LumaSense technologies Innova Type 1314i User manual
BE6043-16
Instruction
Manual
Stand Alone Multipoint
System
Instruction Manual
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Index
Index................................................................................................................................... 2
1.0 Introduction ................................................................................................................. 4
2.0 Connecting the 1409 to the Gas Monitor .......................................................................... 4
3.0 Set-up from the Gas Monitor Front Panel ......................................................................... 6
3.1. Introduction ............................................................................................................. 6
4.0 Set-up the Gas Monitor................................................................................................ 10
4.1 Set up a monitoring task........................................................................................ 10
4.2 Set-up concentration units...................................................................................... 11
4.3 Set-up Environment............................................................................................... 11
4.4 Set-up Alarm Limits.............................................................................................. 12
5.0 Setting up the Analog/Relay interface module................................................................. 15
5.1 Analog output connector. ....................................................................................... 16
5.2 Relay output connector Gas Mode............................................................................ 17
5.3 Relay output connector Channel Mode...................................................................... 18
6.0 Set-up the Multipoint Sampler Type 1409 ...................................................................... 18
7.0 Starting a Monitoring Task ........................................................................................... 18
8.0 Viewing data using the Gas Monitor............................................................................... 21
8.1 Viewing Measurement Data .................................................................................... 21
8.2 Viewing Alarm log Data.......................................................................................... 22
9.0 Display the Homepage of the gas monitor..................................................................... 23
10.0 Use BZ7007 to Upload data to a PC. ........................................................................... 24
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Copyright © 2018
LumaSense Technologies A/S
All rights reserved. No part of this publication may be reproduced or distributed in
any form or by any means without prior consent in writing from LumaSense
Technologies A/S, Denmark
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1.0 Introduction
The Stand Alone Multipoint System is a system comprising a Gas
Monitor (Innova Type 1314i, 1412i, 3434i or 1512) and a Multipoint
Sampler Innova Type 1409.
In some situations, it may be an advantage to have the system to
perform measurements without having the instrument online connected
and controlled from a PC.
In the Stand Alone Multipoint System, the Gas Monitor is the system-
controlling device.
The System can be set-up either from the Gas Monitor’s front panel or
by using the Remote and Offline Software BZ7007. The BZ7007 Remote
and Offline Software can be used to retrieve data from the system
either directly connected via a USB cable or through a LAN network via
the Ethernet connection.
For further information and guidance in how to use the BZ7007 Remote
and Offline Software, please consult the User manual BE6042 supplied
with the Software.
The present manual describes how to set-up the Stand Alone Multipoint
System Using the Gas Monitors front panel.
2.0 Connecting the 1409 to the Gas Monitor
Cable connection:
The 1409 is connected to the Gas Monitor by the USB interface, over
which the 1409 receives the commands and data, which control it (see
Figure 1). For further information about the cables available from
LumaSense to connect the 1409 to the Gas Monitor and about the USB
interface of the 1409, Please refer to User Manual BE6037 supplied with
the Type 1409.
Tube connection
The 1409 is connected via tubing to:
The sampling points;
Examples are shown in Figure 1 and Figure 2.
Note: the performance of the 1409’s sampling system is dependent on
the type of external pump (optional) used and the length and diameter
of the sampling tubing.
Tubing for use with the 1409 is available from LumaSense:
polytetrafluoroethylene (PTFE), 50m roll, accessory number AF0614.
Using this tubing material minimizes the risk of gases being adsorbed
onto the tube’s surface, which would result in inaccurate measure-
ments.
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To prevent dust from entering the tubing and instruments it is
recommended to use external filters at the sampling points. LumaSense
have the following filter options DS2306 or UD5023 (see Figure 2).
WARNING! Avoid water condensation in the instrument.
Liquids must be prevented from entering the instrument. It is therefore
important that warm humid gases are not drawn into a cold instrument
because condensation will take place. If such a situation is likely to
occur, you must ensure that the gases are drawn through water-trap
filters before they enter the sampler channels of the 1409. The In-line
Genie Membrane Separator (LumaSense order no. UA1365 see Figure
2) avoids condensation in the measuring instruments. For further
information please consult BE6037 supplied with the Type 1409.
•to the Gas Monitor being used to analyse the gases that are sampled;
This connection uses the same tubing (PTFE, LumaSense No. AF0614)
as for the sampling tubes. The tubing is connected to the Outlet to
Analyzer stub on the rear panel of the 1409, and to the Air Inlet stub
on the rear panel of the Gas Monitor (see Figure 1).
