Flex Scada Flexs Q5 Manuale utente
U S E R G U I D E
F l e x s Q 5 / Q 5 P r o
R e v : 3 . 2 L a s t U p d a t e d : 2 0 1 9 / 0 1 / 2 1
A D V A N C E D R E M O T E S I T E M O N I T O R I N G
C O N T A C T
T A B L E O F C O N T E N T S
+1 877.352.7398
www.flexscada.com
P.O. Box 277
Lytton, B.C. V0K 1Z0
Canada
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G O T Q U E S T I O N S ?
Section 1.0: Hardware Specifications
Section 1.1: What's included
Section 1.2: Getting Started
Section 1.3: Web Interface Overview
Section 1.4: Main Menu
Section 1.5: Visualization Menu
Section 1.6: Input Graphing
Section 1.7: Input Oscilloscope
Section 1.8: Device Options Page
Section 1.9: Ping Probes Page
Section 1.10: Network Page
Section 2.0: Analog Inputs
Section 2.1: Voltage Inputs
Section 2.2: Current Inputs
Section 2.3: 1-wire sensors
Section 2.5: AC Power Metrics
Section 3.0: Relay Configuration
Section 4.0: Scripting
Section 5.0: SNMP
Section 6.0: Device Firmware Updater
Section 7.0: Device Interface
Section 8.0: Expansion Interfaces
Section 9.0: Warranty Terms
C O N T E N T S
G L O S S A R Y
1-wire/one-wire - a sensor protocol developed by Dallas Semiconductors
A - Amps (Unit of Current)
AC - Alternating Current
AVG - Average
Bit - The smallest possible amount of data: 0 or 1
Bool or Boolean - true or false, usually represented with a single bit
Byte - 8 bits
CH - Channel
CT - Current Transformer
DC or VDC - Direct Current
DFU - Define Firmware Updater
DHCP - Dynamic Host Configuration Protocol
DNS/NS - Domain Name Service (server that converts names to IPs)
FET - MOSFET (Type of semiconductor switch)
FW - Firmware
Floating Point - Any non-whole number
HTTP - HyperText Transfer Protocol
HTTPS - Secure HyperText Transfer Protocol
HVD - High Voltage Disconnect
HW - Hardware
Hz - Hertz (Cycles per second)
I2C - Communication protocol
INS - Instantaneous Value
IP - Internet Protocol v4
IPv6 - Internet Protocol v6
IoT - Internet of Things
JSON - JavaScript Object Notation
kSPS - Thousand Samples Per Second
LAT/LNG - GPS Latitude/Longitude (Decimal Degrees Format)
LTE - 4G Cellular Service
LVD - Low Voltage Disconnect
MAC - Media Access Control
mA - Milliamps (1000th of an Amp)
mJ - Megajoules
MODBUS - Communication protocol used for Industrial PLC's
Mbps - Megabits Per Second
Ohms - Unit of Impedance
PF - Power Factor
PING or IMCP - Internet Control Message Protocol
PoE - Power Over Ethernet
RMS - Root Mean Square
SLAAC - IPv6 Stateless Address Autoconfiguration
SNMP - Simple Network Management Protocol
SW - Switch
Subnet/Netmask/NM - Refer to Internet Protocol
TCP - Transmission Control Protocol
THD - Total Harmonic Distortion
TX - Transmit
Typ - Typical
UART - TTL Level Serial
UID - Unique Identifier
V - Volts
VDC - Volts DC
VT - Voltage Transformer
W - Watt (Unit of Power)
1 . 0 - H a r d w a r e S p e c i f i c a t i o n s
P O W E R R E Q U I R E M E N T S
A N A L O G I N P U T S
L O A D S W I T C H E S
P H Y S I C A L
Dimensions: 157 mm x 108 mm x 40 mm (Mounting Holes: 96 mm x 144 mm - 4 x 3mm)
Also mount with standard DIN Rail - Recommended DIN Rail space: 120 mm
