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Transcript
SECTION
SPECIFICATIONS: TRANSFER SWITCH
1.
Scope of Work
id-1-1
1.1.
2.
This specification is intended for a service entrance rated automatic transfer
switches consisting of the following main characteristics:
1. Voltage rating of <<VOLTS>> Volt-60Hz [C]
2. Amperage rating of <<AMPS>> Amp
3. Programmed transition (break-before-make) transfer logic
4. Service Entrance Rated
Codes and Standards - The automatic transfer switches and controls shall conform to the
requirements of:
id-1-3
3.
3.1.
UL 1008 - Standard for Transfer Switch for use in Emergency Systems
3.2.
IEC 947-6-1 Low-voltage Switchgear and Control gear; Multifunction equipment;
Automatic Transfer Switching Equipment
3.3.
NFPA 70 - National Electrical Code
3.4.
NFPA 99 - Essential Electrical Systems for Health Care Facilities
3.5.
NFPA 110 - Emergency and Standby Power Systems
3.6.
IEEE Standard 446 - IEEE Recommended Practice for Emergency and Standby
Power Systems for Commercial and Industrial Applications
3.7.
NEMA Standard ICS 10-1993 (formerly ICS2-447) - AC Automatic Transfer
Switches
3.8.
UL 508 Industrial Control Equipment
Acceptable Manufacturers
id-1-4
4.1.
Basis of Design is Kohler Power Systems Model KEP. Acceptable alternates
include Lakeshore MCDA. Any additional alternates shall be submitted for approval
to the consulting engineer at least 10 days prior to bid date. Alternate bids shall
include a line-by-line clarification of the specification marked with "D" for deviation;
"E" for exception, and "C" for comply.
1
4.
General Requirements
id-1-5
5.1.
General:
1. The unit shall be manufactured in accordance with this specification and
applicable UL, NEMA, and ANSI standards.
2. The unit shall be manufactured in a facility, which is registered to an ISO
9001:2000 quality system.
3. Supplier shall be responsible for ensuring the compatibility of all components of
the unit.
4. The unit shall be free of defects in material and workmanship.
5. The unit shall be supplied with a 1 year warranty form the manufacturer at no
additional cost.
5.2.
Engineering Submittals:
The following documentation shall be made available for submission to the project
engineer for review/approval purposes on the automatic transfer switch:
1. Physical Layout Drawing-Outline dimensions, cable entry/exit locations,
interior/exterior component layouts, connection data.
2. Electrical Schematic Internal wiring, customer connection terminals, optional
components, controller settings.
3. Product Data Sheets Equipment Ratings.
5.3.
Environmental Conditions:
1. The unit shall be installed with ambient temperature between -15°C and 50°C
and a storage range of -20°C to 70°C at a relative humidity of 0-95%
non-condensing.
5.
Ratings and Construction
id-1-6
6.1.
Rating of the automatic transfer switch shall be <<AMPS>> Amps, <<VOLTS>>
Volt-60Hz [C], Three phase, <<POLES>> Pole [T].
6.2.
The transfer switch shall comprise of 3 Pole [T] switching poles plus a solid neutral.
6.3.
<<Specification writer's note. Delete reference to neutral if all poles are
switching.>>
6.4.
The automatic transfer switch shall be rated for Service Entrance applications and
shall contain a <<AMP>> Amp standard overcurrent protective device. Molded case
circuit breakers (MCCB) shall be 80% rated. Molded case switches (MCSW) shall be
100% rated. Insulated case circuit breakers and insulated case switches shall be
100% rated.
2
6.5.
The completed assembly shall be mounted in a NEMA <<RATING>> suitable for the
intended application.
6.6.
All materials and parts used in the unit shall be new, of current manufacturer, of best
industrial grade, and free from defects and imperfections.
6.7.
The transfer switch mechanism shall provide a simple means of manual operation
using only components, which are permanently affixed, in the operating position.
6.8.
The unit shall permit manual operation of the transfer switch while the system is
energized and carrying rated load. Transfer switches, which require all sources of
power to be de-energized prior to manual load transferring, shall not be acceptable.
6.9.
Transfer switch control power shall be obtained from the source being transferred to.
The controls shall not require any connection to external power source. Transfer
switches requiring power from the engine starting (or other) battery are not
acceptable.
6.10.
A control circuit isolation plug shall be provided to isolate all control circuitry inside
the transfer switch to facilitate maintenance procedures. When isolated, there shall
be no voltage present on the control circuitry.
