HomeMy WebLinkAboutX2018-2972 - MiscGeneral Information
X2019 -P72
z9g0Netuporl R1VJ
Building Type:
F Nonresidential r High -Rise Res (Common Area)
r Hotel/Motel (Common Area)
Phase of Construction:
T New Construction r Addition F Alteration
r Unconditioned
Scope of Responsibility
Enter the date of approval by enforcement agency of the Certificate of Compliance that provides the specifications for the energy
efficiency measures for the scope of responsibility for this Installation Certificate.
Date: 12/19/2018 12:00:00 AM
This is page 1 of 2
4019-M2
I Newoorf 614
CITY OF NEWPORT BEACH
Community Development Department I Building Division
100 Civic Center Dr.1 P.O. Box 1768 Newport Beach, CA 92658
www.newoortbeachca.gov (949) 644-3200
t:ALGREEN DOCUMENTATION COMPLIANCE CERTIFICATION
ADDRESS: 2— C Zo /"6i;vf'r-7- // 6k,16 PERMIT NO.: .Y :zo` 9 - Z% 7 Z
THIS FORM SHALL BE COMPLETED AND SIGNED PRIOR TO REQUEST FOR FINAL BUILDING
INSPECTION. ONE COPY OF THIS FORM SHALL BE SUBMITTED TO THE BUILDING INSPECTOR AT
FINAL INSPECTION AND ONE SHALL BE PROVIDED TO THE BUILDING OWNER AS PART OF THE CAL
GREEN CERTIFICATION PACKAGE.
The following section shall be completed by a person with overall responsibility for the planning and
design portion of the project.
REQUIRED DOCUMENTATIONS PROVIDED TO THE PROPERTY OWNER(S)
P] ,Franchise Hauler for Construction/Demolition Waste (65% min. reuse of nonhazardous waste)
VOC Contents Limitation
Y/ ormaldehyde Emissions Limitation
--24 Energy Certificate of Installations (Env., QII, Lighting, Photovoltaic, Mech., Plumb.)
GV T-24 Energy Certificate of Verifications or Acceptance ( Env., QII, Lighting, Photovoltaic, Mach.,
lumb., HERS)
EV Operations and Maintenance Manual
MOISTURE CONTENT OF BUILDING MATERIAL (RESIDENTIAL CONSTRUCTION ONLY)
❑ I certify that the moisture content of the wall and floor framing is less than 19 percent as
determined in accordance with Section 4.505.3 of CAL Green prior to being enclosed.
DECLARATION STATEMENT
• 1 certify under penalty of perjury, under the laws of the State of California, the information
provided is true and correct.
• I certify that the installed measures, materials, components, or manufactured devices identified
on this certificate conform to all applicable codes and regulations, and the installation is
consistent with the plans and specifications approved by the enforcing agency.
Responsible Person's
t
rot
Farms\CALGreen Documentation Compliance Cert Form 1-2017
AAo1g-z9az
292o Newpori B3Iv J
CITY OF NEWPORT BEACH
COMMUNITY DEVELOPMENT DEPARTMENT
BUILDING DIVISION
100 Civic Center Drive I P.O. Box 1768 1 Newport Beach, CA 92658-8915
www.newportbeachca.gov 1 (949) 644-3200
Structural Observation Report SO #8
Project Address:
2920 Newport Blvd., Newport Beach, CA 92663
Report Date:
06/26/19
CNB Inspector Name:
CNB Permit#:
X2018-2972
Building Owner Name:
Owner's Mailing Address (if different from site);
Owner's Telephone #:
CNB Plan Check #:
Full Name of Structural Observer (SO):
SO E-mail Address:
SO Telephone #:
SO License / Reg. #:
Kirk D. Cross
kcross@crosseng.com
714-556-5475
SE 3886
PLEASE INDICATE STRUCTURAL ELEMENTS AND CONNECTIONS OBSERVED (check applicable boxes)
FOUNDATIONS
SHEAR WALLS
FRAMES
DIAPHRAGMS
(Floor/Roof)
INDICATE LOCATION(S)
OBSERVED
DATE
OBSERVED
■ Conventional
Footings & Slab
❑ Concrete
■ Steel
❑ Concrete
Final observation for patio
shade structure and service
06/26/19
❑ Mat Foundation,
Prestressed Concrete
❑ Masonry
❑ Concrete
❑ Steel Deck
yard equipment rack structure
❑ Caissons, Piles,
Grade Beams
❑ Wood or Manuf.
Shear Panels
❑ Masonry
❑ Wood
❑ Other:
❑ Other:
❑ Other:
❑ Other:
❑ ITEMS CHECKED ABOVE ARE APPROVED AND WITHOUT DEFICIENCIES.
❑ OBSERVED DEFICIENCIES AND COMMENTS: Final observation all deficiencies resolved.
❑ REPORT CONTINUED ON ATTACHED PAGES.
9 FINAL STRUCTURAL OBSERVATION REPORT:
The structure generally complies with the approved construction documents, and all observed deficiencies were corrected.
I declare that the following statements are true to the best of my knowledge:
1. 1 am the licensed design professional retained by the owner to be in responsible
charge of the structural observation;
2. 1, or another licensed design professional whom I have designated above and is under
my responsible charge, have performed the required site visits at each significant
construction stage to verify that the structure is in general conformance with the
approved construction documents;
3. 1 understand that all deficiencies which I have documented must be corrected, prior to
final acceptance of the luctural systems by the City of Newport Beach, Building
Division.
06/26/19
0QPOFESSlo4,,
A4Q C90 Fac
CO
LU N m
No. 3886
y ExD. 9-30-20 v
l �UCAUOQ\P
STAMP OF STRUCTURAL OBSERVER
STRUCTURAL OBSERVATION DOES NOT WAIVE ANY REQUIREMENTS FOR BUILDING INSPECTION BYAUTHORIZED.EMPLOYEES OF THE CIN OF NEWPORT BEACH.
Fom> \StmclmalObse ationRepoa&Tmtmctiom
DOCUMENTATION AUTHOR'S DECLARATION STATEMENT
1 certify that this Certificate of Acceptance document is accurate and complete.
Documentation Author Company Name
CalRio Electric, Inc.
Name Mike Tolbert
Address 490 PRINCELAND CT. STE 7 City CORONA
Zip Code Phone
92879 9514273666
CEA/ATT Certiflcation qg 14333 Author Signature
Identification (if
applicable)
Date of Signature: 07/11/2019
RESPONSIBLE PERSON'S DECLARATION STATEMENT
I certify the following under penalty of perjury, under the laws of the State of California:
1. I am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and I have reviewed the information provided on this
Certificate of Acceptance.
2. I am eligible under Division 3 of the Business and Professions Code in the applicable classification to accept responsibility for the system design,
construction or installation of features, materials, components, or manufactured devices for the scope of work identified on this Certificate of Acceptance and
attest to the declarations in this statement (responsible acceptance person).
3. The information provided on this Certificate of Acceptance substantiates that the construction or installation identified on this Certificate of Acceptance
complies with the acceptance requirements indicated in the plans and specifications approved by the enforcement agency, and conforms to the applicable
acceptance requirements and procedures specified in Reference Nonresidential Appendix NAT
4. I have confirmed that the Certificate(s) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and
Is posted or made available with the building permits) issued for the building.
5. I will ensure that a completed, signed copy of this Certificate of Acceptance shall be posted, or made available with the building permit(s) issued for the
building, and made available to the enforcement agency for all applicable inspections. I understand that a signed copy of this Certificate of Acceptance is
required to be included with the documentation the builder provides to the building owner at occupancy.
