Millennium Enterprises Carbon Monoxide Alarm AD ST1400 25 User Manual

MILLENNIUM  
Oxygen Gas Detector  
User Manual  
Models:  
MLP-A/AR/AD-ST1400-25  
&
(all available options)  
Part Number: MAN-0060 Rev 04  
August 2008  
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Warranty  
IMPORTANT INFORMATION  
Net Safety Monitoring Inc., warrants its ST1400 sensor against defective parts  
and workmanship for a period of 6 months from date of purchase; other  
electronic assemblies for 36 months from date of purchase.  
This manual is for informational purposes only. Although every effort has been  
made to ensure the correctness of the information, technical inaccuracies may  
occur and periodic changes may be made without notice. Net Safety Monitoring  
Inc., assumes no responsibility for any errors contained within this manual.  
No other warranties or liability, expressed or implied, will be honoured by Net  
Safety Monitoring Inc.  
If the products or procedures are used for purposes other than as described in the  
manual, without receiving prior confirmation of validity or suitability, Net  
Safety Monitoring Inc., does not guarantee the results and assumes no  
obligation or liability.  
Contact Net Safety Monitoring Inc., or an authorized representative for details.  
We welcome your input at Net Safety Monitoring. If you have any comments  
please contact us at the phone/address below or visit our web site and complete  
No part of this manual may be copied, disseminated or distributed without the  
express written consent of Net Safety Monitoring Inc.  
Contact Information  
Net Safety Monitoring Inc., products are carefully designed and manufactured from  
high quality components and can be expected to provide many years of trouble free  
service. Each product is thoroughly tested, inspected and calibrated prior to  
shipment. Failures can occur which are beyond the control of the manufacturer.  
Failures can be minimized by adhering to the operating and maintenance  
instructions herein. Where the absolute greatest of reliability is required,  
redundancy should be designed into the system.  
Net Safety Monitoring Inc.  
2721 Hopewell Place NE  
Calgary, AB T1Y 7J7  
Canada  
Telephone: (403) 219-0688 Fax: (403) 219-0694  
Copyright © 2005 Net Safety Monitoring Inc.  
Printed in Canada  
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MODBUS Termination ....................................................................................9  
Figure 11: Modbus Termination Jumpers ................................................................9  
Step 4 — Operate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10  
TABLE OF CONTENTS  
Important Information  
Warranty  
Figure 12: Controller Functionality ........................................................................10  
Table 2: Status LEDs, Display Messages and Current Loop .................................11  
RTU Registers .....................................................................................................11  
Table 3: RTU Status Register (40002) Read Only (Binary) ..................................11  
Calibration Button ...............................................................................................11  
Magnetic Reed Switch .........................................................................................12  
Power Up .............................................................................................................12  
Current Loop Measurement (Test Jacks) .............................................................12  
Status LED ...........................................................................................................12  
The Main Menu ..............................................................................................12  
Accessing the Main Menu ...................................................................................12  
Main Menu Functionality ....................................................................................12  
Contact Information  
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1  
The Product ...................................................................................................... 1  
The Sensor ............................................................................................................. 1  
The Controller ....................................................................................................... 1  
The Manual ........................................................................................................... 1  
Step 1 — Plan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2  
Locate Controller/Sensor ................................................................................. 2  
Figure 1: Locate Sensor/Controller .......................................................................... 2  
Figure 2: Dimensional Drawings ............................................................................. 3  
Step 2 — Install . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3  
Step 5 — Calibrate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13  
Unpack ............................................................................................................. 3  
Figure 3: Components .............................................................................................. 3  
Mount .................................................................................................................... 4  
Step 3 — Wire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4  
Calibration Procedure .....................................................................................13  
Calibration Procedure ..........................................................................................13  
Figure 13: Calibration Procedure ...........................................................................13  
Calibration Failure .........................................................................................14  
Step 6 — Monitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14  
Field Installation .............................................................................................. 4  
Seal ................................................................................................................... 4  
Connecting Wires .................................................................................................. 4  
Board Assembly .................................................................................................... 5  
Figure 4: Millennium Module Boards ...................................................................... 5  
Figure 5: Wiring—Controller and Sensor ................................................................ 6  
Sensor and Controller ...................................................................................... 6  
Table 1: Controller/Sensor Connections .................................................................. 6  
RS-485 Communication ........................................................................................ 6  
Sensor Separation ............................................................................................ 7  
Figure 6: Wiring—Sensor Separation ...................................................................... 7  
Non-Isolated/Isolated Wiring .......................................................................... 8  
Terminal Connection ............................................................................................. 8  
Figure 7: Non-isolated Terminal Connection .......................................................... 8  
Figure 8: Isolated Terminal Connection .................................................................. 8  
Current Output ....................................................................................................... 8  
Figure 9: Jumper Positions ....................................................................................... 8  
Remote Reset ................................................................................................... 9  
Figure 10: Remote Reset ......................................................................................... 9  
Review Relay Settings ....................................................................................14  
Relay Options .................................................................................................15  
Table 4: Default Relay Settings ..............................................................................15  
Setting Relay Options ..........................................................................................15  
Modbus Options .............................................................................................16  
Node Address ......................................................................................................16  
Baud Rate ............................................................................................................16  
Enter Restricted Menu ....................................................................................16  
Set Low Power Options - Optional ......................................................................16  
Select Display Language ................................................................................17  
Alarms ............................................................................................................17  
Sensor Fault .........................................................................................................17  
Non-standard O2 Levels ......................................................................................17  
Sensor Life ...........................................................................................................17  
Reset ...............................................................................................................17  
Manual Reset .......................................................................................................17  
Remote Reset .......................................................................................................17  
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Outputs ........................................................................................................... 18  
Relays - Optional ................................................................................................. 18  
Modbus ................................................................................................................ 18  
Current ................................................................................................................. 18  
Step 7 — Maintain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18  
Periodic Response Check ............................................................................... 18  
Troubleshoot .................................................................................................. 18  
How to Return Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19  
Spare Parts/Accessories ................................................................................. 19  
Table 5: Part Numbering ........................................................................................ 19  
Face Rotation Option ..................................................................................... 19  
Figure 14: Non-standard Orientations .................................................................... 19  
Rotate PCB Assembly ......................................................................................... 20  
Appendix A: Electrostatic Sensitive Device (ESD) . . . . . . . . . . . .20  
Appendix B: Resistance Table in OHMS . . . . . . . . . . . . . . . . . . . .21  
Appendix C: Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22  
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INTRODUCTION  
The Millennium series is Net Safety's latest innovation in a line of continuously  
evolving industrial gas detectors and sensors. The microcontroller based system  
provides fast, accurate and continuous monitoring of gases in extreme  
environments.  
