Download SECTION-26-27-13-ELECTRICAL-SPEC-Electricity

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SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
SECTION 26 27 13 Electricity Metering
PART 1 - GENERAL
1.1
Related Sections
.1
1.2
Include other Division 26 Section titles that affect or are affected by this section
Definitions
.1
These definitions amend, define or redefine definitions found elsewhere in Division 26 for
this Section only.
.1
Adjustable (Adj): A characteristic of a control logic parameter such that it can be
varied by the operator without downloading the program.
.2
Algorithm: A logical procedure for solving a recurring problem.
Note: It is important to define the intent of utilizing open protocols within the ASC. LonWorks,
BACnet all offer different levels of “Open” and the designer must thoroughly understand the
integration and long term operational requirements of each technology prior to designing the
system
.3
BACnet or BACnet Standard: BACnet communication requirements as defined
by ASHRAE/ANSI 135 and all current addenda and annexes.{BACNET}
.4
BACnet Interoperability Building Blocks (BIBB): BIBB defines a small portion of
BACnet functionality that is needed to perform a particular task.
.1
BIBBS are combined to build the BACnet functional requirements for a
device in a Specification.
.5
BACnet over Internet Protocol (BACnet/IP): BACnet communication
requirements as defined by ASHRAE/ANSI 135 and all current addenda and
annexes utilizing Internet Protocol addressing as described in IETF publication
RFC 791.
.6
BACnet over Master Slave Token Passing Protocol (BACnet MS/TP or MS/TP):
BACnet communication requirements as defined by ASHRAE/ANSI 135 and all
current addenda and annexes utilizing a master slave token passing network
scheme utilizing RS-485 communications.
.7
Control Wiring: Includes conduit, wire and wiring devices to install complete
metering systems including control, switchgear, uninterruptible power supplies,
lighting, security, interlocks, CTs, switches and like devices.
.1
Includes all wiring from Intelligent Devices and Controllers to all sensors
and points defined in the input/output summary shown on the drawings
or specified herein.
.8
Controller or Control Unit (CU): Intelligent stand-alone control panel.
.9
Controller is a generic reference and shall include NCUs, LCUs, TCUs as
appropriate.
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SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
.10
Distributed Control: A system whereby control processing is decentralized and
independent of a central computer.
.11
Distributed Monitoring: A system whereby the monitoring processing is
decentralized and independent of a central computer.
.12
FIPS 140-2: is a computer security standard used to accredit cryptographic
modules
.13
Graphical User Interface (GUI): A Man Machine Interface device (PC, laptop or
dumb display terminal) which incorporates web browsing for remote network
client services as a thin client machine.
.1
The Graphical User Interfacing allows the operator to manage,
command, monitor, configure and program the system.
.14
Hand Held Device (HHD): Manufacturer’s microprocessor based device for direct
connection to a Controller.
.15
‘Hot Spot’: an area with a usable WiFi signal to allow wireless connection to the
Internet or some other computer network.
.16
HTML5: Hypertext Markup Language Version 5: supporting the traditional HTML
and XHTML-style syntax and other new features in its markup, New APIs,
XHTML and error handling.
.17
HTTP: Hypertext Transfer Protocol: the set of rules for exchanging data files
(text, graphic images, sound, video and other multimedia files) over the Internet.
.18
Internet of Things (IoT): Is a concept of connecting any device to the Internet
and/or to each other for the purpose of exchanging information and instructions.
For the purpose of this document the network is Ethernet based utilizing IP and
TCP/IP protocols and can be local (isolated) or global (Internet) or any
combination of the two.
.19
IT LAN: Reference to the facility’s Information Technology network, used for
normal business-related e-mail and Internet communication.
.20
LAN: Local Area Network – a group of computers and/or associated devices
which share a common communications line and typically share the resources of
a single processor or server within a small geographic area.
.21
MAC address: The MAC (Media Address Control) address uniquely identifies a
device on its MS/TP network.
.22
Master-Slave/Token Passing (MS/TP) network segment: An electrically separate
section of a network. An MS/TP network segment contains no more than 32 full
Unit Loads. Repeaters connect the segments of an MS/TP network.
