OneVue A120 Bedienungsanleitung
OneVue™ Sense Differential Pressure Sensor
Installation Guide
Product Models: A120
09/25/19
Copyright ©2019 Primex. All rights reserved.
Printed in the USA.
Information in this document is subject to change without notice. The software described in this document is furnished under a
license agreement or nondisclosure agreement. The software may be used or copied only in accordance with the terms of those
agreements. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means,
electronic, mechanical or otherwise, for any purpose, without the prior written permission of Primex.
OneVue is a trademark of Primex. All other trademarks are the property of their respective owners.
The Bluetooth® word mark and logos are registered trademarks owned by the Bluetooth SIG, Inc. and any use of such marks by
Primex, Inc. is under license.
Primex is the leading provider of solutions to automate and maintain facility compliance, increase efciencies, enhance safety and
reduce risk for enterprise organizations in the healthcare, education, manufacturing and government vertical markets. Primex delivers
platforms that utilize a facility’s existing network infrastructure to automate, monitor, document and report essential activities
performed by the facility management staff including time synchronization, and environmental, temperature and event monitoring.
Corporate Headquarters
965 Wells Street
Lake Geneva, WI 53147
Phone: 1-262-729-4853
Table of Contents
Differential Pressure Sensor specications .......................................................................................... 4
Differential Pressure Sensor components .................................................................................... 5
Differential Pressure Sensor LCD display ..................................................................................... 6
Differential Pressure Sensor service buttons ................................................................................ 7
Sensor LED indicators ............................................................................................................. 8
Sensor audio alert ................................................................................................................... 8
Sensor power input ................................................................................................................. 9
Manually initiate a sensor to check-in to OneVue ........................................................................... 9
About Differential Pressure Sensor door switch monitoring ........................................................... 10
Install Differential Pressure Sensor: Mounting kit for through the wall install ............................................. 12
Typical installation illustration ................................................................................................. 12
Supplied components ............................................................................................................ 12
Mounting kit contents ............................................................................................................ 13
Mounting guidelines .............................................................................................................. 13
Step 1: Verify sensor conguration ........................................................................................... 14
Step 2: Insert sensor batteries and turn on battery power .............................................................. 14
Step 3: Route tubing between Controlled and Reference Space ...................................................... 15
Step 4: Mount sensor, connect tubing, and apply power ................................................................ 15
Step 5: Verify connection to OneVue ......................................................................................... 15
Step 6: Verify OneVue settings ................................................................................................. 16
Differential Pressure Install: Enable door switch monitoring ................................................................... 18
Use door switch monitoring to manage when monitoring is enabled or disabled ................................ 18
Enable door switch monitoring ................................................................................................ 18
OneVue Network Requirements ....................................................................................................... 20
Network communication protocols ........................................................................................... 20
Safety, Regulatory, Warranty ............................................................................................................ 22
SAFETY PRECAUTIONS ......................................................................................................... 22
REGULATORY APPROVALS ..................................................................................................... 22
PRIMEX ONE YEAR LIMITED WARRANTY ................................................................................... 24
Technical Support ......................................................................................................................... 25
Page 3
Differential Pressure Sensor specications
Inches of Water
(inH20) Range
± 0.001 to ± 0.500
Pascal (Pa) Range ± 0.2 to ± 125.0
Reading Accuracy ± 3%
Factory Calibration Digital temperature compensation over the ± -0.500 inH2O range and ±125.0 Pa
Sample Rate Sampled reading taken every 5 seconds
Operation Local Device Alerts: audio and visual status indicators
Audio Alert Reset Periods (user-dened): next alarm, 15 and 30 minutes, 1, 2, 3 and 4 hours
Alarm Delay (user-dened): 0 to 240 minutes
Logging Interval (user-dened): 15, 20, 30 minutes, 1, 2, 3, 4, 8, 12 hours
Check-In Interval (user-dened): 15, 20, 30 minutes, 1, 2, 3, 4, 8, 12 hours
Unresponsive Timeout (user-dened): none, 30 minutes, 1, 2, 3, 4, 6, 8, 12, 16 hours, 1 day
Internal Local Stored Reading Capacity: 4096 readings
Optional door switch
monitoring with use of
a magnetic door
switch
Eliminates false alarms when a door is intentionally left open for an extended period of time signaling that the room is not in
use.