Responsible Acceptance Company Name
Person Name Mike Tolbert CalRlo Electric, Inc.
Address: 490 PRINCELAND CT. STE 7 City CORONA
Zip Code Phone
92879 9514273666
CSLB License 594645 Position with Company (Title) CalRio Electric, Inc.
Responsible Acceptance Person Signature
Data of Signature: 07/11/2019
This is page 5 of 5
This is page 4 of 5
r E. Section 130.2 (c)4B Motion Sensor
r F. Section 130.2 (c)SA Part -Night Outdoor Lighting Control
r G. Section 130.2 (c)5B Motion Sensor
r H. Section 130.2 (c)5C Centralized time -based zone lighting control.
This is page 4 of 5
r 2. Photo Controls meet all requirements for Photo Control devices in the Title 20 Appliance Efficiency
Regulations, including the following that it does not have a mechanical device that permits disabling of the
control.
r G. The EMCS or Lighting Control System functions as a Dimmer and meets all requirements for a Dimmer Control
device in the Title 20 Appliance Efficiency Regulations, including the following:
1. Is capable of reducing power consumption by a minimum of 65 percent when the dimmer is at its lowest level;
2. Includes an off position which produces a zero lumen output; and
3. Does not consume more than 1 watt per lighting dimmer switch leg when in the off position.
4. Dimmer controls that can directly control lamps provide electrical outputs to lamps for reduced flicker operation
through the dimming range so that the light output has an amplitude modulation of less than 30 percent for
frequencies less than 200 Hz without causing premature lamp failure.
5. If designed for use in three way circuits is capable of turning lights off, and to the level set by the dimmer if the
lights are off.
F H. The EMCS or Lighting Control System meets the following requirements:
1. Is capable of automatically turning off controlled lights in the area no more than 30 minutes after the area has
been vacated;
2. Allows all lights to be manually turned off regardless of the status of occupancy; and
3. Has a visible status signal that indicates that the device is operating properly, or that it has failed or
malfunctioned. The visible status signal may have an override switch that turns off the signal.
4. All occupant sensing devices that utilize ultrasonic radiation for detection of occupants meet the Ultrasound
Maximum Decibel Values in the Title 20 Appliance Efficiency Regulations
5. All occupant sensing devices that utilize microwave radiation for detection of occupants meet the radiation
requirements in the Title 20 Appliance Efficiency Regulations
6. Occupant sensing devices incorporating dimming comply with the requirements for dimmer controls in the Title 20
Appliance Efficiency Regulations
7. The EMCS or Lighting Control System functions as one or more of the Occupant Sensing Controls Checked Below:
r a. Motion Sensors meeting all applicable requirements for Motion Sensor Controls devices in the Title 20
Appliance Efficiency Regulations, including that motion sensors are rated for outdoor use.
r b. Partial -ON Sensors meeting all applicable requirements for partial on sensing devices in the Title 20
Appliance Efficiency Regulations, including the following:
i. Has two poles each with automatic -off functionality;
ii. Has one pole that is manual -on and does not incorporate DIP switches, or other manual means, for
conversion between manual and automatic functionality; and
iii. Has one pole that is automatic -on and is not be capable of conversion by the user to manual -on
functionality.
r c. Partial -OFF Sensors meet all applicable requirements for partial off sensing devices in the Title 20 Appliance
Efficiency Regulations, including the following:
L Has two poles;
ii. Has one pole that is manual -on and manual off; and
iii. Has one pole that is automatic -on and automatic -off and is not capable of conversion by the user to
manual -on only functionality.
PART 3 Requirements for which the control is being installed to complied with:
Identify all requirements in the Standards for which the EMCS or Lighting Control System is installed to function as and complies
with:
Check all that are applicable
F
A. Section 130.2(c)1 Photocontrol
r
B. Section 130.2(c)1 Outdoor astronomical time -switch control
F
C. Section 130.2 (c)3 Motion Sensor
F_
D. Section 130.2 (c)4A Part -Night Outdoor Lighting Control
This is page 3 of 5
92663
This is page 2 of 5
ENERGY MANAGEMENT CONTROL SYSTEM OR LIGHTING CONTROL SYSTEM
CERTIFICATE OF INSTALLATION
NRCI_LTO_02_E
NEWPORT BEACH BREWING COMPANY
Orange
General Information
1 of 5
Building Type:
r Nonresidential Outdoor Lighting
Phase of Construction:
r New Construction r Addition r Alteration
Scope of Responsibility
Enter the date of approval by enforcement agency of the Certificate of Compliance that provides the specifications for the energy
efficiency measures for the scope of responsibility for this Installation Certificate.
Date: 12/19/2018 12:00:00 AM
Requirements in the Standards:
§130.4(b) Before an Energy Management Control System (EMCS), or Lighting Control System can be recognized for compliance with
the lighting control requirements in Part 6 of Title 24, the person who is eligible under Division 3 of the Business and Professions Code
to accept responsibility for the construction or installation of features, materials, components, or manufactured devices shall sign and
submit this Installation Certificate.
If any of the requirements in this Installation Certificate fail the Energy Management Control System or Lighting Control System
installation requirements, these options for controlling lighting shall not be recognized for compliance with the Building Energy
Efficiency Standards.
Check all that apply
PART 1 What type of Lighting Control System has been installed?
r A. Energy Management Control System (EMCS) - Is a computerized control system designed to regulate the energy
consumption of a building by controlling the operation of energy consuming systems, such as the heating, ventilation
and air conditioning (HVAC), lighting, and water heating systems, and is capable of monitoring environmental and
system loads, and adjusting HVAC operations in order to optimize energy usage and respond to demand response
signals.
r The Energy Management Control System has been installed to function as a lighting control required by Part 6
and functionally meets all applicable requirements for each application for which it is installed, in accordance
with Sections 110.9, 130.0 through 130.5, 140.6 through 150.0, and 150.2; and complies with Reference
Nonresidential Appendix NA7.7.2.
r The EMCS has been separately tested for each respective lighting control system for which it is installed to
function as.
r B. Lighting Control System - Requires two or more components to be installed in the building to provide all of the
functionality required to make up a fully functional and compliant lighting control.
F The installed Lighting Control System complies with the requirements checked below; and all components of
the system considered together as installed meet all applicable requirements for the application for which they
are installed as required in Sections 130.0 through 130.5, Sections 140.6 through 140.8, Section 141.0, and
Section 150.0(k).
This is page
1 of 5
ACCEPTANCE
9266]
This is page 6 of 6
ACCEPTANCE
DOCUMENTATION AUTHOR'S DECLARATION STATEMENT
I certify that this Certificate of Acceptance documentation Is accurate and complete.
Documentation Author Company Name
Mike Tolbert
CalRio Electric, Inc.
Name
Address 490 PRINCELAND CT. STE 7 City
CORONA
Zip Code 92879 Phone
9514273666
CEA/ATT Certification Author Signature
Identification (if Ag 14333
applicable)
Date of Signature: 07/11/2019
FIELD TECHNICIAN'S DECLARATION STATEMENT
I certify the following under penalty of perjury, under the laws of the State of California:
1. The information provided on this Certificate of Acceptance is true and correct.
2. I am the person who performed the acceptance verification reported on this Certificate of Acceptance (Field Technician).
3. The construction or installation identified on this Certificate of Acceptance complies with the applicable acceptance requirements indicated in the plans and
specifications approved by the enforcement agency, and conforms to the applicable acceptance requirements and procedures specified in Reference
Nonresidential Appendix NA7.