.23
Network: A system of distributed control units and intelligent devices that are
linked together on a communications bus. A network allows sharing of point
information between all control units. Additionally, a network provides centralized
monitoring and control of the entire system from any distributed control unit
location.
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.24
SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
Network Controller Unit (NCU): A device that incorporates 1 or more network
service host APIs to perform localized network management and network access
services over a group of channel(s).
.1
Supervises groups of intelligent devices and Control Units to perform a
global sequence of operation (ex: fire and life safety control).
.2
Can be configured to serve as a SCADA client on the IAS, Tier 1, and
Local Area Network.
.3
Provides integration to Enterprise level systems and other protocols.
.4
The NCU serves four primary functions:
.1
Time Schedules: Time schedule algorithms shall reside in the
NCU. Occupancy/energize commands shall be broadcast to the
building level controllers in the number required by the sequence
of control.
.2
Trend Data Storage: The NCU shall collect data from the
building level controls at specified intervals and store the data for
periodic uploading to the server. Polling communication
techniques are acceptable for data collection by the network
controller.
.3
Alarm Generation: The NCU shall receive binary alarm variables
from the building level controllers and transmit this data to the
alarm handling software module within the server and operator
work stations. Receipt of alarm data from the building level
controls shall be based on broadcasting from the building level
controls and not based on polling by the Network Controller.
.4
Interlock and control: The network controller shall perform
sequence of operation logic and control where appropriate.
.25
Router: A device which routes or forwards messages destined for a node on
another subnet or domain of the DLN. The device controls message traffic
based on node address and priority. Routers also serve as communication
interfaces between power line, twisted pair and RF media.
.26
Terminator: An electric component that consists of a resistive and capacitive
circuit specifically designed to enhance the quality of communication on a
segment. On a bus topology, terminators are connected to both ends of a
segment. On MS/TP and free topology network segments a single terminator is
required. The terminator is placed at the end-of-line for the MS/TP network
segment.
.27
Trend Log: A trend log is a collection of samples from a specified variable that
are stored within a device on the IAS Network. This data may be periodically sent
up to or requested by a Network Controller or an Operator Workstation for the
purpose of report generation.
.28
UUKL Listing: Underwriter’s Laboratory UL 864 Listed, 9th Edition, UUKL Smoke
Control System.
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.29
1.3
SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
WAN: Wide Area Network - Internet-based network connecting multiple facilities
with or without a central data warehouse and server, accessible via standard
web-browser.
Abbreviations
.1
These Abbreviations amend, define or redefine abbreviations found elsewhere in Division
26 for this Section only.
.1
Amps, A
the plural for ampere, a unit of electric current
.2
ANSI
American National Standards Institute
.3
Approx.
Approximately
.4
ASC
Application Specific Controller
.5
AIEE
American Institution of Electrical Engineers
.6
aPF
Active Power Factor
.7
ASTM
American Society for Testing and Materials
.8
AWG
American Wire Gauge (Standard)
.9
BMS
Building Management System
.10
BTL
BACnet Testing Laboratory
.11
CE
Conformité Européenne, meaning European Conformity
.12
CT
Current Transducer
.13
CO2
Carbon Dioxide
.14
contr.
Contractor
.15
CPU
Central Processing Unit
.16
Deg. C or °C
Degree Celsius
.17
Deg. F or °F
Degree Fahrenheit
.18
DHCP
Dynamic Host Configuration Protocol
.19
Dia. or diam.
Diameter
.20
DNS
Domain Name System
.21
dFP
Displacement Power Factor
.22
Dwgs.
Drawings
.23
EMCS
Energy Management Control System
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SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
.24
FAC LAN
Facility Local Area Network
.25
FPM
Feet per minute
.26
FMS
Facility Management System
.27
Galv.
Galvanized
.28
GB
gigabyte
.29
GHz
gigahertz
.30
GUI
Graphical User Interface
.31
IAS
Integrated Automation System
.32
IoT
Internet of Things
.33
IP
Internet Protocol
.34
IPV4
Internet Protocol version 4
.35
KW
Kilowatt
.36
KWh
Kilowatt hour
.37
kVAR
Kilo Volt Ampere Reactance
.38
kVARh
Kilo Volt Ampere Reactance hour
.39
LED
Light Emitting Diode
.40
MB
megabyte
.41
mV
1/1,000 of a volt
.42
NCU
Network Controller Unit
.43
Mfr.