Power AC power supply: 5V DC USB Mini B (5 pin) connector interface, 5 ft (1.5 m) cable, Input: 100-240 VAC, 50/60 Hz, 0.4A,
Output: 5V DC, 1.0A max
Battery Power: 2 AA Lithium 1.5V batteries; use of Energizer® L91 Ultimate Lithium batteries recommended.
Estimated Battery Life: Up to 18 months with use of Lithium 1.5V batteries; estimation based on 1 hour Logging Interval, 8
hour Check-In Interval and adequate wireless signal.
Network
Communication
Wi-Fi supported
Applies to: All OneVue Sensors
• Wireless Networking Protocols: 802.11b, 11g, 11n single stream (2.4 GHz)
• Wireless Security Protocols: WEP (Open & Shared), WPA (TKIP & AES), WPA2 (TKIP & AES)
• Wireless Authentication Protocols: None, EAP-FAST, EAP-TLS, EAP-TTLS (MSCHAPv2), PEAP v0 (MSCHAPv2), PEAP v1
(GTC)
• Network Communication Protocols: Hypertext Transfer Protocol Secure (HTTPS)/TLS 1.2
• IP Addressing: Dynamic Host Conguration Protocol (DHCP), static IP addressing
• Data Packet Size: typically less than 5 kilobytes (kB)
Power over Ethernet (PoE) and Ethernet supported
Applies to: OneVue Temperature Sensor, Differential Pressure Sensor, Water Leak Sensor, Contact Closure Sensor, OneVue
Sync Transmitters, OneVue Bluetooth Bridge, OneVue Bell Controller
• Power over Ethernet (PoE): Compliant with IEEE 802.3af standard
• Network Communication Protocols: Hypertext Transfer Protocol Secure (HTTPS)/TLS
• IP Addressing: Dynamic Host Conguration Protocol (DHCP), static IP addressing
• Data Packet Size: typically less than 5 kilobytes (kB)
Page 4
Enclosure High and Low Air Flow Pressure Ports: tubing 1/4 in. (6.35 mm) O.D./1/8 in. (3.17 mm) I.D.
Removable port cover
Enclosure: ABS plastic
Dimension: 4.7" H x 3.7" W x 1.3" D (11.93cm x 9.39cm x 3.30cm)
Weight: 0.3 lb (136 gram) with 2 AA Lithium batteries
Display: Liquid crystal display (LCD), HTN reective glass, dimension: 0.75" H x 1.38" W (1.90 cm x 3.50 cm)
LCD Display: current sampled reading and operating status
LED Status Indicator
AC-power input: USB Mini B (5 pin) connector
Mounting: wall or surface-mount
Environment Operating Temperature: 32° to 122° F (0° to 50° C), indoor use only
Storage Temperature: -4° to 140° F (-20° to 60° C)
Certications FDA registered, 21 CFR Part 11 compliant
FCC, CE, and IC compliant
Warranty 1 Year
Differential Pressure Sensor components
The following images represent the components of a OneVue Differential Pressure Sensor device.
Page 5
Differential Pressure Sensor LCD display
The LCD display provides a visual reporting of its sampled reading and current operating status.
Segment Description
Pressure The last sampled reading in either inH2O or Pa. A sample reading is taken every 5 seconds.
The unit (inH2O or Pa) is congured within the sensor prole in your OneVue account.
A Primex sensor continuously samples and monitors its sampled readings. If its sampled readings are out of range for 60
consecutive seconds, the sensor device automatically sends the out of range reading to OneVue.
OPEN
Door Switch
Monitoring
enabled
Door switch is in the Open status.
Page 6
Segment Description
CLOS
Door Switch
Monitoring
enabled
Door switch is in the Closed status.
No Signal Indicates its last check-in to OneVue failed. This is commonly due a network connection issue.
• For wireless network use, a failed check-in may be due to the device is not within range of a wireless signal or the wireless
signal strength is not adequate for normal operation.
• For PoE or Ethernet use, a failed check-in may be due to a network connection cannot be established.
If the device is powered by AC or Power over Ethernet (PoE), the yellow LED indicator ashes during this state.
Signal Ok Indicates its last check-in to OneVue was successful.