6.11.
The automatic transfer switch design shall provide front accessible components and
wiring for easy serviceability. Power or control connections, which are not readily
serviceable while the transfer switch is mounted in its enclosure, are not acceptable.
6.12.
All power contacts used shall operate in a quick-make/quick-break manner, the
speed of which shall be independent of supply voltage and/or speed of operation by
manual means.
6.13.
Finish: All steel parts shall be cleaned, sealed and painted with one coat rust
resistant primer and two coats of ASA #61 gray enamel or polyester powder coat
finish inside and out.
6.14.
Ground Lugs/Bus: Adequate size and quantity of ground lugs shall be provided and
shall conform to NEC/CEC guidelines. Where a ground bus is provided, it shall be a
full length copper ground bus bonded to the frame with adequate size and quantity of
ground lugs and shall conform to NEC/CEC guidelines.
6.15.
Bus bars: Where load bus bars are utilized, they shall be time plated round-edge
high conductivity copper and be sized for 100% continuous load rating of the transfer
switch, in accordance with NEMA, CSA, and UL guidelines. The short circuit
withstand rating of the completed bus assembly shall be not less than the short
3
circuit fault current of the system.
6.16.
Cable Connections: Provision shall be made to terminate all incoming and outgoing
power cables and grounding conductors. Connections shall be via screw type cable
lugs.
6.17.
The Power Switching units shall be fix-mounted, utilize fully enclosed contacts and
their withstand/closing rating shall be equal to or exceed the required withstand
rating of the complete mechanism.
6.18.
The service entrance rated automatic transfer switch shall automatically transfer the
load to the generator supply in the event of a utility supply failure and return the load
to the utility supply upon restoration. The transfer switch shall incorporate an
isolating mechanism and over current protection on the utility supply to allow
operation as the main services disconnect in accordance with NEC requirements.
The transfer switch power switching devices shall be mechanically and electrically
interlocked to prevent the utility and generator supplies from being interconnected.
6.19.
Molded Case Circuit Breaker Service Entrance Rated Transfer Switches
6.19.1 For those service entrance automatic transfer switches 200 Amp or less, the
normal connection shall be provided with a thermal magnetic, modeled
case circuit breaker with current ratings as shown on the plan.
6.19.2 For those service entrance automatic transfer switches rated 250 to 800
Amps, the normal connection shall be provided with a electronic trip,
molded case breaker with current ratings as shown on the plans.
6.19.3 For those service entrance automatic transfer switches rated 1000
to 1200 Amps the normal connection shall be provided with a electronic trip,
molded case breaker with current ratings as shown on the plans.
6.
Controller Display and Keypad
id-1-7
7.1.
The controller shall meet or exceed the requirements for Electromagnetic
Compatibility (EMC) as follows:
1.
2.
3.
4.
5.
6.
7.
8.
7.2.
CISPR 11 Radiated Emissions
IEC-1000-4-2 Electrostatic Discharge
IEC-1000-4-3 Radiated Electromagnetic Fields
IEC-1000-4-4 Electrical Fast Transients (Bursts)
IEC-1000-4-5 Surge Voltage
IEC-1000-4-6 Conducted RF Disturbances
IEC-1000-4-8 Magnetic Fields
IEC-1000-4-11 Voltage Dips and Interruptions
A four-line, 20 character LCD display and dynamic 4 button keypad shall be an
integral part of the controller for viewing all available data and setting desired
4
operational parameters. Operational parameters shall also be available for viewing
and limited control through the communication interface port. The following
parameters shall only be adjustable via a password protected programming on the
controller (dip switches shall not be acceptable):
1. Nominal line voltage and frequency
2. Signal or three phase sensing
3. Operating parameter protection
4. Transfer operating mode configuration (Open transition, Closed transition, or
delayed transition)
All instructions and controller settings shall be easily accessible, readable and
accomplished without the use of codes, calculations, or instruction manuals.
7.
7.3.
The transfer switch shall be rated for use on multiple system voltages. The transfer
switch shall be field configurable to operate on the following nominal system
voltages; 208V, 240V, 480V.
7.4.
The controller switch shall be rated to the transfer switch by an interconnecting
wiring harness. The harness shall include a keyed disconnect plug to enable the
controller to be disconnected from the transfer switch for routine maintenance.
Sensing and control logic shall be provided on multi-layer printed circuit boards.
Interfacing relays shall be industrial grade, plug-in type. The controll panel shall be
mounted separately from the transfer switch for safety and ease of operation. The
protective cover shall include a built-in product for the storage of operation manuals.
