running on a Metasys Operator Workstation.

S pecifications Supply Voltage Power Consumption Ambient Operating Conditions Ambient Storage Conditions Terminations Serial Interfaces Controller Addressing Mounting Housing Dimensions (H x W x D) Shipping Weight Inputs

24 VAC, -15% to +10%, 50-60 Hz 3 VA Controller and Room Command Module 32 to 122°F (0 to 50°C) 10 to 90% RH non-condensing -40 to 158°F (-40 to 70°C) 10 to 90% RH non-condensing Terminal block for one 1.5 mm2 / 16 AWG (maximum) cable and 14 AWG for fan terminal block. Rated for 4 lb⋅in maximum torque. Optically isolated RS-485 interface for N2 Bus connection; 9600 baud 1 to 255 selectable on DIP switches (6) and jumpers (2) DIN rail or surface (two brackets supplied with controller) Material:

ABS + polycarbonate, self-extinguishing UL94 V0

Protection:

IP30 (IEC529)

4.65 x 4.25 x 1.22 in. (118 x 108 x 31 mm) Standard Terminals Allow an extra 0.43 in. for Communications terminal. 0.66 lb (0.3 kg) Room Temperature Sensor

NTC Thermistor 32 to 105°F (0 to 40°C)

Remote Setpoint

10K ohm potentiometer

3-speed Fan Override

10K ohm potentiometer

Occupancy Button

Momentary Contact

}

Window Contact

Closed (<1K ohm) = window closed

Occupancy Sensor

Closed (<1K ohm) = occupied

Room Command Module TM-9100

Continued on next page . . .

Application Specific Controllers—TC-9102 Terminal Controller 5

Specifications (Cont.) Outputs

Heating/Cooling Control Analog 2 DAT 2 PAT 2-stage On/Off PWM

0 to 10 VDC, maximum 10 mA Triacs rated at 24 VAC, maximum 0.5A* Triacs rated at 24 VAC, maximum 0.5A* Triacs rated at 24 VAC, maximum 0.5A* * Maximum 1 mA leakage current (Europe only) For solenoid valves with Power Driver Module (VA-7400-8950) only.

Fan Control On/Off 3-speed Proportional Standards Compliance

Relay contact rated at 125/250 VAC, maximum 3A maximum 1/8 hp Relay contact rated at 125/250 VAC, maximum 3A maximum 1/8 hp 0 to 10 VDC, maximum 10 mA

IEEE 446 IEEE 472 IEEE 587 Category A FCC Part 15, Subpart B, Class A UL 916 CSA C22.2 No. 205 (Pending)

Agency Listings Accessories

UL Listed and CSA Certified as part of the Metasys Network. Order separately

Configuration Tools 1.0 (contains HVAC PRO for Windows 6.00)

WS-WINPRO-0

HVAC PRO for Windows Cable

AS-CBLPRO-2

Converter

MM-CVT101-0

Zone Sensors

TM-9100 Series

Enclosure Kit

AS-ENC100-0 or EN-EWC10-0 or EN-EWC15-0

Power Supply

AS-XFR100 or AS-XFR50-1 or Y65XX-X Series

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.

Controls Group 507 E. Michigan Street P.O. Box 423 Milwaukee, WI 53201


FAN 635 Metasys Network Sales Resource Manual Printed in U.S.A.


1298

DX-9100 Digital Controller, Version 1 The DX-9100 Digital Controller is the ideal digital control solution for multiple chiller or boiler plant control applications, for the HVAC process of air handling units or for distributed lighting and related electrical equipment control applications. As a standalone controller, the DX has both the hardware and software flexibility to adapt to the variety of control processes found in its targeted applications. Along with its outstanding control flexibility, the controller can extend its input and output point capability by communicating with input/output (I/O) extension modules on an extension bus, and provides monitoring and control of all connected points at its built-in LED display. When integrated into a full Metasys network, point and control information is available throughout the network, and at all Metasys operator workstations.

2737

Figure 1: DX-9100

Features and Benefits ❑ Full set of control algorithms in software modules ❑ Graphic configuration tool

Easy to configure for a wide range of standard and special applications

❑ Standalone control ❑ Real-time clock and time programs ❑ Trend data storage

Distributed control for system reliability

❑ Extension bus for additional I/O points ❑ Extension modules for a variety of analog and

Modular hardware set for low-cost installation in the various applications

digital I/O combinations

❑ Built-in local status display and control panel ❑ Optional manual override switches on extension

Display and override capabilities are available close to the controlled equipment

modules

❑ N2 Bus communications ❑ Dynamic Data Access™ capabilities with Metasys

Facility-wide control efficiency and costeffective information availability

network

© 1998 Johnson Controls, Inc. Order No. MET-SRM-C4-15

1

N1 LAN

NCM311/361

NCM311/361

Operator Workstation

XT XP

DX-9100

DX-9100

XT

XP

N2 Bus

DX-9100

XTM

XPx XPx

XT-Bus

Figure 2: DX-9100 Digital Controller, Version 1, on the Metasys Network

2

Application Specific Controllers—DX-9100 Digital Controller, Version 1

I nstallation The DX-9100 Digital Controller, Version 1, has field wiring terminals inside the controller enclosure.

It is designed for installation inside a control panel or on the controlled equipment via DIN rail.

2860

Figure 3: DX-9100 on a DIN Rail

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. An extension module set is assembled from submodules, providing various combinations of analog and digital (binary) I/O points. Up to eight

extension modules can be connected to the controller via the RS-485 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.

2644

Figure 4: Extension Modules with Manual Override Application Specific Controllers—DX-9100 Digital Controller, Version 1

3

S ensors and Actuators to Complete the System 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.

The DX Controller and extension modules are matched to a family of sensors, actuators, control valves, and dampers needed to complete the control of chiller and boiler plants, HVAC processes and other refrigeration and heating applications. Its sensor inputs can accept 0-10V transmitters and passive temperature sensors from the Johnson Controls range, as well as

1784

2815

Figure 5: Flow Temperature Sensor

Figure 6: Room Temperature Sensor

Table 1: Point Configuration Point Type

Analog Inputs

Quantity

Characteristics

DX-9100

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

Dry Contacts (potential free) 24 VAC Triacs (minimum 0.05 amps, maximum 0.5 amps) XT/XTM only: Relay Contact (250 VAC 3 amps) XTM only: Relays with momentary, magnetically latched or electrical hold operation

Analog Outputs

2

2

4/8

0-10 VDC (10 mA maximum) or 0/4-20 mA DC

4


Table 2: XT/XTM 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

C onvenient Configuration Setup

B uilt-in Display Panel

The DX-9100 Digital 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 Microsoft Windows operating system. The graphic software is installed on a laptop computer which is connected to the controller’s N2 Bus for loading the controller’s configuration.

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 any of the Metasys operator devices, or from the Graphic Configuration Tool when in online commissioning mode.

Program data and parameters loaded into the controller and into the extension modules are stored in EEPROM, 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 closing the control loop by making the connection from the control and logic blocks to the 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 and inputs and outputs to complete the configuration. Names may be entered for inputs, outputs and operating parameters for documentation purposes and for electronic transfer to the Metasys Workstation data file.

A pplication Versatility The DX-9100 Digital Controller can be configured to meet a wide variety of basic HVAC and multiple boiler or chiller central plant applications. Configurations may be preconfigured for common applications to use as a foundation to customize your particular needs. If the pre-configured 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. In addition, points unused in the control application can be used for supplementary supervisory purposes by the Metasys network.


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 (DX Controller)

Incremental, with or without feedback Duration adjust type On/off, including pulse and start/stop

Digital Outputs (XT/XTM Modules) Trend Log

On/off, including pulse and start/stop 12 channels Analog or binary values Sample rate Full buffer (read request) indicator

6


N etworking Capabilities

P recise, Flexible Control

As powerful as the DX-9100 Digital Controller is by itself or with extension modules, your facility will benefit even more when controllers are 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. In remote locations, the trend log data in the controller can be transferred to the central Metasys network by a switched telephone line connection.

The DX Controller represents the best way to fully optimize the operation of your refrigeration, heating, HVAC or lighting equipment control applications. It can be used as a member of the fully integrated Metasys system, or as a standalone controller. It combines ease of setup and operation, flexibility of application, and precise control for comfort and energy management.

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.

P assword Protection of Configurations The DX Controller has an optional feature to prevent unauthorized access to its software configuration. When a 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 configurations of OEM (Original Equipment Manufacturer) users.

S pecifications DX-9100 Digital Controller, Version 1 Product Code

DX-9100 Digital Controller, Version 1 (DX-9100-8154) (See also Table 1.)

Power Requirements

Ambient Operating Conditions Ambient Storage Conditions Dimensions (H x W x D)

24 VAC ± 15 %, 10 VA (at 24 VAC) at 50/60 Hz To maintain an active power sensor supply > 15 VDC, the supply voltage must always exceed (24 VAC - 10%). 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 148 x 184 x 81 mm / 5.8 x 7.3 x 3.2 in.

Shipping Weight

Controller: 1.8 kg / 4 lbs

Agency Listings

CE Directive 89/336/EEC EN50081/1, EN50082/1 UL Listed, CSA Certified, FCC Compliant


7

Extension and Expansion Modules Product Codes

XT and XP Modules without Manual Override XT-9100

Extension Module

5.5 VA

XP-9102

6 Analog Inputs, 2 Analog Outputs

4 VA

XP-9103

8 Digital (Binary) Outputs (triacs)

XP-9104

4 Digital (Binary) Inputs, 4 Digital Outputs (triacs)

1 VA

XP-9105

8 Digital (Binary) Inputs

2 VA

XP-9106

4 Digital (Binary) Outputs (relay) (European Model)

6 VA

4 Digital (Binary) Outputs (relay) (North American Model)

6 VA

XP-9107

-

(See also Table 1) Product Codes

XTM and XPx Expansion Modules with Manual Override Option on Outputs Extension Module

5.5 VA

XPA-421

4 Analog Inputs

4 VA

XPA-442

4 Analog Outputs

6 VA

XPA-821

6 Analog Inputs, 2 Analog Outputs

4 VA

XPB-821

8 Binary Inputs

3 VA

XPM-401

4 Binary Inputs, 2 Momentary Relay Binary Outputs

4 VA

XPL-401

4 Binary Inputs, 3 Latching Relay Binary Outputs

5 VA

XPE-401 XPE-404 XPT-401 XPT-861 available.)

4 Binary Inputs, 3 Electrically Latching Relay Binary Outputs 4 Binary Inputs, 4 Electrically Latching Relay Binary Outputs 4 Binary Inputs, 4 Binary Outputs (Triacs) 8 Binary Outputs (Triacs) (Manual Override not

5 VA

XTM-905

6 VA 2 VA -

(See also Table 1) Agency Listing

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

24 VAC +10% / -15 %, 50/60 Hz, 5.5 VA at 24 VAC

Expansion Modules

24 VAC +10% / -15 %, 50/60 Hz, see above for VA ratings at 24 VAC

Transformer Module

230 VAC, 50/60 Hz, up to 12 VA

Dimensions (H x W x D) (1 Module) Shipping Weight

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.


8


www.johnsoncontrols.com Metasys European Sales Resource Manual Rev. Level 1298 Printed in Germany


0905

DX-9100 Digital Controller, Version 2

The DX-9100 digital controller is the ideal digital control solution for multiple chiller or boiler plant control applications, for air handling units or for distributed lighting and related electrical equipment control applications. As a standalone controller, the DX has both the hardware and software flexibility to adapt to the control requirements in its targeted applications. Along with its outstanding control flexibility, the controller can extend its input and output point capability by communicating with input/output (I/O) extension modules on an extension bus. The controller provides monitoring and control of all connected points at an integral LED display and keyboard or from a separate DT-9100 display unit.

Figure 1: DX-9100-8454

The DT-9100 display unit, with a text and graphic LCD screen and keypad, provides a standard and customized presentation of data according to the application and customer requirements. Both the DX-9100 controller and the DT-9100 display unit can be mounted within an electrical enclosure or in a cabinet door, and the DT-9100 display unit can also be mounted directly onto the controller within a panel, on a wall or can be used as a portable device. When the DX controller is integrated into a ® Metasys system, point and control information is available throughout the network and at all Metasys operator workstations.