LOW -Battery Level Device is in an Alarm state due to its estimated battery life is less than 25%.
From the start date of this state, its estimated battery life remaining is 30 days. This estimation is based on the use of lithium
1.5V batteries, 1 hour Logging Interval, 8 hour Check-In Interval, and adequate wireless signal.
If the device is powered by AC or Power over Ethernet (PoE), the yellow LED indicator ashes during this state.
Lbat Device is an Alarm state due to its battery level is critically low.
Readings are not logged or transmitted your OneVue account during this state.
Up A rmware update is being applied to the device.
Readings are not displayed, sampled, or logged during this mode.
Con Device is in conguration mode. The cong icon is also displayed.
Readings are not displayed, sampled, or logged during this mode.
Differential Pressure Sensor service buttons
A sensor has two service buttons located on the front of the device.
Button Operation
Silence
Button
The silence button clears the local reading alarm.
During a reading Alarm state, pressing and immediately releasing the silence button clears the audio alert and stops the red LED from
ashing, but does not acknowledge the alert in your OneVue account.
Audio alert resumes once the time period of the Resume Audio Alert setting has been reached. Audio alert settings are congured from
a sensor's gateway prole.
Page 7
Button Operation
Check-
in button
Pressing and releasing the check-in button during normal operation initiates a check-in to OneVue. During a check-in, all logged
readings are transmitted to OneVue and any pending updates are downloaded to the device. During an active check-in connection,
additional pressing of the check-in button is ignored.
When the check-in button is pressed and released, the device emits a series of audio beeps indicating its connection sequence. When a
device emits beeps as indicated below and displays Signal Ok, this indicates a successful check-in.
• 1 beep: device booted
• 2 beeps: device connected to network
• 3 beeps: device connected to OneVue
If a check-in fails, commonly due to the device cannot establish a network connection, all logged readings are stored in the device's non-
volatile memory. If the number of failed check-ins exceeds the size of the non-volatile memory, the oldest readings are overwritten.
Primex sensor devices store up to 4096 readings.
Sensor LED indicators
Primex sensors have three LED indicators that provide a visual indicator of its current state.
When power is rst applied, the LCD segments display and LED indicators briey illuminate.
LED State/Status Device power
Green LED illuminated Normal state
Operating as expected
AC or PoE power: LED illuminated
Battery-power only: LED disabled to conserve battery life. Upon power up,
illuminates for 2 seconds
Yellow LED ashing Warning state
• Low battery
• Unresponsive
Alarm state
• No Temp Probe or Water Detector
AC or PoE power: LED illuminated and ashes
Refer to the LCD display to identify the condition
Red LED ashing Reading Alarm
• Out of Range, Past Alarm Delay
All power methods: LED illuminated and ashing
Sensor audio alert
Primex sensors are equipped with an audio alert that is activated during a reading Alarm state (Out of Range, Past
Alarm Delay status). The audio alert is activated when a reading is out of range and the time period it has been out of
range has exceeded the time period set in its Alarm Delay.
• When the audio alert is enabled and the sensor is in a reading alarm state, the device emits an audio beep at one
second intervals. Also, when powered by AC or PoE, the sensor's red LED ashes once per second.
• During a reading Alarm state, pressing and immediately releasing the silence button clears the audio alert and
stops the red LED from ashing, but does not acknowledge the alert in your OneVue account. The audio alert
resumes once the time period of the Resume Audio Alert setting has been reached. Audio alert settings are
congured from a sensor's gateway prole.
Page 8
Sensor power input
The power source of a Primex sensor is dependent upon the model's power specications, including AC power with
battery backup, battery-powered, and Power over Ethernet (PoE). All models are compatible with the AC power adapter
accessory.
Models using AC power or PoE can also use battery power as a backup power source in the event of a power loss.
During battery backup, the device operates on battery power and continues to log and transmit readings until the
primary power source is restored.
All data stored in non-volatile memory is lost when a device loses all power.
Battery-power • 3.0v Primex Lithium/Iron Disulde Battery Pack or two AA 1.5V Energizer® Ultimate Lithium batteries.