Manufacturer
.44
Mfgr.
Manufacturer
.45
Max.
Maximum
.46
Min.
Minimum or Minute
.47
MMI
Man-Machine Interface
.48
NCP
Network Control Panel
.49
NEC
National Electrical Code
.50
NIC
Not in Contract
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SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
.51
O.C.
On Center
.52
O.D.
Outside Diameter
.53
Per
According to, in accordance with
.54
PRV
Pressure Reducing Valve
.55
Provide
Furnish and install
.56
RAM
Random Access Memory
.57
RJ45
an un-keyed 8P8C modular connector
used for Ethernet computer network cables
.58
ROM
Read Only Memory
.59
SI
Systems Integrator
.60
TCP/IP
Transmission Control Protocol / Internet Protocol
.61
TP
Twisted Pair
.62
UBC
Uniform Building Code
.63
UI
User Interface
.64
UL
Underwriters’ Laboratory
.65
UPS
Uninterruptible Power Supply
.66
V
Voltage
.67
VAC
Volts of Alternating Current
.68
VDC
Volts of Direct Current
.69
XML
Extensible Markup Language
PART 2 - PRODUCTS
2.1
ECLYSPE EnergySyte™
.1
IP nLight ECLYPSE™ Controller (IP-NE-CTRL)
.1
The IP-NE-CTRL shall be 32 bit microprocessor-based operating at a minimum
of 1 GHz.
.1
They shall be multi-tasking, real-time digital control processors consisting
of modular hardware with plug-in enclosed processors, communication
controllers, and power supplies.
.2
Controller size shall be sufficient to fully meet the requirements of this
specification and the attached point list.
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.2
SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
Each IP-NE-CTRL shall have minimum of 512MB memory, with a minimum of
4GB non-volatile flash, to support its own operating system and databases,
including:
.1
Control processes
.2
Alarm management applications
.3
Maintenance support applications
.4
Custom processes
.5
Web Based interface via integral HTML5 Web Server.
.6
Shall have a graphical interface with a common library of nLight system
images.
.3
The IP-NE-CTRL shall have a Real Time clock.
.4
The IP-NE-CTRL will support the following communications protocols:
.1
BACnet/IP
.1
Supporting IPv4 addressing.
.2
DHCP support and Auto DNS.
.3
2 - RJ45 ports each capable of supporting 10/100 Base-T.
.1
.4
.2
.3
If the above functionality is not available then appropriate
router(s) and switches must be supplied to provide the
functionality.
Network Lighting Control (NLC)
.1
Supporting up to 1500 NLC devices.
.2
3 – RJ45 ports supporting NLC networks.
.3
Refer to 26 09 43 for NLC devices.
.4
If the above functionality is not available then appropriate
router(s) and switches must be supplied to provide the
functionality.
BACnet MS/TP supporting up to minimum of 50 additional BACnet
MS/TP controllers in addition to the Expansion I/O modules.
.1
.4
Supporting controller daisy chaining on the Ethernet
network via integral switch functionality.
Supporting 9600 to 115200 baud
2 x USB 2.0 Expansion ports for:
.1
802.11 Wi-Fi Adapter enabling wireless connectivity including:
.1
‘Hot Spot’
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SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
.2
Client
.3
Access Point.
If the above functionality is not available then appropriate
wireless router(s) and switches must be supplied to provide the
functionality.
.5
Shall contain a “FIPS 140-2 Level 1 Inside” cryptographic module.
.6
Acceptable Products:
.1
2.2
.2
BACnet Testing Laboratory (BTL listed) using Device Profile BACnet
Building Controller (B-BC) with outlined enhanced features.
SiteView™ Energy Application for nLight ECLYSPE™
.1
The SiteView™ Energy application provides the following:
.1
.2
.3
.4
Installs directly into the nLight ECLYSPE Controller.
.1
BAS and Lighting UI compatible.
