QUATROSENSE B5 User guide

B5/B5 IR-Probe

GAS TRANSMITTER/SENSOR

B5

IR-Probe

INSTALLATION

OPERATION AND MAINTENANCE

MANUAL

QUATROSENSE ENVIRONMENTAL LTD.

5935 OTTAWA STREET, PO BOX 749 (RICHMOND) OTTAWA, ONTARIO CANADA K0A 2Z0

PHONE: (613) 838-4005 FAX: (613) 838-4018

www.QELsafety.com

B5 Operation And Maintenance Manual

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READ BEFORE OPERATING ................................................................................................................... 2

1. SPECIFICATIONS .............................................................................................................................. 2

1.1 ELECTRICAL/MECHANICAL SPECIFICATIONS ........................................................................................... 2

1.2 SENSOR SPECIFICATIONS ......................................................................................................................... 4

2. INSTALLATION ................................................................................................................................. 6

2.1 ENCLOSURES PHYSICAL DIMENSIONS ..................................................................................................... 6

2.2 TERMINALS ............................................................................................................................................. 6

2.2.1 Wire and Cable ............................................................................................................................. 7

2.2.2 RS-485 Terminator ....................................................................................................................... 7

2.2.3 RS-485 Driver Replacement ......................................................................................................... 7

2.2.4 Relays Output ............................................................................................................................... 7

2.2.5 Note for B5: ................................................................................................................................ .. 8

2.2.6 Certification: ................................................................................................................................ 8

3. FUNCTION AND CONFIGURATION ............................................................................................. 9

3.1 INDICATORS ............................................................................................................................................ 9

3.1.1 RS485-TX/RX: ............................................................................................................................ 9

3.1.2 Relay 1-3 LED: ........................................................................................................................... 9

3.2 TOOL FUNCTION ................................................................................................................................... 10

3.2.1 Enter Main Menu........................................................................................................................ 10

3.2.2 Hush Buzzer and Relay ............................................................................................................... 10

3.2.3 Reset Latched/Hushed ................................................................ ................................................ 10

3.2.4 Reset MENU Password .............................................................................................................. 10

3.2.5 Exit Tool Mode ........................................................................................................................... 10

3.3 MAIN MENU TREE ................................................................................................................................ 11

3.4 MENU “1_SYSTEM SETUP” .............................................................................................................. 12

3.4.1 System Settings ........................................................................................................................... 12

3.5 MENU “2_ZERO CAL” ........................................................................................................................ 15

3.5.1 Equipment Required ................................................................................................................... 15

3.5.2 Zeroing Calibration Procedure .................................................................................................. 15

3.6 MENU “3_SPAN CAL” ........................................................................................................................ 16

3.7 MENU “4_OUT TEST” ........................................................................................................................ 17

3.8 MENU “5_VIEW SETTING” ............................................................................................................... 18

3.9 MENU “6_ALARM SETUP” ................................................................................................................ 19

3.10 MENU “7_RELAY STYLE” ............................................................................................................ 20

3.11 MENU “8_BUZZER STYLE” .......................................................................................................... 21

3.12 MENU “A_ALL DISABLE” ............................................................................................................ 21

3.13 MENU “B_SIMULATION” ............................................................................................................. 21

3.14 MENU “C_SITE SERVICE” AND “D_FACTROY SET” ................................................................. 21

4. BACNET PIC STATEMENT SUPPORTED BY B5 ...................................................................... 21

4.1 SMART SENSOR ASSEMBLY REPLACEMENT .......................................................................................... 22

4.1.1 Disassembling ............................................................................................................................ 22

4.1.2 Replacement Procedure ............................................................................................................. 22

4.1.3 Replacement Parts ...................................................................................................................... 23

4.1.4 Accessories ................................................................................................................................. 25

5. TROUBLESHOOTING .................................................................................................................... 26

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Input Power:

24VDC nominal, range 18 to 30VDC, 0.3A DC Total Max.
24VAC nominal, range 15 to 24VAC, 0.3A AC Total Max.

Fuse:

F2 on Main Board: Polyswitch 750mA
Polyswitch device resets after the fault is cleared and power to
the circuit is removed.

Sensor:

Combustible gases: Catalytic or NDIR
Toxic gases and Oxygen: Electrochemical
Carbon Dioxide: Non-Dispersive Infra-Red (NDIR)

Sampling:

Diffusion or Pump-through

READ BEFORE OPERATING

All individuals who have or will have the responsibility of using, maintaining, or
servicing this product must carefully read this manual. The product will perform as
designed only if it is used, maintained, and serviced in accordance with the
manufacturer’s instructions.

