RKI INSTRUMENTS M2A Stand Alone Transmitter Instruction Manual

RKI INSTRUMENTS M2A Stand-Alone Transmitter

• Part Number: 71-0649
• Revision: P1
• Released: 11/17/23

RKI Instruments, Inc. www.rkiinstruments.com

WARNING
Read and understand this instruction manual before operating the instrument. Improper use of the gas monitor could result in bodily harm or death. Periodic calibration and maintenance of the gas monitor is essential for proper operation and correct readings. Please calibrate and maintain this instrument regularly! The frequency of calibration depends upon the type of use you have and the sensor types. For most applications, typical calibration frequencies are between 3 and 6 months but can be more often or less often based on your usage.

Product Warranty

RKI Instruments, Inc. warrants gas alarm equipment sold by us to be free from defects in materials, workmanship, and performance for one year from the date of shipment from RKI Instruments, Inc. Any parts found defective within that period will be repaired or replaced, at our option, free of charge. Parts must be returned to RKI Instruments, Inc. for repair or replacement. This warranty does not apply to those items which by their nature are subject to deterioration or consumption in normal service, and which must be cleaned, repaired, or replaced on a routine basis. Examples of such items are:

• Absorbent cartridges
• Fuses
• Pump diaphragms and valves
• Batteries
• Filter elements

Warranty is voided by abuse including mechanical damage, alteration, rough handling, or repair procedures, not by an instruction manual. This warranty indicates the full extent of our liability, and we are not responsible for removal or replacement costs, local repair costs, transportation costs, or contingent expenses incurred without our prior approval. THIS WARRANTY IS EXPRESSLY INSTEAD OF ANY AND ALL OTHER WARRANTIES AND REPRESENTATIONS, EXPRESSED OR IMPLIED, AND ALL OTHER OBLIGATIONS OR LIABILITIES ON THE PART OF RKI INSTRUMENTS, INC. INCLUDING BUT NOT LIMITED TO, THE WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL RKI INSTRUMENTS, INC. BE LIABLE FOR INDIRECT, INCIDENTAL, OR CONSEQUENTIAL LOSS OR DAMAGE OF ANY KIND CONNECTED WITH THE USE OF ITS PRODUCTS OR FAILURE OF ITS PRODUCTS TO FUNCTION OR OPERATE PROPERLY. This warranty covers instruments and parts sold to users only by authorized distributors, dealers, and representatives as appointed by RKI Instruments, Inc. We do not assume indemnification for any accident or damage caused by the operation of this gas monitor and our warranty is limited to the replacement of parts or our complete goods. The warranty covers parts and labor performed at RKI Instruments, Inc. only, and does not cover field labor or shipment of parts back to RKI.

Introduction

Overview
This chapter briefly describes the 65-2646XL0504SS M2A Transmitter. This chapter also describes the 65-2646XL0504SS M2A Transmitter Operator’s Manual (this document). Table 1 at the end of this chapter lists the specifications for the M2A.

About the M2A Transmitter
The M2A transmitter is a fixed mount, continuous-monitoring detector head. All user-adjustable parameters may be accessed using push button switches. In addition, calibration may be performed non-intrusively by use of a magnetic wand accessory which activates magnetic switches through a window at the front face of the detector head. The M2A displays the current gas reading on an OLED display which is visible through the window in the cover (front face) and provides a 4 – 20 mA signal which indicates the target gas reading for use by a gas monitoring controller, recording device, or programmable controller. The M2A also provides an RS-485 Modbus output. Three sets of relay contacts, two controlled by the gas alarms and one by the failed alarm, rated at 115 VAC 5 amps are available for controlling devices such as lights or horns or for controlling higher-rated relays. Four operating modes allow you to display and change setup and calibration settings and change the gas type. They are Calibration Mode, Configuration Mode, Gas Type Mode, and Modbus Mode.

About this Manual
The M2A Transmitter Operator’s Manual uses the following conventions for notes, cautions, and warnings.

• NOTE: Describes additional or critical information.
• CAUTION: Describes potential damage to equipment.
• WARNING: Describes potential danger that can result in injury or death.

Specifications

Table 1 lists the specifications for the M2A.

Table 1: M2A Specifications

Target Gas/Detection Range| Carbon monoxide:   0 – 300 ppm, 1 ppm increments
---|---
**Alarm Settings (Alarm 1/Alarm 2)*| 25 ppm/50 ppm
Construction (housing)| Explosion-proof junction box, NEMA 4X
Area Classification| Explosion-proof for Class I, Groups B, C, and D
Sampling Method| Diffusion
Input Power| 10 – 30 VDC
Controls**| •   Three push-button switches

•   Three magnetic switches for non-intrusive calibration

Weight| 5.5 lbs.

Signal Output

| •   4 to 20 mA with impedance maximums listed below:

-12 VDC: 500 ohms impedance max

-24 VDC: 1000 ohms impedance max

•   RS-485 Modbus

Operating Temperature| -5°C to 40°C
Accuracy| ± 5% of reading or ± 5 ppm CO (whichever is greater)
*    These are the RKI factory settings. You can change the alarm settings in Configuration Mode. See “Viewing & Changing M2A Parameters” on page 29 .

WARNING: When using the M2A, you must follow the instructions and warnings in this manual to ensure proper and safe operation of the M2A and to minimize the risk of personal injury. Be sure to maintain and periodically calibrate the M2A as described in this manual.

Description

Overview
This chapter describes the components of the M2A transmitter. The transmitter is a 4 – 20 mA type detector head. It consists of the CO detector, calibration adapter/splash guard, terminal PCB, the M2A junction box, and the detector junction box. The two junction box configuration is intended for situations where the detector needs to be installed at an inaccessible location. The detector junction box can be installed at an inaccessible location and the M2A junction box can be installed in a more readily accessible area.

External Description
This section describes the junction boxes and all external components of the M2A transmitter.

M2A Junction Box
The M2A’s cast aluminum junction box is dust and weather-resistant. The junction box also protects the M2A and all connections made to it. Use the three 3/4 NPT conduit hubs to wire the remotely installed combustible gas detector and connect wiring from an external device, typically an RKI controller. The top hub is shipped with a factory-installed and sealed conduit plug to avoid leaks into the junction box. If necessary, the conduit plug can be removed and the top hub can be used for wiring.

WARNING: If the top conduit hub is used for wiring, be sure to seal the threads to ensure water does not enter the junction box. See “Wiring the M2A Transmitter” on page 18 for complete wiring instructions. Use the junction box’s two mounting holes to mount the M2A to a vertical surface at the monitoring site. The window in the cover on the front of the junction box allows you to view the OLED display and use the magnetic wand to actuate the magnetic control switches so you can perform non-intrusive calibration. Removing the cover allows you to access the interior of the junction box.

Detector Junction Box
The stainless steel, corrosion-resistant junction box is intended to be installed remotely from the M2A-XL junction box. The CO detector is factory- installed in the bottom 3/4 NPT conduit hub. A terminal strip is provided for wiring connections and the detector is factory wired to one side of this terminal strip. The other side of the terminal strip is for user-supplied wiring to the detector terminal strip located in the M2A-XL junction box. This wiring should go through the top 3/4 NPT conduit hub. An O-ring seals the interface between the junction box cover and the junction box base. A locking set screw on the junction box cover allows you to secure the junction box cover and prevent it from being removed.

