The document discusses Plug and Play control systems that are factory configured for HVAC equipment. It describes how embedded controls, mobile connectivity, and remote monitoring are driving growth in the light commercial HVAC market. It then provides details on the Verasys control system, including that it supports constant volume, changeover bypass, and variable air volume zoning configurations. System components include a Smart Building Hub, zone coordinators, and I/O modules to control various HVAC equipment and sequences.
Fundamentando-se no texto de Antônio Joaquim Severino, "Diretrizes para a leitura, análise e interpretação de textos", este material ajudará na compreensão e na realização, passo a passo, de uma análise interpretativa.
The main purpose of HVAC is to provide the people working inside the building with “CONDITIONED AIR” so that they will have a comfortable and safe work environment.
A BMS system collects the operating information required for intelligent building management.
It analyses the operation of the building systems by viewing all important temperatures, humidities and equipment status.
To:
Ensures energy savings
Improves building operations
Improves building operations allowing remote control/over-ride where necessary
Improves building management by means reporting and traceability
Improves building management by means reporting and traceability
Improves building management by having a faster reaction time to problems
Fundamentando-se no texto de Antônio Joaquim Severino, "Diretrizes para a leitura, análise e interpretação de textos", este material ajudará na compreensão e na realização, passo a passo, de uma análise interpretativa.
The main purpose of HVAC is to provide the people working inside the building with “CONDITIONED AIR” so that they will have a comfortable and safe work environment.
A BMS system collects the operating information required for intelligent building management.
It analyses the operation of the building systems by viewing all important temperatures, humidities and equipment status.
To:
Ensures energy savings
Improves building operations
Improves building operations allowing remote control/over-ride where necessary
Improves building management by means reporting and traceability
Improves building management by means reporting and traceability
Improves building management by having a faster reaction time to problems
This is a presentation regarding the introduction to the heating and cooling system technology called variable refrigerant flow systems. (non-commercial)
Marco Fusca, Sales & Marketing Refrigeration Application Specialist at ATMO Virtual Trade Show 2021. CAREL has a complete range of high efficiency solutions for propane retail applications. CAREL is ready for 500 g with an extended range of PED cat 1 BLDC compressors. A special package has been specifically developed for 150 g air-cooled applications. The common technology is Heos: continuous modulation delivered to water-cooled or plug-in air-cooled applications, with the goal to maximise system efficiency and reliability.
Know more: natref.carel.com
Siemens Terminal Box Controller (APOGEE Automation System )CONTROLS & SYSTEMS
In This PPT we are discussed about complete details of that product (Use,Operation, Technical details, Dimensions, Wiring, and etc..)
Please Support us and Follow our other Sites
https://www.instagram.com/controlsandsystems.offical
https://twitter.com/ControlsSystems
https://automationtechplc2.blogspot.com
https://humidificationcontrol.blogspot.com
https://controlsandsystems.business.site
www.controls.systemsdm@gmail.com
If you enjoyed this article, share it with your friends and colleagues
Building Management System-CPD - Part 1.pdfSilva104866
Why BAS ( BMS)…?
• Early days buildings were very simple with few facilities and services
• With time many services were introduced & crowded
• Now-a-days buildings are very complex with many services and higher
occupancy ( high consumptions of energy)
• Central Monitoring and controlling needed
This file is an introduction to VRV/VRF systems which are considered to be a DX or Centralized HVAC systems. VRF technology is on a wide spread nowadays and the market share is being expanded from being a niche market in Japan to a worldwide market including all continents.
In this thesis we have proposed an HVAC system, which we have carefully selected and designed for
an IT company, based on the blueprint which was provided. Our approach was to calculate the Heat Load of the
whole floor which was dedicated for the IT company. We tried to closely observe every aspect of the floor or the
company which can have an impact on our heat load calculation. The floor level, windows, number of rooms,
partitions, the specific work has to be done in that compartment, the level of radiation, electronics, gadgets,
sunlight entering from the windows, the time and duration of the outside heat and many more important factors
we took into consideration. Based on our calculation we had to provide the best efficient system which can fulfill
the needs and can assure the better Indoor Air Quality (IAQ) and human comfort. The system which we selected
for this particular IT company was VAV. Variable air volume (VAV) is a type of heating, ventilating, and airconditioning (HVAC) system, this VAV systems vary the airflow at a constant temperature.