The B5 is a state-of-the-art transmitter that can operate as an independent, stand-alone
system or as part of an integrated system. Setup procedures are simplified with user
friendly push buttons and LCD menus.

The B5 and the B5 IR-Probe are the Q5 and Q5 IR-Probe with BACnet® MS/TP master
protocol. Therefore, the B5 and the B5 IR-Probe do not support the 4-20mA and VDC
analog output.

BACnet MS/TP protocol is a peer-to-peer, multiple master protocol based on token
passing. Only master nodes are allowed to send and receive tokens on the MSTP network.
Passive slave nodes on the other hand may only transmit data frames on the network in
response to a request from a master node. Passing the token represents overhead in the
sense that the messages used for managing the token do not carry data that is useful to
automation or monitoring.

The B5 and the B5 IR-Probe can be set to be a Master Node or a Slave Node in the field.
Factory default is slave node.

1. Specifications

1.1 Electrical/Mechanical Specifications

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Panel Indicators:

5 Status LED’s

 RS-485 TX Status (Green)
 RS-485 RX Status (Green)
 Relay1 Status (Red)
 Relay2 Status (Red)
 Relay2 Status (Red)

Display:

LCD graphic display c/w backlight

Keypad:

3 capacitive touch sensing Keys: F1, F2, F3

Relays:

3 Relays SPDT, Dry contacts

 1.0A maximum at 30 VDC (resistive load)
 0.3A maximum at 125VAC (resistive load)

Buzzer:

80 db at 10 cm, 2700 Hz
Buzzer 1, 2, 3: Programmable tone
Tone: chirp once / chirp twice / 50% duty cycle / constant ON

Output Signal:

BACnet® MS/TP master /slave protocol

Enclosure Rating:

IP 66 & NEMA 4, 4X, 12 & 13

Operating Temperature:

-40C to 70C, depends on sensor specification

Ambient Humidity:

5% to 95% RH (non-condensing)

Storage Temperature:

0C to 40C, depends on sensor specification

Size:

150mm X 90mm X 65mm

Weight:

Less than 0.5lbs

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Code

Gas

Symbol

Gas

Density

Span

Operating

Temperature

16

Methane

CH4

Lighter

0 - 100%LEL

-10C to +50C

17

Propane

C3H8

Heavier

0 - 100%LEL

-10C to +50C

18

Hydrogen

H2

Lighter

0 - 100%LEL

-10C to +50C

*19

Combustible

LEL

0 - 100%LEL

-10C to +50C

*20

Ethylene

C2H4

Slightly

Lighter

0 - 100%LEL

-10C to +50C

*21

Iso-Butane

C4H10

Heavier

0 - 100%LEL

-10C to +50C

*22

Iso-Pentane

C5H12

Lighter

0 - 100%LEL

-10C to +50C

*23

Methanol

CH3OH

Lighter

0 - 100%LEL

-10C to +50C

*24

Benzene

C6H6

Lighter

0 - 100%LEL

-10C to +50C

*25

Acetone

CH3CO

Lighter

0 - 100%LEL

-10C to +50C

*26

Butanol, n-Butane

BUTAN

Heavier

0 - 100%LEL

-10C to +50C

Code

Gas

Symbol

Gas

Density

Span

Operating

Temperature

0

Oxygen

O2

0 - 25%VOL

-30C to +55C

Code

Gas

Symbol

Gas

Density

Span

Operating

Temperature

1

Carbon Monoxide

CO

Slightly

Lighter

0 – 250ppm

-20C to +50C

1

Carbon Monoxide

CO

Slightly

Lighter

0 – 1000ppm

-20C to +50C

2

Hydrogen Sulfide

H2S

Heavier

0 – 25ppm

-20C to +50C

2

Hydrogen Sulfide

H2S

Heavier

0 – 100ppm

-20C to +50C

3

Sulphur Dioxide

SO2

Heavier

0 – 6ppm

-20C to +50C

5

Nitrogen Dioxide

NO2

Heavier

0 – 10ppm

-20C to +50C

6

Hydrogen

H2

Lighter

0 – 1000ppm

-20C to +50C

6

Hydrogen

H2

Lighter

0 – 2000ppm

-20C to +50C

7

Hydrogen Cyanide

HCN

Lighter

0 – 50ppm

-20C to +50C

9

Ammonia

NH3

Lighter

0 – 100ppm

-30C to +50C

9

Ammonia

NH3

Lighter

0 – 1000ppm

-30C to +50C

11

Ozone

O3

Heavier

0 – 1ppm

-20C to +40C

13

Chlorine

Cl2

Heavier

0 – 5ppm

-20C to +50C

14

Chlorine Dioxide

ClO2

Heavier

0 – 2ppm

-20C to +40C

96

Arsine

AsH3

Heavier

0 – 1ppm

-20C to +40C

1.2 Sensor Specifications

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97

Phosphine

PH3

Heavier

0 – 5ppm

-20C to +40C

97

Phosphine

PH3

Heavier

0 – 1ppm

-20C to +40C

98

Silane

SiH4

Heavier

0 – 50ppm

-20C to +40C

99

Germane

GeH4

Heavier

0 – 2ppm

-20C to +40C

100

Diborane

B2H6

Slightly

Lighter

0 – 2ppm

-20C to +40C

4

Nitric Oxide

NO

Slighter
Heavier

0 –100ppm

-20C to +50C

8

Hydrogen Chloride

HCl

Heavier

0 – 30ppm

-20C to +40C

12

Ethylene Oxide

ETO

Lighter

0 – 20ppm

-20C to +50C

101

Hydrogen Bromide

HBr

Heavier

0 – 30ppm

-20C to +40C

Code

Gas

Symbol

Gas

Density

Span

Operating

Temperature

15

Carbon Dioxide

IR-CO2

Heavier

0 – 5000ppm

-20C to +50C

15

Carbon Dioxide

IR-CO2

Heavier

0 – 5%VOL

-20C to +50C

15

Carbon Dioxide

IR-CO2

Heavier

0 – 20%VOL

-20C to +50C

15

Carbon Dioxide

IR-CO2

Heavier

0 – 100%VOL

-20C to +50C

16

Methane

IR-CH4

Lighter

0 – 100%LEL

-20C to +50C

16

Methane

IR-CH4

Lighter

0 – 100%VOL

-20C to +50C

*NOTE: Mounting Heights - Low = 9-18 inches (0.25-0.5 meters) from floor

- Mid = 4-6 feet (1.25-1.75 meters) from floor

- High = 9-18 inches (0.25-0.5 meters) from ceiling

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2. Installation

2.1 Enclosures Physical Dimensions

The enclosure is a NEMA 4 rated enclosure and can be wall mounted with 4 screws. To
maintain the NEMA rating, it is important that the conduit opening is sealed upon
installation.

2.2 Terminals

B5 Terminals

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2.2.1 Wire and Cable

Terminal blocks TB1 to TB7 accept 12 AWG to 24 AWG wire. Use 16 AWG or 18
AWG wire for the power supply in long wiring runs, which can be up to 1km (1,000
meters) long.

We recommend using BELDEN 9841 for communications. This wire has 120 ohm input
impendence, which will eliminate RS-485 communication problems.

2.2.2 RS-485 Terminator

The terminator on each end of the RS485 run is designed to match the electrical
impedance characteristic of the twisted pair wire, and will prevent signal echoes from
corrupting the data on the line. The terminator should be enabled on BOTH ends of the
RS485 run. Short and medium length ModBus/485 runs can operate without the
terminating resistor. Longer runs may require the terminating resistors. But adding
terminator dramatically increases power consumption.

Factory default setting is disabled terminator.
The B5 supplies this resistor on the main board, and it is chosen using a jumper at J4.

 J4 1-2: Terminator Disabled / OFF (default)
 J4 2-3: Terminator Enabled / ON

2.2.3 RS-485 Driver Replacement

RS-485 lines in heavy industrial environments are sometimes subjected to magnetic
disturbances causing sufficient inducted power surges to damage the driver integrated
circuit (IC). This IC (U6) has a socket on the circuit card for ease of replacement in the
field.

2.2.4 Relays Output

The B5 has three onboard programmable Single-Pole Double-Throw (SPDT) relays.
These relays can be used to control other equipment, such as fans, lights, horns, etc.
eliminating the need for a separate controller.

Three terminal blocks (TB1, TB2 and TB3) are located on the main board. Each relay can
be programmed individually.

Switching capability of each relay is:

 1.0 A maximum resistive load at 30 VDC

 0.3A maximum resistive load at 125VAC

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2.2.5 Note for B5:

The B5 supports BACnet MS/TP protocol and can be networked to form a BACnet
MS/TP network.

The B5 default baud rate is 38400bps.