Figure 2: DT-9100-8204

Features and Benefits Full set of control algorithms in software modules Graphic configuration tool Standalone control

Easy to configure for a wide range of standard and special applications Distributed control for system reliability

Real-time clock and time programs Trend data storage Extension bus for additional I/O points Extension modules for a variety of analog and digital I/O combinations

Modular hardware set for low-cost installation in the various applications

Continued on the next page…

© 2005 Johnson Controls, Inc. Order No. MET-SRM-C4-16

1

Features and Benefits (Cont.) Model with integral display and control panel Text and graphic display unit (DT-9100) – for one or up to eight DX controllers on N2 Bus network

Multiple display and override possibilities are available for the controller, close to or remote from the controlled equipment

Extension modules with manual override switches N2 Bus communications Dynamic data access capabilities with Metasys system network

Facility-wide control efficiency and cost-effective information availability

IP NETWORK

NAE

NAE ADS / ADX Workstation

N2 Bus

XT XP

DT/DX-9100 DX-9100 Black Box

XT

XP

N2 Bus

DX-9100 with LED display

DT-9100 LCD display XTM XPx XPx

X T-Bus

Figure 3: DX-9100 Digital Controller, Version 2, on the Metasys System Network

2


F lexible Installation and Display Options The DX-9100 digital controller, Version 2, is available with an integral LED display and keyboard that gives access to control data for the technical user, mainly to commission and service the controller. This controller model may be installed within an electrical enclosure using the mounting base or fixed into a cabinet door using the mounting frame to give access to the display without opening the cabinet. The controller is also available without an integral display and keyboard as a “Black Box” model for use with the DT-9100 display unit. In this case the DT-9100 display unit may be mounted in the cabinet door or attached to the front cover of the controller within the cabinet. This latter option enables the display unit to be used when the door is wide open and the

display unit can easily be detached from the controller and used as a hand-held portable device. The mounting base and mounting frame have all the terminals and connections to enable the field wiring to be completed before installing the controller. The DT-9100 display unit is supplied with a panel mounting kit and a kit is available to enable the unit to be surface mounted, for example, on a wall. The display unit can also be used as a portable device, and a standard 230 VAC/12 VDC adaptor can be used to power it. A flexible cable is provided to connect the display unit to the DX-9100 controller.

Figure 4: DX Controller with LED Display and Keyboard on Panel Mounting Base

Figure 5: DX-9100 with LED Display and Keyboard in Cabinet Door Mounting Frame

Figure 6: DX Controller – Black Box – on Panel Mounting Base

Figure 7: DX Controller with DT-9100 Display Unit on Panel Mounting Base


3

4 Application Specific Controllers—DX-9100 Digital Controller, Version 2

E xtension Modules The extension (XT-9100 and XTM-905) and expansion (XP-910x and XPx) modules may be mounted next to the controller on the same DIN rail, or remotely, up to 1200 m from the controller. An extension module set is assembled from sub-modules, providing various combinations of

analog and digital (binary) I/O points. Up to eight extension modules can be connected to the 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.

2644

Figure 8: Extension Modules with Manual Override


5

S ensors and Actuators to Complete the System The DX-9100 controller and extension modules are matched to a family of sensors and actuators for the control valves and dampers needed to complete the control of chiller and boiler plants, HVAC units and other refrigeration and heating equipment. 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

Figure 9: Flow Temperature Sensor

6

Figure 10: Room Temperature Sensor


Table 1: Point Configuration Point Type

Quantity

Characteristics

DX-9100

XT

XTM

8

6

4/8

Analog Inputs

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

Dry Contacts (potential free) 24 VAC Triacs (minimum 0.05 A, maximum 0.5 A) XT/XTM only: Relay Contact (250 VAC 3 amps) XTM only: Relays with momentary, magnetically latched or electrical hold operation 0-10 VDC (10 mA maximum) or 0/4-20 mA DC 0-10 VDC (10 mA maximum) only

4

Table 2: XT Bus Configuration Maximum number of XT/XTMs per DX-9100

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-9100

64


7

C onvenient Configuration Setup

D isplay Unit (DT-9100)

The DX-9100 digital 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 integral 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 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 monitor up to eight DX controllers on an N2 Bus and 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.

The DX controller operating system is stored in Flash memory. Configuration data and parameters loaded into the controller and into the extension modules are stored in EEPROM, 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 the desired module types to form a flow chart diagram, connecting inputs to control and logic blocks, and closing the control loop by making the connection from the control and logic blocks to the 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 and inputs and outputs to complete the configuration. Names may be entered for inputs, outputs and operating parameters for use in the optional display unit or for electronic transfer to the Metasys Workstation data file.

A pplication Flexibility The DX-9100 digital controller can be configured to meet a wide variety of basic HVAC and multiple boiler or chiller central plant applications. Configurations may be preconfigured for common applications to use as a foundation to customize your particular needs. If the pre-configured 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. In addition, points unused in the control application can be used for supplementary supervisory purposes by the Metasys network.

I ntegral Display Panel 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 any of the Metasys operator devices, or from the Graphic Configuration Tool when in online commissioning mode.

8


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 with scaling factor (minimum 50ms on / 50ms off for DX and minimum 20ms on / 20ms off for XT/XTM)

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-9100 Controller) Digital Outputs (XT/XTM Modules) Trend Log (for DT-9100 only)

On/off, including pulse 12 channels Analog or binary values Sample rate Full buffer (read request) indicator


9

N etworking Capabilities

P assword Protection of

As powerful as the DX-9100 digital controller is by itself or with extension modules, your facility will benefit even more when controllers are part of a larger Metasys system network. A Metasys Network Automation Engine can be programmed to provide added energy management and supervisory control capabilities, such as trend log, historical data storage, electrical demand limiting and more.

Configurations

The Metasys dynamic data access networking software, available from the Network Automation Engine, 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.

The DX controller has an optional feature to prevent unauthorized access to its software configuration. When a 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 configurations of OEM (Original Equipment Manufacturer) users.

P recise, Flexible Control The DX-9100 controller represents the best way to fully optimize the operation of your refrigeration, heating, HVAC or lighting equipment control applications. It can be used as a member of the fully integrated Metasys system, or as a standalone controller, with or without the DT-9100 display unit. It combines ease of setup and operation, flexibility of application, and precise control for comfort and energy management.

10


S pecifications DX-9100 Digital Controller, Version 2 Product

Physical Inputs and Outputs Microprocessor and Memory: (Firmware Version 2.5 and later)

Power Requirements Ambient Operating Conditions Ambient Storage Conditions N2 Communications

DX-9100 Digital Controller, Version 2 DX-9100-8454 Controller with LED Display and Keyboard DX-9100-8004 “Black Box” Controller DX-9100-8996 Cabinet Door Mounting Frame DX-9100-8997 Panel Mounting Base DTDX-91-8004 Kit with DT-9100-8204, DX-9100-8004 and DX-9100-8997 See Table 1 Microprocessor: Hitachi Type: H8S/2350 16 bit RAM: 32 Kbytes EEPROM: 8 Kbytes Flash: 256 Kbytes 24 VAC ± 15 %, 10 VA (at 24 VAC) at 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 RS485 interface at 9600 baud

Dimensions (H x W x D) Controller with Cabinet Door Mounting Frame Controller with Panel Mounting Base Black Box Controller with Panel Mounting Base DT-9100, Black Box Controller and Panel Mounting Base

164 x 200 x 114mm / 6.5 x 7.9 x 4.5 in. 200 x 184 x 95 mm / 7.9 x 7.3 x 3.8 in. Allow minimum of 160 mm / 6.3 in. depth for hinged door clearance. 200 x 184 x 87mm / 7.9 x 7.3 x 3.5 in 200 x 184 x 135mm / 7.9 x 7.3 x 5.4 in. Allow minimum of 20mm / 0.8 in clearance on each side for DT mounting clips.

Shipping Weight

Controller: 1.8 kg / 4 lbs 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 / EN61000-6-3 and EN50082-2 / EN61000-6-2 UL Listed, CSA Certified, FCC Compliant

DT-9100 Display Unit Product Codes

Communication Power Requirements Dimensions (H x W x D) Shipping Weight

DT-9100-8204 Display Unit with Panel Mounting Kit DT-9100-8902 Wall Mounting Kit DT-9100-8901 12 VDC Power Supply for 230 VAC Source DT-9100-6802 Serial communications flat cable 2m long RS-232-C (spiral 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. 0.78 kg / 1 lb 12 oz


11

Agency Listings

12

CE Directive 89/336/EEC EN50081-1 / EN61000-6-3 and EN50082-1 / EN61000-6-1 UL Listed, CSA Certified, FCC Compliant


Extension and Expansion Modules Product Codes

Product Codes

Agency Listing

Power Requirements Extension Module Expansion Modules Transformer Module Dimensions (H x W x D) (1 Module) Shipping Weight

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 UL Model) (See also Table 1)

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 also Table 1)

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 EN50081-1 / EN61000-6-3 and EN50082-1 / EN61000-6-1 TR-9100, XPM, XPL and XPE only: CE Directive 73/23/EEC EN 60730 All modules, except XPA-4xx-x: UL Listed, CSA Certified, FCC Compliant

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 230 VAC, 50/60 Hz, maximum output 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. ®

®

®

Metasys is a registered trademark of Johnson Controls. Microsoft Windows is a registered trademark of the Microsoft Corporation.


www.johnsoncontrols.com Metasys European Sales Resource Manual


13

Metasys® System Field Equipment Controllers, Network Sensors, and Related Products Code No. LIT-12011042

Product Bulletin

Software Release 3.1 Issued January 28, 2008 Supersedes November 9, 2007

Overview The Metasys® system Field Equipment Controllers bring an entirely new generation of hardware devices into the Metasys Building Automation System (BAS). The family of Field Equipment Controllers (FECs), Input/Output Modules (IOMs), Variable Air Volume (VAV) Modular Assembly (VMA) 1600, and NS Series network sensors provide unrivaled compatibility with the higher level components of the Metasys system. This family of controllers and sensors further the commitment of Johnson Controls to use open standards. The FEC Series communicates using standard BACnet® Master-Slave/Token-Passing (MS/TP) protocol and provides a wide range of standard applications to control Heating, Ventilating, and Air Conditioning (HVAC) equipment. Some FEC models also feature a Liquid Crystal Display (LCD) that can be used to monitor and adjust local building conditions controlled at the device. A wide variety of network sensor models provides options for measuring and displaying zone temperature, duct temperature, zone humidity, setpoint adjustments, fan speed control, and discharge air interfaces.

Figure 1: Metasys System Field Equipment Controller

Table 1: Features and Benefits Features

Benefits

Standard BACnet Protocol

Allows controllers to use standard open protocol for building systems coordination.

Standard Hardware Platform

Uses a common design throughout the family line to assist in standard controller wiring practices.

Wireless Commissioning Interface

Provides an easy-to-use connection to the configuration and commissioning tool.

Complete Product Family

Provides the ability to meet any HVAC control requirement.

Auto Tuned Control Loops

Reduce commissioning time, eliminate change-of-season re-commissioning, and reduce wear and tear on mechanical devices.

Universal Inputs and Outputs and Point Expansion Modules

Allow multiple signal options and provide input/output flexibility.

Local User Interface Display Option

Allows convenient monitoring and adjusting capabilities at the local device.

BACnet Testing Laboratories (BTL) Listing

Provides compliance with BACnet Testing Laboratories™ Testing and Interoperability, which measures meeting their universal protocol.

Metasys® System Field Equipment Controllers, Network Sensors, and Related Products Product Bulletin

1

ADS

Ethernet Network

NAE45

NAE55 NCE25

FC Bus (LON, N2 or MS/TP) VMA1620

FC Bus Network Sensor

FEC1610 IOM

SA Bus FEC2610 SA Bus

Network Sensor Network Sensor IOM

FIG:mstp_exmpl

IOM

FC Bus (LON, N2 or MS/TP)

Figure 2: Metasys System with Field Equipment Controllers

Integration to the Metasys System Supervisory Devices The FEC Series controllers are designed to integrate seamlessly into the Metasys system by connecting and communicating directly to the Network Automation Engine (NAE) or Network Control Engine (NCE). With this integration, the building operator can view the FEC Series controller directly from the Metasys system User Interface (UI). In addition, the operator can view FEC information locally with models that feature the local display option.

BACnet protocol is a standard for the American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE); the American National Standards Institute (ANSI); and the International Organization for Standardization (ISO) for building controls. The FEC family of controllers and input/output modules are BACnet Testing Laboratory (BTL) tested and listed as Application Specific Controllers (B-ASC). The Network Sensors are BTL listed as Smart Sensors (B-SS).

BACnet Protocol Compatible

Controller Configuration Tool

The Metasys system field controllers and network sensors communicate using the standard BACnet protocol, based on ANSI/ASHRAE 135-2004.

The Controller Configuration Tool (CCT) is used in conjunction with the Metasys system extended architecture to configure, simulate, and commission the FECs, IOMs, and VMA1600s on an MS/TP bus.

2


The Configuration mode allows you to select a number of mechanical and control logic options through System Selection Trees for typical air handling, terminal unit, VAV box, and central plant mechanical systems. When required, you can customize the standard logic provided by the system selection process to meet your specialized control logic requirements. Configuration mode also allows you to customize certain display options available to FECs that use a local controller display.

After downloading the controllers, you can use the CCT Commissioning mode to validate the sensor and control point interfaces and adjust key setpoints and setup parameters. For VAV applications, CCT includes an optional box flow test to automatically exercise all the VAV boxes to ensure correct mechanical installation and proper configuration of the key flow setup parameters. Additionally, the Metasys system provides multiple configurations of room network sensors and a handheld VAV balancing sensor that can be used to perform VAV balancing tasks. In addition, the Commissioning wizard has a Balancer tab for VAV applications to easily autocalibrate VAV boxes and set flow constants in one location. A Commissioning mode only version of the CCT software is available to the Johnson Controls branch offices for jobs or individuals having only commissioning tasks (for example, balancing contractors). The Configuration and Simulation modes are disabled in the CCT Commissioning software.