CO Detector
The CO detector consists of the detector housing body, detector housing cap, cap gasket, charcoal filter with rubber boot, and plug-in sensor.

Detector Housing Body
The detector housing body protects the electronic components within the housing. Use the mounting threads at the top of the housing to screw the CO detector into the 3/4 NPT hub on the bottom of the detector junction box. Two wires extend from the top of the detector housing body. Use these wires to connect the CO detector to the terminal strip. One of the wires is red and one of the wires is black. The housing includes a four-socket pattern. This socket pattern accepts the sensor’s four pins to secure the sensor within the detector housing. A pre-amplifier, located between the sockets and two interconnect wires, conditions the sensor’s signal before the signal reaches the controller.

Housing Cap & Cap Gasket
The housing cap screws onto the detector housing. It retains the plug-in sensor and protects it from damage. The housing cap also includes a flame arrestor which contains any sparks that may occur within the detector and a flame arrestor guard which protects the flame arrestor from damage. Unscrew the detector cap to access the plug-in sensor for maintenance or replacement. A cap gasket seals the interface between the housing and the cap. A flame arrestor guard is permanently bonded to the cap.

Charcoal Filter and Rubber Boot
The disc-shaped charcoal filter is secured to the face of the CO sensor with a rubber boot. The charcoal filter prevents interference gases (hydrogen sulfide [H2S] and certain hydrocarbons) from producing false CO readings.

Plug-In CO Sensor
The sensor is secured within the detector assembly by the housing cap. Through a series of chemical and electrical reactions, the sensor produces an electrical output that corresponds to the detection range of the transmitter.

Calibration Adapter/Splash Guard
A calibration adapter/splash guard is installed on the CO detector. A fitting at the bottom of the calibration adapter/splash guard allows a length of tubing to be connected for calibration and routed to a more easily accessible location (near the M2A junction box is optimal for ease of calibration). The calibration adapter/splash guard also protects the detector from splashing water or direct water spray.

Magnetic Wand
The magnetic wand is a short plastic rod with a magnet in one end. It is used to actuate the magnetic control switches on the control PCB while the junction box cover is still installed so that non-intrusive calibration can be performed.

Internal Description

This section describes the internal components of the M2A. The internal components of the M2A include the terminal PCB which provides for all the wiring connections to the M2A and the control PCB which displays the gas reading and has the control buttons.

Terminal PCB
The terminal PCB is encapsulated in epoxy for protection against moisture and physical damage. It is mounted into the rear of the junction box with three standoffs and rests on a thin layer of foam. A banana jack is screwed into each of the standoffs and used for mounting the control PCB. The terminal PCB converts the electrical output from the detector to a signal that can be displayed by the OLED display, a 4 – 20 mA signal (that is proportional to the detection range), and an RS-485 Modbus output signal. The 4 – 20 mA signal may be used by a recording device, gas monitor controller, or programmable controller. The Modbus output may be used to connect the M2A to a Modbus network. The terminal PCB also controls three relays, one fail, and two gas alarm relays. Two columns of plug-in-style terminal strips are used to make all wiring connections to the M2A. The column on the left consists of the power/signal, detector, and Modbus terminal strips. The column on the right consists of the relay terminal strips. A 20-position connector at the bottom of the terminal PCB is used to connect the terminal PCB to the control PCB with a ribbon cable. A 5-position connector on the left side of the terminal PCB is used by factory or field service personnel to program the M2A.

Power/Signal Terminal Strip

The power/signal terminal strip is a three-position plug-in style terminal strip located at the top of the left terminal column. It is used to connect 24 VDC power to the M2A and to connect the 4 – 20 mA output signal to a device. The signal output, the S terminal, does not have to be connected for the M2A to function. The S terminal is used if you want to connect the 4 – 20 mA output signal to another device such as a gas monitoring controller, chart recorder, or programmable controller (PLC).

Detector Terminal Strip
The detector terminal strip is a four-position plug-in style terminal strip and is the middle terminal strip in the left terminal column. The two terminals labeled “TOXIC” are used to connect the detector to the M2A.

NOTE: The detector is factory-wired to the M2A. See “Wiring the M2A Transmitter” on page 18 for all wiring procedures related to M2A.

Modbus Terminal Strip
The Modbus terminal strip is a three-position plug-in style terminal strip and is the bottom terminal strip in the left terminal column. It allows the connection of the M2A into a Modbus network.

Relay Terminal Strips
The right column of terminal strips consists of, from top to bottom, the fail, alarm 1, and alarm 2 relay terminal strips. They are three-position plug-in- style terminal strips. The relay terminal strips are used to connect devices such as lights and horns that are controlled by the relay contacts. The relay contacts are rated at 115 VAC, 5 amps. The relay contacts may also be used to control higher-rated relays.

Termination Jumper
A two-pin header with a termination jumper installed is located below the Modbus terminal strip. Leave this jumper installed unless directed to remove it for a Modbus installation. See “Chapter 8: RS-485 Modbus Output” on page 46 for a description of using the M2A in a Modbus system.

Ground Jumper
A two-pin header with a jumper installed is located along the left side of the terminal PCB. Leave this jumper installed unless directed to remove it for a Modbus installation. See “Chapter 8: RS- 485 Modbus Output” on page 46 for a description of using the M2A in a Modbus system.

Control PCB
The OLED display and control switches are located on the control PCB. It is installed on top of the terminal PCB by lining up its three spacing standoffs with the banana jacks in the terminal PCB mounting standoffs and pushing it onto the banana jacks. The jacks retain the control PCB.

OLED Display
The OLED display is located at the top of the control PCB. It indicates the current gas reading and displays messages and parameters in the M2A’s programs.

Control Buttons
The M2A includes three push-button switches that allow you to enter the M2A’s operating modes, navigate through the modes, update settings, and save changes to the settings. The push button switches are located along the bottom edge of the control PCB (see Figure 5). The UP/YES button is on the left, the DOWN/NO button is in the middle, and the ENTER button is on the right.

Table 2: M2A Control Button Functions

•   Changes the displayed setting

•   Enters the Calibration Program

•   Enters Gas Type Mode (press with DOWN/NO button)

•   Enters Configuration Mode (press with ENTER button)

DOWN (NO)| •   Cancels setting changes

•   Changes the displayed setting

•   Enters Gas Type Mode (press with UP/YES button)

•   Enters Modbus Mode (press with ENTER button)

•   Displays the Information Screen

ENTER| •   Initiates operations

•   Enters Configuration Mode (press with UP/YES button)

•   Enters Modbus Mode (press with DOWN/NO button)

•   Functions as an alarm reset switch

Just above each push button switch is a magnetic switch with the same function as the push button switch below it. The magnetic switches are for use in non- intrusive calibration. They are actuated by bringing the magnetic wand close enough to them to actuate them. Although the magnetic switches have the same functions as the push button switches, it is not practical to use them for operations other than calibration because it is not possible to actuate two magnetic switches at once with only one magnetic wand. Since displaying the Information Screen only requires the use of one switch, the wand may be used to show the Information Screen (see “Information Screen” on page 24).

Status LEDs
The M2A includes five status LEDs that are located above the display (see Figure 5).