For further information, please consult BE6037 supplied with the Type
1409.
•to the external pump (optional).
The Waste Air Outlet stub, next to the Outlet to Analyzer stub, on
the rear panel of the 1409, connects the external pump (optional) to the
1409’s sampler system see Figure 1. If you do not wish the waste air
from the pump to mix with the air in the room where the 1409 is
positioned, connect a length of PTFE tubing (LumaSense no. AF0614) to
the waste air outlet stub on the external pump and direct the tubing to a
suitable exhaust-point.
Figure 1. Tube and Cable connection with connection to an external
pump.
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Figure 2. Tube connection with: Dust filter DS2306, UD5023 and Genie
Membrane Separator UA1365.
3.0 Set-up from the Gas Monitor Front Panel
3.1. Introduction
The set-up from the front panel is schematically described in the Quick
Set-up Guide see Figure 3.
The Gas-Monitor Set-up branch and all functions available in this part of the Set-
up Guide is described in details in the Gas Monitor Instruction Manual
(BE6030 for Type 1314i, BE6025 for Type 1412i , BE6028 for Type
3434i and BE6049 for Type 1512) supplied with the Gas Monitor. Please
consult the Gas Monitor User manual for further description and
guidance in the use of the Gas Monitor Set-up, start and stop
measurements, store data in Memories etc. The Gas Monitor User
Manual also gives an in depth description of all front panel keys. It is
recommended to get familiar with these keys and set-up menu in the
Gas Monitor branch using the Gas Monitor manual before starting
setting up a Stand Alone Multipoint System.
The Analog/Relay branch is only available for Type 1314i and 1512 with an
Analog/Relay Module UA1373 for 1314i and UA1374 for 1512 installed
in the Monitor from the factory. If a UA1373 (1314i) or UA1374 (1512)
Module is not installed this branch will not be visible in the Set-up Menu
on the Gas Monitor.
The Multipoint Sampler branch becomes available in the Gas Monitor’s set-up
menu when a Type 1409 is connected to the Gas Monitor via the USB
Host interface.
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Please Notice: When the Gas Monitor is set-up to be the system
controller in the Stand Alone system with a Type 1409 the print
functionality as described in the Gas Monitor User manual Chapter 10 is
disabled.
Data logging is still available.
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Figure 3. Quick Set-up Guide
Please Note:
The Analog/Relay branch is only available when an Analog/Relay Module is installed in a Type 1314i (UA1373) or in a Type 1512(UA1374).
The Multipoint Sampler branch is only available if a Type 1409 is attached to a Gas Monitor (Type 1412i, 3434i, 1314i or 1512)
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4.0 Set-up the Gas Monitor.
Before any measurements can be performed, the Gas Monitor is to
be set-up.
For detailed descriptions, please consult the User Manual Supplied
with the Gas Monitor. The monitor is to be equipped with optical
filters and calibrated with the preselected SIT (sample Integration
Time) to be used for all the gases to be measured before a
measurement set-up can be performed.
4.1 Set up a monitoring task
To set up a Monitoring Task press the SET-UP key on the front panel
now follow the branches in the Quick Set-up Guide in Figure3the
text on screen indicating which of the push-buttons can and should
be pressed. For a more detailed description of these keys than given
below, please consult the Gas Monitor’s User Manual.
In general, the push-buttons shown below are used to navigate
through the various modes possible within the Set-up menu.
These select push-buttons enable you to select one of the options
displayed.
This group of 5 push-buttons on the Monitor’s front panel are
referred to as the direction keys.
▲& ▼enable you to increase & decrease numbers, respectively, or
to go to the Previous & Next Displays, respectively.
◄& ►enable you to move across number fields or go to the
Previous & Next gases, respectively.
↵
, depending on the situations, acts as an “Enter” or “Go To Head”
key.
S1 S2 S3
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By using the keys described above follow the path:
1) Press the SET-UP key on the front panel
2) Select Gas Monitor
3) Select Measurement
4) Select Monitoring Task
Now You are in the Monitoring task set-up menu. By following this
path select Gases to be measured, if Water Vapor Interference
and/or cross interference compensation is to be performed.
In the Monitoring task menu it is also possible to select whether
the sampling should run continuously (as fast as possible) or with
a defined sequence interval. The sequence interval is the time
between the end of one sequence and the start of the next one.
Please be aware to set-up the Monitor to Store Measurement
History if all measurement values are to be stored in the Memory.
If the Store History it set to NO only the last measured, value is
stored.