Ls catalog thiet bi tu dong master p 5000-eDien Ha The
Catalog LS, Catalog,
Catalog Thiết Bị Điện LS, Catalog Thiết Bị Điện,
Catalog Biến Tần LS, Catalog Biến Tần,
Catalog Inverter LS, Catalog Inveter,
http://dienhathe.com,
Chi tiết các sản phẩm khác của LS tại https://dienhathe.com
Xem thêm các Catalog khác của LS tại https://dienhathe.info
Để nhận báo giá sản phẩm LS vui lòng gọi: 0907.764.966
This is a presentation regarding the introduction to the heating and cooling system technology called variable refrigerant flow systems. (non-commercial)
Marco Fusca, Sales & Marketing Refrigeration Application Specialist at ATMO Virtual Trade Show 2021. CAREL has a complete range of high efficiency solutions for propane retail applications. CAREL is ready for 500 g with an extended range of PED cat 1 BLDC compressors. A special package has been specifically developed for 150 g air-cooled applications. The common technology is Heos: continuous modulation delivered to water-cooled or plug-in air-cooled applications, with the goal to maximise system efficiency and reliability.
Know more: natref.carel.com
Siemens Terminal Box Controller (APOGEE Automation System )CONTROLS & SYSTEMS
In This PPT we are discussed about complete details of that product (Use,Operation, Technical details, Dimensions, Wiring, and etc..)
Please Support us and Follow our other Sites
https://www.instagram.com/controlsandsystems.offical
https://twitter.com/ControlsSystems
https://automationtechplc2.blogspot.com
https://humidificationcontrol.blogspot.com
https://controlsandsystems.business.site
www.controls.systemsdm@gmail.com
If you enjoyed this article, share it with your friends and colleagues
Building Management System-CPD - Part 1.pdfSilva104866
Why BAS ( BMS)…?
• Early days buildings were very simple with few facilities and services
• With time many services were introduced & crowded
• Now-a-days buildings are very complex with many services and higher
occupancy ( high consumptions of energy)
• Central Monitoring and controlling needed
This file is an introduction to VRV/VRF systems which are considered to be a DX or Centralized HVAC systems. VRF technology is on a wide spread nowadays and the market share is being expanded from being a niche market in Japan to a worldwide market including all continents.
In this thesis we have proposed an HVAC system, which we have carefully selected and designed for
an IT company, based on the blueprint which was provided. Our approach was to calculate the Heat Load of the
whole floor which was dedicated for the IT company. We tried to closely observe every aspect of the floor or the
company which can have an impact on our heat load calculation. The floor level, windows, number of rooms,
partitions, the specific work has to be done in that compartment, the level of radiation, electronics, gadgets,
sunlight entering from the windows, the time and duration of the outside heat and many more important factors
we took into consideration. Based on our calculation we had to provide the best efficient system which can fulfill
the needs and can assure the better Indoor Air Quality (IAQ) and human comfort. The system which we selected
for this particular IT company was VAV. Variable air volume (VAV) is a type of heating, ventilating, and airconditioning (HVAC) system, this VAV systems vary the airflow at a constant temperature.
Ls catalog thiet bi tu dong master p 5000-eDien Ha The
Catalog LS, Catalog,
Catalog Thiết Bị Điện LS, Catalog Thiết Bị Điện,
Catalog Biến Tần LS, Catalog Biến Tần,
Catalog Inverter LS, Catalog Inveter,
http://dienhathe.com,
Chi tiết các sản phẩm khác của LS tại https://dienhathe.com
Xem thêm các Catalog khác của LS tại https://dienhathe.info
Để nhận báo giá sản phẩm LS vui lòng gọi: 0907.764.966
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
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We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
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- How to streamline operations with automated policy checks on container images
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Do you want to learn how to model and simulate an electrical network from scratch in under an hour?
Then welcome to this PowSyBl workshop, hosted by Rte, the French Transmission System Operator (TSO)!
During the webinar, you will discover the PowSyBl ecosystem as well as handle and study an electrical network through an interactive Python notebook.
PowSyBl is an open source project hosted by LF Energy, which offers a comprehensive set of features for electrical grid modelling and simulation. Among other advanced features, PowSyBl provides:
- A fully editable and extendable library for grid component modelling;
- Visualization tools to display your network;
- Grid simulation tools, such as power flows, security analyses (with or without remedial actions) and sensitivity analyses;
The framework is mostly written in Java, with a Python binding so that Python developers can access PowSyBl functionalities as well.