Each B5 on the MS/TP network must have a unique BACnet MAC address and unique
Device Instance Number (Object ID).

 B5 valid MAC addresses are 0-127 for master node, 0-254 for slave node.

 B5 default MAC address is 126.

 Default Device Instance Number (Object ID) is 4005.

The B5 power supply and RS-485 connection are similar to the Q5. The B5 doesn't have
terminal blocks TB4 and TB6.

Avoid running communication wires or sensor input wires next to AC power wires or the
relay output wires. These can be sources of noise that can affect signal quality.

When the B5 input power is AC, the 24VAC can be either grounded or non-grounded.
Polarization is very important when the B5 is connected to a network. Make sure the
Neutral is connected to the GND of TB5.

2.2.6 Certification:

The Q5/B5 series have been certified to the following Standard:

Safety requirement for Electrical Equipment for Measurement, Control, and Laboratory Use­Part 1: General Requirements CAN/CSA-22.2 No. 61010-1 Third Edition, Dated May 11, 2012;
And
Safety Requirements for Electrical Equipment for measurement, Control, and Laboratory Use­Part 1: General Requirements UL 61010-1 Third Edition, Dated May 11, 2012.

Installation must be in accordance with ANSI/NFPA 70, National Electrical Code (NEC);
the
Canadian Electrical Code (CEC), Part I, CSA C22.1, and CSA C22.2 No. 0; and the

Manufacturers’ installation instructions

The Q5/B5 series have not been tested for Life Safety Applications and are not to be used in
Life Safety Applications in jurisdictions that require this certification.

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3. Function and Configuration

3.1 Indicators

The indicators consist of five LED’s – two to indicate RS-485 digital communication,
three to indicate the status of relays 1-3.

3.1.1 RS485-TX/RX:

When the B5 is connected to a controller system via RS-485, the traffic of the
communication can be monitored visually through the two RS-485 indicators. One is RX
LED, which indicates the data stream received in from the controller. The other is TX
LED, which indicates the data stream out of the B5.

Note: If the TX LED or the RX LED is always ON, is indicative of a communication
problem. See Troubleshooting for RS-485.

3.1.2 Relay 1-3 LED:

Indicate the status of each relay. When the relay is actuated/closed, the relay LED is ON.
When the relay is de-actuated/open, the relay LED is OFF.

Note: If you set the relay to be Normally Energized (Fail Safe), the relay LED will
turn ON at non-alarm state and turn OFF at alarm state, because the LED reflects
the relay coil status.

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3.2 Tool Function

Press key [F3] to enter tool functions that might be used frequently in the field.

3.2.1 Enter Main Menu

Press key [F1] to browse previous item of the current menu.
Press key [F2] to browse next item of the current menu.
Press key [F3] to enter the main menu for more configuration and settings.

3.2.2 Hush Buzzer and Relay

Press key [F3] to silence the buzzer and buzzer-style relays.

3.2.3 Reset Latched/Hushed

To acknowledge a latched condition or a hushed condition, press key [F3] to reset latched
relays and hushed buzzer for which the alarm condition has been removed. If the alarm
condition (e.g. high gas concentration) is still present the relay(s) will not reset.

3.2.4 Reset MENU Password

If you forgot the main menu password, you can reset the menu password to default
password “4321” by entering a correct active code. For the active code, contact QEL.

3.2.5 Exit Tool Mode

Press key [F3] to return to monitoring mode.

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3.3 Main Menu Tree

The main menu is password protected. Once the password is accepted, you are allowed
into the main menu tree.

Factory default password is 4321.
Note: While in the menu tree, all normal monitoring operations stop. The alarm

status does not change.

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Password:

Default password is 4321.

MAC

Address:

The B5 RS-485 address can be defined from 0 to 255. B5 default address is

126.

Object ID:

BACnet Device Instance Number. Default is 4005.

Baud rate:

Define baud rate for RS-485 communication with BACnet protocol.

B5 default baud rate is 38400 bps.

Scroll Rate:

In normal operation, the sensor and relay status information scrolls
automatically. Set the number of seconds for each item to be displayed.
Default value is 3 seconds.

Backlight:

The LCD backlight can be set to Always Off, Always On and Auto Power
Saving mode. In Auto Power Saving mode, the backlight will turn on for 10
seconds after any key has been pressed. Default setting is Always ON.

UTC Offset

The B5 supports the execution of the TimeSynchronization service and
UTCTimeSynchronization service. It indicates the number of minutes ( ­780 to +780) offset between local standard time and Universal Time
Coordinated. Default is +300 (US & Canada Eastern Time).

