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Circon - 200 Series  

LINC-200 LON Integrated Node Connector

Supervisory Interface Devices
LINC-200
Date Last Saved: 6/26/2015 4:31:20 PM

Product Name(s): LINC-200 LON Integrated Node Connector
Product Description: Provides a LON interface to and control of 3rd party LON devices using LONWORKS technology.
Product Application(s): Designed to provide scheduling, alarming, and trending of 3rd party LONWORKS based devices. Can also perform some local control functions over the network (but has no physical I/O). Stores up to 20 separate schedules for secondary network devices/controllers. Stores data for up to 20 alarm points originating at designated controllers. Transmits alarms over LON to OWS or SMC-200 Site Management Controller. Records/stores up to 25 sets of trend data. Performs up to 10 PID control calculations for networked LON devices. Performs up to 2 Optimal Start/Stop calculations for networked LON devices.
Point Quantity Characteristics
Analog Input (AI): N.A. N.A.
Digital Input (DI): N.A. N.A.
Universal Input (AI or DI): N.A. N.A.
Analog Output (AO): N.A. N.A.
Digital Output (DO): N.A. N.A.
Universal Output (UO): N.A. N.A.
Other: N.A. N.A.
A/D Converter Resolution
D/A Converter Resolution
HOA switches provided on each output?
Note: These are also available as an add-on from 3rd party vendors.
Indicating status LED on each output?
Integral Flow Sensor? N.A.
Integral Damper Actuator? N.A.
Can controller accept occupant override from thermostat? N.A.
Can controller accept occupancy sensor input? N.A.
Expander Boards N.A.
Network Ports, Protocol(s), and Speed(s) Supported
(Note: See 'Architecture' for network details)
(1) - LonTalk with Echelon Free Topology Transceiver (FFT-10) to LON @ 78 Kbps
External Communication Ports, Speeds and Access Devices None
Additional Information (Optional)
Network Accessing Capabilities via Controller
Controller Access Devices
Zone-Based Interface Access N.A.
Zone Interface Hardware
*Note: This section covers the capabilities for accessing the controller or other parts of the network from the controller (i.e. 'bottom-up').
Standard access functionality is covered in the Architecture and Software sections.
**Does NOT include front-end OI functions. See vendor for specific functions available.
Microprocessor(s) Neuron 3150 chip
Clock Type
Powered, battery-backed
Battery powered
Powered, no battery backing
None
Other
Clock Synchronization One controller is defined during system configuration/setup as the reference timepiece that others synchronize to
Volatile Memory (RAM) Capacity Information not provided
Volatile Memory (RAM) Uses
RAM use unrestricted
RAM use restricted as shown below
Information Not Provided
Program Execution / Calculation storage
Data / Trends / Alarms storage
Configuration / Parameter storage
Control Programming storage
Others
Is Volatile Memory Supported By Battery? Yes
Battery Type(s) Lithium battery
Battery Life 3 Years
Backup Battery Operating Time Standard battery is capable of providing 1 year of memory and clock backup.
Non-Volatile Memory Capacity (EEPROM/Flash)* Information not provided
Non-Volatile Memory Uses
Data / Trends / Alarms / Calculation Storage
Configuration / Parameter Storage
Control Programming Storage
Controller Operating System
Other
Additional Information
* Items in NV memory are not lost upon power or battery failure. Other types of NV memory such as EPROM, NOVROM, etc. do not directly impact system performance.
Can trend data be stored in this controller? Yes
How many total trend values can be stored? Information not provided
What is the controllers role in trending? The LINC-200 can trend averages, current data, minimum and maximum values at user defined intervals, and can also track/store change of state.Trends are 'pulled' from controller by the OWS.
Can controller be programmed to 'push' data to archive or are trends 'pulled' from controller?
When full, does controller automatically send up trend data, overwrite data, or stop logging data? If SI trend data buffer fills before being called by archive workstation, old data is overwritten.
Programming Method(s) N.A.
Resident vs Non-Resident Program Execution N.A.
Scheduling
Resident Energy Management
Specific Pre-Programmed Algorithms Available
Additional Programming Functions N.A.
DDC Loops (P, PI, PID) N.A.
Automatic PID Tuning Feature N.A.
Automatical-Dial Alarm Support N.A.
Does controller perform multiple retries and buffer/store alarm until connection is made? N.A.
Are multiple destinations possible? N.A.
Upon controller power loss or hardware failure:
Are network communications affected? N.A.
Is loss recognized on/by the network and alarm reported? N.A.
DO and AO response?
Volatile memory functions?
Upon restoration of power does the controller:
Auto-reboot without operator intervention? N.A.
Automatically reset/synchronize the clock? N.A.
Update all monitored functions? N.A.
Generate an alarm if backup battery is dead? N.A.
Upon network or communications failure does controller:
Continue to operate standalone? N.A.
Operate with last global settings or user-specified value? N.A.
Do broken network segments continue to communicate within the remaining segment?
(Note: May depend on proper termination of segments for higher speed networks.)
N.A.
Does network automatically reconfigure upon restoration? N.A.
Does network store 'loss of communications' alarm with time of event? N.A.
Additional Information (optional) N.A.
Self Test Diagnostics
Does controller have internal self-test diagnostics to check:
Processor failure? N.A.
Internal hardware failure? N.A.
Open/shortened sensor? N.A.
Others? N.A.
 
Control Enclosure N.A.
Power Supply Required
Voltage 24 Vac, 50- 60 Hz
VA 12 VA
Surge Protection No
Underwriters Laboratories UL 916 PAZX (Energy Management)
FCC FCC Part 15, Subpart J, Level A
CE No
LonMark Certified
Yes
No
No - but LonWorks compatible
Information not provided
BACnet (BTL) Certified
Yes
No
Not submitted for testing
Information not provided
Other

Programming Method(s)

(See also 'Software' Form)

Line code programming

Scheduling

(See also 'Software' Form)

The LINC-200 has 20 schedule blocks. By employing one-to-many binding, hundreds of third-party LON devices can be scheduled.

Energy Management

SI-resident energy management functions/algorithms calculated and performed by this SI. One or more of these choices may be selected. 'No' indicates that it is not available.

Energy management algorithms for this controller can be custom programmed.
Pre-programmed/built-in algorithms available, and are fully editable using custom programming.
Pre-programmed/built-in with limited editing via template-based programming.
SI is not typically used for energy management functions
Other

Specific, pre-programmed algorithms available.

'No' indicates that it is not available.

None (custom programming only)
None (not applicable)
Optimal Start/Optimal Stop
Peak Demand Limiting/Load Shedding
Economizer
Additional Energy Management functions resident at individual controllers
Other Other 10 PID blocks, 10 thermostat blocks, and 5 float blocks
Hardware I/O Points None
Additional SI Functions

Automatic-Dial Alarm Support

(See also 'Software' Form)

None
Does SI perform multiple retries and buffer/store alarm until connection is made? No auto-dial alarm
Are multiple destinations possible? No auto-dail alarm
 
Upon SI power loss or hardware failure:
Is loss recognized on/by the network and alarm reported? Yes - By SMC-202
 
Upon restoration of power does the SI:
Auto-reboot without operator intervention? Yes
Automatically reset/synchronize its clock? Yes
Automatically reset/synchronize its secondary network? There is no secondary network
Update all monitored functions? Yes
Generate an alarm if backup battery is dead? No
Control Enclosure Information not provided