• Fail LED The fail LED turns on when the M2A is experiencing a fail condition. A failure condition can be caused by a detector failure or a low detector signal.
• Alarm 1 LED The alarm 1 LED is on when the M2A is experiencing an alarm 1 condition.
• Alarm 2 LED The alarm 2 LED is on when the M2A is experiencing an alarm 2 condition.
• RX & TX LEDs These LEDs indicate data being received (RX) and transmitted (TX) when the M2A’s Modbus output is operating.

Installation & Startup

Overview
This chapter describes procedures to mount the M2A Transmitter in the monitoring environment and wire it to input power and devices.

Mounting the M2A Transmitter

1. Select a mounting site that is representative of the monitoring environment. Consider the following when you select the mounting site.
   • For the M2A junction box, select a site where the junction box is not likely to be bumped or disturbed. Make sure there is sufficient room to perform start-up, maintenance, and calibration procedures. The site should be easily accessible.
   • For the detector junction box, select a site where the target gas is likely to be found first. For lighter gases, mount the detector near the ceiling; for heavier gases, mount the detector near the floor.
   • The junction boxes should be mounted no further than 200 feet from each other.
2. Use #10 screws through the M2A junction box’s two mounting slots to secure the junction box to a vertical surface. Figure 6 shows the outline and mounting dimensions of the M2A junction box. Figure 7 shows the outline and mounting dimensions for the detector junction box. Mount the detector junction box with the detector facing down as shown in Figure 7.
3. Install 3/16 inch I.D. flexible polyurethane tubing to the fitting at the bottom of the calibration adapter/splash guard and route it to an accessible area that is close to the M2A junction box. See the “Chapter 9: Parts List” on page 58 for available tubing.

Wiring the M2A Transmitter

Wiring the Detector to the M2A

WARNING: Always verify that the power to the M2A is off before you make wiring connections.

1. Confirm that no power is being applied to the M2A.

2. Remove the detector junction box’s cover from the junction box.

3. Remove the M2A junction box’s cover from the junction box.

4. Grasp the control PCB by its edges.

5. Gently pull until the control PCB is pulled away from the banana jacks. Take care not to pull too hard and damage the cable that connects the control and terminal PCBs.

6. Let the control PCB hang by the cable. The terminal strips are now visible on the terminal PCB. The control PCB may be left hanging while wiring is done. If desired, the control PCB may be disconnected from the cable and set aside while wiring.

7. To maintain the explosion-proof classification of the junction boxes, conduit seals must be installed as shown in Figure 8. Adhere to your local electrical code when installing the conduit seal.

8. To maintain the M2A junction box’s NEMA 4X environmental rating and prevent water from entering the junction box through the conduit hubs, use appropriate construction techniques.

9. Guide a two-conductor, shielded cable, or two wires in conduit through the top conduit hub of the detector junction box. To make wiring more convenient, use wire colors that correspond to the detector wire colors: red and black.
   Max Distance to M2A w/18 Gauge Wire| Max Distance to M2A w/16 Gauge Wire| Max Distance to M2A w/14 Gauge Wire
   ---|---|---
   500 ft.| 1,000 ft.| 2,000 ft.

10. Connect the wires to the terminal block in the detector junction box.

11. Secure the detector junction box’s cover to the junction box.

12. Guide the other end of the two-conductor, shielded cable, or two wires in conduit through the bottom conduit hub of the M2A junction box.
    WARNING: If the top conduit hub is used for wiring, be sure to seal the threads to ensure water does not enter the junction box. A conduit seal, which is normally required to maintain the junction box’s hazardous location rating, will also help to prevent water from entering through the top port.

13. To gain access to a plug-in terminal strip for wiring, pull it out of its socket by grasping the wall between two terminal positions with needle nose pliers and pulling. Be careful not to exert too much force on the wall to avoid damage to the terminal strip. The detector terminal strip and the alarm 1 relay terminal strip may be removed by grasping them with your fingers if the adjacent terminal strips have been removed.

14. Pull out the detector terminal strip and connect the two wires to the terminal strip as follows (see Figure 8).

    • Connect the wire corresponding to the detector’s red wire to the TOXIC “+” terminal.
    • Connect the wire corresponding to the detector’s black wire to the TOXIC “-” terminal.

CAUTION: If a shielded cable is used, leave the cable shield’s drain wire disconnected and insulated at the detector junction box. You will connect the opposite end of the cable’s drain wire to the M2A junction box’s chassis (earth) ground.

1. Reinstall the detector terminal strip into its socket.
2.  If a shielded cable is used between the detector junction box and the M2A junction box, connect the cable’s drain wire to an available chassis (earth) ground at the M2A junction box. Do not connect the shield drain wire at the detector junction box.

Wiring the M2A to a Controller and Alarm Devices

WARNING: If the controller’s construction is not explosion-proof, the controller must be installed in an ordinary location. Do not install a non- explosion-proof controller in a classified location. If the controller’s construction is explosion-proof and the controller is installed in a classified location, install a conduit seal at the controller’s wire entry location that is consistent with the controller’s explosion-proof rating.

1. To maintain the explosion-proof classification of the M2A junction box, a conduit seal must be installed within 2 inches (for Group B environments) or 18 inches (for Groups C and D environments) of the M2A’s left conduit hub, in addition to the conduit seals shown in Figure 8. Adhere to your local electrical code when installing the conduit seal.
2. Guide multi-conductor shielded cable or cables or wires in conduit through the left conduit hub of the M2A junction box. The number of cables or wires needed will depend on whether the M2A is wired to a gas monitoring controller or just to power, whether any relays are used, and whether the Modbus output is used.

WARNING: If the top conduit hub is used for wiring, be sure to seal the threads to ensure water does not enter the junction box. A conduit seal, which is normally required to maintain the junction box’s hazardous location rating, will also help to prevent water from entering through the top port.

NOTE: If the M2A is being wired to a PLC or DCS device, see “Appendix B: PLC and DCS Device Wiring” on page 60, then continue with step 8. Use the following recommendations to determine how to wire the M2A:

• If Modbus connections will not be used and only the PWR/SIG connections will be used, use a two or three-conductor-shielded cable or two or three wires in conduit for connections to the power/signal terminal strip depending on whether or not the signal (S) terminal is used. The S terminal has a 4 – 20 mA output, but if you do not need to monitor this signal and do not connect to the S terminal to access this signal, the M2A will still function completely.

Table 3: Wire Size for PWR/SIG Connections

Max Distance to Controller

w/18 Gauge Wire

| Max Distance to Controller w/16 Gauge Wire| Max Distance to Controller w/14 Gauge Wire
---|---|---
2,500 ft.| 5,000 ft.| 8,000 ft.

• If the PWR/SIG connections and one or more relays are used, route the connections to the M2A in the conduit. Use shielded cable in the conduit for the PWR/SIG connections and unshielded cable or individual wires for the relay connections. Make sure any wire or cable used for relay wiring is appropriately rated for the power that it will carry.

CAUTION: If shielded cable is used for the PWR/SIG connections, leave the cable shield’s drain wire insulated and disconnected at the M2A junction box. You will connect the opposite end of the cable’s drain wire to the controller or device.

• If the M2A will be wired into a Modbus network, see “Chapter 8: RS-485 Modbus Output” on page 46.

See Figure 9 below for field wiring connections to the M2A.