Figure 3: Mechanical Selection The Simulation mode allows you to review the application logic as if you were commissioning a live system. You can make adjustments to setpoints, inputs, or sensors during a simulation session to validate the logic before assigning the configuration to a specific controller. The Commissioning mode manages the downloading of files to the field equipment controllers through two different network connection points. You can connect using a wireless commissioning converter between your laptop and the MS/TP bus, or using the Ethernet Passthru mode in conjunction with the System Configuration Tool (SCT) through an NAE or NCE.

Figure 4: CCT User Interface Features of the CCT •

capability to customize standard control system logic that is created from simple system selection trees

•

consistent user interface across the Configuration, Simulation, and Commissioning modes

•

flexible connection capabilities for loading and commissioning controllers


3

Field Equipment Controller (FEC)

Features of the FEC

The FEC is a programmable digital controller that communicates via BACnet MS/TP protocol. The controllers featured in this family are the 10-point FEC16x0 and the 17-point FEC26x0. Some models also feature a built-in LCD screen that serves as a local user interface to the application in the device.

•

BACnet MS/TP communication provides open system compatibility.

•

Writable flash memory allows you to download standard or customized applications from the CCT software.

•

Wireless commissioning interface supports a wireless commissioning converter, which permits download, upload, and commissioning from a Bluetooth® technology-enabled laptop computer.

•

Removable base allows the base to be ordered, mounted, and pre-wired without the controller electronics.

•

Universal and configurable inputs and outputs support multiple signal options and increase controller application flexibility.

•

Different models provide a wide range of point mix to meet application requirements and allow for the addition of one or more Input/Output Modules (IOMs) and/or Network Sensors to provide even more application capacity.

•

Ability to be automatically discovered by NAEs and NCEs allows for easy controller integration.

•

Continuous loop tuning is provided by patented proportional adaptive control (P-Adaptive) and Pattern Recognition Adaptive Control (PRAC) technologies.

•

Pluggable communication bus and power terminals speed installation.

•

Local user interface display option (integral display or stand-alone display)

Figure 5: FEC

Input/Output Module (IOM) IOMs can serve in one of two capacities, depending on where they are installed in the Metasys system. When installed on the Sensor Actuator Bus (SA Bus) of an FEC or VMA controller, the IOMs expand the point count of these controllers. When installed on the Field Controller (FC) Bus as point multiplexors, IOMs allow a Network Automation Engine (NAE) or Network Controller Engine (NCE) to monitor and control supervisory points directly. Features of the IOM Figure 6: IOM

4

•

BACnet MS/TP communication provides open system compatibility.

•

Different models provide a wide range of input/output point combinations to best fit the applications.


•

Universal and configurable inputs and outputs support multiple signal options and increase controller application flexibility.

•

Ability to reside on the FC Bus or SA Bus provides application flexibility.

•

Pluggable communications bus, Inputs/Outputs (not available on the IOM4710), and power terminals speed installation.

Applications

Some FEC models have a backlighted user interface display with adjustable brightness and contrast to ensure readability in low-light environments. The easy-to-use display provides convenient local monitoring and adjusting of key setpoints and control parameters. For the FEC models without a display, a stand-alone DIS1710 Local Controller Display module is available that connects directly to the SA Bus port. For details, refer to the DIS1710 Local Controller Display Product Bulletin (LIT-12011273).

A full range of FEC models combined with the IOM models can be applied to a wide variety of building applications ranging from simple fan coil or heat pump control to advanced central plant management.

Installation

Hardware

The FEC Series and the IOM4710 include a removable base that allows the base to be ordered, mounted, and pre-wired without the controller

The FECs and IOMs are assembled in durable, plenum-rated, plastic housing. The plastic housing may eliminate the need for a separate enclosure for plenum-rated construction. Check code requirements for appropriate applications.

Mounting clips allow the FEC or IOM to be mounted directly on a wall or other flat surface, or allow the FEC or IOM to be mounted on 35-mm DIN rail.

Models and Capabilities Table 2 lists the point type counts for the FEC and IOM Series.

Light-Emitting Diodes (LEDs), visible through the housing, indicate the status of power to the controller, communications status, and a number of diagnostic indicators. Table 2: Point Type Counts per Model (Part 1 of 2) Point Types

Signals Accepted

Universal Input (UI)

FEC1610 FEC1620

FEC2610 FEC2620

IOM1710

IOM2710

IOM3710

IOM4710

Analog Input, Voltage Mode, 0 - 10 VDC Analog Input, Current Mode, 4 - 20 mA Analog Input, Resistive Mode, 0 - 2k ohm, RTD (1k NI [Johnson Controls], 1k PT, A99B SI), NTC (10k Type L, 2.225k Type 2) Binary Input, Dry Contact Maintained Mode

2

6

0

2

4

6

Binary Input (BI)

Dry Contact Maintained Mode Pulse Counter Mode (High Speed), 100 Hz

1

2

4

0

0

2

Analog Output (AO)

Analog Output, Voltage Mode, 0 - 10 VDC Analog Output, Current Mode, 4 - 20 mA

0

2

0

0

0

2


5

Table 2: Point Type Counts per Model (Part 2 of 2) FEC1610 FEC1620

FEC2610 FEC2620

IOM1710

IOM2710

IOM3710

IOM4710

24 VAC Triac

3

3

0

0

0

3

Universal Output (UO)

Analog Output, Voltage Mode, 0 - 10 VDC Binary Output Mode, 24 V AC/DC FET Analog Output, Current Mode, 4 - 20 mA

0

0

0

2

4

0

Configurable Output (CO)

Analog Output, Voltage Mode, 0 - 10 VDC Binary Output Mode, 24 VAC Triac

4

4

0

0

0

4

Relay Output

120/240 VAC

0

0

0

2

4

0

Point Types

Signals Accepted

Binary Output (BO)

Panelized Options The Field Controllers and Input/Output Modules are also available in pre-built panels. The panelized options provide all of the controllers necessary for a complete application solution, including a pre-wired power source and a lockable door.

Variable Air Volume Modular Assembly (VMA) 1600 Series The VMA1600 Series controllers are programmable digital controllers that communicate via BACnet Master-Slave/Token-Passing (MS/TP) Protocol. Both the VMA1610 and VMA1620 controllers have a pressure sensor and actuator in a pre-wired unit. The VMA1600 Series controllers connect easily to the NS Series Network Sensors for zone and discharge air temperature sensing.

Applications The VMA1600 Series controllers can be configured for both single and dual duct VAV applications. The VMA1610 and VMA1620 controllers require an additional damper actuator and Differential Pressure Transducer (DPT) sensor for dual duct or supply/ exhaust applications.

•

The fast response actuator drives the damper from full open to full closed (90°) in 60 seconds to reduce commissioning time.

Features of the VMA1600 Series Controllers

•

Point capacity can be expanded by adding IOMs to the Sensor Actuator bus, providing further application flexibility.

•

Continuous loop tuning through patented proportional adaptive control (P-Adaptive) and Pattern Recognition Adaptive Control (PRAC) technologies.

•

BACnet MS/TP protocol communication provides open system compatibility.

•

Writable flash memory allows standard or customized applications to be downloaded from the CCT.

•

The integrated pressure sensor and actuator reduce installation time.

6

Figure 7: VMA Hardware


Hardware The VMA1600 Series controllers are in a durable, plenum-rated, ABS plastic housing. The controller, transducer, and actuator are all integrated into a single enclosure. The VMA1600 Series controllers’ plenum-rated housing may eliminate the need for a separate enclosure for plenum applications. Check code requirements for appropriate applications. The FC Bus and SA Bus communication connectors have removable screw terminals. Input/Output (I/O) connections to the VMA are easy-to-use spade lugs. Screw terminal I/O connectors are available as optional accessories.

The differential pressure sensor in the VMA1600 Series controllers provides consistent flow readings with minimal drift and requires minimal auto-zero calibration. There are no filters to change, which helps to ensure very close tolerance to published accuracy. LEDs, visible through the housing, indicate the status of power to the controller, communications status, and a number of diagnostic indicators.

Models and Capabilities Table 3 lists the point type counts for the VMA1600 Series controllers.

Table 3: VMA Point Type Counts per Model Point Types

Signals Accepted

VMA1610

VMA1620

Universal Input (UI)

Analog Input, Voltage Mode, 0 - 10 VDC Analog Input, Resistive Mode, 0 - 2k ohm, RTD (1k NI [Johnson Controls], 1k PT, A99B SI), NTC (10k Type L, 2.225k Type 2) Binary Input, Dry Contact Maintained Mode

1

1

Binary Output (BO)

24 VAC Triac

0

3

Configurable Output (CO)

Analog Output, Voltage Mode, 0 - 10 VDC Binary Output Mode, 24 VAC Triac

0

2

Integrated Actuator

Internal

1

1

Integrated Flow Sensor

Internal

1

1

Zone Sensor Input

On Sensor-Actuator Bus (SA Bus)

up to 4 zone sensors

Discharge Air Sensor Input

On Sensor-Actuator Bus (SA Bus)

up to 5 discharge air sensors

Installation Field mounting the VMA1600 Series controller is easy. The VMA1600 Series controller requires minimal wiring and is mounted to the terminal box using a single sheet metal screw and a single set screw to lock the actuator to the damper shaft. The set screw has a self-locking cup point end to resist loosening due to vibration. The actuator coupling is serrated, providing additional damper shaft grip and minimizing shaft slippage during operation. The coupling accommodates shafts from 10 mm (3/8 in.) square and up to 13 mm (1/2 in.) diameter round. A gear release lever allows easy resetting of the damper to full open or close.

The housing dimensions of the VMA1600 Series controllers (182 x 182 x 64 mm [7.2 x 7.2 x 2.5 in.]) meet industry mounting requirements and make the controllers easy to handle. The controller address, which is unique for each VMA controller, is set using the DIP switches that are accessible through the VMA controller housing. The AC power input is isolated from the DC inputs and outputs by an internal transformer. This eliminates polarity issues, ground loops, and the need for a separate isolation transformer. Power, MS/TP communications, and binary outputs are all separately isolated.


7

Features of the NS Series Network Zone Sensors

Figure 8: Network Zone Sensors and Discharge Air Sensors

•

BACnet MS/TP protocol communication provides compatibility with Metasys system Field Controllers in a proven communication network.

•

Backlit LCD (available on some models) provides real-time status of the environment in easy-to-read, plain text messages with backlighting activated during user interaction.

•

Simple setpoint adjustment (available on some models) enables user to change the setpoint with the turn of a dial.

•

Temporary occupancy (available on some models) provides a timed override command, which temporarily initiates an alternate mode.

•

Fahrenheit/Celsius (F/C) button (available on some models) toggles the display temperature between degrees Celsius and degrees Fahrenheit.

Network Sensors The NS Series Network Sensors are electronic zone, discharge air, and balancing sensors designed to function directly with Metasys system FECs, Input/ Output Modules (IOMs), and the Variable Air Volume (VAV) Modular Assembly (VMA) 1600. All models of wall-mounted network zone sensors monitor room temperature. Options are available to also monitor zone humidity, local temperature setpoint adjustments, and other variables identified in the following sections. This data is transmitted to a field controller on the SA Bus. The NS Series Network Zone Sensors include models with a temperature setpoint dial and Liquid Crystal Display (LCD) that allows occupants to view the zone temperature, and view and adjust the zone setpoint. A fan mode push button is included to set the desired fan speed (Auto-Off-Low-Med-High). An occupancy override function allows the user to signal the controller that the zone is occupied to override the scheduled mode. For communication wiring flexibility, the wires connecting the sensor to a controller can be terminated using a modular jack or screw terminals. Each network zone sensor includes an SA Bus access port to allow accessories to access the SA Bus. This plug allows accessories to service or commission the connected controller or gain access to any other controller on the same FC Bus.

8

Figure 9: VAV Balancing Sensors

NS Series VAV Balancing Sensors In addition to the standard models, there are four special models of network sensor and a handheld VAV balancing sensor that provide VAV balancing functionality. These four sensors look and perform like a network zone sensor but have the added capability to serve as a tool to balance the VAV box. The Variable Air Volume (VAV) Balancing Sensor allows you to easily adjust and set the required parameters for VAV applications that reside on the Metasys system VAV Modular Assembly (VMA) 1600 Series or Field Equipment Controller (FEC) Series controllers.


The VAV balancing parameters are displayed on the sensor’s Liquid Crystal Display (LCD). You use the dial and two buttons on the sensor to navigate through simple and intuitive menus to provide the air-side balancing of the VAV box. The menus you see are customized to the type of application residing in the controller. The balancing operation also features an adjustable time-out parameter that returns the sensor and controller to normal operation in the event that the controller is left in balancing mode. The handheld VAV Balancing Sensor is lightweight, portable, and can be plugged into any model of network zone sensor to access the VAV controller. The VAV Balancing Sensors are compatible with the following Metasys system BACnet protocol devices: •

FEC loaded with a VAV application

•

VMA1600 loaded with a VAV application

•

Network Sensors connected to an FEC or VMA1600 loaded with a VAV application

Features of the Handheld VAV Balancing Sensor •

Handheld balancing tool allows VAV balancing and commissioning without a laptop.