What you will learn during the webinar:
- For beginners: discover PowSyBl's functionalities through a quick general presentation and the notebook, without needing any expert coding skills;
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Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
SAP Sapphire 2024 - ASUG301 building better apps with SAP Fiori.pdfPeter Spielvogel
Building better applications for business users with SAP Fiori.
• What is SAP Fiori and why it matters to you
• How a better user experience drives measurable business benefits
• How to get started with SAP Fiori today
• How SAP Fiori elements accelerates application development
• How SAP Build Code includes SAP Fiori tools and other generative artificial intelligence capabilities
• How SAP Fiori paves the way for using AI in SAP apps
Elevating Tactical DDD Patterns Through Object CalisthenicsDorra BARTAGUIZ
After immersing yourself in the blue book and its red counterpart, attending DDD-focused conferences, and applying tactical patterns, you're left with a crucial question: How do I ensure my design is effective? Tactical patterns within Domain-Driven Design (DDD) serve as guiding principles for creating clear and manageable domain models. However, achieving success with these patterns requires additional guidance. Interestingly, we've observed that a set of constraints initially designed for training purposes remarkably aligns with effective pattern implementation, offering a more ‘mechanical’ approach. Let's explore together how Object Calisthenics can elevate the design of your tactical DDD patterns, offering concrete help for those venturing into DDD for the first time!
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
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Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
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Join Maher Hanafi, VP of Engineering at Betterworks, in this new session where he'll share a practical framework to transform Gen AI prototypes into impactful products! He'll delve into the complexities of data collection and management, model selection and optimization, and ensuring security, scalability, and responsible use.
GenAISummit 2024 May 28 Sri Ambati Keynote: AGI Belongs to The Community in O...
Verasys technical introduction
1.
2. Plug and Play control systems
Bundled offering, factory configured
Preprogrammed and ready for
field configuration
Self-commissioning field devices
Equipment (rooftops, VAV, fan
coils, zone dampers, etc.)
Controls (rooftop, VAV, fan coils,
zone dampers, lighting, refrigeration, etc.)
Accessories
Factory technical support
and on-time delivery
VerasysTM Activates a Building
A
COMPLETE
HVACR
SYSTEM
3. Future of HVACR Light Commercial to Mid-Market
Factors Are Driving Growth of the Light to Mid-Market HVACR Systems
Electronics Electronics are getting more powerful and less expensive
Controls More controls are being mounted on equipment at point of manufacture
Mobile Devices Smart and mobile devices are becoming a norm for daily problem solving
Remote Monitoring Remote monitoring as added service
4. Light Commercial / Mid-Market HVAC
The Light Commercial Opportunity
Source: Johnson Controls Marketing Analysis
10,000 to 100,000 sq ft
Office Building
Retail Doc-in-a-Box K-12
Big Box Store Restaurants Warehouses
60% 40%
5. The Future of HVACR Light Commercial to Mid-Market
Factory-Installed Controls Are Just the Start…
Communication now almost standard on new equipment
Control systems in this market must be simple and easy to
install, set up, and commission
System can be designed so that the average contractor can
install, set up, and commission the system, with minimal vendor
involvement
Mechanical contractors continue to gain experience and
confidence selling, installing, commissioning these systems
6. Future of HVACR Light Commercial to Mid-Market
Controllers Have System Intelligence Embedded in the Design and Are Configured at the Factory
Intelligent default values for control parameters are preconfigured
at the factory
Only simple configuration settings need to be set
No field programming needed
No software tools required
No control vendor installation labor required
Embedded fault detection diagnostics to assist and solve mechanical
and controls issues
Remote connectivity and notification anytime and anywhere
7. What is VerasysTM? Features and Options
Simple interlocks (e.g., boiler enable, lighting
control based on photocell)
• No programming, configurable through user interface
Cloud Connectivity (optional)
• Dashboard through API (future)
Integration
• Third-party package equipment
• VRF (future)
• Refrigeration (future)
• Protocol translator (future)
• Scalable to Facility Explorer or any third-party
BACnet system
Static Equipment Graphic
• Graphic concept of building, floor, and spaces (future)
8.