4. I have confirmed that the Certificate(s) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and
signed by the responsible builder/installer and has been posted or made available with the building permit(s) Issued for the building.
Field Technician Name Company Name
Mike Tolbert CalRio Electric, Inc.
Address . 490 PRINCELCity CORONA
Zip Code 92879 Phone 9514273666
ATT Certification Position with Company CalRio Electric, Inc.
Identification A814333 (Title)
Field Technician Signature
Date of Signature: 07/11/2019
RESPONSIBLE PERSON'S DECLARATION STATEMENT
I certify the following under penalty of perjury, under the laws of the State of California:
1. I am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and I have reviewed the Information provided on this
Certificate of Acceptance.
2. I am eligible under Division 3 of the Business and Professions Code in the applicable classification to accept responsibility for the system design, construction
or Installation of features, materials, components, or manufactured devices for the scope of work Identified on this Certificate of Acceptance and attest to the
declarations In this statement (responsible acceptance person).
3. The information provided on this Certificate of Acceptance substantiates that the construction or installation Identified on this Certificate of Acceptance
complies with the acceptance requirements indicated in the plans and specifications approved by the enforcement agency, and conforms to the applicable
acceptance requirements and procedures specified In Reference Nonresidential Appendix NA7.
4. I have confirmed that the Certificate(s) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and
is posted or made available with the building permit(s) issued for the building.
5. I will ensure that a completed, signed copy of this Certificate of Acceptance shall be posted, or made available with the building permit(s) issued for the
building, and made available to the enforcement agency for all applicable inspections. 1 understand that a signed copy of this Certificate of Acceptance is
required to be included with the documentation the builder provides to the building owner at occupancy.
Responsible Acceptance Company Name
Person Name Mike Tolbert Callus Electric, Inc.
Address: 490 PRINCELAND CT. STE 7 City CORONA
Zip Code 92879 Phone 9514273666
CSLB License 594645 Position with Company (Title) CalRio Electric, Inc.
Responsible Acceptance Person Signature
Date of Signature: 07/11/2019
This is page 5 of 6
OF ACCEPTANCE
r
Verify the correct time and date is properly set in the control.
1. Functional Testing
1. Verify and document the following:
During daytime simulation, all controlled outdoor lights are turned off.
During nighttime simulation, all controlled outdoor lights are turned on in accordance
with the ON schedule.
During nighttime simulation, all controlled outdoor lights are turned off in
r
accordance with the OFF schedule.
This is page 4 of 6
OF
Step 2: Simulate no occupancy in areas with lighting controlled by the sensor.
r Lights controlled by the sensor are off or reduces light output within a maximum of
20 minutes from the start of an unoccupied condition.
The sensor does not trigger a false "on" from movement outside of the controlled
r
area.
r I Signal sensitivity is adequate to achieve desired control.
3of6
NA7.8.9 and NA7.8.10 Automatic Scheduling Control:
I. construction Inspection
1. Prior to Functional Testing, confirm and document the following:
Verify the automatic scheduling control is installed.
Verify the control is programmed with acceptable schedules.
Demonstrate and document for the lighting control programming including both ON
r
schedule and OFF schedule, for weekday, weekend, and holidays (if applicable).
This is page
3of6
2of6
1. Verify and document the following:
r
During daytime simulation, all controlled outdoor lights are turned off.
r
During nighttime simulation, all controlled outdoor lights are turned on.
NA7.8.5 and NA7.8.6 Astronomical Time -Switch Control:
E. Construction Inspection
1. Prior to Functional Testing, confirm and document the following:
Verify the astronomical time -switch control is installed.
WV
Verify the astronomical time -switch control is programmed with acceptable ON
schedule and OFF schedule.
r
Demonstrate and document for the time switch programming including ON schedule
and OFF schedule, for weekday, weekend, and holidays (If applicable).
r
Verify the correct time and date are properly set in the control.
F. Functional Testing
1. Outdoor Lighting Daytime Shut-off Controls
P
During daytime simulation, all controlled outdoor lights are turned off.
P
During nighttime simulation, all controlled outdoor lights are turned on in accordance
with the astronomical schedule.
During nighttime simulation, all controlled outdoor lights are turned off in
accordance with the programmed schedule.
NA7.8.7 and NA7.8.8 Part -Night Outdoor Lighting Control:
G. Construction Inspection
1. Prior to Functional Testing for time based control type, confirm and document the following:
Verify the part -night outdoor lighting control is installed.
Verify the control is programmed with acceptable schedules.
W
Demonstrate and document for the lighting control programming including both ON
schedule and OFF schedule, for weekday, weekend, and holidays (if applicable).
r
Verify the correct time and date is properly set in the control.
2. Prior to Functional Testing for occupancy -based control type, verify and document the following:
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2of6
OF
Enforcement Agency Use: Checked by/Date
This is page 1 of 6
OUTDOOR LIGHTING ACCEPTANCE TESTS
NA7.8.1 and NA7.8.2 Motion Sensor:
A. Construction Inspection
1. Motion Sensor Construction Inspection
r
Motion sensor has been located to minimize false signals.
r
Sensor is not triggered by motion outside of controlled area.
r
Desired motion sensor coverage is not blocked by obstruction that could adversely
affect performance.
B. Functional testing
1. Simulate motion in area under lights controlled by the motion sensor. Verify and document the following:
r
Status indicator operates correctly.
r
Lights controlled by motion sensors turn on immediately upon entry into the area lit
by the controlled lights near the motion sensor.
r
Signal sensitivity is adequate to achieve desired control.
2. Simulate no motion in area with lighting controlled by the sensor. Verify and document the following:
r
Lights controlled by the sensor reduce light output within a maximum of 20 minutes
from the start of an unoccupied condition.
r
The sensor does not trigger a false "on" from movement outside of the controlled
area.
r
Signal sensitivity is adequate to achieve desired control.
NA7.8.3 and NA7.8.4 Photocontrol:
C. Construction Inspection
1. Verify and document the following:
r
The photocontrol is installed.
D. Functional testing
This is page 1 of 6
OF
1.31]aW 12Lake] 51 -1111dCW
DOCUMENTATION AUTHOR'S DECLARATION STATEMENT
I certify that this Certificate of Acceptance document is accurate and complete.
Documentation Author Company Name
Name Mike Tolbert
Address
City
490 PRINCELAND CT. STE 7
Zip Code
Phone
92879
CEA/ATT Certification
Author Signature
Identification (if
A814333
applicable)
Date of Signature: 07/11/2019
CalRio Electric, Inc.
CORONA
9514273666
RESPONSIBLE PERSON'S DECLARATION STATEMENT
I certify the following under penalty of perjury, under the laws of the State of California:
1. 1 am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and I have reviewed the information provided on this
Certificate of Acceptance.
2. 1 am eligible under Division 3 of the Business and Professions Code in the applicable classification to accept responsibility for the system design,
construction or Installation of features, materials, components, or manufactured devices for the scope of work identified on this Certificate of Acceptance and
attest to the declarations in this statement (responsible acceptance person).
3. The Information provided on this Certificate of Acceptance substantiates that the construction or Installation Identified on this Certificate of Acceptance
complies with the acceptance requirements indicated in the plans and specifications approved by the enforcement agency, and conforms to the applicable
acceptance requirements and procedures speclfled In Reference Nonresidential Appendix NA7.