1. Re-install the control PCB (and ribbon cable if necessary). Be sure the ribbon cable is routed down below the control PCB so it will not be damaged by the cover when it is screwed back on.
2. Secure the M2A junction box cover to the junction box.
3. Make controller, device, and relay connections as appropriate. If a shielded cable is used for the PWR/SIG connections, connect the cable shield’s drain wire tthe o available chassis ground at the gas monitoring controller, recording device, or programmable controller.

Start-Up

Introducing Incoming Power

1. Complete the installation procedures described earlier in this manual.
2. Verify that all wiring connections are correct and secure.
3. Turn on the incoming power.
4. If necessary, turn on the controller or other monitoring device that is connected to the M2A.
5. The OLED display will indicate the firmware version when the M2A is first powered up and will then count down a one-minute warm-up period before normal operation begins. During normal operation, the display will indicate the target gas and current gas readings. Verify that the display is indicating the target gas and current gas reading after the warm-up period is complete and normal operation begins.

NOTE: Allow the M2A detector to warm up for 15 minutes before you continue with the next section, “Adjusting the Fresh Air Reading.”

Adjusting the Fresh Air Reading
When the M2A is shipped from RKI Instruments, Inc., it is factory-calibrated. If a full calibration is desired at startup, see “Calibration” on page 40. Verify that the M2A is in a fresh air environment (an environment known to be free of combustible or toxic gas vapors and of normal oxygen content, 20.9%).

CAUTION: If you suspect the presence of carbon monoxide in the monitoring environment, use the calibration kit and the zero air calibration cylinder to introduce “fresh air” to the detector and verify an accurate fresh air setting. See the “Calibration” on page 40 for instructions on how to use a zero air cylinder when performing a fresh air adjustment.

Non-Intrusive Fresh Air Signal Adjustment
If the M2A is installed in a classified area and non-intrusive zero adjustment is required, follow the instructions below, but do not remove the junction box cover. Use the magnetic wand accessory to actuate the magnetic switches instead of pushing the control switch buttons. To actuate a magnetic switch and perform the same operation as pressing a control switch button, touch the magnet at the end of the magnetic wand to the M2A’s glass cover directly over the magnetic switch you wish to actuate. Touching the glass and removing the wand is the same as pressing and releasing a button. Touching the glass and keeping the wand in place is the same as pressing and holding a button.

WARNING: The M2A is not an active gas monitoring device during the fresh air adjustment procedure. The 4-20 mA output signal will “freeze” at 3.5 mA and all relays will remain in their non-alarm state while the M2A is in Calibration Mode. The output signal will not indicate current readings and the relays will not resume operating normally until the M2A is in normal operation again.

NOTE: While in the calibration program, if there is no switch activity for the calibration timeout period the unit will return to normal operation. The factory set time-out is 15 minutes. If you want a different time-out period, see “Viewing & Changing M2A Parameters” on page 29 for instructions to change the calibration time-out.

1. While in normal operation, press and hold the UP/YES button for 5 seconds to enter Calibration Mode. Release the button when the following screen appears.
2. Press and release the UP/YES button to continue. The display will indicate the target gas and CAL Mode for a few seconds before showing FreshAir Adjust.
3. Press and release the UP/YES button. ENTER will alternate with FreshAir on the top display line and the current gas reading will be on the bottom display line.
4. Press and release the ENTER button. The M2A will perform a zero operation and the display will indicate SPAN w/Cal Gas.
5. Press and release the DOWN/NO button. The display will indicate Leaving CAL Mode and the M2A will return to normal operation.

Operation

Overview
This chapter describes the M2A in normal operation. This chapter also describes the M2A in alarm 1, alarm 2, and fail conditions and suggests responses to these conditions.

Normal Operation
Normal operation is defined as follows:

• The start-up procedure is complete.
• The M2A does not indicate an alarm 1, alarm 2, or fail condition.
• The M2A is not in Calibration, Configuration, or Gas Type modes.

During normal operation, the M2A simultaneously displays the current gas reading, unit of measure, and target gas.

Information Screen
The Information Screen displays the M2A’s operating voltage and firmware and hardware information. To display the Information Screen, do the following:

1. Press and hold the DOWN/NO button for 3 seconds. The Information Screen will appear.
2. Continue holding the DOWN/NO button to keep the Information Screen on the display. The top line indicates the operating voltage that is connected to the M2A. The second line indicates the firmware that is running, version 5.0 in this example, and the M2A’s hardware version, version 2A in this example. This information may be useful if you need to contact the factory with questions about the M2A.
3. Release the DOWN/NO button when you are done viewing the Information Screen. The display will return to the normal operation screen within a couple of seconds.

20 mA Signal Output Operation
The output at the S terminal of the power/signal terminal strip is a 4 – 20 mA signal that corresponds to the detection range of the M2A. During normal operation, this signal tracks the gas concentration on the OLED display.
There are several circumstances where the signal output will not track the display reading but will behave as follows:

• When the M2A is in its warm-up period, the signal output will be fixed at 3.5 mA (zero).
• When the M2A’s gas type is changed, the M2A will enter Configuration Mode for you to verify the parameter settings. When you exit Configuration Mode, the display will indicate NEEDS CALIBRATION and will continue to indicate this until Calibration Mode is entered and a calibration is performed. In this situation, the signal output will be fixed at 3.5 mA from the time the Gas Type Mode is entered until the M2A is calibrated and returns to normal operation.
• If you enter Calibration Mode, Configuration Mode, Gas Type Mode, or Modbus Mode, the signal output will be fixed at 3.5 mA until the M2A returns to normal operation.
• If the M2A’s input power decreases below 9.5 volts so that the M2A is in a low-power alarm, the signal output is fixed below 2.4 mA until the low-power alarm is cleared.
• If the M2A goes into a fail condition, after a 30-second delay, the signal output is fixed below 2.4 mA until the failed alarm is cleared. During the 30-second delay, the signal output follows the detector output. In the case of a downscale reading, the display and the signal output continue to track the reading down to -99% of full scale (1.15 mA).

Alarm Indications

NOTE: The M2A includes alarm on and alarm off delay settings for alarm 1 and alarm 2. The alarm indications described in this section operate according to the factory-set alarm settings. See Table 5 on page 29 for all the factory settings.

Table 4: Visual and Audible Alarm Indications

A1 LED is on

•   Gas reading alternates with ALARM-1 message

Alarm 2 1| Increasing gas reading at or above the alarm 2 setpoint| • A2 LED is on

•   Gas reading alternates with ALARM-2 message

•   Display reading at -10% of full scale or lower

•   Defective components

| •   F LED is on

•   FAIL message replaces gas reading

NOTE: There is a 30-second delay on the fail condition.

Low Power| DC power source less than 9.5 volts.| •   F LED is on

•   LowPower message and actual voltage of incoming DC power

1 If the M2A is in both an alarm 1 and an alarm 2 condition, both alarm LEDs are on, and the display alternates between the gas reading and the ALMS 1&2 message.

NOTE: You can select normally energized (N. EN) or normally de-energized (N. DE-EN) alarm 1 and alarm 2 relay settings in Configuration Mode. The following sections describe the standard factory setting for these relays which is N. DE-EN. The failed relay is factory set as N. EN and is not user- adjustable.