9. Three Types of Systems Verasys Supports:
Non-zoned HVAC systems
Commonly Known as Constant Volume (CV) Systems
Simplest and Least Expensive
Zoned Constant Volume Damper Only Systems
Commonly Called Changeover Bypass (COBP) or Variable Volume
Terminal (VVT)
A Compromise Between CV and VAV
Zoned Variable Volume Systems With Reheat
Commonly Known as Variable Air Volume (VAV)
Highest Level Of Occupant Comfort
Highest Cost of the Three Systems
10. VerasysTM Architecture
Single-Zone
Application
Multi-Zone
Application
Up to 32
VAV Boxes
VERASYSTM
Zone Coordinator
(Variable Air Volume)
TEC3000
Smart EquipmentTM
Simplicity-SE
Smart EquipmentTM
VERASYSTM
Smart
Building
Hub
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
Up to
32 Zone
Dampers/
VAV Boxes
VERASYSTM
Zone Coordinator
(Changeover Bypass)
VERASYSTM
I/O Module
Up to 100
Devices
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Simple Interlocks
Fire, Lighting,
and Energy
VERASYSTM
Smart
Building
Hub
TEC3000
Smart EquipmentTM
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Up to 100
Devices
VERASYSTM
I/O Module
Simplicity-SE
Smart EquipmentTM
Simple Interlocks
Fire, Lighting,
and Energy
PEAK
3rd Party OEM
Zone Bus
System Bus
11. Smart Building Hub
The Smart Building Hub is the “head”
of the system bus
Consolidates, broadcasts and stores
scheduling for the networked
Verasys controllers and units with
SSE controls
Consolidates naming for the
networked Verasys controllers and
units with SSE controls
Provides the “logic statement” for
control of IOM controller binary
outputs
12. Smart Building Hub is the KEY to the Verasys System
Provides the access point for the
networked Verasys controllers (and
units with York Simplicity controls)
Wi-Fi “hotspot” connection to
phone/tablet/computer
Optional Ethernet connection to
phone/tablet/computer
Local Area network
Remote internet access
Access is through the HTML 5-enabled
browser of the phone/tablet/computer
No special software is needed
13. Smart Building Hub
Hardwired connection for the SBH is
allows for the following:
Alarm messages via email
Alarm messages via Text
external connections to the system for
remote operations
Supports fixed IP addressing or
DHCP
14. Smart Building Hub
Kit Contents
Smart Building Hub
Mounting cradle
Allows surface or DIN rail mounting
indoors
120 VAC to 15 VDC power adapter
Required to power the Smart
Building Hub
RJ-12 (6-pin phone jack) to RS-485
(3+1 screw terminal) adapter
Smart Building Hub connection to
the system bus
RJ12 coiled cable included
Used for Mobile HUB operation
No messaging, alarms, IP
connection
15. Three Types of Systems Verasys Supports:
Non-zoned HVAC systems
Commonly Known as Constant Volume (CV) Systems
Simplest and Least Expensive
Zoned Constant Volume Damper Only Systems
Commonly Called Changeover Bypass (COBP) or Variable Volume
Terminal (VVT)
A Compromise Between CV and VAV
Zoned Variable Volume Systems With Reheat
Commonly Known as Variable Air Volume (VAV)
Highest Level Of Occupant Comfort
Highest Cost of the Three Systems
16. Single Zone System/Constant Volume System
Single-Zone
Application VERASYSTM
Smart
Building
Hub
TEC3000
Smart EquipmentTM
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Up to 100
Devices
VERASYSTM
I/O Module
Simplicity-SE
Smart EquipmentTM
PEAK
3rd Party OEM
18. Three Types of Systems Verasys Supports:
Non-zoned HVAC systems
Commonly Known as Constant Volume (CV) Systems
Simplest and Least Expensive
Zoned Constant Volume Damper Systems
Commonly Called Changeover Bypass (COBP) or Variable Volume
Terminal (VVT)
A Compromise Between CV and VAV
Zoned Variable Volume Systems With Reheat
Commonly Known as Variable Air Volume (VAV)
Highest Level Of Occupant Comfort
Highest Cost of the Three Systems
19. Single-Zone
Application
Multi-Zone Systems VAV and VVT Systems
Multi-Zone
Simplicity -SE
Up to 32
VAV Boxes
VERASYSTM
Zone Coordinator
(Variable Air Volume)
TEC3000
Smart EquipmentTM
Simplicity-SE
Smart EquipmentTM
VERASYSTM
Smart
Building
Hub
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
Up to
32 Zone
Dampers/
VAV Boxes
VERASYSTM
Zone Coordinator
(Changeover Bypass)
VERASYSTM
