មគ្គុទ្ទេសក៍ដំឡើងប្រព័ន្ធត្រួតពិនិត្យលំហូរទឹកឆ្លាតវៃ ENWARE

SFM LAN Interfaces: Supply, configuration, installation and testing
SFM TFP HUBs: Supply, addressing, installation and testing
TMV & Fixture Sensors: Supply, installation and testing
Smart Flow Backbone Testing: Confirming that all devices are connected on the RS485 network

Cabling Contractor Scope

RS485 Backbone cables: Supply of CAT6 cable, installation, termination and testing

Hub to TMV & Fixture Cables: Supply of CAT6 cable and RJ45 plugs, installation, termination, testing and labeling.
Conduit: Supply and installation of conduit, we recommend 20mm from the TMV /Fixture to the ceiling and 40mm from the hub cabinet to the ceiling.

Testing: Supply of test results for all cabling
Markup Plans: Markup of any changes to initial system plans

Plumber Scope

Hub Cabinets: Installation of hub cabinets in the walls including lids at a preferred height of 1.5m

TMV & Fixture Schedule: A spreadsheet linking the hub ports to the TMVs and fixtures and providing asset location information and information on the rooms serviced
Communication of changes: regarding added or deleted TMVs or fixtures during the build

Builder Scope

Coordination: Co-ordination of services
BMS Integration: Co-ordination of BMS integration requirements
IP addresses: Provision of IP address allocations and rack allocations
Room Naming: Provision of Hospital wayfinding room naming information
Training: Co-ordination of client training

Contractor Responsibility Assignments

ស្ថាបត្យកម្មប្រព័ន្ធ

The Smart Flow System utilizes three cabling network components in the complete system architecture.

ទាំងនេះគឺ៖

Hospital IT Network – supplied by others
RS485 Backbone Network – connects Smart Flow field devices (HUBs) together back to the Comms Room
HUB Cabling – connects sensors at TMVs and Fixtures back to HUBs

The system design can be replicated without limit over multiple levels and buildings. Each level will contain its own RS485 Network cabled back to a LAN Interface on each Level. Enware will supply Plans showing all HUB locations, the backbone system design, and all connected endpoints for sensors, either TMVs or fixtures.

ចំណាំ៖ The RS485 Backbone Cable and hub to TMV / fixture cabling are not part of the structured cabling network. All cable should be installed by a qualified person.

Hospital IT Network

The Hospital IT Network is not part of this scope – to be done by others.
The Hospital IT Network is the Structured Cabling Network and stands separate from Smart Flow System Cabling. The Smart Flow system utilizes the Hospital IT Network to efficiently communicate across the whole Hospital site.

Essentially, each floor of each building will have either one or two RS485 Backbone Networks, which run back to the comms rooms on that level. The system at that point interfaces with the Hospital network via the Smart Flow LAN Interface.

The LAN Interfaces are to be installed in each comms room. Likewise, the Smart Flow server will be located somewhere on the Network and communicate to the LAN interfaces via the Hospital IT Network.
The LAN Interfaces and Server will be installed by Enware.

TMV Monitoring Plans

អតីតample below shows a typical plan that will be supplied to the contractor by Enware. This plan will show the suggested locations of HUB cabinets. As HUB cabinets installed in walls are considered an architectural item, final locations will need to be confirmed by others. Hubs should be installed in the walls in the corridors.

The backbone cable should be run in the route shown; any changes to backbone routing due to onsite practicalities shall be documented on the site plans and reported back to Enware.
The hub cable should be run to the hub and hub port shown on the plans, any changes to hub cabling due to onsite practicalities shall be documented on the site plans and reported back to Enware.

As can be seen on the plans, TMVs are labelled based on the hub number and port number in the format:

“TMV YYY-Z” eg “TMV 004-1”
- YYY is the hub number (address) starting at 001
- Z is the hub port (sensor port position) starting at 1

TMV & Fixture Monitoring Plans

អតីតample below shows a typical plan that will be supplied to the contractor by Enware. This plan will show the suggested locations of HUB cabinets. As HUB cabinets installed in walls are considered an architectural item, final locations will need to be confirmed by others. Hubs should be installed in the walls in the corridors.
The backbone cable should be run in the route shown; any changes to backbone routing due to onsite practicalities shall be documented on the site plans and reported back to Enware.
The hub cabling cable should be run to the hub and hub port shown on the plans, any changes to hub cabling due to onsite practicalities shall be documented on the site plans and reported back to Enware.