Step 1 — PLAN  
Step 2 — INSTALL  
Step 3 — WIRE  
THE PRODUCT  
The Sensor  
Step 4 — OPERATE  
Step 5 — CALIBRATE  
Step 6 — MONITOR  
Step 7 — MAINTAIN  
The electrochemical sensor is a proven design ensuring an accurate and  
repeatable response within a detection range of 0 to 25% oxygen.  
The Controller  
The Millennium Controller has an explosion-proof Housing, rated Class 1,  
Division 1, Groups B, C, and D for hazardous applications. It was designed for  
either intrusive or non-intrusive calibration.  
The Manual  
The manual has been designed to make installation of the Millennium product  
easy. To ensure proper installation, follow the steps outlined in the following  
pages. If you encounter problems during operation, consult the troubleshooting  
section or contact your sales representative.  
MLP-A/AR/AD-ST1400-25  
1
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Figure 1: Locate Sensor/Controller  
STEP 1 — PLAN  
LOCATE CONTROLLER/SENSOR  
Prior to the installation process, a location plan for placing the Controller and  
Sensor should be developed. Although there are no absolute rules for  
determining the quantity and location of a sensor or controller, the following  
points should be considered when planning the installation.  
Conduit to  
Controller  
• Locate the Controller where it will be accessible and visible.  
• Oxygen deficiency can be caused by O2 consumption from such activities as  
chemical reactions or combustion and/or displacement by other gases.  
• Use redundant systems to enhance protection and reliability.  
• Consider air movement patterns within the facility.  
• Seek advice from experts knowledgeable about the primary gas to be  
detected.  
• Use common sense and refer to various regulatory publications that discuss  
general guidelines for your industry.  
The two most common installation options are as follows.  
Controller  
About  
eye  
level  
Sensor  
Calibration Cup  
Option 1  
Apply Calibration Gas  
Locate Sensor separate from Controller using a certified (Net Safety Muti-propose)  
Junction Box.  
The Controller is located near eye-level. Conduit is run from the Controller to  
the Sensor. The Multi-purpose Junction Box is used to connect the conduit from  
the Controller to the Sensor. A Calibration Cup can be attached to the Sensor.  
Tubing can be run from the calibration cup to a convenient location accessible  
for calibration gas to be injected. Refer to MAN-0081 for Multi-purpose Junction  
Box Terminal designations.  
TIP: The Calibration Cup allows for tubing to be affixed  
to a Sensor mounted in remote locations. The tubing  
is directed to a level, usually close to the Controller,  
for easy injection of calibration gas.  
Option 2  
The Sensor is attached directly to the Controller. A Calibration Cup and tubing  
may also be used to facilitate calibration as in Option 1 above.  
The Calibration Cup can also act as a splash guard,  
protecting sensors when mounted low to the ground.  
See "Sensor and Controller" on page 6 for detailed instructions.  
CCS-1  
MLP-A/AR/AD-ST1400-25  
2
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Figure 2: Dimensional Drawings  
STEP 2 — INSTALL  
5.68”  
(144.3 mm)  
5.60”  
(142.2 mm)  
UNPACK  
Carefully remove all components from the packaging. Check components  
against the enclosed packing list and inspect all components for obvious  
damage such as broken or loose parts.  
4.06”  
5.31”  
(134.9 mm)  
(103.1 mm)  
If you find any components missing or damaged, notify the representative or  
Net Safety Monitoring immediately.  
10.51”  
(267.0 mm)  
Figure 3: Components  
Controller Housing  
Millennium Faceplate  
Housing Cover  
2.60”  
Controller with sensor  
(66.0 mm)  
2.89”  
(73.4 mm)  
4.82”  
(122.4 mm)  
Ribbon connecting  
faceplate/controller  
9.92”  
(252.0 mm)  
Sensor Housing  
5.10”  
(129.5 mm)  
External Equipment  
It is necessary that reliable monitoring and indicating devices or systems be  
connected to the transmitter. These devices must be designed to produce clear  
visual and audible danger signals when high signal levels occur.  
Multi-purpose Junction Box with sensor  
MLP-A/AR/AD-ST1400-25  
3
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Mount  
SEAL  
• Water-proof and explosion-proof conduit seals are recommended to prevent  
water accumulation within the enclosure.  
• Seals should be located as close to the device as possible and not more than  
18 inches (46 cm) away.  
• Explosion-proof installations may require an additional seal where conduit  
enters a non-hazardous area. Ensure conformity with local wiring codes.  
The Controller is usually mounted near eye-level and be easily accessible for  
calibration and maintenance purposes. The Sensor should be placed where O2  
may build up or where other gases are likely to build up and displace O2.  
Ensure all devices are securely mounted, taking into consideration all  
requirements.  
• When pouring a seal, use a fibre dam to assure proper formation of the seal.  
Seals should never be poured at temperatures below freezing.  
• The jacket and shielding of the cable should be stripped back to permit the  
seal to form around the individual wires. This will prevent air, gas and water  
leakage through the inside of the shield and into the enclosure.  
Use the Face Rotation Option to mount the Millennium  
Controller at a different orientation (refer to "Face  
Rotation Option" on page 19 for detailed instructions).  
• It is recommended that explosion-proof drains and conduit breathers be used.  
In some applications, alternate changes in temperature and barometric  
pressure can cause 'breathing' which allows moist air to enter and circulate  
inside the conduit. Joints in the conduit system are seldom tight enough to  
prevent this 'breathing'.  
STEP 3 — WIRE  
FIELD INSTALLATION  
WARNING: Wiring codes and regulations may vary. Compliance with  
regulations is the responsibility of the installer. Wiring must comply with  
applicable regulations relating to the installation of electrical equipment in a  
hazardous area. If in doubt, consult a qualified official before wiring the system.  
Note: Seals are not required for all Class 1 Division 2 locations in Canada.  
However, to fully avoid any exposure, the use of seals are still  
recommended, especially for installations that use high-pressure or  
steam cleaning devices in proximity to the controller and/or sensor.  
• If the 4-20 mA signal is not used, connect a jumper between the 4-20 terminal  
and the Common terminal.  
• The use of shielded cable is highly recommended for signal, input, output and  
power wires to protect against interference caused by extraneous electrical or  
electromagnetic 'noise'.  
• In applications where the wiring cable is installed in conduit, the conduit  
must not be used for wiring to other electrical equipment.  
• The maximum distance between the Sensor and Controller is limited by the  
resistance of the connecting wiring, which is a function of the gauge of the  
wire being used (refer to " Resistance Table in OHMS" on page 21).  