I/O Module
Up to 100
Devices
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Simple Interlocks
Fire, Lighting,
and Energy
Multi-Zone
Retrofit
or
3rd Party
Up to 32
VAV Boxes
VERASYSTM
Zone Coordinator
(Variable Air Volume)
TEC3000
Smart EquipmentTM
VERASYSTM
Smart
Building
Hub
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
Up to
32 Zone
Dampers/
VAV Boxes
VERASYSTM
Zone Coordinator
(Changeover Bypass)
VERASYSTM
I/O Module
Up to 100
Devices
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Simple Interlocks
Fire, Lighting,
and Energy
3rd Party
AHU
3rd Party
RTU
20. COBP System
Constant volume unit serving
multiple zoned areas
Zone dampers regulate zone airflow
Bypass damper maintains supply
plenum pressure
21. COBP System Bypass
Damper Operation
Supply plenum pressure falls as
zone dampers open
Bypass damper closes
22. COBP System Bypass
Damper Operation
Zone dampers modulate to any
position needed for system operation
Bypass damper modulates to
maintain supply plenum pressure
23. COBP System Bypass
Damper Operation
Supply plenum pressure rises as
zone dampers close
Bypass damper opens
24. COBP System Zone
Operation
Individual zone damper position is
determined by
Supply air temperature
Individual zone temperature setpoint
Individual zone temperature
25. COBP System Unit Operation
When supply air temperature is warm
Dampers of zones without heating
demand are positioned to minimum flow
Dampers of zones with heating demand
modulate open
26. COBP System Zone
Operation
When supply air temperature is cool
Dampers of zones without cooling
demand are positioned to minimum flow
Dampers of zones with cooling
demand modulate open
28. COBP System Zone Voting
Will the example 2 votes for heat / 1
vote for cool always operate the unit
in heat mode?
It depends on the voting rules of the
COBP controls
Factors of vote weighting, operation
at that point in time, timers for mode
changeover, etc.
29. COBP System Unit Operation
Heat/cool staging is determined by
Supply air temperature
Supply air temperature setpoints
Unit heat or cool mode operation is
determined by
Zone voting
Individual zone temperature
Individual zone setpoints
Changeover timer
30. Three Types of Systems Verasys Supports:
Non-zoned HVAC systems
Commonly Known as Constant Volume (CV) Systems
Simplest and Least Expensive
Zoned Constant Volume Damper Only Systems
Commonly Called Changeover Bypass (COBP) or Variable Volume
Terminal (VVT)
A Compromise Between CV and VAV
Zoned Variable Volume Systems With Reheat
Commonly Known as Variable Air Volume (VAV)
Highest Level Of Occupant Comfort
Highest Cost of the Three Systems
31. VAV System
Variable air volume unit serving
multiple zoned areas
VAV boxes regulate zone airflow
32. VAV System Unit Blower
Operation
Supply plenum pressure rises as
VAV box dampers close
Blower speed decreases
34. VAV System Unit Operation
Cooling-only operation in occupied
periods, staging is based on
Supply air temperature
Supply air temperature setpoint
Utilization of “VAV Occupied Heating”
mode depends on site/controls
Available with Verasys
35. VAV System Unit Operation
In unoccupied periods, unit operation
depends on enabled modes
Morning warm up
Unoccupied heating
Unoccupied cooling
The unit is idle in unoccupied periods
if all the above modes are disabled
36. VerasysTM Architecture
Single-Zone
Application
Multi-Zone
Application
Up to 32
VAV Boxes
VERASYSTM
Zone Coordinator
(Variable Air Volume)
TEC3000
Smart EquipmentTM
Simplicity-SE
Smart EquipmentTM
VERASYSTM
Smart
Building
Hub
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
Up to
32 Zone
Dampers/
VAV Boxes
VERASYSTM
Zone Coordinator
(Changeover Bypass)
VERASYSTM
I/O Module
Up to 100
Devices
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Simple Interlocks
Fire, Lighting,
and Energy
VERASYSTM
Smart
Building
Hub
TEC3000
Smart EquipmentTM
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Up to 100
Devices
VERASYSTM
I/O Module
Simplicity-SE
Smart EquipmentTM
Simple Interlocks
Fire, Lighting,
and Energy
Verasys I/O
Module
37. System Bus Controllers
IOM Controller
What type of items will be connect to a Verasys IOM?