4.2 Set-up concentration units
The default units are:
- Humidity: mg/m3
- Pressure: kPa
- Gas Concentration: mg/m3
- Length: m
- Temperature: K
These units can be changed :
1) Press the SET-UP key on the front plate.
2) Following the Quick Set-up guide (Figure 3) and the text on the
display select Gas Monitor…Configuration…Units.
Now You are in the unit set-up menu. Select the desired units for the
measurement task.
If mg/m3is to be used remember to select the Normalization
Temperature in the Environment branch see section 4.3.
4.3 Set-up Environment
In the Environment set-up menu the tube flush set-up can be defined.
1) Press the SET-UP key on the front plate.
2) Following the Quick Set-up guide (Figure 3) and the text on the display
select Gas Monitor…Measurement…Environment.
3) In the Environment set-up menu. Select the desired Flushing mode.
Auto: the tube length is to be define
Fixed time: the chamber- and tube-flush times are to be defined.
The minimum and maximum values for the tube flush settings are:
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Default
Minimum
Maximum
Flushing
Auto
Auto
Tube Length
1 meter
0 meter
99 meter
Fixed Time
Chamber flush
time
8 seconds
2 seconds
60 seconds
Tube flush time
3 seconds
3 seconds
120 seconds
4) Select the Normalization temperature
The default Normalization temperature is 20˚C. You can select between
0˚C, 20˚C and 25˚C.
4.4 Set-up Alarm Limits
4.4.1. Alarm limits for a monitor without the Analog/Relay Module
UA1373 or UA1374
The alarm limits of a gas are those concentrations of gas which
should activate any alarm relay connected to the Monitor via its back
panel “Alarm Relay” socket. There are two different alarm relays,
which function slightly differently. Details of these relays and the way
in which they function is described in Chapter 4.4.2.The alarm level
parameters are found in the Gas Monitor…Configuration…Filters
branch of the Set-Up Tree (see Figure 3).
Warning! If the UA number for any filter is changed here, then all
the calibration data for that filter will be lost and the filter will need
to be recalibrated.
Follow the Set-up tree in Figure 3 until the following is displayed:
CHECK AND/OR CHANGE SET-UP FOR FILTER A
NO YES
1. Use the select push-buttons to ignore this filter or to select this
filter if alarms are to be set.
2. Press 5 times until the following text is displayed.
GAS A HIGH ALARM LIMIT 1 _________mg/m3
PRESS ENTER TO CHANGE VALUE
3. Use the direction push-buttons to set the alarm concentration.
If you do not wish to activate the alarm function for a particular
gas, select the DEFAULT. This will “blank out” the alarm level
value for the gas and deactivate the alarm for that gas.
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GAS A HIGH ALARM LIMIT 2 _________mg/m3
PRESS ENTER TO CHANGE VALUE
4. Repeat to set the alarms for the other filters.
5. Press SET-UP to exit the alarm set-up.
4.4.2. Alarm Relay
Two alarm relays are built into the alarm relay socket on the back
panel of the Gas Monitor. The Alarm signals are given by opening
and closing the relay contacts. Both relays are closed when the
Monitor is measuring. This means that there is a direct electrical
connection between the defined pins during measurement except
when the Monitor measures a gas concentration which is greater
than the corresponding alarm limit for the gas. When this
concentration is measured, the Monitor breaks the connection
between the pins. The monitor will furthermore activate the
internal beeper and write the following message on the display:
The user can switch off the beeper and the message by pressing
INFO or RESET push-button on the front-panel of the Gas
Monitor.
The alarm relays will continue being activated until all measured
gas concentrations fall below their user-defined alarm limit(s).
Alarm Relay 1:
Alarm Relay 1: correspond to High Alarm Limit 1.
Pin 1 and 2 are Normally closed
Pin 1 and 3 are normally open, see Fig.4
Whenever one or more gases exceed the corresponding high alarm
limit 1, the Monitor breaks the electrical connection between pins 1
& 2 and make electrical connection between pins 1 and 3.
See Fig.5
Alarm Relay 2:
Alarm Relay 2: correspond to High Alarm Limit 2.
Pin 4 and 6 are normally closed
WARNING: ALARM LIMIT EXCEEDED
CH(no) GAS (Filter A,B…W) Meas.concentration
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Pin 4 and 5 are normally open, see Fig.4
Whenever one or more gases exceed the corresponding high alarm
limit 2, the Monitor breaks the electrical connection between pins 4
& 6 and make electrical connection between pins 4 and 5. See
Fig.5
The alarm relay is furthermore activated during the following
conditions:
•Power off.
•If a measurement task is not running.