Voltage, Frequency, and Phase Rotation Sensing
id-1-8
8.1.
Voltage (all phases) and frequency on both the normal and emergency sources shall
be continuously monitored, with the following pickup, dropout, and trip setting
capabilities (values shown as % of nominal unless otherwise specified):
Parameter
Under voltage
Over voltage
Under frequency
Over frequency
Voltage unbalance
Dropout/Trip
75 to 98%
105 to 135%
85 to 99%
105 to 120%
5 to 20%
Pickup/Reset
85 to 100%
95 to 100% of trip
95 to 99%
101 to 105%
3 to 18%
8.2.
Digital metering provided by the transfer switch controller shall have an accuracy of
-0.5% for all voltage and frequency readings. Frequency shall be displayed to at
least one decimal. Three phase line to line voltages shall be displayed for both
generator and utility supplies.
8.3.
Repetitive accuracy of all settings shall be within +/-0.5% over an operating
temperature range of -20°C to 70°C.
5
8.
8.4.
And adjustable dropout time for transient voltage and frequency excursions shall be
provided. The time delays shall be 0.1 to 9.9 seconds for voltage and .1 to 15
seconds for frequency.
8.5.
Voltage and frequency settings shall be field adjustable in 1% increments either
locally with the display and keypad or remotely via the communications interface
port.
8.6.
The controller shall be capable of sensing the phase rotation of both the normal and
emergency sources. The source shall be considered unacceptable if the phase
rotation is not the preferred rotation selected (ABC or BAC). Unacceptable phase
rotation shall be indicated on the LCD; the service required LED and the
annunciation through communication protocol and dry contacts.
8.7.
The controller shall be capable of detecting a single phasing condition of a source,
even though a voltage may be regenerated by the load. This condition shall be
considered a failed source.
8.8.
Source status screens shall be provided for both normal & emergency to provide
digital readout of voltage on all 3 phases (phase to phase and phase to neutral),
frequency, and phase rotation.
Time Delays
id-1-9
9.1.
An adjustable time delay of 0 to 10 seconds shall be provided to override momentary
normal source outages and delay all transfer and engine starting signals. Capability
shall be provided to extend this time delay to 60 minutes by providing an external 12
or 24 VDC power supply.
9.2.
At time delay shall be provided on transfer to the emergency source, adjustable from
0 to 60 minutes, for controlled timing of transfer of loads to emergency.
9.3.
A time delay shall be provided on re-transfer to normal. The time delays shall be
adjustable from 0 to 60 minutes. Time delay shall be automatically bypassed if the
emergency source fails and the normal source is acceptable.
9.4.
A time delay shall be provided on shut down of engine generator for cool down,
adjustable from 0 to 60 minutes.
9.5.
A time delay activated output signal shall also be provided to drive external relay(s)
for selective load disconnect control. The controller shall be capable of controlling a
maximum of 9 individual output time delays to step loads on after a transfer occurs.
Each output may be individually programmed for their own time delay of up to 60
minutes. Each sequence shall be independently programmed for transferring from
6
normal to emergency and transferring form emergency to normal. The controller
shall also include the following built-in time delays for the following operations:
1. 0 to 60 minute time delay on failure to acquire the acceptable electrical
parameters from the emergency source.
2. 0 to 60 minute time delay for a failure to synchronize on an in-phase operation.
3. 60 minute time delay for the load disconnect position for delayed transition
operation.
9.
9.6.
All time delays shall be adjustable in 1 second increments.
9.7.
All time delays shall be adjustable by using the display and keypad or with a remote
device connected to the communications interface port through a security-password
system.
9.8.
Each time delay shall be identified and a dynamic countdown shall be shown on the
display.
Additional Features
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10.1.
The controller shall have 3 levels of security. Level 1 shall allow monitoring of
settings and parameters only. The level 1 shall be capable of restricted with the use
of a lockable cover. Level 2 shall allow test functions to be performed and Level 3
shall allow setting of all parameters.
10.2.
Membrane-type switches shall be provided for the test functions and be maintained
until the end test function is activated. The test function shall be allowed through
password security. It shall be possible to defeat the password requirement by way of
a circuit board mounted dip switch setting. The test function shall be load, no load or
auto test. The auto test function shall request an elapsed time for test. At the
completion of this time delay the test shall be automatically ended and a retransfer
sequence shall commence. All loaded tests shall be immediately ended and
retransfer shall occur if the emergency source fails and the normal source is
acceptable.