Examples
HVAC sequences not in SSE or Verasys
Heating equipment controlled via interlocks
Boilers, chillers, and pumps requiring only interlock inputs
HVAC-related items
Stand-alone exhaust fans
Stand-alone ventilators
Pumps
Non-HVAC items
Lighting
Snow melt
38. System Bus Controllers
IOM Controller
Provides 4 binary outputs for switching of
Pilot-duty dry contact
On/Off of each binary output is determined by
the associated “logic statement”
Use of configurable analog and binary inputs
is optional
May be used in the “logic statement”
Binary inputs may be used to initiate “global”
(system-wide) Verasys commands
Verasys provides
Setup of the IOM binary output “logic
statement”
Additional “points” for the IOM binary output
“logic statement”
Response to “global” (system-wide) commands
39. VerasysTM Architecture
Single-Zone
Application
Multi-Zone
Application
Up to 32
VAV Boxes
VERASYSTM
Zone Coordinator
(Variable Air Volume)
TEC3000
Smart EquipmentTM
Simplicity-SE
Smart EquipmentTM
VERASYSTM
Smart
Building
Hub
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
Up to
32 Zone
Dampers/
VAV Boxes
VERASYSTM
Zone Coordinator
(Changeover Bypass)
VERASYSTM
I/O Module
Up to 100
Devices
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Simple Interlocks
Fire, Lighting,
and Energy
VERASYSTM
Smart
Building
Hub
TEC3000
Smart EquipmentTM
Unit Heaters
FanCoil Units
Unit Ventilators
RTUs
BACnet MSTP Bus
Simplicity-SE
Smart EquipmentTM
Up to 100
Devices
VERASYSTM
I/O Module
Simplicity-SE
Smart EquipmentTM
Simple Interlocks
Fire, Lighting,
and Energy
PEAK
I/O Module
Zone
Coordinator
40. System Bus Controllers
Zone Coordinators
Located indoors, mounted to a hard surface or in the available pre-assembled
enclosure
Performs added supervisory functions needed for a zoning system
System bus address set by additive DIP switches
Address 7 and 21 examples below
128
64
32
16
8
4
2
1
ON OFF
128
64
32
16
8
4
2
1
ON OFF
41. System Bus Controllers
Changeover Bypass Zone Coordinator Connection Detail
SHLD
COM
ERASYS/
SHLD
COM
SHLD
COM
HOT
COM
24VAC
128
64
32
16
8
4
2
1
ON OFF
N
O
N
O
N
O
BASEOL
EQEOL
CSEOL
Other Verasys™ system bus
controllers / BACnet devices
To bypass controller, ZEC
zone controllers & SSE UCB
To 24 VAC, Class 2 power
Zone Coordinator
COBP Configuration
the zone coordinator is the
“head” of the zone bus
43. Changeover Bypass
Zone Bus Layout
SHLD
COM
15
VDC
ERASYS/
SHLD
COM
SHLD
COM
HOT
COM
24VAC
128
64
32
16
8
4
2
1
ON OFF
N
O
N
O
N
O
BASEOL
EQEOL
CSEOL
Zone Coordinator
COBP Configuration
Other Verasys™ system bus
controllers / BACnet devices
HOT
COM
OUT1
OCOM1
OUT2
OCOM2
OUT3
OCOM3
OUT4
OCOM4
OUT5
OCOM5
POWER
COM
+15V
+15COM
IN1
ICOM1
IN2
ICOM2
IN3
ICOM3
SHD
COM
N
O
SA BUS
EOL
FC BUS ANALOG
BINARY BINARY24V~
BYP200
ADDRESS
ZEC
5
128
64
32
16
8
4
2
1
ON
Other ZEC
zone controllers
Static
Pressure
Sensor
(+)HI
(−)LO
Tubing to
Supply Plenum Pressure
Tubing to
Space Pressure
HOT
COM
OUT1
OCOM1
OUT2
OCOM2
OUT3
OCOM3
OUT4
OCOM4
OUT5
OCOM5
POWER
COM
+15V
+15COM
IN1
ICOM1
IN2
ICOM2
IN3
ICOM3
SHD
COM
N
O
SA BUS
EOL
FC BUS ANALOG
BINARY BINARY24V~
ZEC310
ADDRESS
ZEC
4
128
64
32
16
8
4
2
1
ON
Other ZEC
zone controllers
HOT
COM