Temperature Rating: –40 to 85°C (industrial rated components)
Environment: Max 95% relative humidity, non-condensing ( ETSI300-019-1.4 Standard )
Weight: 200g
Voltage: 9 - 60 VDC (reverse polarity protected)
Power Consumption: 0.6 W @ 12V Typical (varies based on configuration)
R E G U L A T E D O U T P U T S
Analog Conversion: 24 bit; 0.05 mV @ ±60 V range; 0.004 mV precision @ ±5 V range
Voltage Range: ±60 V (fully differential, bi-polar) (0.5 MΩ. Imp)
Current Range: 0 - 25 mA (requires hardware jumper change)
Max Voltage: 60 VDC
Max Current: 8 A Max Cont (100 A Surge <1 ms) (50% derating above 50° C)
Switch Type: Isolated solid state N-Channel FET /w fly-back protection
Fusing: ATO blade style fuse (replace only with fuses rated for correct voltage range)
Software Fuse: 500 mA to 5 A ***PRO ONLY***
Current Sensing: 0 to 5 A ***PRO ONLY***
LTE SPECS ***LTE VERSION ONLY***
5.0 V output: 500 mA Max
3.3 V output: 500 mA Max (Typ 3.47V)
3.3 V Output /w LTE Module: 150 mA Max (Typ 3.47V)
E T H E R N E T
10/100 Mbps Operation
Long-Range 300 Meter at 10 Mbps
IEEE 802.3az Energy Efficient Ethernet
±15 kV IEC 61000-4-2 Level 4 ESD Protection
IEEE 802.3 Auto-Negotiation
IPv4: DHCP, Static; IPv6: SLAAC, DHCPv6, Static
Passive PoE: Pins 4, 5+; 7, 8- @ 9 to 56V
LTE CAT–M1/NB–IoT 3GPP release 13 LTE Adv. Pro
SMA Connector: SMA-Female
LTE Bands: 2, 3, 4, 5, 8, 12, 13, 20, 28
Modem: ublox SARA-R410M-02B
Certified by: FCC, ISED, PTCRB, NCC, RCM, RED,
AT&T, Telus, Telstra, Verizon, GITEKI 2
1 . 1 - W h a t ' s I n c l u d e d
1.2 - Getting Started
1 x Flexs Q5
1 x DIN Rail Mounting Kit
1 x Product Manual
Once power is connected, the Q5 display will illuminate indicating that the Q5 has successfully started.
The Q5 will then search for a router on the network to get an IP address. If the Q5 fails to find a router within the first 10s
of bootup, it will fallback to standalone mode. In standalone mode, the Q5 will use the fallback IP (default 192.168.1.20).
Using Chrome, Firefox or Safari enter the device IP in the address bar to load the Q5's web interface.
The default password for the device is "flexscada".
Network Connected Mode Standalone Mode
Connect using the following addresses:
http://192.168.1.20 OR with IPv6
http://[fe80::744]
Connect using the IP assigned by your network.
This IP can be found on the Q5 display
(highlighted in red above)
This section provides a brief overview on how to connect to a FlexsQ5 for the first time.
Attach the Q5 to a power source (9 to 60 VDC) using the two pin power terminal located beside the Ethernet port.
The Q5 can alternatively be powered via POE over the Ethernet port.
DC Power
Supply
DO NOT POWER THIS DEVICE DIRECTLY FROM AN AC POWER SOURCE! DOING SO WILL VOID YOUR WARRANTY!
AC Power
Q5 Power Input
AC Power
24 V PoE
PC Ethernet Q5 Ethernet
Powering with a Passive PoEPowering with a DC Power Supply Powering with a Battery
Q5 Power Input
9 - 60 V Battery
IT IS HIGHLY RECOMMENDED TO CHANGE THIS PASSWORD WITH A SECURE PASSWORD TO AVOID
UNAUTHORIZED ACCESS TO THE DEVICE.