•

Standard plug connects directly to the controller or the controller’s NS Series Network Zone Sensor.

•

Intuitive, menu-driven operation simplifies balancing tasks.

NS Series Network Discharge Air Sensor The NS Series Network Discharge Air Sensors are electronic duct sensors designed to function directly with the Johnson Controls FEC family of digital controllers in Heating, Ventilating, and Air Conditioning (HVAC) systems. Models in this series monitor the duct temperature, typically at the discharge of the Variable Air Volume (VAV) box, and transmit this data to a Field Equipment Controller (FEC), a VAV Modular Assembly (VMA) 1600, or a Network Control Engine (NCE) on the Sensor Actuator (SA) Bus using the 305 cm (10 ft) wiring lead included with the unit. The 305 cm (10 ft) wiring lead consists of four 22 AWG trade size color-coded wires encased in a plenum-rated jacket. Each of the wires is stripped and tinned for easy connection to the SA Bus screw terminal block. The NS Series Network Discharge Air Sensors are available with either a 102 or 203 mm (4 or 8 in.) temperature probe. All models include DIP switches for applications requiring multiple discharge air sensors, each with a unique DIP switch address. Features of the NS Series Network Discharge Air Sensor •

BACnet MS/TP protocol communication provides compatibility with Metasys system Field Controllers in a proven communication network.

•

4 in. or 8 in. (102 or 203 mm) probe lengths meet requirements for various duct diameters.

•

10 ft (305 cm) plenum-rated cable provides easy connection to the SA Bus.

•

DIP Switches provide easily selectable addresses for multiple locations and averaging applications.

•

Easy installation requires only two self-drilling screws.

Installation The network sensor installation is simple and flexible. The network sensors are available in compact models that mount directly on the wall, in models sized to fit standard wall boxes, and in duct-mount models. Additionally, the network sensors provide flexibility in the type of wiring in your installation by being available with screw terminal or modular jacks.


9

Wireless Commissioning Converter The Wireless Commissioning Converter is a communications converter that provides a temporary Bluetooth® wireless connection between the Metasys system field controllers and the laptop computer used to commission them. It allows technicians to commission and service the controllers over a wireless connection.

•

Standard Bluetooth wireless technology allows you to use a Bluetooth wireless-enabled laptop or laptop with a commercial off-the-shelf Bluetooth wireless adapter.

Additional BACnet Protocol Connected Devices TEC2600 Series Network Thermostats The TEC2600 Series Network Thermostats control a variety of commercial HVAC equipment. The features include a backlit LCD, easy-to-use three or five button interface, and BACnet MS/TP network communications. The network interface supports remote programming and monitoring, enabling each thermostat to be easily customized for the most efficient operation. From the thermostat or a supervisory controller, the user can easily adjust heating or cooling setpoints, view the room or outside air temperatures, select mode of operation (Day/Night), and more.

Figure 10: Wireless Commissioning Converter The Wireless Commissioning Converter provides communication from the BACnet MS/TP FC Bus or the SA Bus to a Bluetooth wireless technology enabled laptop computer running the CCT software. Any controller on a FC bus can be commissioned by connecting to any other controller on the same bus, or any sensor or IOM connected to any controller on that bus. The 2.4 GHz Bluetooth wireless connection allows the user to be up to 10 m (33 ft) away while commissioning the controller with a laptop computer and the CCT software.

Features of the Wireless Commissioning Converter •

Bluetooth wireless communication provides a secure and reliable untethered connection between the laptop and the Metasys system hardware.

•

Standard connection jacks on both the Metasys system sensors and controllers provide multiple connection points to the system.

•

The Wireless Commissioning Converter allows online access to controllers while the technician is using the Bluetooth wireless enabled laptop.

10

Figure 11: TEC2600 Series Network Thermostat The TEC260x-2 Series staged controllers can be used with rooftop units (with and without economizers), heat pumps, and single and multi-stage heating/cooling equipment. The TEC2645, TEC26x6, and TEC26x7 Series thermostats provide single and dual duct outputs offering On/Off, Floating or Proportional control and optional 1-, 2-, or 3-Speed Fan control for two- or four-pipe systems such as cabinet unit heater, perimeter heat, fan coils, zoning equipment, and more.


For more information on the TEC2600 Series Network Thermostats, refer to the following documents: •

TEC2645-2 BACnet MS/TP Networked Thermostat with Single Proportional Output and One-Speed Fan Control Product Bulletin (LIT-12011113)

•

TEC26x6(H)-2 Series BACnet MS/TP Networked Thermostats with Two Outputs, Dehumidification Capability, and Three Speeds of Fan Control Product Bulletin (LIT-12011114)

•

TEC26x7-2 Series BACnet MS/TP Networked Thermostats with Two Outputs Product Bulletin (LIT-12011115)

•

TEC260x-2 Series BACnet MS/TP Networked Thermostats Product Bulletin (LIT-12011116)

Conclusion The Metasys system BACnet protocol field controllers, network sensors, and related products affirm Johnson Controls® position as a leader in the BAS industry and as an innovator of solutions for the complete management of buildings. The complete integration with the Metasys system as well as the use of open protocols for field networks combine the benefits of the global communications and control industries into one system.

Ordering Information Contact the nearest Johnson Controls representative to order Metasys system FECs, IOMs, VMA1600s, network sensors, and related products. Specify the desired product code number from Table 4 for the FEC, IOM, VMA, Wireless Commissioning Converter, or handheld VAV Balancing Sensor. See Table 6 for the network sensors. The FEC (MS-FEUx6x0-0) and the IOM4710 (MS-IOU4710-0) consist of two parts, which are also available separately: mounting base (MS-FEBx610-0, MS-IOB4710-0) and the controller cover (MS-FECx6x0-0, MS-IOM4710-0). FEU = FEB + FEC and IOU = IOB + IOM

Repair Information If the Metasys System field equipment controllers, network sensors, or any related product fails to operate within its specifications, replace the unit. For a replacement device, contact the nearest Johnson Controls® representative.

Table 4: FEC, VMA, IOM, Wireless Commissioning Converter, and Handheld VAV Balancing Sensor Ordering Information (Part 1 of 2) Product Code Number

Description

MS-FEU1610-0

10-Point Field Equipment Controller with 2 UI, 1 BI, 3 BO, and 4 CO; 24 VAC; SA Bus; Mounting Base

MS-FEU1610-0U

10-Point Field Equipment Controller with 2 UI, 1 BI, 3 BO, and 4 CO; 24 VAC; SA Bus; Mounting Base Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-FEC1610-0

Field Equipment Controller Cover with 2 UI, 1 BI, 3 BO, and 4 CO; 24 VAC; SA Bus

MS-FEB1610-0

Triac Mounting Base for FEC16x0

MS-FEU1620-0

10-Point Field Equipment Controller with 2 UI, 1 BI, 3 BO, and 4 CO; 24 VAC; SA Bus; Mounting Base; Integral Display

MS-FEU1620-0U

10-Point Field Equipment Controller with 2 UI, 1 BI, 3 BO, and 4 CO; 24 VAC; SA Bus; Mounting Base; Integral Display Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-FEC1620-0

Field Equipment Controller Cover with 2 UI, 1 BI, 3 BO, and 4 CO; 24 VAC; SA Bus; Integral Display

MS-FEU2610-0

17-Point Field Equipment Controller with 6 UI, 2 BI, 3 BO, 2 AO, and 4 CO; 24 VAC; SA Bus; Mounting Base

MS-FEU2610-0U

17-Point Field Equipment Controller with 6 UI, 2 BI, 3 BO, 2 AO, and 4 CO; 24 VAC; SA Bus; Mounting Base Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-FEC2610-0

Field Equipment Controller Cover with 6 UI, 2 BI, 3 BO, 2 AO, and 4 CO; 24 VAC; SA Bus

MS-FEC2620-0

17-Point Field Equipment Controller with 6 UI, 2 BI, 3 BO, 2 AO and 4 CO; 24 VAC; SA Bus; Integral Display

MS-FEB2610-0

Triac Mounting Base for FEC26x0


11

Table 4: FEC, VMA, IOM, Wireless Commissioning Converter, and Handheld VAV Balancing Sensor Ordering Information (Part 2 of 2) Product Code Number

Description

MS-FEU2620-0

Field Equipment Controller Cover with 6 UI, 2 BI, 3 BO, 2 AO, and 4 CO; 24 VAC; SA Bus; Mounting Base; Integral Display

MS-FEU2620-0U

Field Equipment Controller Cover with 6 UI, 2 BI, 3 BO, 2 AO, and 4 CO; 24 VAC; SA Bus; Mounting Base; Integral Display Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-IOM1710-0

4-Point IOM with 4 BI, FC Bus and SA Bus Support

MS-IOM1710-0U

4-Point IOM with 4 BI, FC Bus and SA Bus Support Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-IOM2710-0

6-Point IOM with 2 UI, 2 UO, 2 BO, FC Bus, and SA Bus Support

MS-IOM2710-0U

6-Point IOM with 2 UI, 2 UO, 2 BO, FC Bus, and SA Bus Support Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-IOM3710-0

12-Point IOM with 4 UI, 4 UO, 4 BO, FC Bus, and SA Bus Support

MS-IOM3710-0U

12-Point IOM with 4 UI, 4 UO, 4 BO, FC Bus, and SA Bus Support Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-IOU4710-0

17-Point IOM with 6 UI, 2 BI, 3 BO, 2 AO, 4 CO, 24 VAC, and SA Bus with Mounting Base

MS-IOU4710-0U

17-Point IOM with 6 UI, 2 BI, 3 BO, 2 AO, 4 CO, 24 VAC, and SA Bus with Mounting Base Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-IOB4710-0

Triac Mounting Base for IOM4710 (17-Point)

MS-IOM4710-0

Controller Cover for IOB4710 (17-Point)

MS-VMA1610-0

Integrated VAV Controller/Actuator/Pressure Sensor (Cooling only), FC Bus, and SA Bus

MS-VMA1610-0U

Integrated VAV Controller/Actuator/Pressure Sensor (Cooling only), FC Bus, and SA Bus Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

MS-VMA1620-0

Integrated VAV Controller/Actuator/Pressure Sensor (with Reheat and Fan Control), FC Bus, and SA Bus

MS-VMA1620-0U

Integrated VAV Controller/Actuator/Pressure Sensor (with Reheat and Fan Control), FC Bus, and SA Bus Note: This model is UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment.

NS-ATV7003-0

Handheld VAV Balancing Sensor

MS-BTCVT-1

Wireless Commissioning Converter, with Bluetooth technology

12


Table 5: FEC Family Accessories (Order Separately) Product Code Number

Description

Y64T15-0

Transformer, 120/208/240 VAC Primary to 24 VAC Secondary, 92 VA, Foot Mount, 30 in. Primary Leads and 30 in. Secondary Leads, Class 2

Y65A13-0

Transformer, 120 VAC Primary to 24 VAC Secondary, 40 VA, Foot Mount [Y65AS], 8 in. Primary Leads and 30 in. Secondary Leads, Class 2

Y65T42-0

Transformer, 120/208/240 VAC Primary to 24 VAC Secondary, 40 VA, Hub Mount [Y65SP+], 8 in. Primary Leads and Secondary Screw Terminals, Class 2

Y65T31-0

Transformer, 120/208/240 VAC Primary to 24 VAC Secondary, 40 VA, Foot Mount [Y65AR+], 8 in. Primary Leads and Secondary Screw Terminals, Class 2

AP-TBK1002-0

2-position Screw Terminal that Plugs onto VMA output point Spade Lugs

AP-TBK1003-0

3-position Screw Terminal the Plugs onto VMA output point Spade Lugs

AP-TBK4SA-0

Replacement MS/TP SA Bus Terminal, 4 Position Connector, Brown, Bulk Pack

AP-TBK4FC-0

Replacement MS/TP FC Bus Terminal, 4 Position Connector, Blue, Bulk Pack

AP-TBK3PW-0

Replacement Power Terminal, 3 Position Connector, Gray, Bulk Pack

MS-BTCVTCBL-700

Cable replacement Set for the MS-BTCVT-1 or the NS-ATV7003-0; includes one 5-foot retractable cable.