Alarm 1 Condition

Alarm 1 Condition Indications
When the gas reading reaches the alarm 1 setpoint, the M2A senses an alarm 1 condition. The M2A alerts you to an alarm 1 condition as follows:

• The A1 LED turns on.
• The gas reading alternates with the ALARM-1 message.
• The alarm 1 relay energizes.

Responding to an Alarm 1 Condition

1. Follow your established procedure for a low-level toxic gas condition.
2. After the gas reading falls below the alarm 1 setpoint, press the ENTER button to reset the alarm 1 circuit. Resetting the alarm 1 circuit turns off the A1 LED, resets the OLED display, and de-energizes the alarm 1 relay.

NOTE: If the ENTER button is pressed while the M2A is in an alarm 1 condition, the A1 LED will flash but all other indications will remain unchanged. You cannot de-energize the alarm 1 relay until the gas reading falls below the alarm 1 setpoint.

Alarm 2 Condition

Alarm 2 Condition Indications
When the gas reading reaches the alarm 2 setpoint, the M2A senses an alarm 2 condition. The

M2A alerts you to an alarm 2 condition as follows:

• The A2 LED turns on.
• The gas reading alternates with the ALARM-2 message.
• The alarm 2 relay energizes.

NOTE: If the M2A is in both an alarm 1 and alarm 2 condition, both the A1 and A2 LEDs will be on, the gas reading will alternate with the ALMS 1&2 message, and both alarm relays will energize.

Responding to an Alarm 2 Condition

1. Follow your established procedure for a high-level toxic gas condition.
2. After the gas reading falls below the alarm 2 setpoint, press the ENTER button to reset the alarm circuit. Resetting the alarm circuit turns off the A2 light, resets the OLED display, and de-energizes the alarm 2 relay.

NOTE: If the ENTER button is pressed while the M2A is in an alarm 2 condition, the A2 LED will flash but all other indications will remain unchanged. You cannot de-energize the alarm 2 relay until the gas reading falls below the alarm 2 setpoint.

Fail Condition

Fail Condition Indications

The M2A indicates a fail condition for any of the following:

• The detector wiring is disconnected or incorrectly connected.
• The display reading is -10% of full scale or lower.

When the M2A senses a fail condition, it alerts you as follows:

• The F LED turns on.
• The gas reading is replaced by the FAIL message.
• The failed relay de-energizes.

NOTE: The fail alarm has a 30-second delay.

Responding to a Fail Condition

1. Verify that the detector wiring is correctly and securely connected.

Low Power Alarm
Low Power Alarm Indications
The M2A senses a low power condition when the DC power source is 9.5 volts or less.

WARNING: While in a low power condition, the M2A is not an active gas monitor. When the M2A senses a low power condition, it alerts you as follows:

• The F LED turns on.
• The message LowPower is indicated on the top line of the OLED display and the input voltage is displayed on the bottom line of the OLED display.
• The failed relay de-energizes.

NOTE: The low-power alarm cannot be cleared using the ENTER button. When the voltage increases to 10.0 volts, the low power alarm is cleared and the M2A will begin its warm-up sequence.

Responding to a Low Power Condition

1. Determine and correct the cause of the low power condition.
2. When the input power increases above 10.0 volts, the M2A will begin its warm-up sequence.
3. Verify that the M2A enters normal operation after its warm-up sequence. If necessary, perform a fresh air adjustment. See “Adjusting the Fresh Air Reading” on page 22.

Configuration Mode

Overview
This chapter describes how to view and change M2A parameters using Configuration Mode. It is accessed using the program buttons. Configuration Mode includes a 5-minute time-out feature. If you do not press a control button for 5 minutes, the M2A automatically returns to normal operation.

NOTE: If the M2A returns to normal operation because of a time-out, it enters a warm-up period just as it does when it is first turned on. If you are installing a new M2A, it has been set up at the factory. Use Configuration Mode only if you want to change the M2A’s setup. If you want to change the detector type see “Chapter 6: Gas Type Mode” on page 33.

Viewing & Changing M2A Parameters

1. While in normal operation, simultaneously press and hold the UP/YES and ENTER buttons for 5 seconds to enter Configuration Mode. Release the buttons when the following screen appears.
2. If you want to exit Configuration Mode, press and release the DOWN/NO button and the M2A will return to normal operation. If you want to continue in Configuration Mode, press and release the UP/YES button. The target gas and the full scale will be displayed for a few seconds before the first adjustable parameter, the alarm 1 setpoint, is displayed.
3. If you want to change the currently displayed parameter, use the UP/YES and DOWN/NO buttons to adjust it to the desired setting, then press ENTER to continue to the next parameter. If the currently displayed parameter is OK, press the ENTER button to proceed to the next parameter. Table 5 lists the M2A parameters you can set. Table 5 also lists the factory set value for each parameter.

Table 5: Configuration Parameters

1 condition.
Parameter (Factory Set Value)| Description
---|---
ALARM-1 (activation) (Increase)| Indicates if the alarm 1 circuit is activated by gas readings increasing ( Increase ) or decreasing ( Decrease ) to the ALARM-1 Level.
ALARM-1 (relay action) (N. DE-EN)| If set as N. DE-EN , the alarm 1 relay is de-energized in normal operation and energizes when an alarm 1 condition is initiated.

If set as N. EN , the alarm 1 relay is energized in normal operation and de-energizes when an alarm 1 condition is initiated.

ALARM-1 (relay reset) (LATCH)| If set as LATCH , you must press the ENTER button to reset the alarm 1 circuit after the alarm 1 condition passes.

If set as SELF-RST , the M2A automatically resets the alarm 1 circuit after the alarm 1 condition passes.

A1 OnDy (alarm 1 on delay)

(1 secs)

| The amount of time the M2A delays activation of the alarm 1 circuit once an alarm 1 condition is initiated. It can be set in 1-second increments from 0 – 60 seconds, in 1-minute increments from 1 – 15 minutes, and 15-minute increments from 15 – 60 minutes.
A1 OffDy (alarm 1 off delay)

(0 sec.)

| The amount of time the M2A delays turning off the alarm 1 circuit once an alarm 1 condition passes. This parameter appears only if the alarm 1 relay reset setting is set to SELF-RST. It can be set in 1-second increments from 0 – 60 seconds, in 1-minute increments from 1 – 15 minutes, and 15-minute increments from 15 – 60 minutes.
ALARM-2 (level) (50 ppm)| The gas reading at which the M2A initiates an alarm 2 condition.
ALARM-2 (activation) (Increase)| Indicates if the alarm 2 circuit is activated by gas readings increasing ( Increase ) or decreasing ( Decrease ) to the ALARM-1 Level.
ALARM-2 (relay action) (N. DE-EN)| If set as N. DE-EN , the alarm 2 relay is de-energized in normal operation and energizes when an alarm 2 condition is initiated. If set as N. EN , the alarm 2 relay is energized in normal operation

and de-energizes when an alarm 2 condition is initiated.

ALARM-2 (relay reset) (LATCH)| If set as LATCH , you must press the ENTER button to reset the alarm 2 circuit after the alarm 2 condition passes.

If set as SELF-RST , the M2A automatically resets the alarm 2 circuit after the alarm 2 condition passes.