4. I have confirmed that the Certificates) of Installation for the construction or Installation identified on this Certificate of Acceptance has been completed and
is posted or made available with the building permit(s) Issued for the building.
5. 1 will ensure that a completed, signed copy of this Certificate of Acceptance shall be posted, or made available with the building permit(s) issued for the
building, and made available to the enforcement agency for all applicable inspections. I understand that a signed copy of this Certificate of Acceptance is
required to be included with the documentation the builder provides to the building owner at occupancy.
Responsible Acceptance Mike Tolbert Company Name Caddie Electric, Inc.
Person Name
Address: 490 PRINCELAND CT. STE 7 City CORONA
Zip Code 92879 Phone 9514273666
CSLB License Position with Company
594645 (Title) President CalRio Electric, Inc.
Responsible Acceptance Person Signature
;0// -
Date of Signature: 07/11/2019
This is page 2 of 2
ltiatyllrc
OUTDOOR LIGHTING CERTIFICATE OF INSTALLATION
NRCI_LTO_01_E
NEWPORT BEACH BREWING COMPANY
Orange
General Information
Building Type:
F Nonresidential
Phase of Construction:
F New Construction f" Addition r Alteration
Scope of Responsibility
Enter the date of approval by enforcement agency of the Certificate of Compliance that provides the specifications for the energy
efficiency measures for the scope of responsibility for this Installation Certificate.
Date: 12/19/2018 12:00:00 AM
In the table below, identify all construction documents that show that the outdoor lighting and controls were installed as it was
proposed in the Certificates of Compliance.
TITLE 24, LIGHTING I E2.0 E6.0 112/19/2018 12:00:00 AM
This is page 1 of 2
ame: NEWPORT BEACH BREWING COMPANY 111hat.rownierit
ddmss: 2920 NEWPORT BLVD
Agency: u t r ut nn vluu t rl
City: NEWPORT BEACH
DOCUMENTATION AUTHOR'S DECLARATION STATEMENT
I certify that this Certificate of Acceptance document is accurate and complete.
Documentation Author Company Name
Mike Tolbert
CalRio Electric, Inc.
Name
Address 490 PRINCELANO CT. STE ] City
CORONA
Zip Cade 92879 Phone
95142]3666
CEA/ATT Certification Author Signature
Identification (If A814333
applicable)
Date of Signature: 07/11/2019
RESPONSIBLE PERSON'S DECLARATION STATEMENT
I certify the following under penalty of perjury, under the laws of the State of California:
1. I am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and i have reviewed the Information provided an this
Certificate of Acceptance.
2. 1 am eligible under Division 3 of the Business and Professions Code in the applicable classification to accept responsibility for the system design,
construction or installation of features, materials, components, or manufactured devices for the scope of work identified on this Certificate of Acceptance and
attest to the declarations in this statement (responsible acceptance person).
3. The information provided on this Certificate of Acceptance substantiates that the construction or installation Identified on this Certificate of Acceptance
complies with the acceptance requirements indicated in the plans and specifications approved by the enforcement agency, and conforms to the applicable
acceptance requirements and procedures specified in Reference Nonresidential Appendix NA].
4. I have confirmed that the Certificate(s) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and
is posted or made available with the building permits) issued for the building.
5. I will ensure that a completed, signed copy of this Certificate of Acceptance shall be pasted, or made available with the building permits) issued for the
building, and made available to the enforcement agency for all applicable inspections. I understand that a signed copy of this Certificate of Acceptance is
required to be included with the documentation the builder provides to the building owner at occupancy.
Responsible Acceptance Company Name CalRio Electric, Inc.
Person Name Mike Tolbert
Address: 490 PRINCELAND CT. STE ] City CORONA
Zip Code 92879 Phone
95142]3666
CSLB License 594645 Position with Company
(Title) President CalRio Electric
Responsible Acceptance Person Signature
Date of Signature: 07/11/2019
This is page 5 of 5
OF
d. Partial -ON Sensors meeting all applicable requirements for partial on sensing devices in the Title 20
Appliance Efficiency Regulations, including the following:
i. Has two poles each with automatic -off functionality;
ii. Has one pole that is manual -on and does not incorporate DIP switches, or other manual means, for
conversion between manual and automatic functionality; and
iii. Has one pole that is automatic -on and is not be capable of conversion by the user to manual -on
functionality.
r e. Partial -OFF Sensors meet all applicable requirements for partial off sensing devices in the Title 20
Appliance Efficiency Regulations, including the following:
E Has two poles;
ii. Has one pole that is manual -on and manual off; and
M. Has one pole that is automatic -on and automatic -off and is not capable of conversion by the user to
manual -on only functionality.
r f. Occupant Sensing Control systems consist of a combination of single or multi-level Occupant, Motion, or
Vacancy Sensor Controls, and all components installed to comply with manual -on requirements are not
capable of conversion by the user from manual -on to automatic -on functionality.
PART 3 Requirements for which the control is being installed to complied with:
Identify all requirements in the Standards for which the EMCS or Lighting Control System is installed to function as and complies
with:
Check all that are applicable.
W
A. Section 130.1(a) Area Controls.
r
B. Section 130.1(b) Multi -Level Lighting Controls
r
C. Section 130.1 (c) Shut -OFF Controls
r
D. Section 130.1 (d) Automatic Daylighting Controls.
F
E. Section 130.1 (e) Demand Responsive Controls.
r
F. Section 130.5 (d) Circuit Controls for 120 -Volt Receptacles.
r
G. To qualify for the PAF for a Partial -ON Occupant Sensing Control in TABLE 140.6-A
r
H. To qualify for the PAF for an occupant sensing control controlling the general lighting in large open plan office
areas above workstations, in accordance with TABLE 140.6-A
F
I. To qualify for the PAF for a Manual Dimming System PAF or a Multiscene Programmable Dimming System PAF in
TABLE 140.6-A
r
J. To qualify for the PAF for a Demand Responsive Control in TABLE 140.6-A
r
K. To qualify for the PAF for Combined Manual Dimming plus Partial -ON Occupant Sensing Control in TABLE 140.6-A
This is page 4 of 5
'K951J:\JY
BLVD
This is page 3 of 5
F 1. Automatic Daylight Controls meet all requirements for Automatic Daylight Control devices in the Title 20
Appliance Efficiency Regulations, including the following:
a. Is capable of reducing the power consumption in response to measured daylight either directly or by
sending and receiving signals;
b. If the system includes a dimmer, complies with the Dimmer Control device requirements in the Title 20
Appliance Efficiency Regulations.
c. Automatically return to its most recent time delay settings within 60 minutes when put in calibration
mode;
d. Has a set point control that easily distinguishes settings to within 10 percent of full scale adjustment;
e. Has a light sensor that has a linear response within 5 percent accuracy over the range of illuminance
measured by the light sensor;
f. Has a light sensor that is physically separated from where the calibration adjustments are made, or is
capable of being calibrated in a manner that the person initiating the calibration is remote from the sensor
during calibration to avoid influencing calibration accuracy; and
g. Complies with the Title 20 requirements for photo controls if the system contains a photo control
component.
G 2. Photo Controls meet all requirements for Photo Control devices in the Title 20 Appliance Efficiency
Regulations, including the following that it does not have a mechanical device that permits disabling of the
control.