MS-DIS1710-0

Local Controller Display for FEC1610 and FEC2610 models

MS-FUSE01-0

Replacement fuse, bulk pack

Product Code Number

Size (mm), Height x Width

Vertical Wallbox-Mounted (WB), Surface-Mounted (SM), or Duct-Mounted (Duct)

LCD Display

Temperature Adjustment: Setpoint (Set), or Warmer/Cooler Dial (W/C)

Occupancy Override

F/C Scale Toggle

Fan Control

Screw Terminals (ST), or Modular Jack (MJ)

Address Switches

VAV Balancing Feature

Table 6: Network Sensor Ordering Information — Temperature Only Models (Part 1 of 2)

NS-ATA7001-0

80 x 80

SM

Yes

Set

Yes

No

No

MJ

No

No

NS-ATA7002-0

80 x 80

SM

Yes

Set

Yes

No

No

ST

No

No

NS-ATB7001-0

80 x 80

SM

Yes

Set

Yes

Yes

No

MJ

No

No

NS-ATB7002-0

80 x 80

SM

Yes

Set

Yes

Yes

No

ST

No

No

NS-ATC7001-0

80 x 80

SM

Yes

Set

Yes

No

Yes

MJ

No

No

NS-ATC7002-0

80 x 80

SM

Yes

Set

Yes

No

Yes

ST

No

No

NS-ATD7001-0

80 x 80

SM

Yes

Set

Yes

Yes

Yes

MJ

No

No

NS-ATD7002-0

80 x 80

SM

Yes

Set

Yes

Yes

Yes

ST

No

No

NS-ATN7001-0

80 x 80

SM

No

No

No

No

No

MJ

No

No

NS-ATN7003-0

80 x 80

SM

No

No

No

No

No

ST

Yes

No

NS-ATP7001-0

80 x 80

SM

No

W/C

Yes

No

No

MJ

No

No

NS-ATP7002-0

80 x 80

SM

No

W/C

Yes

No

No

ST

No

No


13

LCD Display


Occupancy Override

F/C Scale Toggle

Fan Control

SM

Yes

Set

Yes

Yes

No1

VAV Balancing Feature

Vertical Wallbox-Mounted (WB), Surface-Mounted (SM), or Duct-Mounted (Duct)

80 x 80

Address Switches


NS-ATV7001-0


Product Code Number

Table 6: Network Sensor Ordering Information — Temperature Only Models (Part 2 of 2)

MJ

No

Yes

1

ST

No

Yes

No

No

NS-ATV7002-0

80 x 80

SM

Yes

Set

Yes

Yes

No

NS-BTB7001-0

120 x 80

WB, SM

Yes

Set

Yes

Yes

No

MJ

NS-BTB7002-0

120 x 80

WB, SM

Yes

Set

Yes

Yes

No

ST

No

No

NS-BTN7001-0

120 x 80

WB, SM

No

No

No

No

No

MJ

No

No

NS-BTN7003-0

120 x 80

WB, SM

No

No

No

No

No

ST

Yes

No

NS-BTP7001-0

120 x 80

WB, SM

No

W/C

Yes

No

No

MJ

No

No

NS-BTP7002-0

120 x 80

WB, SM

No

W/C

Yes

No

No

ST

No

No

NS-BTV7001-0

120 x 80

WB, SM

Yes

Set

Yes

Yes

No1

MJ

No

Yes

1

ST

No

Yes

NS-BTV7002-0

120 x 80

WB, SM

Yes

Set

Yes

Yes

No

NS-DTN7043-0

102 mm (4 in) probe

Duct

No

No

No

No

No

ST

Yes

No

NS-DTN7083-0

203 mm (8 in) probe

Duct

No

No

No

No

No

ST

Yes

No

1.

In the VAV Balancing models, the Fan Control button is replaced by a light bulb button used in the VAV Balancing Process.

14


Product Code Number


Vertical Wallbox-Mounted (WB), or Surface-Mounted (SM)

LCD Display

Humidity


Occupancy Override

F/C Scale Toggle


Table 7: Network Sensor Ordering Information — Temperature and Humidity Models

NS-APA7001-0

80 x 80

SM

Yes

2%

Set

Yes

No

MJ

NS-APA7002-0

80 x 80

SM

Yes

2%

Set

Yes

No

ST

NS-APB7001-0

80 x 80

SM

Yes

2%

Set

Yes

Yes

MJ

NS-APB7002-0

80 x 80

SM

Yes

2%

Set

Yes

Yes

ST

NS-BPB7001-0

120 x 80

WB, SM

Yes

2%

Set

Yes

Yes

MJ

NS-BPB7002-0

120 x 80

WB, SM

Yes

2%

Set

Yes

Yes

ST

NS-AHA7001-0

80 x 80

SM

Yes

3%

Set

Yes

No

MJ

NS-AHA7002-0

80 x 80

SM

Yes

3%

Set

Yes

No

ST

NS-AHB7001-0

80 x 80

SM

Yes

3%

Set

Yes

Yes

MJ

NS-AHB7002-0

80 x 80

SM

Yes

3%

Set

Yes

Yes

ST

NS-BHB7001-0

120 x 80

WB, SM

Yes

3%

Set

Yes

Yes

MJ

NS-BHB7002-0

120 x 80

WB, SM

Yes

3%

Set

Yes

Yes

ST


15

Technical Specifications FEC Series Product Code Numbers

MS-FEC1610-0 - Cover MS-FEB1610-0 - Triac Mounting Base MS-FEU1610-0 - Cover and Triac Mounting Base MS-FEC2610-0 - Cover MS-FEB2610-0 - Triac Mounting Base MS-FEU2610-0 - Cover and Triac Mounting Base MS-FEC1620-0 - Cover with Integral Display MS-FEU1620-0 - Cover with Integral Display and Triac Mounting Base MS-FEC2620-0 - Cover with Integral Display MS-FEU2620-0 - Cover with Integral Display and Triac Mounting Base

Supply Voltage

20 - 30 VAC at 50 or 60 Hz, Class 2 or Safety Extra Low Voltage (SELV)

Power Consumption

10 VA typical, 14 VA maximum, plus all BO and Configurable Output loads

Ambient Conditions

Operating: 0 to 50°C (32 to 122°F); 10 to 90% RH noncondensing Storage: -40 to 70°C (-40 to 158°F); 10 to 90% RH noncondensing

Terminations

Screw Terminals and Screw Terminal Pluggable Blocks

Controller Addressing

DIP switch set (4-127). Addresses 0-3, 128-255 are reserved.

Communications Bus

BACnet MS/TP; 3-wire FC Bus between the NAE/NCE and other devices. 4-wire SA Bus between network sensors and other devices.1

Analog Input/Analog Output Resolution and Accuracy

Analog Input: 16-bit resolution (15 bit on FEx1610) Analog Output: 16-bit resolution and ±200 mV in 0-10 VDC applications

Mounting

On flat surface with screws on three mounting clips or a single 35 mm DIN rail

Compliance

United States UL Listed, File E107041, CCN PAZX, UL 916, Energy Management Equipment; UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment (MS-FEU16x0-0U and MS-FEU26x0-0U models only) FCC Compliant to CFR47, Part 15, Subpart B, Class A Canada UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal Equipment; Industry Canada Compliant, ICES-003 Europe CE Mark, EMC Directive 89/336/EEC, in accordance with EN 61000-6-3 (2001) Generic Emission Standard for Residential and Light Industry and EN 61000-6-2 (2001) Generic Immunity Standard for Heavy Industrial Environment and the Low Voltage Directive 73/23/EEC in accordance with EN 60730-1 (1999) Automatic electrical controls for household and similar use. Australia and New Zealand C-Tick Mark, Australia/NZ Emissions Compliant BACnet International BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Application Specific Controller (B-ASC)

Weight

FEC16x0 Models: 0.5 kg (1.10 lb) FEC26x0 Models: 0.68 kg (1.5 lb)

Dimensions (Height x Width x Depth)

FEC16x0 Models: 144 x 127 x 58 mm (5-11/16 x 5 x 2-1/4 in.) FEC26x0 Models: 180 x 127 x 58 mm (7-1/16 x 5 x 2-1/4 in.)

Housing

Plastic housing Plastic material: ABS + polycarbonate UL 94-5VB Protection: IP20 (IEC 60529)

16


1.

For more information, refer to the MS/TP Communications Bus Technical Bulletin (LIT-12011034).

IOM Series (Part 1 of 2) Product Code Numbers

MS-IOM1710-0 MS-IOM2710-0 MS-IOM3710-0 MS-IOM4710-0 - Cover MS-IOB4710-0 - Triac Mounting Base MS-IOU4710-0 - Cover and Triac Mounting Base

Supply Voltage


Power Consumption

10 VA typical, 14 VA maximum plus all BO and Configurable Output loads

Ambient Conditions

Operating: 0 to 50°C (32 to 122°F); 10 to 90% RH noncondensing Storage: -40 to 70°C (-40 to 158°F); 10 to 90% RH noncondensing

Terminations

Screw terminals, 3-Position Screw Terminal Pluggable Blocks, 4-Position Screw Terminal Pluggable Blocks


DIP switch set (4-127). Addresses 1-3, 128-255 are reserved.

Communications Bus

BACnet MS/TP; 3-wire FC Bus between the NAE/NCE and other devices. 4-wire SA Bus when used as expansion to FEC.1


Analog Input: 16-bit resolution Analog Output: 16-bit resolution and ±200 mV in 0-10 VDC applications

Mounting

On flat surface with screws on three mounting clips or a single 35 mm DIN rail

Compliance

United States UL Listed, File E107041, CCN PAZX, UL 916, Energy Management Equipment; UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment (MS-IOMx710-0U and MS-IOU4710-0U models only) FCC Compliant to CFR47, Part 15, Subpart B, Class A Canada UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal Equipment; Industry Canada Compliant, ICES-003 Europe CE Mark, EMC Directive 89/336/EEC, in accordance with EN 61000-6-3 (2001) Generic Emission Standard for Residential and Light Industry and EN 61000-6-2 (2001) Generic Immunity Standard for Heavy Industrial Environment and the Low Voltage Directive 73/23/EEC in accordance with EN 60730-1 (1999) Automatic electrical controls for household and similar use. Australia and New Zealand C-Tick Mark, Australia/NZ Emissions Compliant BACnet International BACnet Testing Laboratories (BTL) 135-2004 Listed BACnet Application Specific Controller (B-ASC)

Dimensions (Height x Width x Depth)

IOM1710: 108 x 127 x 58 mm (4-1/4 x 5 x 2-1/4 in.) IOM2710: 180 x 127 x 58 mm (7-1/16 x 5 x 2-1/4 in.) IOM 3710: 180 x 127 x 58 mm (7-1/16 x 5 x 2-1/4 in.) IOM4710: 180 x 127 x 58 mm (7-1/16 x 5 x 2-1/4 in.)

Housing

Plastic housing Plastic material: ABS + polycarbonate UL94 5VB Protection: IP20 (IEC529)


17

IOM Series (Part 2 of 2) Weight

1.

IOM1710: 0.31 kg (0.7 lb) IOM2710: 0.48 kg (1.1 lb) IOM 3710: 0.55 kg (1.2 lb) IOM4710: 0.68 kg (1.5 lb)


VMA1600 Series Controllers Product Code Numbers

MS-VMA1610-0: Cooling Only MS-VMA1620-0: Cooling with Reheat and Fan Control

Supply Voltage


Power Consumption

10 VA typical, 14 VA maximum Power delivered to devices connected to the binary outputs (for example, valves, relays, and so on) is not included in this rating.

Ambient Conditions

Operating: 0 to 50°C (32 to 122°F) Storage: -40 to 70°C (-40 to 158°F)

Terminations

6.3 mm (1/4 in.) spade lugs except communications and 24 VAC power, which are screw terminal pluggable blocks


DIP switch set (4-127). Addresses 0 - 3, 128 - 255 are reserved.

Communications Bus

BACnet MS/TP; 3-wire FC Bus between the NAE/NCE and other devices. 4-wire SA Bus from the VMA to network sensors and other devices.1


Analog Input: 15-bit resolution Analog Output: 16-bit resolution and ±200 mV in 0-10 VDC applications

Mounting

Mounts to damper shaft using single set screw and to duct with single mounting screw.

Actuator Rating

4 N·m (35 lb·in) minimum shaft length = 44 mm (1-3/4 in.)

Compliance

United States UL Listed, File E107041, CCN PAZX, UL 916, Energy Management Equipment; UL Listed, File S4977, UUKL 864 - 9th Edition, Smoke Control Equipment (MS-VMA1610-0U, MS-VMA1620-0U only); FCC Compliant to CFR47, Part 15, Subpart B, Class A Canada UL Listed, File E107041, CCN PAZX7, CAN/CSA C22.2 No. 205, Signal Equipment; Industry Canada Compliant, ICES-003 Europe CE Mark, EMC Directive 89/336/EEC, in accordance with EN 61000-6-3 (2001) Generic Emission Standard for Residential and Light Industry and EN 61000-6-2 (2001) Generic Immunity Standard for Heavy Industrial Equipment, and the Low Voltage Directive 73/23/EEC in accordance with EN 60730-1 (1999) Automatic electrical controls for household and similar use. Australia and New Zealand C-Tick Mark, Australia/NZ Emissions Compliant. BACnet International BACnet Testing Laboratories (BTL) 135-2004 Listed BACnet Application Specific Controller (B-ASC)

Dimensions

(Height x Width x Depth): 182 x 182 x 64 mm (7-3/16 x 7-3/16 x 2-1/2 in.) Center of Output Hub to Center of Anti-rotation Slot: 160 mm (6-5/16 in.)

Weight

0.86 kg (1.9 lb)

1.