Connecting Wires  
1. Use a small screw driver to gently press down and hold the spring connector  
open.  
2. Insert appropriate wire into open connector hole.  
3. Release screw driver to secure wire.  
• When developing a RS-485 chain of devices, the last device in the chain  
requires end of line termination.  
• RS-485 connection 2-wire, multipoint serial line.  
MLP-A/AR/AD-ST1400-25  
4
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Board Assembly  
There are three different fixed boards, two optional relay boards and an optional Modbus board which make up the PCB Assembly. Depending upon requirements,  
either a Electromechanical or Solid State Relay Board module can be used. Boards are field replaceable. Simply loosen the three locking standoffs, remove one  
board, insert the other board and tighten screws.  
Note: Boards are susceptible to ESD. Refer to Appendix A, "Electrostatic Sensitive Device (ESD)", on page 20.  
Figure 4: Millennium Module Boards  
Solid State Relay Board  
+
Fault  
-
+
Low  
-
+
High  
-
Terminal  
Board  
Option Board  
Sensor  
Electromechancial Relay Board  
Board  
FNO  
FCOM  
FNC  
LNO  
LCOM  
LNC  
HNO  
HCOM  
HNC  
normally open  
common  
normally closed  
normally open  
common  
normally closed  
normally open  
common  
Modbus Terminals  
A
B
COM  
Shld  
normally closed  
MLP-A/AR/AD-ST1400-25  
5
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Figure 5: Wiring—Controller and Sensor  
SENSOR AND CONTROLLER  
WARNING:  
Power to the unit must be OFF before wiring.  
Terminal Board  
Note: The Sensor may be factory installed to the Controller. If so, you need  
only connect the Power Terminals.  
RST  
+24V  
COM  
4-20  
ISO  
1. Remove the Controller’s Housing Cover.  
2. Connect the Sensor to the Sensor Terminals (if necessary) and the Output  
Terminals to the output signal wires.  
Power  
Terminals  
RST  
+24V  
COM  
4-20  
Table 1: Controller/Sensor Connections  
Sensor Board Terminals  
Terminal Board Power  
Sensor  
Controller  
Controller  
Power  
ISO  
A
Red  
Blk  
-
Wire  
Red  
(Sensor Board)  
(Terminal Board)  
Connections  
B
Red+  
= Red (+24 V)  
= Blk (Sig)  
RST  
= Remote Reset  
= Power (+)  
= Power (-)  
Modbus RTU  
Sensor  
Terminals  
Blk  
Terminals  
to PLC  
COM  
-
Black  
+24V  
COM  
4-20  
-
Shld  
-
-
= Current Loop  
Shld  
Output  
Shield  
= Shld  
ISO  
= +24 V isolated  
4-20 power  
Note: For Sensor Separation instructions, see Figure 6, "Wiring—Sensor  
Separation", on page 7.  
3. Replace the Controller’s Housing Cover.  
4. Turn Controller On.  
Sensor Board  
5. Ensure display reads Start Delay , Status LED is Red Slow Flash and  
current output displays 3.0 mA. This is the start-up delay sequence which  
will last approximately 90 seconds.  
Sensor  
Wires  
RS-485 Communication  
Connect devices in a chain via the Modbus terminals. The last device in the  
chain requires end of line termination (refer to "MODBUS Termination" on  
page 9).  
Note: If the 4-20 mA signal is not used, connect a jumper between the 4-20  
terminal and the COM terminal on the Terminal Board.  
MLP-A/AR/AD-ST1400-25  
6
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SENSOR SEPARATION  
Figure 6: WiringSensor Separation  
Terminal Board  
Power  
Terminals*  
To designated terminal board  
and oxygen sensor. See MAN-0081  
Multi-purpose Junction Box manual  
RST  
+24V  
COM  
4-20  
ISO  
Red  
Blk  
Modbus RTU  
Terminals  
to PLC*  
Shld  
Sensor  
Terminals*  
Sensor Board  
As the Sensor must be located in one location and the Controller in a location  
where it can be easily reached, it is often necessary to “separate” the Controller  
and Sensor.  
Ensure that the appropriate wire is used for Class 1/Division 1 hazardous  
applications.  
Note: If the 4-20 mA signal is not used, connect a jumper between the 4-20  
The Sensor separation kit (SEP) is composed of a junction box and terminal  
strip. Refer to the Net Safety Multi-purpose Junction Box manual (MAN-0081)  
for terminal designation when wiring for sensor separation.  
terminal and the COM terminal on the Terminal Board.  
Shielded copper instrument wire (minimum 18 AWG) should be used for  
separations up to 500 feet. Shielded copper instrument wire (minimum  
16 AWG) should be used for separations up to 2000 feet. Consult the factory if a  
greater separation distance is required.  
MLP-A/AR/AD-ST1400-25  
7
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Current Output  
NON-ISOLATED/ISOLATED WIRING  
To set an isolated current output, simply move the Jumper (shorting jack) to the  
isolated current position (refer to Figure 9, "Jumper Positions", on page 8).  
Terminal Connection  
Figure 7: Non-isolated Terminal Connection  
Note: Unless otherwise specified, all models ship with non-Isolated current  
output.  
Terminal Board  
Power Terminal Strip  
Figure 9: Jumper Positions  
Jumper—Position Jumper  
Terminal Board  
(shorting jack) over pins to  
set power source for current  
output.  
RST  
+24V  
COM  
4-20  
ISO  
Power  
Supply  
Position 3 & 2 =  
Non-isolated (default)  
Position 1 & 2 = Isolated  
to Monitor  
Termination Jumper—Is non-  
functional in this application  
and can be placed in any  
position or removed  
Figure 8: Isolated Terminal Connection  
Terminal Board  
Power Terminal Strip  
entirely.  
Sensor Board  
RST  
+24V  
COM  
4-20  
ISO  
Power  
Supply  
to Monitor  
MLP-A/AR/AD-ST1400-25  
8
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REMOTE RESET  
The Millennium can be set for remote reset. A normally open Push Button  
Switch must be connected between the RST and the COM terminals on the  
Terminal Board and the Relay Option Latch Status must be set to Latching  
.
Figure 10: Remote Reset  
RST  
+24V  
Terminal Board  
PowerTerminal Strip  
COM  
4-20  
ISO  
MODBUS TERMINATION  
Devices are networked in a daisy chain. The device located at the end of the  
chain requires end of line termination. Place both jumpers over the pins, as  
shown in Figure 11, "Modbus Termination Jumpers", on page 9, for end of line  
termination.  