F G. The EMCS or Lighting Control System functions as a Dimmer and meets all requirements for a Dimmer Control
device in the Title 20 Appliance Efficiency Regulations, including the following:
1. Is capable of reducing power consumption by a minimum of 65 percent when the dimmer is at its lowest level;
2. Includes an off position which produces a zero lumen output; and
3. Does not consume more than 1 watt per lighting dimmer switch leg when in the off position.
4. Dimmer controls that can directly control lamps provide electrical outputs to lamps for reduced flicker operation
through the dimming range so that the light output has an amplitude modulation of less than 30 percent for
frequencies less than 200 Hz without causing premature lamp failure.
S. If designed for use in three way circuits is capable of turning lights off, and to the level set by the dimmer if the
lights are off.
F H. The EMCS or Lighting Control System meets the following requirements:
1. Is capable of automatically turning off controlled lights in the area no more than 30 minutes after the area has
been vacated;
2. Allows all lights to be manually turned off regardless of the status of occupancy; and
3. Has a visible status signal that indicates that the device is operating properly, or that it has failed or
malfunctioned. The visible status signal may have an override switch that turns off the signal.
4. All occupant sensing devices that utilize ultrasonic radiation for detection of occupants meet the Ultrasound
Maximum Decibel Values in the Title 20 Appliance Efficiency Regulations
S. All occupant sensing devices that utilize microwave radiation for detection of occupants meet the radiation
requirements in the Title 20 Appliance Efficiency Regulations
6. Occupant sensing devices incorporating dimming comply with the requirements for dimmer controls in the Title 20
Appliance Efficiency Regulations
7. The EMCS or Lighting Control System functions as one or more of the Occupant Sensing Controls Checked Below:
F a. Occupant Sensors meeting all applicable requirements for Occupant Sensor Control devices in the Title 20
Appliance Efficiency Regulations
W b. Motion Sensors meeting all applicable requirements for Motion Sensor Controls devices in the Title 20
Appliance Efficiency Regulations, including that motion sensors are rated for outdoor use. -
F c. Vacancy Sensors meeting all applicable requirements for Vacancy Sensor Controls devices in the Title 20
Appliance Efficiency Regulations, including the following:
i. Does not turn on lighting automatically and does not incorporate DIP switches, or other manual means, for
conversion between manual and automatic functionality;
ii. Has a grace period of no more than 30 seconds and no less than 15 seconds to turn on lighting
automatically after the sensor has timed out; and
iii. Does not have an override switch that disables the sensor.
This is page 3 of 5
BEACH
Project Add,ess: 2920 NEWPORT BLVD
Ciry: NEWPORT BEACH Zip Cade: 92663
W The installed Lighting Control System complies with the requirements checked below; and all components of
the system considered together as. installed meet all applicable requirements for the application for which
they are installed as required in Sections 130.0 through 130.5, Sections 140.6 through 140.8, Section 141.0,
and Section 150.0(k).
PART 2 Lighting Control Functional requirements: Check all that apply when verifying
the installation of an EMCS or Lighting Control System.
W A. All lighting controls and equipment have been installed in accordance with the manufacturer's instructions.
rV B. The manufacturer has provided instructions for calibration.
r C. If indicator lights are integral to any components, such indicator lights consumes no more than 1 watt of power
per indicator light.
rV D. Components that are regulated by the Title 20 Appliance Efficiency Regulations have been certified to the Energy
Commission.
W E. The EMCS or Lighting Control System functions as one or more of the Time -Switch Lighting Controls checked
below, and complies with all of the following requirements:
W 1. Automatic Time -Switch Controls meeting all requirements for Automatic Time Switch Control devices in the
Title 20 Appliance Efficiency Regulations, including the requirements below:
a. Residential automatic time -switch controls have program backup capabilities that prevent the loss of the
device's schedule for at least 7 days, and the device's date and time for at least 72 hours if power is
interrupted.
b. Commercial automatic time -switch controls meet the following requirements:
1. Has program backup capabilities that prevent the loss of the device's schedule for at least 7 days, and the
device's date and time for at least 72 hours if power is interrupted
ii. Is capable of providing manual override to each connected load and shall resume normally scheduled
operation after manual override is initiated within 2 hours for each connected load and
iii. Incorporates an automatic holiday shutoff feature that turns off all connected loads for at least 24 hours
and then resumes normally scheduled operation.
2. Astronomical Time -Switch Controls meeting all requirements for Astronomical Time -Switch Control devices
in the Title 20 Appliance Efficiency Regulations, including the requirements below:
a. Meets the requirements of an automatic time -switch control
b. Has sunrise and sunset prediction accuracy within plus -or -minus 15 minutes and timekeeping accuracy
within 5 minutes per year
c. Is capable of displaying date, current time, sunrise time, sunset time, and switching times for each step
during programming
d. Has an automatic daylight savings time adjustment; and
e. Has the ability to independently offset the on and off for each channel by at least 99 minutes before and
after sunrise or sunset.
r 3. Multi -Level Astronomical Time -Switch Controls, in addition to meeting all of the requirements for
Astronomical Time -Switch Controls, includes at least 2 separately programmable steps per zone.
f F. The EMCS or Lighting Control System functions as one or more of the Daylighting Controls listed below:
This is page 2 of 5
INDOOR LIGHTING
NRCI_LTI_02_E
NEWPORT BEACH BREWING COMPANY
Orange
General Information
Building Type:
F Nonresidential r High -Rise Res (Common Area)
F Hotel/Motel (Common Area)
Phase of Construction:
F New Construction r Addition r Alteration
r Unconditioned
Scope of Responsibility
Enter the date of approval by enforcement agency of the Certificate of Compliance that provides the specifications for the energy
efficiency measures for the scope of responsibility for this Installation Certificate.
Date: 12/19/2018 12:00:00 AM
§130.4(b) Before an Energy Management Control System (EMCS), or Lighting Control System can be recognized for compliance with
the lighting control requirements in Part 6 of Title 24, the person who is eligible under Division 3 of the Business and Professions Code
to accept responsibility for the construction or installation of features, materials, components, or manufactured devices shall sign and
submit this Installation Certificate.
If any of the requirements in this Installation Certificate fail the Energy Management Control System or Lighting Control System
installation requirements, these options for controlling lighting shall not be recognized for compliance with the Building Energy
Efficiency Standards.
Check all that apply
PART 1 What type of Lighting Control System has been installed?
F_ A. Energy Management Control System (EMCs) - Is a computerized control system designed to regulate the energy
consumption of a building by controlling the operation of energy consuming systems, such as the heating,
ventilation and air conditioning (HVAC), lighting, and water heating systems, and is capable of monitoring
environmental and system loads, and adjusting HVAC operations in order to optimize energy usage and respond to
demand response signals.
r The Energy Management Control System has been installed to function as a lighting control required by Part
6 and functionally meets all applicable requirements for each application for which it is installed, in
accordance with Sections 110.9, 130.0 through 130.5, 140.6 through 150.0, and 150.2; and complies with
Reference Nonresidential Appendix NA7.7.2.
F The EMCS has been separately tested for each respective lighting control system for which it is installed to
function as.
P B. Lighting Control System - Requires two or more components to be installed in the building to provide all of the
functionality required to make up a fully functional and compliant lighting control.
This is page 1 of 5
This is page 43 of 43
TE OF
eme: NEWPORT BEACH BREWING COMPANY llumrcement Agency: CITY ur naw.
ddress: 2920 NEWPORT BLVD City: NEWPORT BEACH
DOCUMENTATION AUTHOR'S DECLARATION STATEMENT
I certify that this Certificate of Acceptance documentation is accurate and complete.