18



NS Series Network Sensor Supply Voltage

9.8 to 16.5 VDC; 15 VDC Nominal (from SA Bus)

Current Consumption

With LCD Display: 25 mA Maximum (Non-Transmitting) Without LCD Display: 13 mA Maximum (Non-Transmitting) 12 mA (NSDTN70x3-0 models)

Terminations

Modular Jack or Screw Terminal Block

Sensor Addressing on the SA Bus

NSDTN70x3-0 models With LCD Display: — NSDTN70x3-0 models Without LCD Display: DIP Switch Set (204 to 211) NS-xTN7003-0 Model With LCD Display: — NS-xTN7003-0 Model Without LCD Display: DIP Switch Set (200 to 203) All Other Models With LCD Display: Fixed Address of 199 All Other Models Without LCD Display: Fixed Address of 199

Wire Size

Modular Jack Models: 26 AWG (0.4 mm Diameter) Recommended; Three Twisted Pair (6 conductors) Screw Terminal Block Models: 18 to 22 AWG (1.0 to 0.6 mm Diameter); 22 AWG (0.6 mm Diameter) Recommended

Communication Rate

Auto-Detect: 9600, 19.2k, 38.4k, or 76.8k bps

Mounting

Surface-Mounted: 80 x 80 mm Surface-Mounted or Vertical Wallbox-Mounted: (120 x 80 mm) Duct-Mounted: 4 or 8 in. (102 or 203 mm) sensor length

Temperature Measurement Range

NSDTNxxxx-0 models: -10.0°C/ 14.0°F to 60.0°C/140.0°F All Other Models: 0.0°C/ 32.0°F to 40.0°C/104.0°F

Sensor Type

Local Platinum Resistance Temperature Detector (RTD)

Display Resolution

With LCD Display: ±0.5C°/±0.5F° Without LCD Display: NA

Sensor Accuracy

±0.6C°/±1.0F°

Time Constant

10 Minutes Nominal at 10 fpm Airflow (Surface- or Vertical Wallbox-Mounted Only)

Default Setpoint Adjustment Range

With LCD Display: 10.0°C/50.0°F to 30.0°C/86.0°F in 0.5° Increments Without LCD Display: ±3.0C°/±5.0F°

Ambient Conditions

Operating - All Other Models: 0 to 40°C (32 to 104°F); 10 to 95% RH, Noncondensing; 29°C (85°F) Maximum Dew Point Operating - NSDTNxxxx-0 models: -10.0 to 60.0°C (14.0 to 140.0°F) ; 10 to 95% RH, Noncondensing; 29°C (85°F) Maximum Dew Point Storage With LCD Display: -20 to 60°C (-4 to 140°F); 5 to 95% RH, Noncondensing Storage Without LCD Display: -40 to 70°C (-40 to 158°F); 5 to 95% RH, Noncondensing

Compliance

United States UL Listed, File E107041, CCN PAZX, Under UL 916, Energy Management Equipment; FCC Compliant to CFR 47, Part 15, Subpart B, Class A Canada UL Listed, File E107041, CCN PAZX7, Under CSA C22.2 No. 205, Signal Equipment; Industry Canada, ICES-003 European Union CE Mark, EMC Directive 89/336/EEC; EN61000-6-3 (2001) Generic Emission Standard for Residential and Light Industry; EN61000-6-2 (2001) Generic Immunity Standard for Heavy Industrial Environment Australia and New Zealand C-Tick Mark, Australia/NZ Emissions Compliant BACnet International BACnet Testing Laboratories™ (BTL) 135-2004 Listed BACnet Smart Sensor (B-SS)

Shipping Weight

0.09 kg (0.20 lb) for NS-Axx7xxx-0 0.11 kg (0.25 lb) for NS-Bxx7xxx-0


19

Handheld VAV Balancing Sensor Product Code

NS-ATV7003-0

Supply Voltage

9.8 to 16.5 VDC; 15 VDC Nominal

Current Consumption

25 mA Maximum (Non-Transmitting)

Terminations

Modular Jack

Wire Size

0.4 mm Diameter (26 AWG) Recommended; Three Twisted Pair (Six Conductors)

Communication Rate

Auto-Detect: 9.6k, 19.2k, 38.4k, or 76.8k bps

Ambient Conditions

Operating: 0 to 40°C (32 to 104°F); 10 to 95% RH, Noncondensing; 29°C (85°F) Maximum Dew Point Storage: -20 to 60°C (-4 to 140°F); 5 to 95% RH, Noncondensing

Compliance

United States UL Listed, File E107041, CCN PAZX, Under UL 916, Energy Management Equipment; FCC Compliant to CFR 47, Part 15, Subpart B, Class A Canada UL Listed, File E107041, CCN PAZX7, Under CAN/CSA C22.2 No. 205, Signal Equipment Industry Canada, ICES-003 Europe CE Mark, EMC Directive 89/336/EEC; EN61000-6-3 (2001) Generic Emission Standard for Residential and Light Industry; EN61000-6-2 (2001) Generic Immunity Standard for Heavy Industrial Environment Australia and New Zealand C-Tick Mark, Australia/NZ Emissions Compliant

Shipping Weight

20

0.165 kg (0.3650 lb)


Wireless Commissioning Converter Product Code

MS-BTCVT-1

Power Requirement

Nominal 15 VDC, provided through the SA/FC Bus Port

Power Consumption

1.35 watts maximum

Ambient Conditions

Operating: 0 to 50°C (32 to 122°F), 5 to 95% RH, Noncondensing, 30°C (86°F) Maximum Dewpoint Storage: -40 to 85°C (-40 to 185°F), 5 to 95% RH, Noncondensing

Transmission Power

2.5 mW maximum

Transmission Speed

Wireless Communication: 115.2k bits per second (bps) Serial Communication (SA/FC Bus): 9600, 19.2k, 38.4k, or 76.8k bps

Transmission Range (Typical)

Wireless Communication: 10 m (33 ft) line-of-sight

Wireless Security

Security Mode 3 - Link Level Enforced Security

Network and Serial Interfaces

Bluetooth Wireless Technology One RS-485 Bus

Dimensions

116 x 75 x 35 mm (4.6 x 3.0 x 1.4 in.)

Housing

Black ABS Plastic Housing Blue PVC Protective Boot

Weight

0.165 kg (0.365 lb) without hanging components

Compliance

United States FCC Title 47 - Telecommunications, Transmitter Complies with FCC part 15.247; Regulations for Low Power Unlicensed Transmitters (Transmitter FCC Identification: CB2-MS-BTCVT-0), Receiver Complies with FCC part 15.109; Regulations for Low Power Unlicensed Receivers (Transmitter FCC Identification: CB2-MS-BTCVT-0) Canada Industry Canada (IC: 279A-MSBTCVT0) Transmitter RSS-210 Receiver RSS-210 Europe CE Mark Transmitter - RTTE Directive 1995/5/EC Test Standard is ETSI EN 300 328 ISM Spread Spectrum 2.4 GHz. Transmitter/Receiver - EMC Directive 89/336/EEC Test Standard is ETSI EN 300 328 ISM Spread Spectrum 2.4 GHz. Japan Telecommunications Certification - 003NY05068 0000


21

North American Emissions Compliance for FEC Series, IOM Series, and VMA1610/1620 Controllers United States 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.

Canada 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.

North American Emissions Compliance for NS Series Network Sensors, VAV Series Balancing Sensors, and Wireless Commissioning Converters United States 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. RF Transmitters: Compliance Statement (Part 15.19) This device complies with Part 15 of the FCC 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. Warning (Part 15.21) Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment.

Canada 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. RF Transmitters: Industry Canada Statement The term IC before the certification/registration number only signifies that the Industry Canada technical specifications were met. Le terme «IC» précédant le numéro d’accréditation/inscription signifie simplement que le produit est conforme aux spécifications techniques d'Industry Canada. Section 5.5 of RSS-210 This device has been designed to operate with an antenna having a maximum gain of [x] dB. Antenna having a higher gain is strictly prohibited per regulations of Industry Canada. The required antenna impedance is [y] ohms. Cet appareil a été conçu pour fonctionner avec une antenne d'un gain maximum de [x] dBi. En application des réglementations d'Industry Canada, l'utilisation d'une antenne de gain supérieur est strictement interdite. L'impédance d'antenne requise est de [y] ohms. Section 5.11 of RSS-210 To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (EIRP) is not more than that required for successful communication. Pour réduire les interférences radio potentielles avec les dispositifs d'autres utilisateurs, le type d'antenne et son gain doivent être choisis de façon à ce que la puissance isotrope rayonnée équivalente (PIRE) ne soit pas supérieure à la puissance nécessaire pour une bonne communication.

22


Controls Group 507 E. Michigan Street Milwaukee, WI 53202

Metasys® is a registered trademark of Johnson Controls, Inc. All other marks herein are the marks of their respective owners. © 2007 Johnson Controls, Inc.

Metasys® System Field Equipment Controllers, Network Sensors, and Related Products Product Bulletin Published in U.S.A.

23

www.johnsoncontrols.com

System 91 catalogus C0103 Serie SC-9100 Uitgiftedatum 0500C0103

SC-9100

Easy DDC regelaar 1. Toepassing Deze digitale regelaar is een ongecompliceerde, voorgeconfigureerde digitale regelaar, ontworpen voor de regeling van verwarmings-, ventilatie- en luchtbehandelingsinstallaties. De SC-9100 is een unieke regelaar met 62 voorgeprogrammeerde standaard applicaties, welke tijdens de installatie uit het geheugen kunnen worden opgeroepen. Parameters kunnen vervolgens worden aangepast om de regelaar exact in te stellen op de betreffende installatie. Met behulp van vier bedientoetsen kunnen de applicaties met bijbehorende ingangen, uitgangen en regelparameters op het geïntegreerde LCD-scherm worden geselecteerd, weergegeven en bediend. Hierbij wordt uitsluitend van de Nederlandse taal gebruik gemaakt. Tevens kan een ruimtebedienmoduul SC-9180 worden aangesloten voor setpointverstelling, comfort/stand-by bediening en de instelling van tijdprogramma’s. De SC-9100 regelaar werkt volledig stand-alone, maar kan ook samen met andere digitale regelaars uit de System-91 familie, via een communicatiebus, aan een gebouwbeheersysteem worden aangesloten voor uitwisseling van operationele gegevens.

2. Bestelgegevens Omschrijving Typenummer SC-9100-8031-4 Digitale regelaar V3.1 - NL Accessoires Typenummer SC-9180-0000-W Talento 472 SR-9100 SC-9100-MK SC-9180-8900

Omschrijving Ruimtebedienmoduul Elektrische tijdschakelklok Tweetraps relaismoduul Inbouwset voor frontmontage Verlengkabel 20 m.

Cat. blad B0133 F0301 F0113

3. Werking/Functies Inleiding De SC-9100 is een digitale regelaar, die de aangesloten analoge en digitale ingangssignalen in voorgeprogrammeerde functiemodulen verwerkt. Afhankelijk van operationele parameters worden dan de analoge en digitale uitgangen aangestuurd. De functie van de modulen hangt af van het algoritme dat voor elk moduul is gekozen. Alle functiemodulen kunnen voor de volgende algoritmen zijn geconfigureerd: · Aan/uit regelaar. · PI regelaar. · Dual-aan/uit regelaar (verwarmen/koelen) met één uitgang. · Dual-PI regelaar (verwarmen/koelen) met één uitgang. · Dual-aan/uit regelaar (verwarmen/koelen) met twee uitgangen. · Dual-PI regelaar (verwarmen/koelen) met twee uitgangen. · Gemiddelde waardeberekening. · Minimum-/maximum voorkeurselectie. · Calculatiefuncties. · Lijnsegmentering. C0103/0500

De uitgang van een functiemoduul kan met één of meerdere uitgangsmodulen en met één of meerdere ingangen van andere functiemodulen zijn verbonden. Voor gedetailleerde uitleg over de werking van de genoemde modulen verwijzen wij naar 3. Werking/ functies van de TC-9100 Universele Digitale Ruimteregelaar, catalogusblad C0102. De regelaar beschikt over: · 2 analoge 0...10 V ingangen, · 2 analoge NTC-ingangen, · 2 digitale ingangen voor potentiaalvrije contacten, · 3 analoge 0...10 V uitgangen, · 2 digitale triac-uitgangen, · 1 relais uitgang met enkelvoudig omschakelcontact, · 1 aansluiting voor het SC-9180 ruimtebedienmoduul. De SC-9100 regelaar kan als stand-alone regelaar worden toegepast, maar kan ook met een centraal GBSsysteem communiceren via een RS485 bus (Bus-91). Voor de toepassingen xxx.2xx wordt gebruik gemaakt van de SC-9180-0000 als ruimtebedienmoduul met klokschakeling. Op de overige toepassingen wordt als elektrische tijdschakelklok de Talento 472 toegepast.