10.3.
A SPDT contact, rated 5 Amps at 30 VDC shall be provided for a low-voltage engine
start signal. The start signal shall prevent dry cranking of the engine by requiring the
generator set to reach proper output, and run for the duration of the cool down
setting, regardless of whether the normal source restores before the load is
transferred.
10.4.
Auxiliary contacts, rated 10 Amps, 250 VAC shall be provided consisting of two
contacts, closed when the ATS is connected to the normal source and two contacts
7
closed, when the ATS is connected to the emergency source.
10.5.
LED indicating lights shall be provided; one to indicate when the ATS is connected to
the normal source (green) and one to indicate when the ATS is connected to the
emergency source (red).
10.6.
LED indicating lights shall be provided and energized by controller outputs. The
lights provide true source availability of the normal (green) and emergency sources
(red) as determined by the voltage, frequency, and phase rotation sensing trip and
reset settings for each source.
10.7.
A membrane switch shall be provided on the membrane panel to test all indicating
lights and display when pressed.
10.8.
Provide the ability to select "commit/no commit to transfer" to determine whether the
load should be transferred to the emergency generator if the normal source restores
before the generator is ready to accept the load.
10.9.
Terminals shall be provided for a remote contact which opens to signal the ATS to
transfer to emergency and for remote contacts which closes to inhibit transfer to
emergency and/or retransfer to normal. Both of these inhibit signals can be activated
through the keypad or the communications interface port. A "not-in-auto" LED shall
indicate anytime the controller is inhibiting transfer for occurring.
10.10. A time based load control feature shall be available to allow the prioritized addition
and removal of loads based during transfer. This feature may be enabled for either
or both sources. The user shall be able to control up to nine loads with independent
timing sequences for pre and post transfer delays in either direction of transfer.
10.11. A current based load control feature shall be available to allow the prioritized
addition and removal of loads based on the measured current through the transfer
switch. This feature may be enabled for either or both sources and shall incorporate
high and low set points for both sources. The user shall be able to designate up to
nine outputs for current based load control. Adjustable time delays shall be available
to prevent changes in outputs for momentary current variations.
10.12. Engine Exerciser - The controller shall provide an internal engine exerciser. The
engine exerciser shall allow the user to program up to 21 different exercise routines
based on a calendar mode. For each routine, the user shall be able to:
1. Enable or disable the routine
2. Enable or disable transfer of the load during routine
3. Set the start time
time of day
day of week
8
week of month (1st, 2nd, 3rd, 4th, alternate or every)
4. Set the duration of the run
5. At the end of the specified loaded exercise duration the switch shall transfer the
load back to normal and run the generator for the specified cool down period.
All loaded exercises shall be immediately ended and retransfer shall occur if the
standby source fails. The next exercise period shall be displayed on the main
screen with the type of exercise, time and date. The type of exercise and the
time remaining shall be display when the exercise is active. It shall be possible
of ending the exercise event with a single button push.
10.13. Date and time - The date shall automatically adjust for leap year and the time shall
have the capability of automatically adjusting for daylight saving and standard times.
10.14. System status - The controller shall have a default display the following on:
1. System status
2. Date, time, and type of the next exercise event
3. Average voltage of the preferred and standby sources
Scrolling through the displays shall indicate the following:
1. Line to line and line to neutral voltages for both sources
2. Frequency of each source
3. Load current for each phase
4. Single or three phase operation
5. Type of transition
6. Preferred source
7. Commit or no commit modes of operation
8. Source/source mode (Utility/Gen; Gen/Gen; Utility/Utility)
9. In phase monitor enable/disable
10. Phase rotation
11. Date and time
10.15. Controllers that require multiple screens to determine system status or display
"coded" system status messages, which shall be explained by references in the
operator's manual, are not permissible.
10.16. Self Diagnostics - The controller shall contain a diagnostic screen for the purpose of
detecting system errors. This screen shall provide information on the status input
signals to the controller which maybe preventing load transfer commands from being
completed.
10.17. Communications Interface - The controller shall be capable of interfacing, through a
standard communications with a network of transfer switches and generators. It shall
be able to be connected via an RS-485 serial communication (up to 4000 ft. direct
connect or multi-drop configuration), Ethernet connectivity (over standard 10baseT
9
Ethernet networks utilizing a RJ-45 port or remotely utilizing a dial-up modem). This
module shall allow for seamless integration of existing or new communication
transfer devices and generators. Monitoring software shall allow for the viewing,
control and setup of parameters of the genset and transfer switch network through a
standard personal computer utilizing current Microsoft operating systems. Separate
and specific transfer switch software interfaces shall not be acceptable.