Figure 11: Modbus Termination Jumpers  
MLP-A/AR/AD-ST1400-25  
9
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STEP 4 — OPERATE  
The Controller faceplate contains most functional elements of the user interface. Below is a description of that functionality.  
Figure 12: Controller Functionality  
Scrolling 8-character display -  
provides various status messages and  
prompts. Refer to "Status LEDs,  
Display Messages and Current  
Loop" on page 11.  
Magnetic Reed Switch - provides non-intrusive access for  
Pull Here knob - unscrew the two  
programming, calibrating and resetting.  
screws and gently pull to remove  
faceplate. Removal allows access  
to terminal boards. The faceplate  
remains attached by the ribbon  
cable.  
-Place magnet against Housing (where indicated) for less than one  
second to initiate a basic system reset (clear a latched alarm) and  
make selections.  
-Place magnet against Housing (where  
indicated) and hold to program, view  
current settings and calibrate.  
Pull  
Here  
Refer to "Magnetic Reed Switch" on page 12  
for further information.  
Status Light (Red and Green) -  
indicates status of unit. Refer to  
"Status LEDs, Display Messages and  
Current Loop" on page 11 for  
Status  
Red  
Slow Flash:  
Gas present  
Flast flash :  
Cal or Fault  
Solid:  
Calibration/Setup  
-Hold Cal/Reset or  
On  
Overrange  
magnet until countdown  
is zero (~10 sec)  
-Follow instruction on  
display  
detailed explanation of states/status.  
Green  
Short Blips:  
Normal  
operation.  
No gas  
present  
ON/OFF Switch - used to turn Controller on and  
off. Housing must be removed to access.  
Off  
Power  
Current O/P Check  
Pull Here knob - unscrew the two screws and  
pull to remove faceplate. Removal allows  
access to PCBs. The faceplate remains  
attached by the ribbon cable.  
Calibration Button - provides intrusive  
access for programming, calibrating and  
resetting.  
Pull  
Here  
Connect current probes  
to meter jacks and  
read mA output  
-Push for less than one second to initiate a  
basic system reset (clear a latched gas  
alarm) and make selections.  
Current Test Jacks - to take current loop measurements use the following procedure:  
-Insert your current meter leads into the Test Jacks.  
-Push and hold to program, view current  
settings and calibrate.  
-Set external devices to bypass, if necessary, to avoid unwanted alarm response  
-Review current loop measurements.  
Refer to "Calibration Button" on page 11  
for further information.  
Refer to "Current Loop Measurement (Test Jacks)" on page 12 and Table 2, "Status LEDs, Display  
Messages and Current Loop", on page 11.  
MLP-A/AR/AD-ST1400-25  
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RTU Registers  
Table 2: Status LEDs, Display Messages and Current Loop  
Register 40001 = % output (read only)  
Register 40002 = RTU Status (read only)  
Register 40101 = Reset latched relays (write)  
Status LED  
Current O/P RED or GREEN  
State  
Options  
Review/Settings  
Display  
3.0 mA  
n/a  
n/a  
Table 3: RTU Status Register (40002) Read Only (Binary)  
Standard level of  
Oxygen present  
Blip/  
blink  
Slow  
flash  
RTUstat_fault  
0x0001 (fault sensor...)  
0x0002 low alarm tripped  
0x0004 high alarm tripped  
0x0008 low alarm latched  
0x0010 high alarm latched  
0x0080 power up delay  
0x0100 calibration cycle in progress  
0x0200  
0x0400  
0x0800  
0x1000  
0x2000  
20.9 %O2  
17.4 mA  
RTUstat_low_alarm  
RTUstat_high_alarm  
RTUstat_low_alarm_latched  
RTUstat_high_alarm_latched  
RTUstat_powerUp  
Start Delay  
Start-up delay (90 sec) 3.0 mA  
Switch On  
10-0  
Access Main Menu  
3.0 mA  
2.5 mA  
n/a  
Memory Error (contact  
factory)  
Black or Red Sensor  
lead open  
Slow  
flash  
Slow  
flash  
Memory Error  
Sensor Fault  
RTUstat_cal_cycle  
RTUstat_zeroing  
2.5 mA  
3.0 mA  
RTUstat_apply_span_gas  
RTUstat_calibrating  
RTUstat_remove_gas  
RTUstat_cal_complete  
RTUstat_mem_error  
Apply Clean  
Air  
Auto zero set  
Solid  
Fast  
flash  
Apply 20.9%  
O2  
Apply calibration gas 3.3 mA  
Span is set, remove  
0x4000 memory error  
Remove gas  
3.6 mA  
gas  
Solid  
Flash  
XX Low Alarm  
XX High Alarm  
Low alarm set point  
High alarm set point  
Non-standard levels of >17.4 mA or Blip/  
Oxygen present  
Calibration procedure  
failed/Sensor failed  
Over 25% Range  
-
-
Flash  
Flash  
Calibration Button  
The Calibration Button provides access to the Millennium’s Main Menu, which  
in turn allows calibration and options to be reviewed and set. Refer to Figure 12,  
"Controller Functionality", on page 10 for more information.  
% O2 shown left  
side display  
<17.4 mA  
3.0 / 3.3 mA  
20 mA  
blink  
Flash  
Solid  
Fail Cal  
Press and hold the Calibration Button to Calibrate and access Main Menu.  
Briefly press to make a selection (select YES? ).  
<25%O2  
WARNING:  
Opening the Controller’s Housing should be avoided when the  
presence of gas is possible (when in a hazardous environment). Do  
not power up the system, with the Housing removed, unless the area  
has been de-classified.  
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Magnetic Reed Switch  
THE MAIN MENU  
The Magnetic Reed Switch is provided to avoid opening the Housing in an  
environment where gas may be present. The Magnetic Reed Switch functions in  
the same manner as the Calibration Button but in a non-intrusive manner. Refer  
to Figure 12, "Controller Functionality", on page 10 for more information.  
The Main Menu provides access to various functional settings and viewing of  
current settings.  
• Calibrate Sensor - Calibrate sensor.  
• Review Relay Settings - Review the current Fault, Low and High alarm  
settings. This is a read only section.  
Attached to the side of the Controller is a magnet:  
• Set Relay Options - Set the Low and High alarm settings.  
• Select Modbus Options.  
Place and hold the magnet to the Controller’s Housing (10 o’clock position)  
to Calibrate and access Main Menu.  
• Restricted Menu - Select low power options.  
• Select a display language - English, Spanish or French.  
Briefly place the magnet to the Controller’s Housing (10 o’clock position) to  
make a selection (select YES? ).  
Note: The current output will drop to 3.0 mA while in the Main Menu.  