Daylight
Saving

It indicates whether daylight saving time is in effect (Enabled) or not
(Disabled) at the B5 location in UTCTimeSynchronization service.

Default is Enabled.

New
Password:

The new password can be any combination of up to four digits. Default
password is 4321.

Warning: Be sure that you record the new password in a safe and
secure location!

Protocol:

The B5 supports BACnet MS/TP master or slave protocol. Default is
MS/TP master.

3.4 Menu “1_SYSTEM SETUP”

The system setup subdivision contains general settings for monitor operations,
communications and 4-20mA calibrations.

3.4.1 System Settings

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Display
Mode:

 Display Instant: displays instantaneous gas concentration
 Display Average:

o Displays STEL (15min average reading)
o Displays TWA (8 hour average reading)
o Displays daily peak

 Display Alarm: displays alarm 1-8 status
 Display Relay: displays relay 1-3 status
 Display Buzzer: displays buzzer 1-3 status
 Display A-Out mA: displays current 4-20mA output
 Display A-Out VDC: displays current VDC output
 Display Clock: displays real time clock

If there is nothing to display, the unit will display “Running…”

Auto Zero:

When AutoZero is set to ON, the unit will gather the lowest reading in 7-day
period and set the unit into Zeroing Calibration mode so that the lowest
reading goes to zero. When AutoZero is set to OFF, the unit will not adjust
its own zero and work off the last manual or factory calibration. Default
value is OFF.

NOTE: AutoZero works best in situations where the building will
purge at night (or over a weekend) to a zero concentration of target gas.

Key
Beeper:

ON: Beeping when keypad is touched
OFF: No beeping when keypad is touched

Restore
Default:

Note: Don’t do this if you don’t have calibration gas and precision
reference instrumentation to calibrate the unit.

To load defaults to factory settings, to restore the unit to correct operation.
The settings below will be restored to default values:

-Password, -Baud rate, -Scroll rate, -Backlight, -Display mode, -Key beeper,

-LCD contrast, -Gas type on the Sensor Board, -Alarm settings, ­Relay/Buzzer settings, and 4-20mA/1-5VDC settings.

The unit needs to change the gas type if the sensor on the sensor board is not
the default gas type: CO, CH4 or O2. Contact QEL for instructions.

Zero and span calibrations are needed.

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ADJ Clock:

Adjust real time clock.

The B5 supports the execution of the TimeSynchronization service and
UTCTimeSynchronization service. The clock can be adjusted remotely.

ADJ
Contrast:

Adjust the LCD contrast. Valid values are between 10 (light) and 50 (dark).

Default is 21.

Check
Battery

The sensor board is equipped with a coin battery. This setting will enable or
disable the B5 to check the battery voltage and beep for a low battery level.

Default is ON.

Output

Priority:

Alarm output (BV) present_value and relay output (BO) present_value
support command prioritization. The B5 has priority #12 as default.

The lower the priority umber the more critical the nature of the output.
Priority #1 is considered the highest priority. Priority #16 is the lowest
priority.

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2_ ZERO CAL

CONTINUE?

XXPPM

3.5 Menu “2_ZERO CAL”

The B5 is calibrated using a two-point calibration process. First, use a “Zero Gas”, then

use a “CAL Gas” containing a known concentration of a standard reference gas, to set the

second point of reference.

3.5.1 Equipment Required

 A cylinder of Zero Gas, (clean air or nitrogen).
 A cylinder of Cal Gas
 Flow Limiting Regulator(s) 0.2 to 1.0 lpm
 Tubing

3.5.2 Zeroing Calibration Procedure

 “2_ ZERO CAL:”

 Press key [F3] and the device will show the calibration notice and then ask if you

want to continue. The middle line will display the current concentration.

 Apply the Zero Gas.
 Wait for about 3 minutes or until the reading is stable.
 Press key [F3] to confirm Zeroing Cal.
 When the device is in Zeroing CAL, it will take 3 seconds to 20 seconds to

complete.

 When the zeroing CAL operation is over, the device will display “Accepted” and

return to “2_ZERO CAL”.

 Make sure there is no Cal Error displayed. If Cal Error is reported, repeat the

procedures above. If the Cal Error is still showed up, the sensor may be expired.

 Remove the gas.
 Exit the menu to Monitoring Mode.

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3_ SPAN CAL

CAL GAS:
> XXX

CONTINUE?