OUT1
OCOM1
OUT2
OCOM2
OUT3
OCOM3
OUT4
OCOM4
OUT5
OCOM5
POWER
COM
+15V
+15COM
IN1
ICOM1
IN2
ICOM2
IN3
ICOM3
SHD
COM
N
O
SA BUS
EOL
FC BUS ANALOG
BINARY BINARY24V~
ZEC310
ADDRESS
ZEC
12
128
64
32
16
8
4
2
1
ON
O
N
SHLD
COM
FC –
FC +
N
O
SSE UCB
with
COM board
Zoned CV Unit
Other ZEC
zone controllers
This end of the drain wire
connected to cabinet ground
EOL switch ON for the controller
at this end of the zone bus
VEC100 takes
The place of
Simplicity SE
board on 3rd party
or retrofit units
44. Changeover Bypass Zone Bus Controllers
VEC100 Controllers
Used to incorporate units without SSE
controls to the changeover bypass system
Provides 24 VAC indoor blower, heating
staging and cooling staging commands to the
controlled unit
Configurable for up to 2-heat, 2-cool
Provides optional use 0-10 VDC economizer
actuator control output
Rooftop Controller Type selection of “COBP”
sets VEC100 controller & zone coordinator
configuration
Zone bus addressing done through the
controller display menu
45. t°
TempOcc
4
3
2
1
5
6
SSO
Sensor
HOT
COM
OUT1
OCOM1
OUT2
OCOM2
OUT3
OCOM3
OUT4
OCOM4
OUT5
OCOM5
POWER
COM
+15V
+15COM
IN1
ICOM1
IN2
ICOM2
IN3
ICOM3
SHD
COM
N
O
SA BUS
EOL
FC BUS ANALOG
BINARY BINARY24V~
ZEC310
ADDRESS
ZEC
12128
64
32
16
8
4
2
1
ON
CO₂
stand-alone or for multipoint CO₂ sampling
SA
COM
–+ SA
PWR
SA
COM
–+ SA
PWR
SA
COM
–+ SA
PWR
– +SA
PWR
COMHOT COM
24 VAC (Class 2) or
18 to 30 VDC (SELV)
SA
COM
–+ SA
PWR
HOT COM
24 VAC (Class 2) or
18 to 30 VDC (SELV)
Space Temperature with Features
stand-alone or “base” for temp averaging
CO₂
stand-alone or for multipoint CO₂ sampling
Space Temperature w/o Features
stand-alone or for temp averaging
Flush-mount Space Temperature
stand-alone or for temp averaging
any daisy-chained SA BUS wiring sequence of up to 5 NetSensors can be used
To 24 VAC,
Class 2 power
Motion sensor contact
To zone coordinator, other ZEC zone
controllers, (bypass controller) & SSE UCB
To zone coordinator, other ZEC zone
controllers, (bypass controller) & SSE UCB
1KΩ Nickel zone sensor
0-10 VDC for control of a
slave zone damper actuator
+
−
Changeover Bypass Zone Bus Controllers
ZEC310 COBP Damper Controller Connection Detail
46. Changeover Bypass Zone Bus Controllers
Bypass Damper Controller Connection Detail
HOT
COM
OUT1
OCOM1
OUT2
OCOM2
OUT3
OCOM3
OUT4
OCOM4
OUT5
OCOM5
POWER
COM
+15V
+15COM
IN1
ICOM1
IN2
ICOM2
IN3
ICOM3
SHD
COM
N
O
SA BUS
EOL
FC BUS ANALOG
BINARY BINARY24V~
BYP200
ADDRESS
ZEC
5
128
64
32
16
8
4
2
1
ON
Static
Pressure
Sensor
(+)HI
(−)LO
Tubing to
Supply Plenum Pressure
Tubing to
Space Pressure
To zone coordinator, ZEC
zone controllers & SSE UCB
To 24 VAC, Class 2 power
0-10 VDC for control of a
slave bypass damper actuator
+
−
47. Variable Air Volume
Zone Bus Layout
SHLD
COM
15
VDC
ERASYS/
SHLD
COM
SHLD
COM
HOT
COM
24VAC
128
64
32
16
8
4
2
1
ON OFF
N
O
N
O
N
O
BASEOL
EQEOL
CSEOL
Other Verasys™ system bus
controllers / BACnet devices
Other ZEC410
zone controllers
HOT
COM
OUT1
OCOM1
OUT2
OCOM2
OUT3
OCOM3
OUT4
OCOM4
OUT5
OCOM5
POWER
COM
+15V
+15COM
IN1
ICOM1
IN2
ICOM2
IN3
ICOM3
SHD
COM
N
O
SA BUS
EOL
FC BUS ANALOG
BINARY BINARY24V~
ZEC410
ADDRESS
ZEC
13
128
64
32
16
8
4
2
1
ON
Other ZEC410