.2
Support for up to 5 SiteView™ Energy meters (SVEM) revenue grade
power meters.
Utilizes the nLight integral Web Server for
.1
Initial historical data import of last year’s energy consumption, last year
energy baseline or 100% Lights On energy baseline.
.2
Record historical data for up to 10 years
.3
Energy Dashboard configuration
.4
Energy Dashboard presentation.
Energy Dashboard.
.1
Allows monitoring of building energy consumption.
.2
Provides demonstration of energy savings and environmental impact.
.3
Collects and organizes real-time data and historical energy data and
presents it via an intuitive web interface utilizing displays such as:
.1
Energy and dollar savings (vs last month, last day, last year,
since the system has been installed).
.2
KW, KWh (daily, weekly, monthly, yearly).
.3
Equivalent resource savings (CO2, Car not driven, Trees
planted)
.4
View by meter or aggregate.
Histories
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2.3
SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
.1
15 minutes / 60 days for Measurement and Verification
.2
Every hour for 1 year
.3
Every day for up to 10 years
SiteView™ Energy Meter (SVEM) Power Meters
.1
Revenue grade power meter.
.1
Safety
.1
.2
UL Listed and CE Mark, Conforms to UL Std 61010-1
Technical
.1
.2
.3
Service Type:
.1
Single Phase,
.2
Three Phase-Four Wire (WYE),
.3
Three Phase-Three Wire (Delta)
Power:
.1
From L1 Phase to L2 Phase. 80-600VAC CAT III 50/60Hz, 70
mA Max.
.2
Nonuser replaceable 0.5 Amp internal fuse protection
Voltage Channels:
.1
80-346 VAC Line-to-Neutral
.2
600V Phase-to-Phase
.1
.4
Current Channels:
.1
.2
.5
.6
CAT III
3 Channels
.1
0.67 VAC max
.2
333 mV CT’s
.3
0-4,700 Amps
depending on CT
Maximum Current Input:
.1
200% of current transducer rating (mV CTs).
.2
Measure up to 5000A with Rowgoski current transducer
Measurement Type:
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SECTION 26 27 13
BAS Instrumentation and Control
Project AC-1235, Revision 10
.1
.7
Line Frequency:
.1
.8
.11
.3
5 seconds
Measurements (Partial List):
.1
Volts
.2
Amps
.3
kW
.4
kWh
.5
kVAR
.6
kVARh
.7
kVA
.8
aPF
.9
dPF
Accuracy:
.1
.12
12kHz
Parameter Update Rate:
.1
.10
50/60
Waveform Sampling:
.1
.9
True RMS using high-speed digital signal processing (DSP)
0.2% (<0.1% typical) ANSI C12.20-2010 Class 0.2
LED Indicators:
.1
Bi-color LEDs (red and green):
.2
1 LED to indicate communication,
.3
2 LEDs for correct CT-to-phrase installation (per meter element),
Mechanical
.1
Humidity:
.1
.2
Enclosure:
.1
.3
5% to 95% non-condensing
ABS Plastic, 94-VO flammability rating
Weight:
.1
340 g (12 ounces, exclusive of CT’s)
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SECTION 26 27 13
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Project AC-1235, Revision 10
.4
Dimensions:
.1
.5
Broadband Power Supply:
.1
.2
Material
.1
Probe and Cable Material:
.1
.2
.3
.2
RED, Munsell 7.5 R 1/14
Couplings Material:
.1
Polypropylene
.2
UL94 V-0
Technical
.1
Voltage Output:
.1
.2
.3
NOT USED
Not Used
± 0.2% of reading
Working Voltage:
.1
PART 3 - EXECUTION
± 1% of reading (@ 25°C, 50 Hz)
Linearity (10% to 100% of range):
.1
.5
6000 A AC RMS
Accuracy:
.1
.4
(@1000 ARMS, 50 Hz) 11 mV
Current Range:
.1
End of Section
TPE rubber reinforced insulation UL94 V-0
Color:
.1
.1
80-600V
Rogowski Coils
.1
3.1
23.0 × 9.0 × 4.0 cm (9.0” × 3.5” ×1.5”)
1000 V AC RMS or DC (head) 30V max. (output)