XXPPM

3.6 Menu “3_SPAN CAL”

 “3_ SPAN CAL”

 Press key [F3] and the device will ask for the CAL GAS, input the concentration

of the calibration gas.

 Press key [F3] and the device will show the calibration notice and then show the

flow rate for the span calibration. Press any key to continue, and then the device
will ask you if you want to continue. The middle line will display the current
concentration.

 Apply the calibration gas.
 Wait for about 3 minutes or until the reading is stable.
 Press key [F3] to confirm SPAN CAL.
 When the device is in span cal, it will take 10 seconds to 1 minute to complete.
 When the span cal operation is over, the device will display “Accepted” and

return to “3_SPAN CAL”.

 Make sure there is no Cal Error displayed. If Cal Error is reported, repeat the

procedures above. If the Cal Error is still showed up, the sensor maybe expired.

 Remove the gas.
 Exit menu to Monitoring Mode.

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3.7 Menu “4_OUT TEST”

During system installation and testing, it may be necessary to force relays and buzzers on
and off.

The Relay Testing feature allows the user to force the actuation of each relay. This
function forces an Actuate vs. De-actuate action, not an energized vs. non-energized
action. Therefore the user must be aware of these relays, which have been defined as
normally energized or not normally energized.

The 4mA (1VDC/2VDC) and 20mA (5VDC/10VDC) outputs can be tested too.

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3.8 Menu “5_VIEW SETTING”

This function is to verify the settings for the alarms, relays, buzzers and analog outputs.

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Disabled or

Enabled:

Each alarm may be individually set to be enabled or disabled. If the alarm
is disabled, the alarm will not be used to calculate or trigger anything.

Default: Alarm 1 to Alarm 4 is enabled. Alarm 5 to Alarm 8 is
disabled.

Input:

One of five inputs is selected to calculate the alarm condition status to
trigger the selected outputs:

 INSTANT: instantaneous gas reading.
 15 MIN AVG (STEL): Short Term Exposure Limit, average

reading over 15 minutes.

 8 HOURS AVG (TWA): 8-hour Time Weighted Average, average

reading over 8 hours.

 DAILY PEAK: daily peak reading.
 FAULT: If the unit reports any faults, no matter the gas

concentration, it will trigger the selected outputs.

Alarm On

and

Alarm Off

Reading:

If Alarm On is greater than or equal to Alarm Off:

Alarm On: Sets the concentration at or above which the relay will actuate.

Alarm Off: Sets the concentration at or below which the relay will de­actuate.

If Action On is less than Action Off:

Action On: Sets the concentration below that the relay will actuate.

Action Off: Sets the concentration above that the relay will de-actuate.

Trigger:

Trigger Outputs: Relay 1, Relay 2, Relay 3, Buzzer 1, Buzzer 2, Buzzer 3

3.9 Menu “6_ALARM SETUP”

The B5 supports alarm 1 to alarm 8.

Alarm is a programmable condition that can receive a selectable input and trigger relays
and buzzers.

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Enabled:

Each relay may be individually set to be enabled or disabled. If it’s

disabled, the relay will always de-actuate no matter what the current gas
concentration.

Default is Enabled.

Normally

De­energized:

Each relay may be individually set to be normally energized or normally
de-energized.

Default is normally de-energized.

Latching:

Each relay may be set to latch in actuate status until acknowledged by a
front-panel action.

Default is Non-Latching.

ON Delay:

“Delay on Actuation” or “Delay on Make”. For each relay a separate time

delay may be set from 0 to 990 seconds before an alarm condition will
cause the relay to actuate.

Default is 5 seconds.

OFF Delay:

“Delay on De-Actuation” or “Delay on Break”. For each relay a separate
time delay may be set from 0 to 990 seconds before a return to a non­alarming signal condition will cause the relay to de-actuate.

Default is 5 seconds.

Style:

Normal Relay Style: Work as normal relay.

Buzzer Style Relay: When the relay is used to control a buzzer or horn.
Working as a buzzer style will make the relay have the same function as
the buzzer. It will be switched off when performing the Hush
Buzzer/Relay function in the Tool Menu.

Default is OFF.

3.10 Menu “7_RELAY STYLE”

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3.11 Menu “8_BUZZER STYLE”

The buzzer style is almost identical to that of the relays, except the style that represents
the buzzer tone options:

 Tone 1: Chirp once.
 Tone 2: Chirp twice.
 Tone 3: Intermittent 50% duty cycle.
 Tone 4: Continuous.