As can be seen on the plans, TMVs and fixtures are labelled based on the hub number at port number in the format:

“XXX YYY-Z” eg “BSN 001-3”
- XXX: the asset type eg:
  - TMV: Thermastatic Mixing Valve
  - BSN: Basin
  - SWR: Shower
- YYY is the hub number (address) starting at 001
- Z is the hub port (sensor port position) starting at 1

For assets that are virtually monitored the following convention is used:

“XXX YYY-ZV” eg “BSN 001-1V”
- XXX: the asset type eg:
  - BSN: Basin
  - SWR: Shower
- YYY is the hub number (address) starting at 001
- Z is the hub port (sensor port position) of the upstream TMV

RS485 Backbone Cabling

Backbone Cabling Details

Installed using CAT6 unshielded cable
0.5m service loop in the ceiling space above the hub in case additional cable is required.
Architecture is daisy-chained from hub cabinet to hub cabinet with termination to an SFM backbone dual connector.
The incoming and outgoing cable are terminated in the backbone connector.
One backbone connector is located in each hub cabinet.
Hub cabinets can fit either 1 Hub with up to 5 TMVs/fixtures or 2 hubs to monitor up to 10 TMVs / fixtures as indicated on initial Enware-supplied plans.
The backbone cable must be run so that the HUBs are installed in sequential order.
We strongly recommend the installation of 40mm conduit between the hub cabinet and the ceiling space.

DESC៖ SFM BACKBONE DUAL CONNECTOR SURFACE MOUNT
MFR៖ Enware
លេខកូដ៖ SFM-BB-SURFACE

ម្ជុល	ពណ៌	ការពិពណ៌នា
1	បៃតង/ស	Gnd supply voltage
2	បៃតង	វ៉ុលផ្គត់ផ្គង់ 24Vtage
3	ពណ៌ទឹកក្រូច/ស	Gnd supply voltage
4	ខៀវ	RS485 A Comms
5	ខៀវ/ស	RS485 B Comms
6	ពណ៌ទឹកក្រូច	Gnd supply voltage
7	ពណ៌ត្នោត/ស	វ៉ុលផ្គត់ផ្គង់ 24Vtage
8	ត្នោត	Gnd supply voltage

Backbone Cabinet Layout

Backbone Connector

The Backbone connector is designed to simplify the installation of the backbone by removing the need to double-punch the incoming and outgoing wires into the same RJ45 keystone connector, it also

The two sets of punch down connectors and the two RJ45 ports are linked inside the PCB so that a bridging wire between the 2 sides is no longer necessary.

The backbone connector pictured above will be included with every hub cabinet. The code is any are lost is SFM-BB-SURFACE.

Backbone Testing

Testing of the backbone is essential prior to hub installation.
When testing the backbone all smart flow hubs and the LAN interface will need to be disconnected from the backbone prior to testing.
Testing of all individual connections throughout the entire backbone run is required. End-to-end testing is not sufficient.

Backbone Labeling

The backbone cable should be labeled with the hub it is going (or LAN interface) to so that the cables can be easily traced.

Hub Cabling (Hub to TMV / Fixture)

Hub Cabling Details

All HUB to TMV or Fixture cables are as follows:

Cable – CAT6 Unshielded
0.5m service loop in the ceiling space above the hub and TMV / fixture encase additional cable is required.
Terminations – RJ45 plugs both ends
PIN output – T-568A
We recommend installation of 20mm conduit between the TMV and the ceiling space.

ម្ជុល	ពណ៌	ការពិពណ៌នា
1	បៃតង/ស	Gnd supply voltage
2	បៃតង	វ៉ុលផ្គត់ផ្គង់ 24Vtage
3	ពណ៌ទឹកក្រូច/ស	Temperature sensor for cold water
4	ខៀវ	Flow sensor for cold water
5	ខៀវ/ស	Flow sensor for hot water
6	ពណ៌ទឹកក្រូច	Temperature sensor for hot water
7	ពណ៌ត្នោត/ស	Flow sensor for warm water
8	ត្នោត	Temperature sensor for warm water

Hub Cabling Cabinet Layout

Each hub can support up to 5 TMVs / fixtures on ports 1-5 and 2 pressure sensors on port 6.

Hub Cabling Testing
Testing of the hub cabling is also essential to deliver a functioning system. The SFM TFP hub pinout is below, but for testing purposes the cable can be treated as a standard RJ45 cable and tested as such using industry standard tools.

When testing the hub cabling all smart flow hubs and sensors will need to be disconnected as this will interfere with industry standard test tools.
A test report showing each cable has been tested should be provided to Enware at the completion of the hub cabling.

Hub Cabling Labeling

Each hub cable should be labeled at both ends in the format of yyy-z where yyy is the hub number (001 to 999) and z is the hub port (1 to 5). The cables should be labeled so that the labels are visible when plugged into the hub.

1300 369 273 | info@enware.com.au

កាលបរិច្ឆេទឯកសារ៖ ៨៦៦-៤៤៧-២១៩៤

ឯកសារ/ធនធាន

ENWARE Smart Flow Water Monitoring System [pdf] ការណែនាំអំពីការដំឡើង
Smart Flow Water Monitoring System, Flow Water Monitoring System, Water Monitoring System, Monitoring System

ឯកសារយោង

សៀវភៅណែនាំអ្នកប្រើប្រាស់

ENWARE Smart Flow Water Monitoring System

Scope overview