10.18. The transfer switch shall also be able to interface to 3rd party applications using
Modbus RTU and Modbus TCP/IP open standard protocols utilizing Modbus register
maps. Proprietary protocols shall not be acceptable.
10.19. The controller shall contain a USB port for downloading the controller's parameters
and settings; exercise event schedules; maintenance records and event history. The
file designator shall be the unique serial number of the transfer switch.
10.20. Data Logging - The controller shall have the ability to log data and to maintain the
last 2000 events, even in the event of total power loss. The following events shall be
time and date stamped and maintained in a non-volatile memory. The controller shall
be able to display up to the last 99 events. The remaining events shall be
downloadable to be displayed on a computer.
1. Event Logging
Data, date, and time indication of any event
2. Statistical Data
Total number of transfers
Total number of fail to transfers
Total number of transfers due to preferred source failure
Total number of minutes to operation
Total number of minutes in the standby source
Total number of minutes not in the preferred source
Normal to emergency transfer time
Emergency to normal transfer time
System start date
Last maintenance date
3. The statistical data shall be held in two registers. One register shall contain data
since start up and the second register shall contain data from the last
maintenance reset.
10.21. External DC Power Supply - An optional provision shall be available to connect up to
two external 12/24 VDC power supply to allow the LCD and the door mounted
control indicators to remain functional when both power sources are dead for
extended periods of time. This module shall contain reverse battery connection
indication and circuit protection.
10.22. Communications Interface - The controller shall be capable of interfacing, through a
standard communications with a network of transfer switches and generators. It shall
10
be able to be connected via an RS-485 serial communication (up to 4000 ft. direct
connect or multi-drop configuration), Ethernet connectivity (over standard 10baseT
Ethernet networks utilizing a RJ-45 port or remotely utilizing a dial-up modem). This
module shall allow for seamless integration of existing or new communication
transfer devices and generators. Monitoring software shall allow for the viewing,
control and setup of parameters of the genset and transfer switch network through a
standard personal computer utilizing current Microsoft operating systems. Separate
and specific transfer switch software interfaces shall not be acceptable.
10. Tests and Certification
id-1-10
10.1.
Upon request, the manufacturer shall provide a notarized letter certifying compliance
with all of the requirements of this specification including compliance with the above
codes and standards. The certification shall identify, by serial number(s), the
equipment involved. No exceptions to the specifications, other than those
stipulated at the time of the submittal, shall be included in the certification.
10.2.
The ATS manufacturer shall be certified to ISO 9001 International Quality Standard
and the manufacturer shall have third party certification verifying quality assurance
in design/development, production, and installation and servicing in accordance with
ISO 9001.
10.3
The generator set shall include a standard <<YEAR>> year warranty to guarantee
against defective material and workmanship in accordance with the manufacturer's
published warranty from date of startup. Optional warranties shall be available
upon request.
11. Service Representation
id-1-11
11.1.
The EG Vendor must be the factory authorized service provider for the ATS. The
EG Vendor personnel must be factory trained and must be on call 24 hours a day,
365 days a year.
11.2.
The manufacturer shall maintain records of each switch, by serial number, for a
minimum of 20 years.
11
<<Spec Sections 12.1 -12.14 detail available options. Please include or
delete as required>>
12. Accessories
id-1-13
12.1
Alarm Module. The alarm module shall be 90dB audible alarm; any alarm function
can be programmed to trigger the audible alarm, with external alarm connection. The
audible alarm can be set to sound under selected fault conditions through setup on
the user interface. The other options that can be activated with the alarm board are
the Chicago alarm option, Preferred Source selection and the Supervised Transfer
Control Switch.
12.2
Standard I/O Module. The standard I/O Module has two programmable inputs and
six programmable outputs.
Inputs Available
Contact Closure
Current
Connection Type
Wire Size
Max Distance
Outputs Available
Contact Type
Contact Rating
2
Contact Closure
5mA Max.
Terminal Strip
#14-24 AWG
700 feet
6
Form C (SPDT)
2A @ 30VDC
500mA @ 125VAC
Connection Type
Wire Size
12.3
Terminal Strip
#14-24 AWG
High Power I/O Module. The high power I/O Module has two programmable inputs
and three programmable outputs.