The menus are identical to those for the Relay Style.

3.12 Menu “A_ALL DISABLE”

This function is for calibration, system testing etc. When All Disable is ON, the status of
the relay, buzzer and analog output, etc., will freeze in their current state.

Default is OFF.

3.13 Menu “B_SIMULATION”

Simulation mode is used to assist in testing the installation before commissioning. When
simulation is enabled, the unit will not detect gas concentrations; it will display the
simulated value and use it to calculate the status of relays and buzzers. This feature is
available for evaluating the user settings and testing the installation (e.g.: the activation of
the valve, fan speed, relay set points, etc. can be verified.)

Any concentration between 0ppm and 9999ppm can be simulated.

3.14 Menu “C_SITE SERVICE” and “D_FACTROY SET”

Factory service staff access only. The customer has no need to operate it.

4. BACnet PIC Statement Supported By B5

See document: 85950-103-000 (B5 PIC Statement).

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4.1 Smart Sensor Assembly Replacement

4.1.1 Disassembling

Observe all safety and electrical codes and regulations before removing enclosure lid.

Important: Calibrate the transmitter whenever a component is replaced. But if you replace
a smart sensor assembly with a sensor onboard from QEL, you don’t need to recalibrate
the transmitter, as all the calibration information has been stored in the smart sensor
board in the factory process.

4.1.2 Replacement Procedure

To replace the entire smart sensor assembly, complete the following steps:

1. Power down the transmitter.

2. Remove the four screws securing the enclosure lid assembly to the base enclosure

and remove the enclosure lid assembly.

3. Remove the two screws securing the smart sensor board and remove the smart

sensor board from the lid assembly

4. Feed the O-ring over the sensor on the new smart sensor assembly

5. Plug the new smart sensor assembly and secure with two screws. Ensure that the

connectors are correctly matched. Incorrect installation may damage the sensor
assembly and/or the display board.

