Flume F1100 Flume Intelligent Water Monitoring System (Sensor) User Manual

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Document ID	3757797
Application ID	HjY1hsMaryDZ2ApJVRu6qg==
Document Description	User Manual
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	32.56kB (406967 bits)
Date Submitted	2018-02-21 00:00:00
Date Available	2018-02-22 00:00:00
Creation Date	2018-02-08 16:51:18
Producing Software	Acrobat Distiller 18.0 (Windows)
Document Lastmod	2018-02-08 16:51:18
Document Title	Microsoft Word - Operating description reviewed.docx
Document Creator	PScript5.dll Version 5.2.2
Document Author:	Alan

Flume Intelligent Water Monitoring System Operating Overview
Introduction
This document provides an operating overview of the Flume Intelligent Water Monitoring
System illustrated in
Figure 1. This system remotely monitors water usage in real time by utilizing a Flume Sensor
attached to a water meter. The Sensor monitors and detects water flowing through the meter by
analyzing the water meter’s magnetic coupling and processes the data to correlate it to real time
flow rates. Data is transmitted through a Flume Bridge unit to the customer’s Wireless Access
Point (WAP) to remote Cloud Server storage. Consumers may access the data with the Flume
Application Software installed on electronics such as smart phones and tablets.
Cloud Server
Customer
WAP
Flume Sensor
Software
Application
Flume Bridge
Figure 1. System Overview.
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Flume Intelligent Water Monitoring System Operating Overview
Sensor Operation
The battery powered Flume Sensor collects water data using a magnetometer sensor illustrated
in Figure 2. The data collected by the uController is processed (8MHz operation), analyzed and
formed into messages, stored into flash memory for transmission. Transmission is
accomplished using the RMF69HCW 915MHz radio module. The RFM69HCW also receives
configuration and firmware updates.
The RFM69HCW radio module transmits through a low pass harmonic filter (Johanson
Technology 0915LP15B026) and a Patch Antenna located in the Sensor enclosure. The
antenna is (Ethertronics P522309) located vertically relative to the ground plane resulting in an
approximate peak gain of 2.4dBi. Maximum transmit power is 17 dbm. The PCB antenna
connection uses coplaner waveguide techniques on a double sided 0.093” thick PCB. Both the
antenna and filter utilize the same ground as the uController and batteries.
Figure 2. Flume Sensor Block Diagram.
The Flume Sensor, approved for operation at the system level (FCC ID: 2AOX8-F1100),
communicates in a bidirectional manner with the Flume Bridge.
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Flume Intelligent Water Monitoring System Operating Overview
Bridge Operation
The USB wall wart powers the Flume Bridge to communicate with the Flume Sensor and
customer WAP as illustrated in Figure 3. Operation is controlled by the ESP8266
uController/WiFi module operating at 160MHz. This module is precertified by the FCC (FCC ID:
2AHMR-ESP12) and includes on module 2.4GHz WiFi capabilities and PCB antenna. WiFi b/g/n
operations are supported but not HT40 in 802.11n operation.
Communications with the Sensor are accomplished by the RFM69HCW 915MHz radio module.
The RFM69HCW 915 MHz radio module transmits through a low pass harmonic filter (Johanson
Technology 0915LP15B026) and a whip antenna protruding from the Sensor enclosure. The
antenna is (Anaren 66089-0906) located horizontal to the ground plane resulting in an
approximate peak gain of 3dBi. Maximum transmit power is 17 dbm. The PCB antenna
connection uses coplaner waveguide techniques on a double sided 0.062” thick PCB. Both the
antenna and filter utilize the same ground as the ESP8266 and the USB wall wart.
Both WiFi and 915MHz transmissions may occur simultaneously in a co-location manner.
The power from the USB wall wart is protected from transients using an 8V TVS (SMBJ8.0A).
Any shorts or internal faults are protected by a 1.5A resettable PTC (1206L150). Both positive
and negative air discharge transient testing was performed on the antenna and USB power
connection at 15KV per EN 6100D-4-2 with no adverse permanent effects beyond a system
reset occurring by the reset monitor (BD48K45).
On board 3.3V voltage regulation is performed by the BD33GC0WEF regulator that is disabled if
the external USB power falls below 4.5V.
Figure 3. Flume Bridge Block Diagram.
The Flume Bridge, approved for operation at the system level (FCC ID: 2AOX8-F1200),
communicates in a bidirectional manner with the customer WAP and Flume Sensor for message
operation.
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Flume Intelligent Water Monitoring System Operating Overview
Message Operation
Messages from/to the Sensor are transmitted using 915MHz with the Bridge which also
communicates with the customer WiFi network using 2.4GHz. An overview of the Sensor and
Bridge message communication appears below.
Sensor/Bridge Communication
A frequency hopping method is utilized across 50 channels where the channel dwell time is
150ms. For example, in a 20 second transmission there are 20/150ms=133.33 channels. Given
the sequence repeats every 50 channels each channel will on average be occupied by
1333.33/50*150ms=400ms.
Bridge/WAP Communication
Industry standard 2.4MHz WiFi communications are utilized between the Flume Bridge and
customer supplied WAP. The ubiquitous 802.11 b/g/n operation is supported with WPA/WPA2
and WEP/TKIP/AES in station mode.
Messages transmitted through the customer WiFi network are routed to the Flume Cloud
Storage where the messages are parsed, and data stored into a data base for further reporting
by the Flume Software Application.
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Flume Intelligent Water Monitoring System Operating Overview
Software Application
The Flume Software Application provides intelligent leak detection and water management for
the residential home. This application work in conjunction with the Flume Sensor and Flume
Bridge notifies of water leaks and provides water usage in near real-time.
Dashboard
Monitor, in near real-time, water usage by a house
and irrigation. Figure 4 illustrates a Dashboard
displaying Today’s water use against a daily
budget and water Status.
Budgets may be displayed for daily, monthly or
yearly time frames.
Drilling down provides more detail.
Figure 4. Application Dashboard.
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Flume Intelligent Water Monitoring System Operating Overview
Detailed Usage
Figure 5 illustrates detailed usages over
hourly, daily, weekly, monthly and yearly
resolutions.
Compare water usage to others that have similar
households. Set budgets to help control how much
water is used and receive notification when
approaching limits.
Figure 5. Detailed Usage and Comparison.
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Flume Intelligent Water Monitoring System Operating Overview
Notifications
See Figure 6 for example notifications.
Notifications provide waning of possible leak
detection and usage against a budget threshold.
Near real-time notifications are provided via text
messaging.
Figure 6. Notifications.
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Flume Intelligent Water Monitoring System Operating Overview
Installation Summary
The Flume Intelligent Water Monitoring System requires no special installer, installation
techniques or tools. The average home owner can install the solution in 10-15 minutes. A
summary of installation is covered below.
Pair the Devices
1. Install iOS or Android application from Flume
2. Crate a User Account
3. Scan QR codes from Bridge and Sensor
4. Pair the Bridge with the WAP
5. Pair the Bridge with the Sensor
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Flume Intelligent Water Monitoring System Operating Overview
Installation
6. Locate the water meter
7. Install the Sensor on the meter
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Flume Intelligent Water Monitoring System Operating Overview
8. Run water
9. Run orient command for the Sensor
Verify
10. Log-in to the Flume Application Software
11. Observe water usage
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