Inputs Available
Contact Closure
Current
Connection Type
Wire Size
Max Distance
Outputs Available
Contact Type
Contact Rating
2
Contact Closure
5mA Max.
Terminal Strip
#14-24 AWG
700 feet
3
Form C (SPDT)
12A @ 24VDC
12A @ 250VAC
10A @ 277VAC
12
2A @ 480VAC
Connection Type
Wire Size
Terminal Strip
#14-24 AWG
12.4
External Battery Supply Module. The external battery shall energize the ATS
controls using an external battery when no source power is available, allow
extended engine start time delays, the use of any combination of accessory
modules, connect to one or two batteries, 12 VDC or 24 VDC, current draw, 140 mA
@ 12 VDC, 86 mA @ 24 VDC, shall provide low external battery voltage indication to
the transfer switch controller, and reverse-polarity protected.
12.5
Current Sensing. Current sensing shall measure the load bus current on all phases
with 1% accuracy. Load current shall be viewable on the controller LCD display.
12.6
Digital Meter. The digital meter shall be capable of setting and displaying voltage,
current, frequency and power for both sources. Programmable visual alarms shall be
standard for high and low voltage and high current. A serial, RS-485 port and two
auxiliary contacts shall be standard. Programming menus shall be password
protected.
12.7
Line to Neutral Monitoring. Line-to-neutral voltage monitoring shall allow the
display of the AN, BN, and CN RMS voltages in the normal operation menus.
12.8
Load Shed. A load shed shall be factory installed with forced transfer form
Emergency to OFF. This option shall be available for programmed-transition models
only. External hardware is required for the forced transfer to OFF function.
12.9
Padlockable User Interface Cover. The user interface cover shall protect the
controller user interface from the environment. This shall be available with and
without a viewing window. A Type 3R enclosure shall require the non-viewable
option.
12.10 Supervised Transfer Control Switch. The supervised transfer control switch shall
provide a door mounted, three position, selector switch with Auto, Manual and
Transfer positions.
The alarm module shall be required in order to activate this option.
1. With the controller set to the automatic mode and the selector switch in the Auto
position, the user transfer switch shall operate normally.
2. With the controller set to the automatic mode and the selector switch in the
Manual position, the user shall be required to toggle the selector switch to initiate
a transfer from the emergency to the normal position.
3. With the controller set to the non-automatic mode and the selector switch in the
13
Manual position, the user shall be required to toggle the selector switch to the
transfer position to initiate a transfer in either direction. In this mode, the ATS
shall not automatically transfer to an acceptable source in the case of source
failure, without the user toggling the selector switch to the transfer position.
12.11 Monitor III Software. Monitor III software shall provide the following:
1. Monitor and control the power system's generator sets and transfer switches
from a personal computer using a single software package.
2. Monitor and control system through a Windows® -based graphical user
interface.
3. Monitor and control systems over a local area network, remotely via a modern
connection, or through an Ethernet connection.
4. Password-protected data access: Guest, User, and Supervisor levels
5. Ethernet capability
6. Start or stop a test from a remote PC
7. Assign inputs and outputs
8. View and adjust trip points, time delays, and system parameters
9. Available as loose kits:
1. Software kit with serial code
2. Software kit with modem and cables
12.12 Digital Meter. The digital meter shall be capable of setting and displaying voltage,
current, frequency and power for both sources. Programmable visual alarms shall be
standard for high and low voltage and high current. A serial, RS-485 port and two
auxiliary contacts shall be standard. Programming menus shall be password
protected.
12.13 Suppression, Transient Voltage Surge (TVSS) - A TVSS shall be provided for
protection of the normal source supply. The TVSS shall be provided with a 30A
circuit breaker disconnect to allow for replacement of the device without
disconnecting the normal source supply. A 90dB audible alarm shall be provided as
standard. A terminal block for remote contacts shall be provided for a Form C
contact, rated at 3A, 120VAC, 60W DC. The TVSS shall provide L-L, L-N, L-G, and
N-G lines shall be protected. LED status indicators shall be available on the face of
the device to indicate operational state. The TVSS device shall be listed to UL 1449,
Edition 3.
12.14 Heater, Anti-Condensation - An enclosure heater strip shall be supplied inside the
transfer switch enclosure and shall be controlled by an adjustable humidistat. The
humidistat shall be adjustable from 35% to 95% relative humidity, factory set at 65%.
120VAC power for the strip heater is to be provided by others. A 15A protective
circuit breaker is provided. The heater option shall provide 125W or 250W, pending
on the configured kit selection.
14