A2 OnDy (alarm 2 on delay)

(1 secs)

| The amount of time the M2A delays activation of the alarm 2 circuit once an alarm 2 condition is initiated. It can be set in 1-second increments from 0 – 60 seconds, in 1-minute increments from 1 – 15 minutes, and 15-minute increments from 15 – 60 minutes.
A2 OffDy (alarm 2 off delay)

(0 sec.)

| The amount of time the M2A delays turning off the alarm 2 circuit once an alarm 2 condition passes. This parameter appears only if the alarm 2 relay reset setting is set to SELF-RST. It can be set in 1-second increments from 0 – 60 seconds, in 1-minute increments from 1 – 15 minutes, and 15-minute increments from 15 – 60 minutes.
ZeroSupp (2 ppm)| The zero suppression feature helps prevent “jumpy” readings near the fresh air reading.

For example, if the zero suppression is 2.0 ppm, the M2A will display a reading of 0 ppm for gas readings from -2 ppm to 2 ppm. It is settable from 0 to 6% of the detection range.

FILTER

(5 secs)

| The filter feature helps “smooth out” jumpy or noisy signals from the detector. You can set the filter from 0 seconds to 60 seconds in 5-second increments.

The displayed gas reading is the average reading over the previous period defined by the filter setting. So if the filter is set to 5 seconds, the displayed gas reading is the average over the past 5 seconds.

CAL Time (15 mins)| The calibration time-out sets the amount of time after the last button push while in Calibration Mode that the M2A will wait before returning to normal operation. If the calibration time-out is set to 15 minutes , then M2A will return to normal operation automatically 15 minutes after the last button push.
Auto Zero (Enabled)| If set to Enabled , the M2A’s firmware will monitor the zero (fresh air) reading and make automatic zero adjustments under precisely specified conditions if it determines that a reading change is due to normal sensor drift.

If set to Disabled , the Auto Zero function is turned off.

1. When you have scrolled through all the adjustable parameters, SAVE IT. YES/NO appears on the display.
2. If you do not wish to save the adjustments and want to exit Configuration Mode, press and release the DOWN/NO button. The DO OVER? YES/NO message will display. Press and release the DOWN/NO button. The ABORT? YES/NO message will display. Press the UP/ YES button to return to normal operation. If you wish to change some of the adjustments made, press and release the DOWN/NO button. The DO OVER? YES/NO message will display. Press and release the UP/YES button. The Re-do Config message will display and the M2A will return to the first adjustable parameter. Go back to step 3 and continue. If you wish to save the adjustments made, press and release the UP/YES button. Config Saved is indicated on the display for a few seconds and the M2A returns to normal operation.

Gas Type Mode

Overview
This chapter describes how to use Gas Type Mode to select the M2A’s gas type. The gas type determines the target gas and detection range.

CAUTION: The target gas is factory set and does not normally need to be changed. The standard setting for the 65-2646XL0504SS is carbon monoxide. Gas Type Mode includes a 5-minute time-out feature. If you do not press a button for 5 minutes, the M2A automatically returns to normal operation.

NOTE: If the M2A enters normal operation because of a program time-out, it enters a warm-up period just as it does when it is first turned on.

Selecting the Gas Type

1. While in normal operation or during the warm-up sequence, press and hold the UP/YES and DOWN/NO buttons for five seconds. Release them when the following screen appears.
2. If you want to exit Gas Type Mode, press and release the DOWN/NO button. The display will indicate NO CHANGE and the M2A will return to normal operation. If you want to continue in Gas Type Mode, press and release the UP/YES button. The top display line will indicate GasType. and the bottom display line will indicate the target gas choice.
3. Use the UP/YES or DOWN/NO button to scroll through the choices of target gas. Table 6 below lists the choices of target gas for the M2A.

Table 6: Gas Types

1. When the desired target gas is on the display, press and release the ENTER button. The display will ask SAVE IT? YES/NO.
2. To discard the gas type change, press and release the DOWN/NO button. The display will ask DO OVER? YES/NO. Press the DOWN/NO button. The display will ask ABORT. YES/ NO. Press the UP/YES button. The M2A will return to normal operation without changing the gas type. To save the gas type, press and release the UP/YES button. The display will indicate Gas Type Updated, the display will indicate the target gas and the detection range for a few seconds, and then the M2A will enter Configuration Mode automatically so that the parameter settings in Configuration Mode can be verified or changed.
3. While in Configuration Mode press and release the ENTER button to accept the displayed parameter setting and move to the next one. Use the UP/YES and DOWN/NO buttons to adjust a setting. See “Chapter 5: Configuration Mode” on page 29 for a complete description of Configuration Mode.
4. When you have reviewed and accepted the last item in Configuration Mode by pressing the ENTER button, the display will ask SAVE IT? YES/NO.
5. To save the configuration settings, press and release the UP/YES button. The display will indicate Config Saved and the M2A will begin its warm-up sequence. To discard the settings and review them again, press the DOWN/NO button. The display will ask DO OVER? YES/NO. Press the UP/YES button and the display will indicate Redo Config, then display the target gas and the detection range for a few seconds before returning to Configuration Mode. Repeat steps 6 – 8 until the settings are as desired.
6. After the M2A completes its warm-up sequence, the display will indicate CAL NEEDED. Since the gas type has been changed, a successful calibration must be performed before the M2A can enter normal operation.
7. Press and release the UP/YES button to enter Calibration Mode. Normally, you must hold the UP/YES button for 5 seconds to enter the Calibration Mode, but since a calibration is required, only a momentary push is needed to enter the Calibration Mode after changing the gas type.
8. See “Calibration” on page 40 for calibration instructions.

NOTE: When calibrating an M2A after changing the gas type, the M2A will not ask if you want to calibrate, or whether you want to perform a fresh air adjustment, span adjustment, or zero adjustment. Since a complete calibration is required, the calibration sequence will proceed without asking if you want to perform certain operations.

Maintenance

Overview
This chapter describes procedures for performing preventive maintenance, troubleshooting, calibrating the M2A, and replacing field-replaceable parts.

Preventive Maintenance
This section describes a recommended preventive maintenance schedule to ensure the optimum performance of the M2A. It includes daily and quarterly procedures.

Daily
Verify a display reading of 0 ppm. Investigate significant changes in the reading.

Quarterly
Calibrate the M2A as described in “Calibration” on page 40. See “Calibration Frequency” on page 38 for a discussion of calibration frequency guidelines.

Troubleshooting

The troubleshooting guide describes symptoms, probable causes, and recommended action for problems you may encounter with the M2A.

NOTE: This troubleshooting guide describes M2A problems only. If the M2A is connected to a controller, see the controller operator’s manual for problems you may encounter with the controller.

Table 7: Troubleshooting the Carbon Monoxide Detector

Condition| Symptom(s)| Probable Causes| Recommended Action
---|---|---|---
No Power| The display backlight is off and the display screen is blank.| • The power wiring is disconnected or misconnected.

•   The display cable is disconnected or misconnected.

| 1.      Verify that the wiring to the power source or controller is correct and secure.

2.      Verify that the ribbon cable connecting the terminal PCB to the control PCB is securely installed. This ribbon cable plugs into a connector on the top edge of the control PCB and the bottom of the terminal PCB.

3.      If the power difficulties continue, contact RKI for further instruction.

Condition| Symptom(s)| Probable Causes| Recommended Action
---|---|---|---
Frequent or Suspect Alarms| The M2A alerts you to frequent or sus- pect alarms while the fresh air readings remain on zero.| •   The M2A is experiencing false readings due to RFI or EMI.