Accessing the Main Menu  
Power Up  
Turn power switch On. A 90 second warm-up routine will begin. The display  
There are two ways to activate the Main Menu:  
reads Start Delay Millennium Net Safety  
, Status LED is Red Slow Flash and  
• Calibration Button found on the faceplate (the Housing cover must be  
removed to access)  
• Magnetic Reed Switch (a magnet must be used to activate)  
current output displays 3.0 mA.  
When power is applied, the system is automatically tested to ensure proper  
functionality.  
Main Menu Functionality  
After warm-up, the Controller will enter normal operation, the display reads  
%O2, Status LED will Green Blip/blink and analog output will change to  
4.0 mA.  
1. Ensure that the Controller has been turned on and no fault is present.  
2. Hold the magnet against the Reed Switch or press and hold the Calibration  
Button until the message Switch On displays and the countdown (10 to 0)  
finishes.  
3. An option will scroll across the display followed by the prompt YES? .  
4. To select an option, momentarily place the magnet to the Reed Switch or  
press the Calibration Button at the YES? prompt.  
5. If you do not wish to select that option wait until the next option appears  
and then select YES? .  
6. A selection is acknowledged with a flashing YES .  
7. If no option is selected, the Controller returns to 0 (normal operation).  
Current Loop Measurement (Test Jacks)  
Use a standard meter to measure current loop during various states. The  
Controller’s Housing cover must be removed to access the Test Jacks.  
Refer to Table 2, “Status LEDs, Display Messages and Current Loop,” on  
page 11 for a detailed list and Figure 12, "Controller Functionality", on page 10  
for more information.  
Status LED  
The Status LED will remain solid, flash, blip and/or blink, in either Red or  
Green, to indicate various states. Refer to Table 2, “Status LEDs, Display  
Messages and Current Loop,” on page 11 for a detailed list.  
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STEP 5 — CALIBRATE  
CALIBRATION PROCEDURE  
WARNING:  
The calibration procedure requires about 5 minutes to complete. If gas is not applied at the appropriate time, a calibration failure may occur (refer  
to "Calibration Failure" on page 14 for specific information).  
For accurate performance, the concentration of gas, corresponding to 0 to 25% oxygen is converted to a linear 4 to 20 mA output signal which can be powered from  
the primary dc supply of the instrument. Power up the unit for at least 4 hours BEFORE first calibration.  
The following calibration procedure should be followed to ensure an accurate correlation between the 4 to 20 mA output signal and the gas concentration.  
Calibration Procedure  
1. Confirm successful power up of ControllerLED Green Blip/blink every 2 seconds; no fault indicated.  
2. Flow certified ZERO AIR at a rate of 0.5 litres per minute through the calibration cup for 1 minute to ensure clean air environment.  
3. Use the Calibration Button or Reed Switch to access the Main Menu and wait for countdown to complete.  
4. When Calibrate Sensor YES? displays, use the Calibration Button or Reed Switch to select YES?  
Selection will be confirmed by a flashing YES .  
5. When Apply Clean Air  
displays apply clean air.  
6. When Apply 20.9% O2 displays, apply O2 at a rate of 0.5 litres per minute using the calibration cup.  
7. The display will show Calibrating as the internal settings are being modified (current loop 3.3 mA).  
8. Remove span gas when the message Remove Gas displays (Status LED Green solid and 3.6 mA output).  
9. The message Cal Complete will display when calibration is complete.  
10. Apply zero gas (clean air) again to purge system.  
Note: Always apply test gas after calibration to verify operation.  
Figure 13: Calibration Procedure  
Apply 20.9%  
O2  
Apply Clean  
Air  
Calibrate  
Sensor YES?  
Display  
Shows  
Remove Gas  
Calibrating  
Cal Complete  
Select YES?  
Remove gas  
Apply O2  
Apply clean  
(zero air)  
Action  
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Calibration Failure  
If the calibration procedure fails, the display shows Fail Cal , the Status LED  
alternates Red and Green flashes and the analog output changes back and forth  
from 3.0 to 3.3 mA.  
STEP 6 — MONITOR  
REVIEW RELAY SETTINGS  
The unit remains in a failed state until manually reset. After the Manual Reset,  
the unit will return to normal operation based on previous calibration values.  
Refer to "Manual Reset" on page 17 for instructions.  
This is a read-only mode; changes cannot be made.  
Step 1:  
Step 2:  
Step 3:  
Step 4:  
Press and hold the Calibration Button or the magnet to the Reed  
Switch to enter the Main Menu; wait for the countdown, from 10 to  
0, to end.  
When Review Relay Settings displays press the Calibration  
Button or use the Reed Switch to select.  
The flashing YES confirms the selection.  
The Fault Alarm is fixed (Energized Non-Latching ) and  
/
displays first. Then the Low Alarm level, coil and latch status  
display, followed by the High Alarm level, coil and latch status.  
At this point, the option to Set Relay Options YES? is  
displayed.  
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RELAY OPTIONS  
Setting Relay Options  
There are two settings for Relay Options: Low and High. The Fault Relay is  
fixed as Energized/Non-latching and cannot be changed. The low alarm level,  
coil energization and latch status for low alarm are set first; high alarm level,  
coil energization and latch status for high alarm are then set. All ranges are in 10  
to 25%. Low Alarm levels and High Alarm levels will display if reached.  
Use to set the alarm level, coil status and latch status for the Low and High  
relays (Fault Alarm is fixed).  
The following table describes the default settings for the sensor.  
Table 4: Default Relay Settings  
Step 1:  
When Set Relay Options YES? displays press the Calibration  
Button or use the Reed Switch to select.  
The flashing YES confirms the selection.  
Relay Coil  
Alarm Levels  
Status  
Millennium  
Model Number  
Step 2:  
Step 3:  
The message Set Low  
displays. Low alarm set-points are displayed  
in increments of 1, beginning at 10 and cannot be set above 20.  
Low High  
Fault  
When the required level displays, press the Calibration Button or  
use the Reed Switch to select.  
The level chosen will flash to confirm the selection.  
MLP-A/AR/AD-  
ST1400  
(25%range)  
Step 4:  
Step 5:  
The message Coil Status  
displays. The display then shows  
Energized  
/Non-latching  
20% 22%  
*
*
Energized YES? and then De-Energized YES?  
Press the Calibration Button or use the Reed Switch to select.  
The flashing YES confirms the selection. If no selection is made, the  
Coil Status option is repeated.  
Step 6:  
Step 7:  
The message Latch Status  
displays. The display then shows  
Latching YES? and then Non-Latching YES?  
Press the Calibration Button or use the Reed Switch to select.  
The flashing YES confirms the selection. If no selection is made, the  
Latch Status option is repeated.  