1

C0103

Applicaties (zie voor separate applicatiebladen catalogusblad H0100 ) De SC-9100 regelaar is voorgeprogrammeerd met de in onderstaande tabel weergegeven 62 applicaties. Deze kunnen op het geïntegreerde bedienpaneel worden gekozen, waarna de bijbehorende bedrijfsparameters op hetzelfde bedieningspaneel kunnen worden aangepast. Op separate applicatiebladen zijn de benodigde gegevens voor de selectie en toepassingen van de SC-9100 regelaar opgenomen. Deze bladen bevatten elk de volgende gegevens: PROCESSCHEMA Per applicatie is het processchema weergegeven met verwijzing naar een tabel met volgende gegevens: In/Uitgang: De codering van de in- of uitgang van de regelaar Omschrijving: Nadere indicatie, waarvoor het signaal wordt toegepast, Signaal: Betekenis en bereik van het signaal, Aantal aders: Aantal benodigde aders bij toepassing van de geadviseerde signaalgever of stelorgaan, Ader ø in mm²: Minimaal benodigde aderdoorsnede Max. kabellengte: Maximale kabellengte bij toepassing van de minimale aderdoorsnede, Typenummer: Bestelgegevens van de geadviseerde signaalgever of stelorgaan, Catalogusblad: Catalogusbladnummer van de geadviseerde signaalgever of stelorgaan. FUNCTIONELE OMSCHRIJBeknopte omschrijving van de applicatie. VING

REGELTECHNISCHE OMSCHRIJVING

Omschrijving van de werking van de betreffende applicatie.

PUNTLIJST

Dit is een lijst met punten, die op het display van de SC-9100 kunnen worden weergegeven (aangegeven met l) en punten die gewijzigd kunnen worden (aangegeven met ¡). Weergave van de regelfuncties a.d.h.v. een blokdiagram en een functiediagram. Schema voor de elektrische aansluiting van de geadviseerde signaalgever of stelorgaan.

BLOKDIAGRAM AANSLUITSCHEMA

Applicatie Omschrijving van de regeling Algemene regelingen A01.001 3 x Schakelfunctie op basis van de gemeten temperatuur en 2 x ruimteregeling. A01.002 2 x Ruimteregeling. A01.003 1 x Ruimteregeling. A01.004 3 x Schakelfunctie op basis van de gemeten temperatuur. A01.005 Retourtemperatuurbewaking voorverwarmer A01.006 Beveiliging voorverwarmer op basis van buitentemperatuur A01.007 Zomer/winter omschakeling luchtkleppen Verwarmingsregelingen H01.001 Buitentemperatuurafhankelijke ketelregeling aan/uit en 1 x radiatorengroep. H01.002 Buitentemperatuurafhankelijke ketelregeling hoog/laag/uit en 1 x radiatorengroep. H01.003 Buitentemperatuurafhankelijke, modulerende ketelregeling (0...10 V) en 1 x radiatorengroep. H01.004 Buitentemperatuurafhankelijke volgorderegeling van 8 ketels. H01.005 Boilerregeling aan/uit met minimum en maximum temperatuurbewaking. H01.006 2 x Buitentemperatuurafhankelijke radiatorengroep. H01.007 Niet-adaptieve optimiserschakeling. H01.008 1 x Buitentemperatuurafhankelijke radiatorengroep met ruimtecompensatie. H01.201 Ketelregeling (aan/uit) met verwarmingsgroep, ruimtecompensatie en min. ruimtebewaking, warmtevraag, pompschakeling, klokschakeling en mogelijkheid externe stooklijn. H01.202 Ketelregeling (aan/uit) met verwarmingsgroep, ruimtecompensatie en min. ruimtebewaking, warmtevraag, klokschakeling en doorgeven van klok en mogelijkheid externe stooklijn. H01.203 Ketelregeling voor twee ketels (aan/uit) met verwarmingsgroep, ruimtecompensatie en min. ruimte bewaking, pompschakeling, klokschakeling en mogelijkheid externe stooklijn. H01.204 Ketelregeling voor twee ketels (aan/uit) met verwarmingsgroep, ruimtecompensatie en min. ruimte bewaking, klokschakeling en doorgeven van klok en mogelijkheid externe stooklijn. H01.205 Ketelregeling (0-10V) met verwarmingsgroep, ruimtecompensatie en min. ruimtebewaking, warmtevraag, pompschakeling, klokschakeling en mogelijkheid externe stooklijn. H01.206 Ketelregeling (0-10V) met verwarmingsgroep, ruimtecompensatie en min. ruimtebewaking, warmtevraag, klokschakeling en doorgeven van klok en mogelijkheid externe stooklijn. H01.207 Verwarmingsregeling met pompschakeling, klokschakeling, melding warmtevraag en min. ruimtebewaking. H01.208 Boilerregeling met pompschakeling, klokschakeling, min. temperatuur bewaking en maximaal bewaking. Vochtregelingen M01.001 Aan/uit retourvochtregeling met inblaasbegrenzing. M01.002 Modulerende retourvochtregeling met inblaasbegrenzing. M01.003 Aan/uit ruimtevochtregeling met inblaasbegrenzing. M01.004 Modulerende ruimtevochtregeling met inblaasbegrenzing. M01.005 Aan/uit inblaasvochtregeling. M01.006 Modulerende inblaasvochtregeling. Retour- en ruimteregelingen V01.001 Retourregeling met verwarmen, koelen, recirculatie en min. inblaasbegrenzing. V01.002 Retourregeling met verwarmen, recirculatie en min. inblaasbegrenzing. V01.003 Retourregeling met verwarmen, koelen en min. inblaasbegrenzing. V01.004 Retourregeling met verwarmen en min. inblaasbegrenzing. V01.005 Ruimteregeling met verwarmen, koelen, recirculatie en min. inblaasbegrenzing. V01.006 Ruimteregeling met verwarmen, recirculatie en min. inblaasbegrenzing. V01.007 Ruimteregeling met verwarmen, koelen en min. inblaasbegrenzing. V01.008 Ruimteregeling met verwarmen en min. inblaasbegrenzing.

2

Cat.-blad H0211 H0212 H0213 H0214 H0215 H0216 H0217 H0311 H0312 H0313 H0314 H0315 H0316 H0317 H0318 H0621 H0622 H0623 H0624 H0625 H0626 H0627 H0628 H0411 H0412 H0413 H0414 H0415 H0416 H0511 H0512 H0513 H0514 H0515 H0516 H0517 H0518

C0103/0500

C0103 Applicatie Omschrijving van de regeling Retour- en ruimteregelingen (vervolg) V01.201 Ruimteregeling voor verwarmen (0-10V) en luchtkleppen (0-10V) met inblaasbegrenzing en min. ruimtebewaking, vuilfiltermelding, vorstgevaar en warmtevraag. V01.202 Ruimteregeling voor verwarmen (0-10V) en koelen (0-10V) met inblaasbegrenzing en min. ruimtebewaking, vuilfiltermelding, vorstgevaar en pompschakeling. V01.203 Ruimteregeling voor verwarmen (0-10V) met inblaasbegrenzing en min. ruimtebewaking, vuilfiltermelding, vorstgevaar en pompschakeling. V01.204 Ruimteregeling voor koelen (0-10V) met inblaasbegrenzing en min. ruimtebewaking, vuilfiltermelding, vorstgevaar en pompschakeling. Inblaasregelingen V02.001 Inblaasregeling met verwarmen en koelen. V02.002 Inblaasregeling met verwarmen. V02.201 Inblaasregeling met verwarmen, koelen en luchtkleppen (allen 0-10V) met ruimtecompensatie, inblaasbegrenzing en min. ruimtebewaking, klokschakeling, vuilfiltermelding, vorstgevaar en doorgeven klok. V02.202 Inblaasregeling voor verwarmen (0-10V) koelen (DX) en luchtkleppen (0-10V) met ruimtecompensatie, inblaasbegrenzing en min. ruimtebewaking, klokschakeling, vuilfiltermelding, vorstgevaar en doorgeven klok. V02.203 Inblaasregeling voor verwarmen (0-10V) koelen en (0-10V) met ruimtecompensatie, inblaasbegrenzing en min. ruimtebewaking, pompschakeling, klokschakeling, vuilfiltermelding, vorstgevaar en doorgeven klok. V02.204 Inblaasregeling voor verwarmen (0-10V) en koelen (DX) met ruimtecompensatie, inblaasbegrenzing en min. ruimtebewaking, klokschakeling, pompschakeling, vuilfiltermelding, vorstgevaar en doorgeven klok. V02.205 Inblaasregeling voor verwarmen (0-10V) met ruimtecompensatie, inblaasbegrenzing en min. ruimtebewaking, klokschakeling, pompschakeling, vuilfiltermelding, vorstgevaar en doorgeven klok. V02.206 Inblaasregeling voor koelen (0-10V) met ruimtecompensatie, inblaasbegrenzing en min. ruimtebewaking, klokschakeling, pompschakeling, vuilfiltermelding, vorstgevaar en doorgeven klok. Naregelingen V03.001 Naregeling voor één zone. V03.002 Naregeling voor twee zones V03.003 Naregeling voor één zone met externe setpointverstelling. V03.004 Naregeling voor twee zones met externe setpointverstelling. Speciale regelingen V04.001 Retourregeling met min. koelwaterbegrenzing V04.002 Retourregeling met koelen en min. inblaasbegrenzing V04.003 Ruimteregeling met koelen en min. koelwaterbegrenzing V04.004 Ruimteregeling met koelen en min. inblaasbegrenzing V04.005 Retourregeling met koelen V04.006 Koelwaterregeling V04.007 Ruimtekoelregeling V04-008 Ruimteregeling met koelen en min. inblaasbegrenzing (ruimtetemperatuur van DX-regelaar) V04.009 Ruimteregeling met koelen en min. inblaasbegrenzing

4. Uitvoering De SC-9100 regelaar bestaat uit een kunststof grondplaat met daarop een elektronisch moduul met de microprocessor en de in- en uitgangen met bijbehorende aansluitklemmen. Tevens bevat dit moduul een DIPschakelaar voor de instelling van het apparaatnummer bij aansluiting op de Bus-91 en één jumper om de gemeenschappelijke 0 van de triacs door te verbinden. Op de grondplaat is een afdekkap gemonteerd met daarin een elektronisch moduul met LCD-display en 4 bedientoetsen. Dit moduul is via een lintkabel met het moduul op de grondplaat verbonden. De aansluitklemmen en de aansluiting voor de Bus-91 zijn bij gemonteerde afdekkap bereikbaar.

Cat.-blad H0601 H0602 H0603 H0604 H0521 H0522 H0611 H0612 H0613 H0614 H0615 H0616

H0531 H0532 H0533 H0534 H0541 H0542 H0543 H0544 H0545 H0546 H0547 H0548 H0549

Analoge ingangen AI3 en AI4, NTC De 2 ingangen werken met passieve NTC-weerstandsvoelers. In catalogusblad B0010, Voelergegevens en Weerstandstabellen, zijn in tabel 4 (K2) en tabel 2 (K10) de weerstandswaarden te vinden.

Digitale ingangen DI1 en DI2 De 2 digitale ingangen worden als potentiaalvrij contact aan de regelaar aangesloten.

Analoge uitgangen AO1.1, AO1.2 en AO2

In- en uitgangen

De uitgangen AO1.1 en AO1.2 zijn onderling gekoppeld en worden altijd tezamen vanuit één functiemoduul aangestuurd voor de regeling van bijvoorbeeld een verwarmings- en een koelafsluiter in volgorde. Er is daarbij altijd slechts één uitgang actief. Uitgang AO2 wordt separaat aangestuurd.

Analoge ingangen AI1 en AI2, 0...10 V

Digitale uitgangen TR1, TR2 en REL

Deze 2 ingangen werken met een actieve 0..10 V= ingangsspanning. De meetbereiken zijn afhankelijk van de gekozen toepassing.

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De regelaar beschikt over 3 digitale uitgangen. De uitgangen TR1 en TR2 zijn triac-uitgangen, geschikt voor 24 V~, 0,5 A. Uitgang REL is een relaisuitgang met een potentiaalvrij contact, geschikt voor 24 V~, max. 2 A.

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5. Apparaatcombinaties Voelers en contactgevers

De SC-9100 regelaars zijn geschikt voor onderstaande Johnson Controls voelers of andere voelers met een actieve 0...10 V, passieve NTC of schakelende apparatuur zoals thermostaten, enz.. De actieve Johnson Controls voelers kunnen door de 15 V= uitgangsspanning van de regelaar worden gevoed. De te gebruiken voelers of contactgevers zijn in de tabellen onder 2. Werking/functies weergegeven. Typenummer Voelers voor:

Signaal Cat.blad SC-9180-0000 Ruimtebedienmoduul Localbus B0133 NTCK2 B0100 RS-9143-0000 Ruimtetemperatuur TS-9101-8402 Buitentemperatuur 0..10V B0101 TS-9101-8213 Watertemperatuur 0..10V B0101 TS-9101-8214 Watertemperatuur 0..10V B0101 TS-9101-8226 Watertemperatuur 0..10V B0101 TS-9101-82x2 Kanaaltemperatuur 0..10V B0101 TS-9101-83x2 Kanaaltemperatuur/snel 0..10V B0101 TS-9104-8220 Watertemperatuur NTCK10 B0101 HT-9000-1RW Ruimtevocht 0..10V B0202 HT-9000-1D1 Kanaalvocht 0..10V B0202 270XT95008 Vorstthermostaat E0110 0/1 A19ABC-9011 Max. thermostaat E0102 0/1 HMH E0200 Kanaalhygrostaat 0/1 Talento 472 El. tijdschakelklok F0301 0/1 SR-9100 F0113 Tweetraps relaismoduul 0/1

Corrigerende organen De SC-regelaars zijn geschikt voor Johnson Controls servomotoren en alle andere servomotoren met 0...10 V= aansturing.