•   The detector wiring is disconnected, misconnected, or intermittent.

| 1.      Verify that the M2A wiring is properly shielded. See “Wiring the M2A Transmitter” on

page 18.

2.      Verify that the detector wiring is correct and secure.

3.      Increase the alarm on the delay setting in Configuration Mode.

4.      If the frequent or suspected alarm difficulties continue, contact RKI for further instruction.

Flickering Display| The display reading flickers often.| •   The M2A is experiencing false readings due to RFI or EMI.

•   The noise filter setting is too low.

•   The zero suppression setting is too low.

•   The display screen is malfunctioning.

| 1.      Verify that the M2A wiring is properly shielded. See “Wiring the M2A Transmitter” on

page 18.

2.      Verify that the detector wiring is correct and secure.

3.      Increase the filter setting in Configuration Mode.

4.      Increase the zero suppression setting in Configuration Mode.

5.      If the display difficulties continue, contact RKI for further instruction.

Fail Condition| •   M2A indicates a fail condition.

•   Controller indicates a fail condition

| •   The detector wiring to the terminal PCB is disconnected or misconnected.

•   The wiring from the M2A to the controller is disconnected or misconnected.

•   The detector’s fresh air signal is low enough to cause a fail condition.

•   The detector is malfunctioning.

•   The terminal or display PCB is malfunctioning.

| 1.      Verify that the detector wiring is correct and secure.

2.      Verify that the wiring between the M2A and the controller is correct and secure.

3.      Calibrate the M2A.

4.      If the fail condition continues, replace the detector.

5.      If the fail condition continues, contact RKI for further instruction.

Condition| Symptom(s)| Probable Causes| Recommended Action
---|---|---|---
Slow or No Response/ Difficult or Unable to Calibrate| •   Unable to successfully set the fresh air or span reading during calibration.

•   M2A requires frequent calibration.

NOTE: See

“Calibration Frequency” on page 38 for

calibration frequency guidelines.

| •   The calibration cylinder is low, out- dated, or defective.

•   The calibration gas flow rate is too low.

•   The calibration gas is not an appropriate concentration.

•   The detector is malfunctioning.

•   The terminal PCB is malfunctioning.

•   The flexible tubing to the calibration adapter/splash guard has become kinked, blocked, or disconnected.

| 1.      Verify that the calibration cylinder contains an adequate supply of a fresh test sample.

2.      Verify that the regulator used for calibration is a 0.5 LPM regulator.

3.      Verify that the calibration gas concentration is appropriate for the transmitter. The concentration should be in the detection range, preferably about half of the detection range.

4.      Verify that the flexible tubing to the calibration adapter/splash guard is clear and connected to the calibration adapter/splash guard.

5.      If the calibration/response difficulties continue, replace the detector.

| | | 6. If the calibration/response difficulties continue, contact RKI for further instruction.

Calibration Frequency
Although there is no particular calibration frequency that is correct for all applications, a calibration frequency of every 3 to 6 months is adequate for most carbon monoxide transmitter applications. Unless experience in a particular application dictates otherwise, RKI Instruments, Inc. recommends a calibration frequency of every 3 months. If an application is not very demanding, for example, detection in a clean, temperature-controlled environment where carbon monoxide is not normally present and calibration adjustments are minimal at calibration, then a calibration frequency of every 6 months is adequate. If an application is very demanding, for example, if carbon monoxide is present often and in significant concentrations or the environment is not well controlled, then more frequent calibration than every 3 months may be necessary.

Determining Response Time

Since the detector junction box is installed remotely from the M2A, the response time of the detector will depend on the length of flexible tubing that is attached to the calibration adapter/splash guard. To determine the response time based on the length of tubing connected:

1. Place the M2A into its calibration mode or disable external alarms.

2. Note the current gas reading displayed at the M2A.

3. Screw the regulator into the calibration cylinder. Do not use a zero-air cylinder for this operation.

4. Use the flexible tubing coming from the calibration adapter/splash guard to connect the regulator to the calibration adapter/splash guard.

5. Turn the regulator’s on/off knob counterclockwise to open the regulator. Gas will begin to flow. Take note of the time or start a stopwatch.

6. When you first start to notice an increase in the gas reading, note how much time passed between starting the gas flow and noticing a reading response.

7. Turn the regulator’s on/off knob clockwise to close the regulator.

8. Unscrew the regulator from the calibration cylinder.

9. Disconnect the calibration adapter/splash guard’s flexible tubing from the regulator.
   NOTE: Do not disconnect the flexible tubing from the calibration adapter/splash guard.

10. Add 1 minute to the length of time determined in Step 6. This is the response time for the detector. When performing a zero adjustment or span adjustment, gas must be applied for this length of time.

Calibration
This section describes how to calibrate the M2A transmitter. It includes procedures to prepare for calibration, enter Calibration Mode, adjust the fresh air (zero) setting, adjust the span setting, and return to normal operation.

• WARNING: The M2A is not an active gas monitoring device during the calibration procedure. The 4-20 mA output signal will “freeze” at 3.5 mA and all relays will remain in their non-alarm state while the M2A is in Calibration Mode. The output signal will not indicate current readings and the relays will not resume operating normally until the M2A is in normal operation again.
• NOTE: The following procedure assumes the use of a calibration kit which includes a calibration gas cylinder, a zero air cylinder, and a fixed flow regulator with an on/off knob.
• NOTE: The detector must be calibrated with a gas concentration between 10% and 100% of the channel’s full-scale value (ie. between 30 ppm and 300 ppm CO).
• NOTE: While in the calibration program, if there is no switch activity for the calibration timeout period the unit will return to normal operation. See “Viewing & Changing M2A Parameters” on page 29 for instructions to set the calibration time-out.
• NOTE: The following procedure assumes that the target gas is present in a high enough concentration to affect the fresh air (zero) reading. If a fresh air environment can be verified, applying zero air to the detector is not necessary when setting the zero reading.

Non-Intrusive Calibration
If the M2A is installed in a classified area and non-intrusive calibration is required, follow the instructions below, but do not remove the junction box cover. Use the magnetic wand accessory to actuate the magnetic switches instead of pushing the control switch buttons. To actuate a magnetic switch and perform the same operation as pressing a control switch button, touch the magnet at the end of the magnetic wand to the M2A’s glass cover directly above the magnetic switch you wish to actuate. Touching the glass and removing the wand is the same as pressing and releasing a button. Touching the glass and keeping the wand in place is the same as pressing and holding a button.

Calibration Gas Response Memory Feature
The M2A can “remember” the detector’s response to the calibration gas after the gas is removed from the detector during the fresh air and span adjustment procedure. This feature enables one person to perform calibration if the detector is mounted remotely from the M2A. When zero air is applied to the M2A during a fresh air adjustment, the M2A will freeze the display reading at the lowest response and the M2A will continue to display this reading and retain it in its memory until the fresh air adjustment procedure is completed. When calibration gas is applied to the M2A during a span adjustment, the M2A will freeze the display reading at the highest response to the calibration gas. The calibration gas can then be removed and the M2A will continue to display this reading and retain it in its memory until the span adjustment procedure is completed.