Step 8:  
The message Set High displays.  
The High Alarm level must be set between 21 and 25. The High  
Alarm level is displayed in increments of 1 beginning at the Low  
Alarm set-point (as set in Step 3).  
Step 9:  
Repeat Steps 4 through 7 to complete the High Alarm level, coil  
and latch status settings.  
Note: If no selection is made, a 5 minute timer expires, in which case the unit  
returns to normal operation.  
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MODBUS OPTIONS  
ENTER RESTRICTED MENU  
The digital RS-485 Modbus RTU protocol is used. There are two Modbus  
options: Node Address and Baud Rate.  
The Restricted Menu allows you to set the Low Power Options.  
Step 1:  
Step 2:  
Step 3:  
Press and hold the Calibration Button or the magnet to the Reed  
Switch to enter the Main Menu; wait for the countdown, from 10 to  
0, to end.  
Node Address  
Each device connected to the chain must be assigned a unique node address (1-  
255). The last number in the address is selected first.  
When Enter restricted menu YES? displays press the  
Calibration Button or use the Reed Switch to select.  
The flashing YES confirms the selection.  
Step 1:  
When Modbus Setup? YES? displays press the Calibration Button  
or use the Reed Switch to select.  
The flashing YES confirms the selection.  
When Are you sure? YES? displays press the Calibration Button  
or use the Reed Switch to select.  
The flashing YES confirms the selection.  
Step 2:  
Step 3:  
The current node address will display Node: 000  
.
and press the Calibration  
Wait for the prompt New Address? YES?  
Set Low Power Options - Optional  
Button or use the Reed Switch to select.  
Two optional low power features are available to reduce overall power  
consumption. Use this option to:  
Step 4:  
Use the Calibration Button or Reed Switch to select each of three  
numbers in the new address:  
- select the last number in the address first: 0 thru 9.  
- select the next number in the address: 0 thru 9.  
- select the first number in the address last: 0 1 2 .  
• Dim the LED display although display will still be visible in most lighting  
conditions (default setting)  
• Disable the 4 to 20 mA analog output for applications requiring only relay  
output (default setting)  
Baud Rate  
Step 1:  
Step 2:  
Enter the Restricted Menu (refer to "Modbus Options" on page 16).  
The transmission speed must be defined.  
When Set Low Power Options YES? displays press the Calibration  
Button or use the Reed Switch to select.  
The flashing YES confirms the selection.  
Step 1:  
When Modbus Setup? YES? displays press the Calibration Button  
or use the Reed Switch to select.  
The flashing YES confirms the selection.  
Step 3:  
Step 4:  
When Lower Display Brightness YES? displays press the  
Calibration Button or use the Reed Switch to select or wait until  
Display Full Brightness YES? displays and select.  
Step 2:  
Step 3:  
Step 4:  
Step 5:  
Step 6:  
After setting the Node Address, the current Baud Rate will display  
XX.X BPS  
.
Wait for the prompt New Baud Rate? YES? and press the  
Calibration Button or use the Reed Switch to select.  
The flashing YES confirms the selection.  
When Disable 4 - 20mA O/P YES? displays press the Calibration  
Button or use the Reed Switch to select or wait until Enable 4 -  
20mA O/P YES? displays and select.  
The available baud rates will display: 2400s , 4800s , 9600s,14.4s  
19.2s , 28.8s , 38.4s , 57.6s .  
Use the Calibration Button or use the Reed Switch to select baud  
rate when it displays.  
,
The flashing YES confirms the selection.  
The flashing YES confirms the selection.  
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Non-standard O2 Levels  
SELECT DISPLAY LANGUAGE  
When levels >20.9 or <20.9 are detected, the display shows the oxygen level, in  
percent, on the left side of the display and the LED will blip green. Current output  
will vary, depending on the O2 level.  
Step 1:  
After the Restricted Menu the option Select Display Language  
YES? displays. Press the Calibration Button or use the Reed Switch  
to select.  
The flashing YES confirms the selection.  
If an alarm set-point is reached, the %O2 still displays to the left but a High  
Alarm or Low Alarm message will scroll to the right and the LED will blip/  
blink red. Current output will vary, depending on the O2 level.  
Step 2:  
When the required language displays (English , Espanol ,  
press the Calibration Button or use the Reed Switch to  
Francais  
select.  
)
Over range is reached if the O2 level exceeds 25%. The display shows  
<25%O2, the LED goes solid red and 20 mA is delivered.  
The flashing YES confirms the selection.  
Note: Factory default is English.  
Sensor Life  
ALARMS  
Depending on various factors, sensor response may slowly deteriorate over  
time. If calibration becomes impossible for any reason, the display will show  
Fail Cal , the analog output will switch repeatedly between 3.0 mA and 3.3  
mA and the Status LED alternates Red and Green flashes.  
Sensor Fault  
WARNING:  
The fault detection circuitry does not monitor the operation of external response  
equipment or the external wiring to these devices. It is important that these  
devices be checked periodically to ensure they are operational.  
RESET  
Manual Reset  
Self-testing circuitry continuously checks for problems that could prevent  
proper response. When power is applied, the microcontroller automatically tests  
the system to ensure that it is functioning properly. During normal operation, it  
continuously monitors the signal from the internal sensor source. In addition, a  
"watchdog" timer is maintained to ensure the program is running correctly.  
When a system fault is detected, the Status LED will Red Slow flash, the  
display show Sensor Fault and analog output change to 2.5 mA.  
A Manual Reset is required after a calibration failure or to clear a latched relay  
alarm. Simply place and hold the magnet against the Reed Switch or press and  
hold the Calibration Button for 3-5 seconds. The unit will return to normal  
operation using previous calibration values.  
Remote Reset  
If Relay Option is set to Latching (refer to "Setting Relay Options" on  
page 15) and an open Push Button Switch is connected between the RST  
terminal and the COM terminal on the Terminal Board, Remote Reset is  
possible. Also refer to "Remote Reset" on page 9 for details.  
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OUTPUTS  
STEP 7 — MAINTAIN  
Relays - Optional  
PERIODIC RESPONSE CHECK  
Note: The fault relay output is not used to activate an automatic shutdown  
procedure. The fault output indicates a potential problem with the  
Controller not an alarm condition.  
We recommend a typical response check or calibration is performed on the  
Millennium every 3 months. A typical response check involves the application  
of calibration gas to the sensor, then the observation of the response LEDs,  
analog output, display and external monitoring equipment. Be sure to prevent  
unwanted response of external monitoring devices and equipment during this  
procedure. If the Millennium response to calibration gas is within its specified  
accuracy then it is not necessary to perform a calibration. For example, when  
12% oxygen is applied, the response is expected to be between 10.4 mA (10%  
O2) and 12.96 mA (14% O2). An additional consideration is the accuracy  
tolerance of the calibration gas which may be + or - a few percent.  