1 . 3 W e b I n t e r f a c e O v e r v i e w
Main Menu
(see sec. 1.4)
Configured
Analog Inputs
(see sec. 2.0)
Adopted 1-
Wire Temp
Sensors
(see sec. 2.1)
Computed
Power Metrics
(see sec. 2.5)
Visualization Menu
(see sec. 1.5)
Load Control
(see sec. 3.0)
Registers set from
custom scripting
(see sec. 4.0)
Ping Watchdog
Status (see sec. 1.9)
1 . 4 - M a i n M e n u
Dashboard Page
(see sec. 1.3)
Expert Mode - Disabled Expert Mode - Enabled
Device Options Page
(see sec. 1.8)
Analog Inputs Page
(see sec. 2.0)
Load Outputs Page
(see sec. 3.0)
1-Wire Sensors Page
(see sec. 2.3)
Networking Page
(see sec. 1.10)
Expert Mode (enabled)
Expert Mode (disabled)
Logout
Save and apply settings
(without confirm option)
Safely Apply Settings
(user must confirm after saving.)
Ping Watchdog Page
(see sec. 1.9)
System Log Page
Unique Device ID (UID)
Firmware Version
Hardware Type
Calculated Power Metrics
(see sec. 2.5)
Custom Feeds (see sec. 4.0)
Custom Scripts (see sec. 4.0)
1 . 5 - V i s u a l i s a t i o n M e n u
Data Update Interval
Pause/Start Data Collection
Clear Graph Of All Data
Select Data Metrics to Graph
1 . 6 - I n p u t G r a p h i n g P a g e
The graphing tool is used to view short
term trends, such as current or voltage
readings. The Update Interval range
can be configured from 100ms to 1
minute.
Dashboard Page (see sec. 1.3)
Input Graphing Page (see sec. 1.6)
Input Oscilloscope Page (see sec. 1.7)
Advanced Device Info
Data Update Interval
Load Distribution (PRO ONLY)
View Load Watts (PRO ONLY)
Manually Zero Load Sensors (PRO ONLY)
1 . 7 - I n p u t O s c i l l o s c o p e P a g e
Sample Data and
Regenerate Graph
Select Data Channels
to Display
The oscilloscope tool provides a close-up look at how "clean" your power source is.
When the refresh button is clicked, 2,000 simultaneous readings are taken across all 8 channels and then displayed
in the web interface. The sample rate of the Q5 is 8,000 samples/second (i.e. 8 samples taken each millisecond).
1 . 8 - D e v i c e O p t i o n s P a g e
Device Name and
Description are displayed
in the cloud platform.
These are useful when
searching for a device.
Tags are used in the
filtering of graph data
in Grafana.
Coordinates will autofill
when a GPS module is
attached.
Event logging level.
Transmit measurements
to cloud at this interval.
Also used for avg, min
and max values on the
dashboard.
Sync configuration
data with cloud at this
interval.
Default address -
change this only when
running customer
hosted cloud software.
EDIT CONFIG FILE allows the advanced
feature of editing the actual JSON
config file. This is only recommended
for expert users.
If enabled Q5 will check
cloud for available
updates at boot. See
Section 6.0.
UPDATE FIRMWARE allows you to
manually enter the Device Firmware
Updater (DFU) to manually update the
device firmware. More on this in
section 6.0.
1 . 9 - P i n g P r o b e s P a g e
Ping Probe Label.
Ping Timeout
Perform an action if
destination is
unreachable
Ping this Host
1 . 1 0 - N e t w o r k P a g e
If the network mode is set to DHCP, the device will
request an IP from a DHCP server on the network.
Should the Q5 fail to get an IP it will fall back to the
IP configuration entered here. The same applies to
IPv6. The FlexesQ5 supports both IPv4 and IPv6 at
the same time.
Additionally, this page includes options for enabling
and disabling SNMP, Modbus TCP and modifying
the SSL Certificate.
Status of a probe as found on the
dashboard.
Select a relay to run
action on (optional).
See Section 5.0 SNMP
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