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4.1.3 Replacement Parts

Code

Gas

Symbol

Span

Smart Sensor Assembly

0

Oxygen

O2

0 - 25%VOL

85930-016-000

Code

Gas

Symbol

Span

Smart Sensor Assembly

16

Methane

CH4

0 - 100%LEL

85930-017-016

17

Propane

C3H8

0 - 100%LEL

85930-017-017

18

Hydrogen

H2

0 - 100%LEL

85930-017-018

*19

Combustible

LEL

0 - 100%LEL

85930-017-019

*20

Ethylene

C2H4

0 - 100%LEL

85930-017-020

*21

Iso-Butane

C4H10

0 - 100%LEL

85930-017-021

*22

Iso-Pentane

C5H12

0 - 100%LEL

85930-017-022

*23

Methanol

CH3OH

0 - 100%LEL

85930-017-023

*24

Benzene

C6H6

0 - 100%LEL

85930-017-024

*25

Acetone

CH3CO

0 - 100%LEL

85930-017-025

*26

Butanol, n-Butane

BUTAN

0 - 100%LEL

85930-017-026

Code

Gas

Symbol Span

Smart Sensor Assembly

1

Carbon Monoxide

CO

0 – 250ppm

85930-018-001

1

Carbon Monoxide

CO

0 – 1000ppm

85930-018-201

2

Hydrogen Sulfide

H2S

0 – 25ppm

85930-018-002

2

Hydrogen Sulfide

H2S

0 – 100ppm

85930-018-202

3

Sulphur Dioxide

SO2

0 – 6ppm

85930-018-003

5

Nitrogen Dioxide

NO2

0 – 10ppm

85930-018-005

6

Hydrogen

H2

0 – 1000ppm

85930-018-006

6

Hydrogen

H2

0 – 2000ppm

85930-018-206

7

Hydrogen Cyanide

HCN

0 – 50ppm

85930-018-007

9

Ammonia

NH3

0 – 100ppm

85930-018-009

9

Ammonia

NH3

0 – 1000ppm

85930-018-209

11

Ozone

O3

0 – 1ppm

85930-018-011

13

Chlorine

Cl2

0 – 5ppm

85930-018-013

14

Chlorine Dioxide

ClO2

0 – 2ppm

85930-018-014

96

Arsine

AsH3

0 – 1ppm

85930-018-096

97

Phosphine

PH3

0 – 5ppm

85930-018-097

97

Phosphine

PH3

0 – 1ppm

85930-018-297

98

Silane

SiH4

0 – 50ppm

85930-018-098

99

Germane

GeH4

0 – 2ppm

85930-018-099

100

Diborane

B2H6

0 – 2ppm

85930-018-100

B5 Operation And Maintenance Manual

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Code

Gas

Symbol Span

Smart Sensor Assembly

4

Nitric Oxide

NO

0 –100ppm

85930-018-004

8

Hydrogen Chloride

HCl

0 – 30ppm

85930-018-008

12

Ethylene Oxide

ETO

0 – 20ppm

85930-018-012

101

Hydrogen Bromide

HBr

0 – 30ppm

85930-018-101

Code

Gas

Symbol Span

Smart Sensor Assembly

15

Carbon Dioxide

IR-CO2

0 –5000ppm

85930-019-015

15

Carbon Dioxide

IR-CO2

0 – 5%VOL

85930-019-215

15

Carbon Dioxide

IR-CO2

0 – 20%VOL

85930-019-315

15

Carbon Dioxide

IR-CO2

0 – 100%VOL

85930-019-415

16

Methane

IR-CH4

0 – 100%LEL

85930-019-016

16

Methane

IR-CH4

0 – 100%VOL

85930-019-216

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4.1.4 Accessories

Pump-thru & Splash Guard Kit

Calibration Cap Kit

SKU#: 85930-006-000 SKU#: 85930-007-000

B5 Operation And Maintenance Manual

Duct Mount Adapter Kit Free stand or Duct mount IR-Probe
SKU#: 85930-040-000

Note: For Duct Mount Installation, B5 needs both the Pump-thru Kit and Duct Mount Kit.

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SYMPTOMS

PROBABLE CAUSE

SUGGESTED SOLUTION

RS-485
RX LED or
TX LED constantly ON

 RS-485 bus connection has a

problem

 RS-485 driver U6 is damaged
 Controller side RS-485 driver

has problem

 Disconnect the cable to isolate

the problem

 Replace U6 IC on main board
 Replace the RS-485 driver on

the controller

No response to gas

 Sensor screen is dirty
 Sensor has expired

 Clean sensor opening
 Replace smart sensor assembly,

see Replacement Parts

Apparent false alarm

 Puff of gas
 Not properly calibrated
 Solvent fumes or interference

from high levels of interfering
gas

 Radio frequency interference

 Monitor is functioning
 Recalibrate
 Remove source of interfering gas

 Check that grounding and

shielding is correct

5. Troubleshooting

This troubleshooting guide is intended as an aid in identifying the cause of unexpected
behavior and determining whether the behavior is due to normal operation or an internal
or external problem.

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WARRANTY STATEMENT

The information contained in this manual is based upon data considered accurate; however, no
warranty is expressed or implied regarding the accuracy of this data. All QEL equipment is
warranted against defects in material and workmanship for a period of two years from date of
shipment with the following exceptions:

Electrochemical Sensors (Toxic) Six Months
Catalytic Sensors (Combustible) One Year

During the warranty period we will repair or replace, at our discretion, any components or
complete units that prove, in our opinion, to be defective. We are not liable for consequential or
incidental damage to auxiliary interfaced equipment.

A returned material authorization number should be obtained from the factory prior to returning
any goods. All return shipments must be shipped freight prepaid and a copy of the maintenance
records should accompany the unit concerned.

Warranty should be considered F.O.B. the factory. Labour and travel time are chargeable for any
field site visits required for warranty work.

LIMITED LIABILITY
All QEL systems shall be installed by a qualified technician/electrician and maintained in strict

accordance with data provided for individual systems in the form of installation/maintenance
manuals. QEL assumes no responsibility for improper installation, maintenance, etc., and
stresses the importance of reading all manuals. QEL shall not be responsible for any liability
arising from auxiliary interfaced equipment nor any damage resulting from the installation or
operation of this equipment.

QEL’s total liability is contained as above with no other liability expressed or implied, as the
purchaser is entirely responsible for installation and maintenance of systems.

This warranty is in lieu of all other warranties, expressed or implied, and no representative or
person is authorized to represent or assume for QEL any liability in connection with the sales of
our products other than that set forth herein.

NOTE: Due to on-going product development, QEL reserves the right to change

specifications without notice and will assume no responsibility for any costs as a
result of modifications.

For further information or assistance, contact:

QUATROSENSE ENVIRONMENTAL LTD.

5935 Ottawa Street, PO Box 749
Richmond, Ontario
K0A 2Z0
Tel: (613) 838-4005
Fax: (613) 838-4018
Email: QEL@QELsafety.com

Web: www.QELsafety.com

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