•During calibration.
LumaSense supplies a 6-pin DIN plug (male) with a locking collar
JP0600 for connecting external alarm devices to the alarm relay.
Caution:
The DC voltage across the relay contacts must not exceed 25V. The
potential on the relay contacts must not be more than 25VDC above
chassis potential, as this will cause an excessive leakage current. The
current through the contacts must not exceed 100mA. AC voltages
must not be connected to the Alarm Relay socket.
Fig.4Configuration of the pins in the alarm relay socket
Figure 5 Function of the alarm relays
Condition
pin 1 - 2
pin 1 - 3
pin 4 - 5
pin 4 - 6
Power off
1
0
1
0
initializing
1
0
1
0
Ready for use
1
0
1
0
Calibration
1
0
1
0
Measurement running
1
0
0
1
Alarm limit 1 exceeded
0
1
0
1
Alarm limit 2 exceeded
0
1
1
0
1 = closed and 0 = open
Alarm relay 1
Pin 1, 2 and 3
Alarm Relay 2
Pin 4, 5 and 6
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4.4.3. Alarm limits for 1314 with the Analog/Relay Module UA1373 and
for 1512 with Analog/Relay Module UA1374
The Analog/Relay Module UA1373/UA1374 is installed in the Gas
Monitor from the factory.
The Analog/Relay Branch will now appear in the Set-up structure
as shown in Figure 3.
Following the set-up guide in Analog/Relay Output Mode there are
two possibilities.
Gas Mode : the behaviour of the relays will be according to the one
shown in Figure 6below.
Figure 6 Gas Mode Alarm Relay Settings
Gas
Relay
Alarm Limit
A
1
1
A
2
2
B
3
1
B
4
2
C
5
1
C
6
2
D
7
1
D
8
2
E
9
1
E
10
2
W
11
1
W
12
2
Channel Mode: In this part of the set-up structure, it is possible to
select the Alarm setting (Alarm limit 1 or 2) for each Multipoint
Sampler Channel and combine with appropriate Relay or select
“none” not to have a relay activated at that Channel.
5.0 Setting up the Analog/Relay interface module
When the UA1373 is installed in the 1314i or the UA1374 is installed
in the 1512, the following additions will be available in the Set-up
menu: Units for analog output, analog output scaling and selection of
Relay output mode and limits for Relay output.
Before the UA1373/UA1374 can be used, the Analog output units,
Analog concentration limits and the relay output limits parameters
must be entered.
Please note that these set-up menus only are available, when the
UA1373/UA1374 is installed in the instrument.
The set-up of the Analog/Relay interface Module can be performed
either from the Front Panel of the Gas Monitor or by using the
BZ7007 Remote and Offline SW. Please consult the BZ7007 User
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Manual (BE6042) for guidance in using the Remote and Offline
Software to set-up the Analog/Relay Module.
Consult the User Manual for UA1373 and UA1374 (BE6032) when
set-up using the Front Panel of the Gas Monitor is performed. For
further instructions in the use of the front panel for set-up, please
consult the Gas Monitor user manual.
5.1 Analog output connector.
Analog output connector.
D-sub pin
No.
Description
32
R13 COMMON
Error/Warning
Detected
# Background information
in display
33
R13 NO
34
R13 NC
35
R14 COMMON
Watch Dog detected
# Background information
in display
36
R14 NO
37
R14 NC
20
Analog GND
Filter A
21
CO1
22
Analog GND
Filter B
23
CO2
24
Analog GND
Filter C
25
CO3
26
Analog GND
Filter D
27
CO4
28
Analog GND
Filter E
29
CO5
30
Analog GND
Filter W
31
CO6
1
Analog GND
Filter A
2
VO1
3
Analog GND
Filter B
4
VO2
5
Analog GND
Filter C
6
VO3
7
Analog GND
Filter D
8
VO4
9
Analog GND
Filter E
10
VO5
11
Analog GND
Filter W
12
VO6
13
CO7
Channel information
14
Analog GND
15
VO7
16
CO8
Barometric Pressure
17
Analog GND
18
VO8
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5.2 Relay output connector Gas Mode.
Relay output connector Gas
Mode.
D-sub pin
No.