• Temperature, Temperature and Humidity, and Differential Pressure Sensors
When operating solely on battery power, estimated battery life is up to 18 months with use of Lithium 1.5V batteries;
estimation based on 1 hour Logging Interval, 8 hour Check-In Interval, and adequate wireless signal.
• Water Leak and Contact Closure Sensors (backup battery power use only)
When operating solely on battery backup power, estimated battery life is 7 days. This estimation is based on the use of
Lithium 1.5V batteries, 1 hour Logging Interval, 8 hour Check-In Interval, and adequate wireless signal.
• Use of alkaline batteries is not recommended.
Power over Ethernet
(PoE)
Temperature,
Temperature and
Humidity, Differential
Pressure, Water Leak,
and Contact Closure
Sensors
• Compliant with IEEE 802.3af standard and compatible with 802.3at standard
AC power • AC power adapter: 5V DC USB Mini B (5 pin) connector interface, 5 ft (1.5 m) cable
• Input: U.S./Canada: 120V~, 60Hz, 0.4A | Outside U.S.: 100 to 240V~, 50/60Hz, 0.4A
• Output: 5V DC
• Max current: 1A
• Optional power extension cable: USB power cable 6.5 ft. (2 m), Mini B (5 pin) M and Mini B (5 pin) F connector
Manually initiate a sensor to check-in to OneVue
While locally at a sensor device, you can initiate a manual check-in. During each check-in all logged reading(s) are
transmitted to OneVue and any pending updates are downloaded to the sensor.
A Primex sensor checks-in to your OneVue account at regular intervals, per the frequency set in its Check-In Interval
setting. The Logging Interval and Check-In Interval settings are congured from the sensor's gateway prole.
Page 9
1. From the front of the sensor device, press and release the check-in button .
The device emits a series of audio beeps indicating is connection sequence.
• 1 beep: device booted
• 2 beeps: device connected to network
• 3 beeps: device connected to OneVue
During a check-in, all logged readings are transmitted to OneVue and any pending updates are downloaded to the
device. During an active check-in connection, additional pressing of the check-in button is ignored.
2. If a check-in fails, commonly due to the device cannot establish a network connection, all logged readings are
stored in the device's non-volatile memory. If the number of failed check-ins exceeds the size of the non-volatile
memory, the oldest readings are overwritten. Primex sensor devices store up to 4096 readings.
•If you only hear 1 beep: The device could not connect to the facility's network. Contact the onsite IT department
to seek assistance to determine why the device failed to connect to the network. It's recommended to verify the
network assigned to the sensor's gateway (select the Monitored Asset > select the sensor type > select its
Gateway ID link > verify its assigned Network.
•If you hear 1 beep followed by 2 beeps: The device could not connect to OneVue. Log in to OneVue and verify its
last check-in. If in an Alarm state with an Unresponsive status, contact your Primex support team.
About Differential Pressure Sensor door switch monitoring
The OneVue Differential Pressure Sensor is equipped with an optional door switch monitoring feature. This feature is
designed to monitor whether a door in the room being monitored is open or closed - when a door is intentionally left
open for an extended period of time signaling that the room is not in use. When a door status change is detected, the
sensor device automatically transmits the door status to OneVue.
To enable the door monitoring feature, the sensor's device door jumper must be enabled (jumper removed) and a
magnetic door switch is required to be wired to the sensor door terminal block. By factory default, the door monitoring
feature is disabled. For door switch monitoring, it's recommended to supply AC power to the sensor device and apply
battery power for backup power purposes only.
Use door switch monitoring to manage when monitoring is enabled or disabled
The Differential Pressure Sensor door monitoring feature is designed to allow the status of a magnetic door switch and
the sensor's Door Delay setting time period to manage when a monitored asset is set to the Alarms Disabled state.
When set to the Alarms Disabled state, OneVue does not monitor the differential pressure readings or the sensor device
operating status and will not generate alerts for the Monitored Asset.
Use of this feature eliminates manually setting the Monitored Asset to a Suspended state when a room is not in use
and is not required to be monitored. When a room is not in use, you can simply open the door to disable the monitoring
of the room's differential pressure.
How it works - door monitoring
1. When an Open status is detected, the sensor device automatically transmits an Open status to OneVue and the
sensor status is set to Open.
Page 10
Inhaltsverzeichnis
Andere OneVue Zubehör Handbücher