Documentation Author Company Name
Name Mike Tolbert
Address 490 PRINCELAND CT. STE 7 City
Zip Code 92879 Phone
CEA/ATT Certification A814333 Author Signature
Identification (If
applicable)
Date of Signature: 07/11/2019
CalRio Electric, Inc.
CORONA
9514273666
FIELD TECHNICIAN'S DECLARATION STATEMENT
I certify the following under penalty of perjury, under the laws of the State of California:
1. The information provided on this Certificate of Acceptance is true and correct.
2. I am the person who performed the acceptance verification reported on this Certificate of Acceptance (Field Technician).
3. The construction or installation identified on this Certificate of Acceptance complies with the applicable acceptance requirements indicated in the plans and
specifications approved by the enforcement agency, and conforms to the applicable acceptance requirements and procedures specified in Reference
Nonresidential Appendix NAT
4. I have confirmed that the Certificate(s) of Installation for the construction or Installation identified on this Certificate of Acceptance has been completed and
signed by the responsible builder/installer and has been posted or made available with the building permit(s) issued for the building.
Field Technician Name Company Name
Mike Tolbert Ca1Rio Electric, Inc.
Address: 490 PRINCELAND CT. STE 7 City CORONA
Zip Code 92879 Phone 9514273666
ATT Certification Position with Company
Identification A814333 (Title) President Ca Alo Electric, Inc.
Field Technician Signature
Date of Signature: 07/11/2019
RESPONSIBLE PERSON'S DECLARATION STATEMENT
I certify the following under penalty of perjury, under the laws of the State of California:
1. I am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and I have reviewed the information provided on this
Certificate of Acceptance.
2. 1 am eligible under Division 3 of the Business and Professions Code in the applicable classification to accept responsibility for the system design, construction
or installation of features, materials, components, or manufactured devices for the scope of work identified on this Certificate of Acceptance and attest to the
declarations In this statement (responsible acceptance person).
3. The Information provided on this Certificate of Acceptance substantiates that the construction or Installation identified on this Certificate of Acceptance complies
with the acceptance requirements indicated in the plans and specifications approved by the enforcement agency, and conforms to the applicable acceptance
requirements and procedures specified in Reference Nonresidential Appendix NA7.
4. I have confirmed that the Certificate(s) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and is
posted or made available with the building permit(s) issued for the building.
5. I will ensure that a completed, signed copy of this Certificate of Acceptance shall be posted, or made available with the building permlt(s) issued for the
building, and made available to the enforcement agency for all applicable inspections. I understand that a signed copy of this Certificate of Acceptance Is
required to be included with the documentation the builder provides to the building owner at occupancy.
Responsible Acceptance Company Name
Person Name Mike Tolbert CalRlo Electric, Inc.
Address: 490 PRINCELAND CT. STE 7 City CORONA
Zip Code Phone
92879 9514273666
CSLB License Position with Company
594645 (Title) President Call Electric, Inc.
Responsible Acceptance Person Signature
Date of Signature: 07/11/2019
This is page 42 of 43
C. Testing Results
1. Automatic Time Switch Controls (ail answers must be Yes).
2. Occupancy Sensor (On Off Control) (all answers must be Yes).
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be
accompanied by passing Test 1 or Test 2. f-
4. Partial On Occupant Sensor for PAF (all answers must be Yes). r
5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r
pass Test 2.
D. Evaluation :
r PASS: All applicable Construction Inspection responses are complete and all applicable
Equipment Testing Requirements responses are positive.
This is page 41 of 43
5. Ad tlonal test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step 0: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 1`1:2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to r
the PAF claimed in the compliance documentation (line c).
e. Sensors shall not trigger in response to movement in adjacent walkways or r
workspaces
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r
and all answers are Yes.
This is page 40 of 43
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r
minutes from start of an unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
This is page 39 of 43
:eYYI
a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes
from start of an unoccupied condition per Standard Section 110.9(b)
F
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. r
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r
b. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on
manually
Step 3:
System returned to initial operating conditions r
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an
unoccupied condition per Standard Section 110.9(a) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure -
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to
r-
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually
deactivate all of the lights. r
This is page 38 of 43
930a5mli
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes). r
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be
accompanied by passing Test 1 or Test 2. r
4. Partial On Occupant Sensor for PAF (all answers must be Yes). r
5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r
pass Test 2.
Representative Spaces Selected
Tested space/room name: BAR
Space Type (office, corridor, etc) UTILITY
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch r
b. Verify the switch only operates lighting in the ceiling -height partitioned area in r
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may r
remain on per Section 130.1(c)1 and 130.1(a)1.
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key r
type). y
Step 3:
System returned to initial operating conditions r
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 37 of 43
5. Add}tional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step O: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to r
the PAF claimed in the compliance documentation (line c).
I—
e. Sensors shall not trigger in response to movement in adjacent walkways or
workspaces r
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r
and all answers are Yes.
This is page 36 of 43
OF
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r
minutes from start of an unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. r
This is page 35 of 43
a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes r
from start of an unoccupied condition per Standard Section 110.9(b)
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r
J. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on
manually r
Step 3:
System returned to initial operating conditions r
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an r
unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to r
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually
deactivate all of the lights. r
This is page 34 of 43
OF ACCEPTANCE
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes). f~
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be r
accompanied by passing Test 1 or Test 2.
4. Partial On Occupant Sensor for PAF (all answers must be Yes). r
S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r
pass Test 2.
Representative Spaces Selected
Tested space/room name: TANK FARM
Space Type (office, corridor, etc) UTILITY STORAGE
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch r
b. Verify the switch only operates lighting in the ceiling -height partitioned area in
r
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may
remain on per Section 130.1(c)1 and 130.1(a)1.
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key
W
type).
Step 3:
System returned to initial operating conditions r
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 33 of 43
ACCEPTANCE
5. Add}tional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step O: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to r
the PAF claimed in the compliance documentation (line c).
e. Sensors shall not trigger in response to movement in adjacent walkways or r
workspaces
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r
and all answers are Yes.
This is page 32 of 43
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r
minutes from start of an unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
This is page 31 of 43
a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes
from start of an unoccupied condition per Standard Section 110.9(b) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. r
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r�
b. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on
manually r
Step 3:
System returned to initial operating conditions r
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an
unoccupied condition per Standard Section 110.9(a) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to r
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually F
deactivate all of the lights.
This is page 30 of 43
Na
nramrztew
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes). r
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be r
accompanied by passing Test 1 or Test 2.
4. Partial On Occupant Sensor for PAF (all answers must be Yes). r
S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r
pass Test 2.
Representative Spaces Selected
Tested space/room name: MENS RESTROOM
Space Type (office, corridor, etc) RESTROOM
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch r
b. Verify the switch only operates lighting in the ceiling -height partitioned area in
r
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may
remain on per Section 130.1(c)1 and 130.1(a)1. r
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key
F
type).
Step 3:
System returned to initial operating conditions r
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 29 of 43
5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step 0: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to r
the PAF claimed in the compliance documentation (line c).
e. Sensors shall not trigger in response to movement in adjacent walkways or
r
workspaces
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r
and all answers are Yes.
This is page 28 of 43
92663
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20
minutes from start of an unoccupied condition per Standard Section 110.9(a) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. r
This is page 27 of 43
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation.
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r
b. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on
manually
Step 3:
System returned to initial operating conditions
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an
F
unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to r
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually
deactivate all of the lights. rr-
This
is page 26 of 43
BEACH
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes).
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be
accompanied by passing Test 1 or Test 2. r
4. Partial On Occupant Sensor for PAF (all answers must be Yes). r
S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r
pass Test 2.