Standard electro-mechanical relay outputs have Form C SPDT contacts rated  
5 Amperes at 30 V dc/ 250 V ac. Three relay outputs are available; one for  
Fault; one for Low alarm; and one for High alarm. All relays have normally  
open and normally closed contacts available at the output terminals.  
The fault relay is set for normally energized operation and is non-latching. If a  
system fault is detected, the fault relay becomes de-energized. The fault relay is  
factory set and cannot be altered. The Low alarm and High alarm relays can be  
selected for either normally energized or normally de-energized operation and  
latching/non-latching.  
TROUBLESHOOT  
Modbus  
Response to the input should be checked and, if necessary, calibration should be  
performed whenever any of the following occur. Refer to "Calibration  
Procedure" on page 13 for calibration instructions.  
Digital RS-485 Modbus RTU protocol is used.  
Register 40001 = % output (read only)  
Register 40002 = Status (read only)  
Register 40101 = Reset latched alarms (write)  
• Excess negative drift is indicated by 2.5 mA current output  
• Sensor or transmitter is connected or disconnected  
• Long term exposure or high concentration exposure to gas  
Note: Many registers are used by the controller. Please do not write outside  
The Millennium is not designed to be repaired in the field. If a problem should  
develop, first calibrate the device and carefully check for faulty wiring. If it is  
determined that the problem is caused by an electronic failure, the device must  
be returned to the factory for repair. Refer "How to Return Equipment" on  
page 19 for detailed instructions.  
the three registers.  
Current  
A 4-20 mA dc current output is used to transmit the alarm status and fault codes  
to other devices. This output can be wired for isolated or non-isolated operation.  
A 17.4 mA output indicates normal operation; a value >17.4 or <17.4 mA out-  
put indicates an abnormal amount of oxygen. Current output of 2.5 mA indi-  
cates the presence of a system fault.  
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SPARE PARTS/ACCESSORIES  
HOW TO RETURN EQUIPMENT  
Table 5: Part Numbering  
Description  
A Material Return Authorization number is required in order to return  
equipment. Please contact Net Safety Monitoring at (403) 219-0688 before  
returning equipment or consult our Service Department to possibly avoid  
returning equipment.  
Net Safety Part Number  
THSG-FULL-O2-SS  
THSG-FULL-O2  
Oxygen Sensor housing(light blue)  
Oxygen Sensor housing(light blue)  
Oxygen (O2) Sensor  
If you are required to return equipment, include the following information:  
ST1400-25  
PCBA-0252E  
FRO-001  
CCS-1  
Terminal Connector Board  
90 Degrees Rotation Plate  
Calibration Cup  
1. A Material Return Authorization number (provided over the phone to you  
by Net Safety).  
2. A detailed description of the problem. The more specific you are regarding  
the problem, the quicker our Service department can determine and correct  
the problem.  
Magnet-1  
Magnet assembly  
3. A company name, contact name and telephone number.  
4. A Purchase Order, from your company, authorizing repairs or request for  
quote.  
Transmitter for MLP series  
ML7-TX100  
c/w Display, Terminal & Input board  
Mechanical Relay Board for  
MLP series  
Option Board c/w connectors  
for Mechanical Relay board  
Electromechanical Relay Board  
c/w Option board  
5. Ship all equipment, prepaid to:  
ML7RS305  
ML7OP100  
Net Safety Monitoring Inc  
2721 Hopewell Place NE  
Calgary, Alberta, Canada  
T1Y 7J7  
ML7-ORL305  
ML7-MB100  
ML7 Modbus Output Board  
6. Mark all packages: RETURN for REPAIR  
FACE ROTATION OPTION  
In some applications, it is necessary for the Millennium Controller to be  
mounted in a non-standard orientation. To accommodate such installations and  
ensure that the display will appear at the correct angle for viewing, the PCB  
Assembly can be rotated inside the Controller.  
Waybills, for shipments from outside Canada, must state:  
Equipment being returned for repair  
All charges to be billed to the sender  
Figure 14: Non-standard Orientations  
Also, please ensure a duplicate copy of the packing slip is enclosed inside the  
box indicating item 1-4 along with the courier and account number for returning  
the goods.  
All Equipment must be Shipped prepaid. Collect shipments will not be  
accepted.  
Pack items to protect them from damage and use anti-static bags or aluminum-  
backed cardboard as protection from electrostatic discharge.  
Note: Ensure orientation allows for connections and excess wire within Controller  
Housing.  
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Rotate PCB Assembly  
Appendix A:  
1. Remove the Controller’s Housing Cover.  
2. Turn the power to the detector off.  
ELECTROSTATIC SENSITIVE DEVICE (ESD)  
Electrostatic discharge (ESD) is the transfer, between bodies, of an electrostatic  
charge caused by direct contact or induced by an electrostatic field.  
3. Unscrew both the knobs marked "Pull Here".  
4. Lift Controller faceplate from Housing and allow to hang from ribbon  
cable.  
The most common cause of ESD is physical contact. Touching an object can  
cause a discharge of electrostatic energy—ESD! If the charge is sufficient and  
occurs near electronic components, it can damage or destroy those components.  
5. Unscrew the two metal standoffs.  
6. Carefully remove the PCB Assembly from the Housing.  
7. The Rotator plate is secured to the bottom of the Housing and is accessible  
after the PCB Assembly has been removed.  
In some cases, damage is instantaneous and an immediate malfunction occurs.  
However, symptoms are not always immediate—performance may be marginal  
or seemingly normal for an indefinite period of time, followed by a sudden  
failure.  
8. Rotate the PCB Assembly to desired position and line up the standoffs with  
the mounting holes.  
9. Insert standoffs in the appropriate horizontal or vertical mounting holes.  
10. Tighten standoffs to secure PCB Assembly.  
11. Replace faceplate and tighten "Pull Here" knobs.  
12. Return power to detector and replace Housing Cover.  
To eliminate potential ESD damage, review the following guidelines:  
• Handle boards by metal shieldstaking care not to touch electronic  
components  
• Wear grounded wrist or foot straps, or ESD shoes or heel grounders to  
dissipate unwanted static energy  
• Prior to handling boards, dispel any charge in your body or equipment  
• Ensure components are transported and stored in static safe packaging  
• When returning boards, carefully package in the original carton and static  
protective wrapping  
• Ensure ALL personnel are educated and trained in ESD Control Procedures  
Vertical Mounting Holes  
(Insert Standoffs)  
Horizontal Mounting  
Holes  
(Insert Standoffs)  
In general, exercise accepted and proven precautions normally observed when  
handling electrostatic sensitive devices.  