Description
1
R1 COMMON
Filter A limit 1
2
R1 NO
3
R1 NC
4
R2 COMMON
Filter A limit 2
5
R2 NO
6
R2 NC
7
R3 COMMON
Filter B limit 1
8
R3 NO
9
R3 NC
10
R4 COMMON
Filter B limit 2
11
R4 NO
12
R4 NC
13
R5 COMMON
Filter C limit 1
14
R5 NO
15
R5 NC
16
R6 COMMON
Filter C limit 2
17
R6 NO
18
R6 NC
19
Not used
Not used
20
R7 COMMON
Filter D limit 1
21
R7 NO
22
R7 NC
23
R8 COMMON
Filter D limit 2
24
R8 NO
25
R8 NC
26
R9 COMMON
Filter E limit 1
27
R9 NO
28
R9 NC
29
R10 COMMON
Filter E limit 2
30
R10 NO
31
R10 NC
32
R11 COMMON
Filter W limit 1
33
R11 NO
34
R11 NC
35
R12 COMMON
Filter W limit 2
36
R12 NO
37
R12 NC
VO: Voltage output.
CO: Current output.
NO: Normally opened.
NC: Normally closed.
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5.3 Relay output connector Channel Mode.
In Channel Mode the Channel-Relay-Alarm Limits are to be
correlated.
Number of Channels is dependent on the Type 1409 (from 6 to 24
Channels).
For each Channel, a Relay can be selected or it can be set to None
Meaning no relay will be ticked. For the selected Channel relay
combination it is then to be determined if the Alarm limit 1 or Alarm
limit 2 is to be used. Be aware that any Gas in the Gas Monitor Set-
up with a 1 or 2 alarm limit will ticker the alarm relay.
6.0 Set-up the Multipoint Sampler Type 1409
When a Multipoint Sampler Type 1409 is connected via USB the
Multipoint Sampler set-up branch (see Figure 3) becomes active on
the Monitor display.
Go to the Multipoint Sampler branch. Select YES meaning that the
Gas Monitor is to be the System controller for the Stand Alone
System. If NO is selected the system is to be controlled using the
7880 Application Software.
After selecting YES the menu now allows You to decide which of the
Multipoint Sampler Channels are to be active (connected to a
sampling point via tubing’s).
7.0 Starting a Monitoring Task
Monitoring tasks can be started in two ways. They can be started
immediately, or set to start at a pre-set time. The duration of the
monitoring sequence can also be determined. A monitoring task can
continue until it is stopped manually, or at a pre-set time.
There is a limit to the duration of a monitoring task. There is only a
finite amount of memory in the monitor.
The total space available in the Display Memory to store data is
131072 measurement cycles.
7.1 Stand-alone Use – using the Front Panel Push-
buttons
Before a monitoring task is started, the set-up must be completed:
Before any monitoring task is started, all data stored in the Monitor’s
Display Memory is removed (cleared). The Display Memory is where
the Monitor stores the results of all measurements while it is
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performing a monitoring task. However, the data in Display Memory
can be copied into and stored in the Monitor’s Background Memory.
For further details on the Gas Monitor Memories and handling please
refer to the User Manual supplied with the Gas Monitor.
Please be aware that the finite memory capacity includes both the
Display and Background Memory.
When you start a new monitoring task the following warning is
displayed WARNING: DISPLAY MEMORY WILL BE DELETED to
remind you to store any data that is presently stored in the Display
Memory, any data already stored in Display Memory will be deleted
when a monitoring task is started.
Press MEASURE on the Front Panel and follow the text that
appears on the screen to start the measurement.
Please note: if you do not use one of the “select” keys within a
short time after the above text appears, the Monitor will
automatically stop operating in Measure mode (the light-emitting
diode in the MEASURE key switches off). If this happens, just press
MEASURE again.
5. To start the measurement immediately, press S1.
To delay the start, press S2.
The following warning then appears on the display:
ACTIVE TASK : MONITORING TASK NUMBER 1
START TASK DELAYED TASK CHANGE TASK
ACTIVE TASK : MONITORING TASK NUMBER 1
START TASK DELAYED TASK CHANGE TASK
WARNING : DISPLAY MEMORY WILL BE DELETED
PROCEED STOP
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1. Press S1.
Delayed Start
If you selected a delayed start, the following text is displayed:
Use the direction push-buttons to enter the desired date and start
time, e.g. 10 16:25. The following text is displayed.
When the monitoring task starts, the screen will change and
display the same messages as those displayed when a monitoring
task starts immediately.
Immediate Start
If you selected an immediate start, the following text appears on
the screen:
MEASUREMENT IN PROGRESS
RESULTS NOT YET AVAILABLE
START TIME : 1 00 : 00
PRESS ENTER TO CHANGE VALUE
ACTIVE TASK : MONITORING TASK NUMBER 1
TASK WILL START AT : 10 16 : 25 TIME 16 : 00
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