Representative Spaces Selected
Tested space/room name: DISHWASHING
Space Type (office, corridor, etc) UTILITY
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch
b. Verify the switch only operates lighting in the ceiling -height partitioned area in
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may
remain on per Section 130.1(c)1 and 130.1(a)1.
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key r,
type). y
Step 3:
System returned to initial operating conditions r
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 25 of 43
S. Add}tional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step 0: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to
the PAF claimed in the compliance documentation (line c). r
e. Sensors shall not trigger in response to movement in adjacent walkways or
workspaces r
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r
and all answers are Yes.
This is page 24 of 43
ACCEPTANCE
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20
minutes from start of an unoccupied condition per Standard Section 110.9(a) (—
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
This is page 23 of 43
ACCEPTANCE
a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes r
from start of an unoccupied condition per Standard Section 110.9(b)
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r
b. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on
r
manually
Step 3:
System returned to initial operating conditions r-
3.
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an r
unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 500% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to r
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually
r
deactivate all of the lights.
This is page 22 of 43
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes). r
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be
accompanied by passing Test 1 or Test 2. IF -
4.
Partial On Occupant Sensor for PAF (all answers must be Yes). r
5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r
pass Test 2.
Representative Spaces Selected
Tested space/room name: BEER BAR
Space Type (office, corridor, etc) MEETING
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch
b. Verify the switch only operates lighting in the ceiling -height partitioned area in r
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may r
remain on per Section 130.1(c)1 and 130.1(a)1.
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key
F
type)
Step 3:
System returned to initial operating conditions
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 21 of 43
5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft', to Qualify for a Power Adjustment Factor (PAF)
Step 0: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to Ir—
e.
PAF claimed in the compliance documentation (line c).
e. Sensors shall not trigger in response to movement in adjacent walkways or r
workspaces
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r
and all answers are Yes.
This is page 20 of 43
iauaIIIneca
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r
minutes from start of an unoccupied condition per Standard Section 110.9(a)
J. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
This is page 19 of 43
OF
a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes
from start of an unoccupied condition per Standard Section 110.9(b)
WV
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. r
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r
b. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on
manually Ir
Step 3:
System returned to initial operating conditions r
3. Partial Off Occupancy Sensor
Step is Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an
unoccupied condition per Standard Section 110.9(a) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to r
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually r
deactivate all of the lights.
This is page 18 of 43
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes).
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be
accompanied by passing Test 1 or Test 2. r
4. Partial On Occupant Sensor for PAF (all answers must be Yes). r
S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r
pass Test 2.
Representative Spaces Selected
Tested space/room name: PREP AREA
Space Type (office, corridor, etc) UTILITY
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch r
b. Verify the switch only operates lighting in the ceiling -height partitioned area in r
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may r
remain on per Section 130.1(c)1 and 130.1(a)1.
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key
type) f~
Step 3:
System returned to initial operating conditions r
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 17 of 43
5. Ad tional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step 0: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to
the PAF claimed in the compliance documentation (line c). r—
e. Sensors shall not trigger in response to movement in adjacent walkways or r.,
workspaces
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r
and all answers are Yes.
This is page 16 of 43
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20
minutes from start of an unoccupied condition per Standard Section 110.9(a) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. '
This is page 15 of 43
OP ACCEPTANCE
a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes
from start of an unoccupied condition per Standard Section 110.9(b) r
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r
b. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on r
manually
Step 3:
System returned to initial operating conditions r
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an
unoccupied condition per Standard Section 110.9(a) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to r
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually r
deactivate all of the lights.
This is page 14 of 43
BEACH
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes). r
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be
accompanied by passing Test 1 or Test 2. f
4. Partial On Occupant Sensor for PAF (all answers must be Yes). r
5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must r
pass Test 2.
Representative Spaces Selected
Tested space/room name: WOMENS RESTROOM
Space Type (office, corridor, etc) RESTROOM
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch r
b. Verify the switch only operates lighting in the ceiling -height partitioned area in
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may 7
remain on per Section 130.1(c)1 and 130.1(a)1.
In. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key
F
type).
Step 3:
System returned to initial operating conditions r
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 13 of 43
5. Additional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step O: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 f1:2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to
the PAF claimed in the compliance documentation (line c). r
e. Sensors shall not trigger in response to movement in adjacent walkways or
workspaces r
f. All steps are conducted in Functional Test 2 'Occupancy Sensor (On Off Control)'
and all answers are Yes. r
This is page 12 of 43
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20
minutes from start of an unoccupied condition per Standard Section 110.9(a) f
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
This is page 11 of 43
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. r
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly
J. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on
manually
Step 3:
System returned to initial operating conditions
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an r.,
unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to r
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually
deactivate all of the lights. Fr
This is page 10 of 43
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes). r
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be F
accompanied by passing Test 1 or Test 2.
4. Partial On Occupant Sensor for PAF (all answers must be Yes). r
5. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must
pass Test 2. r
Representative Spaces Selected
Tested space/room name: KITCHEN
Space Type (office, corridor, etc) UTILITY
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch r
b. Verify the switch only operates lighting in the ceiling -height partitioned area in
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may
remain on per Section 130.1(c)1 and 130.1(a)1.
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key
type).
F
Step 3:
System returned to initial operating conditions
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 9 of 43
5. Addgtional test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step 0: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
It. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to r
the PAF claimed in the compliance documentation (line c).
e. Sensors shall not trigger in response to movement in adjacent walkways or
workspaces r
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' t"
and all answers are Yes.
This is page 8 of 43
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r
minutes from start of an unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. r
This is page 7 of 43
NYWI
a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes
from start of an unoccupied condition per Standard Section 110.9(b)
r
h. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. r
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r�
b. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on
r
manually
Step 3:
System returned to initial operating conditions r
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an
unoccupied condition per Standard Section 110.9(a) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may be used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled r
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to r
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually 7r -
This
deactivate all of the lights.
is page 6 of 43
OF ACCEPTANCE
:NYIPLeiJa4'/IintYl
C. Testing Results
1. Automatic Time Switch Controls (all answers must be Yes). F
2. Occupancy Sensor (On Off Control) (all answers must be Yes). r
3. Partial Off Occupancy Sensor (all answers must be Yes). For warehouses, library
book stacks, corridors, stairwells in nonresidential buildings must also be
accompanied by passing Test 1 or Test 2. r
4. Partial On Occupant Sensor for PAF (all answers must be Yes), r
S. Occupant Sensor serving small zones for PAF (all answers must be Yes). Also must
pass Test 2. r
Representative Spaces Selected
Tested space/room name: DINING ROOM
Space Type (office, corridor, etc) MEETING
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch r
b. Verify the switch only operates lighting in the ceiling -height partitioned area in
which the switch is located. r
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may r
remain on per Section 130.1(c)1 and 130.1(a)1.
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key
W,
type).
Step 3:
System returned to initial operating conditions
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
This is page 5 of 43
5. Ad tlonal test for Occupancy Sensors Serving Small Zones in Office Spaces Larger than
250 ft , to Qualify for a Power Adjustment Factor (PAF)
Step 0: First, complete Functional Test 2 (above) for each controlled zone.