A warning label is placed on the packaging, identifying product using  
electrostatic sensitive semiconductor devices.  
Ribbon cable  
Standoffs  
PCB Assembly  
Faceplate  
WARNING:  
See Appendix A, "Electrostatic Sensitive Device (ESD)", on  
page 20 for handling instructions of electronic components.  
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Appendix B: RESISTANCE TABLE IN OHMS  
Distance (Feet)  
100  
AWG #20  
1.02  
AWG #18  
0.64  
AWG #16  
0.40  
AWG #14  
0.25  
0.51  
0.76  
1.01  
1.26  
1.52  
1.77  
2.02  
2.27  
2.53  
3.16  
3.79  
4.42  
5.05  
5.68  
6.31  
AWG #12  
0.16  
0.32  
0.48  
0.64  
0.79  
0.95  
1.11  
1.27  
1.43  
1.59  
1.99  
2.38  
2.78  
3.18  
3.57  
3.97  
4.76  
5.56  
6.35  
7.15  
7.94  
8.73  
9.53  
10.30  
11.10  
12.00  
12.70  
14.30  
15.90  
AWG #10  
0.10  
0.20  
0.30  
0.40  
0.50  
0.60  
0.70  
0.80  
0.90  
1.09  
1.25  
1.50  
1.75  
2.00  
2.25  
2.50  
3.00  
3.50  
4.00  
4.50  
5.00  
5.50  
6.00  
6.50  
7.00  
7.49  
7.99  
8.99  
9.99  
AWG #8  
0.06  
0.13  
0.19  
0.25  
0.31  
0.38  
0.44  
0.50  
0.57  
0.63  
0.79  
0.94  
1.10  
1.26  
1.41  
1.57  
1.88  
2.21  
2.51  
2.82  
3.14  
3.46  
3.77  
4.08  
4.40  
4.71  
5.03  
5.65  
6.28  
200  
2.03  
1.28  
0.80  
300  
3.05  
1.92  
1.20  
400  
4.06  
2.55  
1.61  
500  
5.08  
3.20  
2.01  
600  
6.09  
3.83  
2.41  
700  
7.11  
4.47  
2.81  
800  
8.12  
5.11  
3.21  
900  
9.14  
5.75  
3.61  
1000  
1250  
1500  
1750  
2000  
2250  
2500  
3000  
3500  
4000  
4500  
5000  
5500  
6000  
6500  
7000  
7500  
8000  
9000  
10 000  
10.20  
12.70  
15.20  
17.80  
20.30  
22.80  
25.40  
30.50  
35.50  
40.60  
45.70  
50.10  
55.80  
61.00  
66.00  
71.10  
76.10  
81.20  
91.40  
102.00  
6.39  
7.99  
9.58  
4.02  
5.03  
6.02  
7.03  
8.03  
9.03  
10.00  
12.00  
14.10  
16.10  
18.10  
20.10  
22.10  
24.10  
26.10  
28.10  
30.10  
23.10  
36.10  
40.20  
11.20  
12.80  
14.40  
16.00  
19.20  
22.40  
25.50  
28.70  
32.00  
35.10  
38.30  
41.50  
44.70  
47.90  
51.10  
57.50  
63.90  
7.58  
8.84  
10.00  
11.40  
12.60  
13.91  
15.20  
16.40  
17.70  
19.00  
20.20  
22.70  
25.30  
Note: Resistance shown is one way. This figure should be doubled when determining closed loop resistance.  
MLP-A/AR/AD-ST1400-25  
21  
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Net Safety Monitoring Inc.  
Appendix C: SPECIFICATIONS  
SENSOR SPECIFICATIONS  
SENSOR ELEMENT  
Operating Temperature Range  
Range of Detection  
Response Time  
Oxygen O2 (ST1400)  
-20°C to +50°C (-4F to +122F)  
0 to 25%  
<15 seconds to T95  
Span Drift  
<5% of signal loss / year  
Enclosure Material  
Anodized / powder coated aluminum (optional stainless steel)  
CSA and NRTL/C certified for hazardous locations. Class I, Division 1, Groups C and D.  
IEC Rating Ex d IIB T6 NEMA 3R (Class 1, Zone 1, Grp IIB T6)  
Certifications  
Weight  
0.5 Kg (1.0 lb)  
CONTROLLER SPECIFICATION  
MILLENNIUM  
ANALOG  
ANALOG/RELAY  
ANALOG/DIGITAL  
Operating Temperature Range  
Power Consumption @ 24 V dc  
-20°C to +50°C (-4F to +122F)  
Nom 68 mA / 1.63 W  
Max 90 mA / 2.16 W  
Nom 75 mA / 2.0 W  
Max 108 mA / 2.6 W  
Nominal 125 mA/3.01 W  
Maximum 155mA/3.73 W  
Humidity Range  
0 to 99% relative humidity, non-condensing  
10.5 to 32.0 V dc  
Operating Voltage Range  
Enclosure Material  
Certifications  
Powder coated Copper Free Cast Aluminum (optional stainless steel)  
CSA and NRTL/C certified for hazardous locations. Class I, Division 1, Groups B, C and D. NEMA 4X.  
IEC Rating Ex d IIB+H2 T5  
Note: With any Type 4 enclosure (electronics only-sensor remotely mounted in Class I, Division 1 area with seals between  
sensor and electronics), CSA and NRTL/C certified for hazardous locations, Class 1, Division 2, Groups A, B, C and D.  
Weight  
3.2 Kg (7.0 lb)  
- 4 to 20 mA - Into a maximum loop impedance of 800 Ohms at 32 V dc or 150 Ohms at 10.5 V dc. Isolated or non-isolated loop supply.  
- Premium version - Form C contacts rated 5 Amps at 30 V dc / 250 V ac. Selectable energized / de-energized, latching/non-latching configurable low  
and high alarms. Fault relay is factory set as energized, non-latching and cannot be modified.  
Outputs  
Low Power Version - Form A contacts rated.2.5 Amps at 60 V ac/dc. Selectable energized / de-energized, latching/non-latching configurable low and  
high alarms. Fault relay is factory set as energized, non-latching and cannot be modified.  
- Digital RS 485 Modbus RTU Protocol  
MLP-A/AR/AD-ST1400-25  
22  
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Net Safety Monitoring Inc.,  
2721 Hopewell Place NE  
Calgary, Alberta, Canada T1Y 7J7  
Telephone: (403) 219-0688 Fax: (403)  
219-0694  
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