zone controllers
HOT
COM
OUT1
OCOM1
OUT2
OCOM2
OUT3
OCOM3
OUT4
OCOM4
OUT5
OCOM5
POWER
COM
+15V
+15COM
IN1
ICOM1
IN2
ICOM2
IN3
ICOM3
SHD
COM
N
O
SA BUS
EOL
FC BUS ANALOG
BINARY BINARY24V~
ZEC410
ADDRESS
ZEC
18
128
64
32
16
8
4
2
1
ON
O
N
SHLD
COM
FC –
FC +
N
O
SSE UCB
with
COM board
VAV Unit
Other ZEC410
zone controllers
This end of the drain wire
connected to cabinet ground
EOL switch ON for the controller
at this end of the zone bus
Tubing to
VAV box airflow
measurment
Tubing to
VAV box airflow
measurment
HOT
COM
OUT1
OCOM1
OUT2
OCOM2
OUT3
OCOM3
OUT4
OCOM4
OUT5
OCOM5
POWER
COM
+15V
+15COM
IN1
ICOM1
IN2
ICOM2
IN3
ICOM3
SHD
COM
N
O
SA BUS
EOL
FC BUS ANALOG
BINARY BINARY24V~
ZEC410
ADDRESS
ZEC
20
128
64
32
16
8
4
2
1
ON
Tubing to
VAV box airflow
measurment
Zone Coordinator
VAV Configuration
VEC100 takes
The place of
Simplicity SE
board on 3rd party
or retrofit units
49. Smart Building Hub
Initial Browser Login
Open the Wi-Fi connected device’s browser and enter “smartbuildinghub.com”
in the address bar
Once the Smart Building Hub login page opens
The User: Admin and case-sensitive Password: SBH-____ defaults listed in the
Quick Start Guide are entered in the dialog boxes
SBH-____
Admin
50. Smart Building Hub
Device List Page
Shown immediately after
browser login
Users with Admin “role” can
change items in the
Settings tab
Users with Tech “role” can
only view items in the
Settings tab
51. Smart Building Hub
Device List Page
Shown immediately after
browser login
Best practice: use the “Edit
Device Details” key to
complete controller naming
Helps with Schedule & IOM
Interlocks setup
52. System Bus Controllers
Zone Coordinators
Zone coordinator COBP or VAV configuration set by
Zoned unit with SSE controls Rooftop Controller Type selection
VEC100 controller Rooftop Controller Type selection
Verasys provides
Access to zoning system control parameters
Zoning system scheduling – optional
Remote alarm notification – optional
53. Smart Building Hub
Device List Page
Controller parameter
navigation starts with click
of white bar or from
“Choose a device…” pull-
down selection
System bus address –
zone bus address sort
order
Throughout controller
parameter navigation,
menus are populated based
on presence & selections
54.
55. Controller Parameter Navigation
Zone Coordinator
Coordinator Home Page tab
Zoned system summary
Read-only parameters
Black text with gray border
56. Controller Parameter Navigation
Zone Coordinator
Unit tab
Settings & status for the
overall zoned system
Setting parameters
Blue text with blue border
58. Controller Parameter Navigation
Zone Coordinator
Details tab
Settings for zoned system
operation
Set Schedule tab
Overwrites the Verasys
scheduling
59.
60. Smart Building Hub
Device List Page
Controller parameter
navigation starts with click
of white bar or from
“Choose a device…” pull-
down selection
System bus address –
zone bus address sort
order
Throughout controller
parameter navigation,
menus are populated based
on presence & selections
63. Controller Parameter Navigation
Zone Controller
Commissioning tab
Settings for zone operation
Read-only parameter value
updating
Briefly shows light blue