Step 1: Verify area served and compare actual PAF with claimed PAF. Refer to Functional Test 2.
a. Area served by controlled lighting ft2
b. Enter PAF corresponding to controlled area from line (a) above (<125 ft2 for
PAF=0.4, 126-250 ft2 for PAF=0.3, 251-500 ft2 for PAF=0.2).
c. Enter PAF claimed for occupant sensor control in this space from the Certificate of
Compliance.
d. The PAF corresponding to the controlled area (line b), is greater than or equal to r
the PAF claimed in the compliance documentation (line c).
e. Sensors shall not trigger in response to movement in adjacent walkways or r
workspaces
f. All steps are conducted in Functional Test 2'Occupancy Sensor (On Off Control)' r
and all answers are Yes.
This is page 4 of 43
Step 3:
System returned to initial operating conditions r
3. Partial Off Occupancy Sensor
Step 1: Simulate an unoccupied condition
a. Lights go to partial off state within a maximum of 20 minutes from start of an
unoccupied condition per Standard Section 110.9(a) r
b. The occupant sensor does not trigger a false 'on' from movement in an area
adjacent to the controlled space or from HVAC operation. For library book stacks or
warehouse aisle, activity beyond the stack or aisle shall not activate the lighting in r
the aisle or stack.
c. In the partial off state, lighting shall consume no more than 50% of installed lighting
power, or:
No more than 60% of installed lighting power for metal halide or high pressure
sodium lighting in warehouses.
No more than 60% of installed lighting power for corridors and stairwells in which
the installed lighting power is 80% or less of the value allowed under the Area
Category Method. r
Light level may he used as a proxy for lighting power when measurements are taken
Step 2: Simulate an occupied condition
The occupant sensing controls shall turn lights fully ON in each separately controlled F
areas, Immediately upon an occupied condition
4. Partial On Occupancy Sensors
Step 1. -Simulate an occupied condition. Verify partial on operation.
a. Immediately upon an occupied condition, the first stage activates between 50 to
r-
70% of the lighting automatically.
b. After the first stage occurs, manual switches allow an occupant to activate the
alternate set of lights, activate 100% of the lighting power, and manually
deactivate all of the lights. r
Step 2. Simulate an unoccupied condition
a. Both stages (automatic on and manual on) lights turn off within a maximum of 20 r
minutes from start of an unoccupied condition per Standard Section 110.9(a)
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
This is page 3 of 43
B. Functional Testing of Lighting Controls
For every space in the building, conduct functional tests 1 through 5 below if applicable. If there are several geometrically similar spaces
that use the same lighting controls, test only one space and list in the cells below which "untested spaces" are represented by that
tested space. EXCEPTION: For buildings with up to seven (7) occupancy sensors, all occupancy sensors shall be tested. (NA7.6.2.3)
Representative Spaces Selected
Tested space/room name: LOUNGE
Space Type (office, corridor, etc) MEETING
Untested areas/rooms
Confirm compliance for all control system types (1-5) present in each space:
1. Automatic Time Switch Controls
Step 1: Simulate occupied condition
a. All lights can be turned on and off by their respective area control switch r
b. Verify the switch only operates lighting in the ceiling -height partitioned area in
which the switch is located.
Step 2: Simulate unoccupied condition
a. All lighting, including emergency and egress lighting, turns off. Exempt lighting may
remain on per Section 130.1(c)1 and 130.1(a)1. r
b. Manual override switch controls only the lights in the selected ceiling height
partitioned space where the override switch is located and the lights remain on no
longer than 2 hours (unless serving public areas and override switch is captive key
type),
Step 3:
System returned to initial operating conditions
2. Occupancy Sensors
Step 1: Simulate an unoccupied condition
a. Lights controlled by occupancy sensors turn off within a maximum of 20 minutes r
from start of an unoccupied condition per Standard Section 110.9(6)
b. The occupant sensor does not trigger a false 'on' from movement in an area r
adjacent to the controlled space or from HVAC operation.
Step 2: Simulate an occupied condition
a. Status indicator or annunciator operates correctly r
b. Lights controlled by occupancy sensors turn on immediately upon an occupied
condition OR sensor indicates space is 'occupied' and lights may be turned on r
manually
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Enforcement Agency Use: Checked by/Date
LIGHTING CONTROL ACCEPTANCE DOCUMENT
Automatic Shut-off Controls: Automatic Time Switch Control and Occupant Sensor
Intent: Lights are turned off or set to a lower level when not needed per Section 110.9(a) & 130.1(c).
A. Construction Inspection
Fill out Section A to cover spaces 1 through 3 that are functionally tested under Section B.
Instruments needed to perform tests include, but are not limited to: hand-held amperage meter, power meter, or light meter
1: Automatic Time Switch Controls Construction Inspection—confirm for all listed in Section B
a. All automatic time switch controls are programmed for (check all):
P Weekdays r Weekend r Holidays
b. Document for the owner automatic time switch programming (check all):
r Weekday settings r Weekend settings r Holidays settings r Set-up settings
F Preference program setting r Verify the correct time and date is properly set in the time switch
r Verify the battery is installed and energized r Override time limit is no more than 2 hours
F Occupant Sensors and Automatic Time Switch Controls have been certified to the Energy Commission in accordance with
the applicable provision in Section 110.9 of the Standards, and model numbers for all such controls are listed on the Commission
database as Certified Appliance and Control Devices
2. Occupancy Sensor Construction Inspection—confirm for all listed in Section B
F Occupancy sensors are not located within 4 feet of any HVAC diffuser
F7 Ultrasonic occupancy sensors do not emit audible sound 5 feet from source
This is page 1 of 43
DOCUMENTATION AUTHOR'S DECLARATION STATEMENT
1 certify that this Certificate of Acceptance document is accurate and complete.
Documentation Author Company Name
Name Mike Tolbert CalRio Electric, Inc.
Address 490 PRINCELAND CT. STE 7 City CORONA
Zip Code 92079 Phone 9514273666
CEA/ATT Certification A814333 Author Signature
Identification (if
applicable)
Date of Signature: 07/11/2019
RESPONSIBLE PERSON'S DECLARATION STATEMENT
I certify the following under penalty of perjury, under the laws of the State of California:
1. I am the Field Technician, or the Field Technician is acting on my behalf as my employee or my agent and 1 have reviewed the information provided on this
Certificate of Acceptance.
2. I am eligible under Division 3 of the Business and Professions Code in the applicable classification to accept responsibility for the system design, construction
or installation of features, materials, components, or manufactured devices for the scope of work identified on this Certificate of Acceptance and attest to the
declarations in this statement (responsible acceptance person).
3. The information provided on this Certificate of Acceptance substantiates that the construction or installation identified on this Certificate of Acceptance
complies with the acceptance requirements indicated In the plans and specifications approved by the enforcement agency, and conforms to the applicable
acceptance requirements and procedures specified in Reference Nonresidential Appendix NA7.
4. I have confirmed that the Certificate(s) of Installation for the construction or installation identified on this Certificate of Acceptance has been completed and
is posted or made available with the building permit(s) issued for the building.
S. I will ensure that a completed, signed copy of this Certificate of Acceptance shall be posted, or made available with the building permit(s) issued for the
building, and made available to the enforcement agency for all applicable inspections. I understand that a signed copy of this Certificate of Acceptance is
required to be included with the documentation the builder provides to the building owner at occupancy.
Responsible Acceptance Company Name
Person Name Mike Tolbert CalRio Electric, Inc.
AddressT 490 PRINCELAND CT. STE 7 City CORONA
Zip Code 92879 Phone 9514273666
CSLB License Position with Company
594645 (Title) President CdlRlo Electric, Inc.
Responsible Acceptance Person Signature
Date of Signature: 07/11/2019
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