Bedien- en beheersystemen De SC-regelaars kunnen aan onderstaande Johnson Controls bedienen beheersystemen worden aangesloten: Systeem Omschrijving Cat. blad SYS91Log/-Com Beheer op afstand G0200 FMS Metasys Junior mini-GBS G0311 FMS G0330 Metasys FMS via NCMonderstation

6. Technische gegevens Voedingsspanning Verbruik Aansluitingen Interfaces: N2-bus

24 V~, +15% -10%, 50/60 Hz 4VA Schroefklemmen, max. 1,5 mm² RS485, 9600 bps, 0...255 adresseerbaar Local Bus Synchroon, serieel, 600 baud Analoge ingangen: AI1 en AI2 2 x 0...10 V=, imp > 100 kW AI3 en AI4 2 x NTC voor diverse bereiken Aftastcyclus: 0,5 seconden Voeding 15 V=, 15 mA Digitale ingangen: DI1 en DI2 2 x van potentiaalvrij contact Max. lengte (zonder repeater) 1200 m. Aftastcyclus 0,5 seconden Topologie Busstructuur Analoge uitgangen: Kabeltype 4 x 0,8 mm afgeschermd AO1.1 en AO1.2 0...10V=, max 10 mA. Slechts Signaal RS485 één uitgang isbaud steeds actief Snelheid 9600 AO2 0...10V=, max 10 mA. Afsluitweerstand 220 W Digitale uitgangen: TR1 en TR2 Geïsoleerde triacs, 24 V~/0,5 A REL Geïsoleerd relaiscontact 24 V~, max. 2A. Lekstroom triacs Max. 1 mA

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6. Technische gegevens (vervolg) Montage

DIN-rail of wandmontage (met twee bijgeleverde montagebeugels) Materiaal behuizing ABS + polycarbonaat, zelfblussend volgens VO UL94 Beschermingsklasse IP30 volgens EN60529 Omgevingscondities 0...50 °C, 10...90 %RV, niet condenserend Opslag-condities -20...+70 °C, 10...90 %RV, niet condenserend Afmetingen Zie 12. Afmetingen in mm CE-markering EN 50081-1 en EN 50082-1 (aanbeveling 89/336 EEC) Gewicht 0,35 kg

7. Projectering · Een SC-9100 regelaar configureren betekent slechts de gewenste applicatie kiezen. Er zijn verder geen engineeringwerkzaamheden noodzakelijk. Met de selectie van de applicatie liggen meteen ook de toe te passen voelers en corrigerende organen vast. De SC-regelaar is alleen ontworpen als digitale regelaar in klimaatinstallaties. Het is niet raadzaam om bij kritische toepassingen onder specifieke condities de regelaar toe te passen voor zowel regeling als beveiliging. In dit geval dient een separate beveiliging geïnstalleerd te worden.

8. Montage en installatie De SC-9100 serie regelaars is ontworpen voor wand- of DIN-railmontage. Met behulp van de inbouwset SC9100-MK kan de regelaar ook in een wand worden ingebouwd (Zie 12. Afmetingen). De montageplaats dient schoon en droog te zijn en niet onderhevig aan extreme warmte of koude. De elektrische bedrading moet voldoen aan lokale eisen en mag alleen door geautoriseerd personeel geïnstalleerd worden. Gebruikers dienen zich bewust te zijn van hun verantwoordelijkheid om de producten van Johnson Controls op een veilige manier toe te passen, zonder risico voor gezondheid of apparatuur. Let bij de montage op het volgende: · Zorg voor een minimum van 25 mm. ruimte boven en onder de regelaar om bedrading te kunnen monteren of verwijderen. · Voor wandmontage schuift u de twee bijgeleverde montagebeugels in de diagonaal aangebrachte sleuven aan de achterzijde van de regelaar en monteert u de regelaar met de twee bijgeleverde zelftappende schroeven. · Voor DIN-rail montage klikt u de regelaar op de DINrail (35 x 7,5 mm). · U kunt de regelaar van de DIN-rail losmaken door de regelaar omhoog te drukken en dan aan de bovenzijde van de rail te trekken. · Voor frontmontage maakt u eerst een uitsparingen, zoals onder 12. Afmetingen aangegeven. Vervolgens steekt u de regelaar door de opening, bevestigt u het stukje DIN-rail aan de regelaar en het geheel met de bijgeleverde frontplaat, twee schroeven en vleugelmoeren aan de binnenzijde van de wand. · Sluit de veldapparatuur aan op de schroefklemmen aan de boven- en onderzijde van de regelaar (maximaal 1,5 mm2) zoals onder 11. Aansluitschema’s en de desbetreffende applicatiebladen is weergegeven.

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Andere verbruikers

24 V~

220/240 V~

zekeringen

TC-regelaars

De regelaars zijn tegen schadelijke beïnvloeding beschermd. Incorrecte installatie in omgevingen met sterke magnetische velden kan echter tot storingen leiden. U dient vooral op het volgende te letten: · Vermijd montage op plaatsen, waar de regelaar bloot staat aan trillingen, tocht, vocht en grote temperatuurschommelingen. · Installeer de regelaar niet in de onmiddellijke omgeving van magneetschakelaars, frequentieomvormers en thyristorregelaars. · Sterkstroom- en zwakstroombedradingen in schakelkasten dienen van elkaar gescheiden te zijn en, indien mogelijk, verschillend van kleur te zijn. · Houd de lengte van de kabels zo kort mogelijk. De max. lengtes zijn in de toepassingstabellen van de applicatiebladen weergegeven. Voor lengten boven 50 m. dient afgeschermde kabel gebruikt te worden. · Gebruik getwiste kabel voor de ingangen. · Houd een minimale afstand van 30 cm. aan tussen sterkstroom- en zwakstroombekabeling. · Leg geen leidingen in de buurt van hoogspanningstransformatoren of apparaten die hoge frequenties genereren. · Gebruik voor de Bus-91 communicatiebus een geschikte kabel. De busstructuur dient tevoldoen aan de volgende specificaties: · De afscherming dient aan één punt in de schakelkast geaard te zijn. · Op de 24 V~ voedingsspanning mag geen inductieve of capacitieve belasting aan de 24V-transformator, die de regelaar voedt, aangesloten worden.

Een montagehandleiding bevindt zich bij het apparaat.

9. Inbedrijfstelling De SC-9100 regelaar wordt in bedrijf gesteld door de gewenste applicatie te kiezen en indien nodig, de benodigde inbedrijfstelpunten aan te passen.

G/F E C

Bediening Na de installatie en inschakeling van de regelaar verschijnt op het display: "Even wachten AUB" en daarna "Geef code niv. 2". Opm. Indien de regelaar al eerder in bedrijf is geweest, bijv. voor testdoeleinden bij de kastenbouwer, verschijnt echter de welkomsttekst. Met de toets (F) doortoetsen naar "Geef code niv. 2". Houdt de (F) 10 seconden ingedrukt en de bediener komt in niveau 2 terecht. Het display geeft bijvoorbeeld de eerste keer het volgende weer:

Applicatie A01.001

01

Druk éénmaal op de (E) toets en de eerste regel van het display gaat knipperen. Met behulp van de toetsen (G/F) bladert de bediener door de applicaties, totdat de gewenste applicatie op het display verschijnt. Druk nogmaals op de (E) toets en de keuze wordt bevestigd. Na de tekst “Uitgangen disabl” vermeld het display het volgende:

Laden nr.01 20% Gereed

Na ongeveer 60 sec. is de applicatie geladen in het geheugen van de SC-9100; een eventueel eerder geladen applicaApplicatie 01 tie is nu overschreven. A01.001 Let op: Om een gekozen applicatie operationeel te maken, dient de regelaar gedurende ca. 30 sec. spanningsloos te worden geschakeld. Niveau 2 geeft de mogelijkheid tot wijziging van de belangrijkste instellingen. Blader met behulp van (G/F) de toetsen naar het desbetreffende instelpunt. Druk op de (E) toets om te bedienen.

Setpoint

1 +5 °C

De bovenste regel gaat knipperen. Met de (G/F) toetsen kan de bediener de waarde van de instelling verhogen of verlagen.

Het bedienpaneel Het bedienpaneel van de SC-9100 regelaar bestaat uit een LCD-scherm met twee regels van elk 16 tekens en 4 bedientoetsen. De toetsen hebben de volgende betekenis:

Niveau 3: serviceniveau. Dit niveau is door middel van een password beveiligd en alleen toegankelijk voor geautoriseerd personeel.

Trmt.1 23

Trmt.2 23

C E

Cursortoetsen: om heen en terug te bladeren tussen de inbedrijfstelpunten of om de waarde van deze punten te wijzigen. Edit/Enter toets: om een keuze of bediening te bevestigen Change toets: om een niveau te verlagen of een bediening af te breken

Het LCD is verlicht als de regelaar is ingeschakeld. De regelaar heeft 3 bedienniveaus:

Niveau 1: monitoring. Dit niveau is een integraal

deel van niveau 2.

Door de toets (E) in te drukken, wordt de keuze bevestigd en stopt de bovenste regel met knipperen. Ga door middel van de (G/F) toetsen naar het volgende in te stellen punt en herhaal voorgaande handelingen. Steeds kan teruggekeerd worden naar de oorspronkelijke standaardwaarden van de betreffende applicatie. Hiertoe met de (G/F) toetsen terugkeren naar de betreffende applicatie (bijv. applicatie 01 - A01.001) en tweemaal de toets (E) indrukken. Indien gedurende een uur geen bediening plaatsvindt, geeft de SC-9100 automatisch het welkomscherm in niveau 1 weer. Bij koppeling met een beheersysteem via de bus-91 dient het apparaatadres op de DIP schakelaar te worden ingesteld. De overige jumperinstellingen zijn fabrieksmatig en mogen niet gewijzigd worden

Niveau 2: inbedrijfstellen. De bediener kan in dit

niveau de belangrijkste inbedrijfstelpunten oproepen en indien nodig deze punten wijzigen. Bij doortoetsen ( G toets), bereikt men automatisch niveau 1. C0103/0500

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10. Onderhoud Naast periodieke controle op de goede werking en schoonmaakwerkzaamheden behoeft de regelaar geen verder onderhoud. Wel is het raadzaam de aangesloten randapparatuur, zoals voelers en servomotoren, periodiek te controleren op goede werking en afstelling, daar een nauwkeurige regeling van deze aangesloten apparatuur direct afhankelijk is.

11. Aansluitschema

3 4 1

Digitale ingangen:

22

21/24

R/T

Nul

naar SC-9180

15 14

H

BA C

5 6

M ax. 30 m .

5 6

21 22 23 24 AI3 AI4

11 12 13 14 15 AI1 AI2

31 32 33 34 DI1 DI2

Local Bus

+15 V=

RT+

DI-NUL

JP4

N2 Bus

AI-NUL

bruin blauw rood wit

T

Passieve temperatuurvoelers

8 V=

Actieve temperatuur- en vochtvoelers

AO NUL

RTcom sh

REL TR2 TR1 82 81 74 73 72 71

AO2 62 61

AO1.2 AO1.1 54 53 52 51

42

41

0/10V

M

0/10V 24V~

0-10 V Servomotor 24 V~

M

0/10V 24V~

0-10 V Servomotor

M 24V~

0-10 V Servomotor

24 V~ COM

6

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12. Afmetingen in mm. 120

4,6

6

CON T RO L L ER

C

E

45

S LC

118

101,6

SC-9100

56

107

ø6 min. Min. 47

Paneeluitsnede voor inbouwset SC-9100-MK

Min. 108 121 Montagevolgorde Inbouwset SC-9100-MK 1. Stukje DIN-rail inklikken. 2. Regelaar door paneeluitsnede steken. 3. Afdekraam opsteken. 4. Schroeven door afdekraam en DIN-rail steken. 5. Geheel met vleugelmoeren vastdraaien.

5.

1. 2.

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4.

3.

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De beschreven kenmerken zijn algemeen en conform geaccepteerde standaards. Johnson Controls wijst elke verantwoordelijkheid voor schade af die het resultaat is van verkeerde toepassing of verkeerd gebruik van haar producten.

Johnson Controls Automation Systems BV. Avelingen West 5 Postbus 356 4202 MS Gorinchem 4200 AJ Gorinchem Tel. 0183-667600 Fax. 0183-636579

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België: Johnson Controls NV/SA De Kleetlaan 2C 1831 Diegem Tel. 02-711.43.00 Fax. 02-725.73.20 C0103/0500 Wijzigingen voorbehouden Gedrukt in Nederland / VSC C0103/0500

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