Adjusting the Fresh Air Reading

1. While in normal operation, press and hold the UP/YES button for 5 seconds to enter Calibration Mode. Release the button when the following screen appears.
2. If you want to continue with calibration, press and release the UP/YES button. The display will indicate the target gas and CAL Mode for a few seconds before showing FreshAir Adjust. If you want to exit Calibration Mode, press and release the DOWN/NO button. The M2A will indicate Leaving CAL Mode and the M2A will return to normal operation.
3. To continue with adjusting the fresh air reading, press and release the UP/YES button. ENTER will alternate with FreshAir on the top display line and the current gas reading will be on the bottom display line. To skip adjusting the fresh air reading, press and release the DOWN/NO button. The display will indicate SPAN w/Cal Gas. Skip to the next section, Adjusting the Span Setting.
4. Screw the zero air cylinder into the fixed flow regulator.
5. Use the flexible tubing coming from the calibration adapter/splash guard to connect the regulator to the calibration adapter.
6. Turn the regulator knob counterclockwise to open the regulator.
7. Allow zero air to flow for the length of time determined in “Determining Response Time” on page 39.
8. Turn the regulator knob clockwise to close the regulator.
9. Unscrew the zero air cylinder from the fixed flow regulator. Leave the calibration adapter/ splash guard’s flexible tubing connected to the regulator. The M2A will continue to display the minimum gas response on the display and retain the response level in its memory.
10. 10. Press and release the ENTER button. The M2A will perform a fresh air adjustment and the display will indicate SPAN w/Cal Gas.

NOTE: If the fresh air adjustment fails, see “Troubleshooting” on page 36 for recommended actions.

Adjusting the Span Setting

1. If you want to continue adjusting the span setting, press and release the UP/YES button. APPLY will alternate with SPAN Gas on the top display line and the current gas reading will be on the bottom display line.
   If you want to skip adjusting the span reading, press and release the DOWN/NO button. The display will indicate Leaving Cal Mode and the M2A will return to normal operation.

2. Screw the calibration gas cylinder into the fixed flow regulator.

3. Turn the regulator knob counterclockwise to open the regulator.

4. Allow calibration gas to flow for the length of time determined in “Determining Response Time” on page 39.

5. Turn the regulator knob clockwise to close it.

6. Unscrew the calibration gas cylinder from the fixed flow regulator. The M2A will continue to display the maximum gas response on the display and retain the response level in its memory.

7. Adjust the gas reading up or down to match the calibration gas cylinder concentration by using the UP/YES and DOWN/NO buttons, then press and release the ENTER button.

   • NOTE: The detector must be calibrated with a gas concentration between 10% and 100% of the channel’s full-scale value (ie. between 30 ppm and 300 ppm CO).

8. The M2A will perform a span operation. The display will indicate SPAN Gas PASS for a few seconds, then indicate SPAN Gas SAVED before indicating Leaving CAL Mode for a few seconds.

   • NOTE: If the span adjustment fails, see “Troubleshooting” on page 36 for recommended actions.

9. The display will now alternate between the normal operation screen and the message REMOVE CAL GAS for 1 minute. If the calibration gas has not been removed from the detector, remove it now to avoid unwanted alarms. During this 1 minute period, the signal output will remain fixed at 3.5 mA and the relays will remain in their non-alarm state to avoid unwanted alarms while the calibration gas clears from the detector. At the end of the 1-minute, the REMOVE CAL GAS message will stop appearing and the M2A will return to normal operation.

10. Disconnect the calibration adapter/splash guard’s flexible tubing from the regulator.
    NOTE: Do not disconnect the flexible tubing from the calibration adapter/splash guard.

11. Store the components of the calibration kit in a safe place.

Replacing Components of the CO Detector

This section includes a procedure to replace the charcoal filter, the CO plug- in sensor, and the entire detector assembly. In most cases, it is not necessary to replace the entire detector assembly.

Replacing the CO Sensor Charcoal Filter
The charcoal filter is used to scrub out interfering gases from the environment being monitored, such as H2S and certain hydrocarbons. If you are experiencing unexplained upscale readings on a CO M2A, the charcoal filter may be saturated and no longer scrubbing out interfering gases and it may be necessary to change the charcoal filter.

1. Turn off or disconnect the power to the M2A.
2. Unscrew the detector housing cap from the housing body. Make sure not to lose the cap gasket. See Figure 2 for an illustration of the CO detector.
3. Remove the rubber retaining boot with the charcoal filter disk from the sensor.
4. Replace the charcoal filter disk in the rubber retaining boot and install the boot onto the sensor.
5. Make sure that the cap gasket is in place and screw the detector cap back onto the housing body.
6. Turn on or reconnect power to the M2A.

Replacing the Plug-In CO Sensor

CAUTION: The sensor contains an electrolyte which is a dilute acid. Do not disassemble the sensor when replacing it with a new one. If the sensor electrolyte comes in contact with your skin, wash the affected area thoroughly with soap and water.

1. Turn off or unplug power to the M2A.

2. Unscrew the calibration adapter/splash guard from the detector housing cap.

3. Unscrew the detector housing cap from the detector housing body. Make sure not to lose the cap gasket.

4. Unplug and remove the CO sensor with the rubber boot and charcoal filter attached.

5. Remove the rubber boot and charcoal filter from the old sensor.

6. Remove the replacement sensor from its packaging and remove the wire jumper. This wire jumper is installed on the sensor pins for shipment or storage but must be removed for the sensor to operate properly when installed in a detector.
   NOTE: The sensor will not operate properly if the wire jumper is not removed.

7. Install the rubber boot and charcoal filter onto the new sensor’s face.

8. Carefully plug the replacement sensor into the four-socket pattern that is located in the detector housing.

9. Make sure the cap gasket is in place and screw the detector housing cap back onto the detector housing body.

10. Screw the calibration adapter/splash guard back onto the detector housing cap.

11. Turn on or plug in power to the M2A.
    CAUTION: Allow the replacement sensor to warm up for 5 minutes before you continue with the next step.

12. Calibrate the transmitter as described in the “Calibration” on page 40. Replacing the CO Detector

NOTE: In most cases, it is only necessary to replace the plug-in CO sensor.

1. Turn off or unplug power to the M2A.

2. Remove the detector junction box cover.

3. Unscrew the calibration adapter/splash guard from the detector housing cap.

4. Disconnect the detector leads from the terminal block in the detector junction box. Note the position of the color-coded leads as you remove them.

5. Unscrew the detector from the detector junction box.

6. Guide the detector leads of the replacement detector through the bottom conduit hub of the detector junction box, then screw the mounting threads of the detector into the conduit hub. If necessary for environmental conditions, apply thread sealant or Teflon tape to the hub and/or detector threads to seal them.

7. Connect the detector leads to the terminal block the same way the old detector was wired (see Figure 8 on page 19).

8. Screw the calibration adapter/splash guard onto the new detector housing cap.

9. Reinstall the detector junction box cover.

10. Turn on or plug in power to the M2A.
    CAUTION: Allow the replacement detector to warm up for 5 minutes before you continue with the next step.

11. Calibrate the replacement detector as described in “Calibration” on page 40.

RS-485 Modbus Output

Overview
This chapter describes the M2A’s RS-485 Modbus output and how to configure the M2A to make use of it. It also discusses how to wire the M2A into a Modbus system. The M2A provides an RS-485 serial communications interface. It is a Modbus Slave Device, supporting 2-wire RS-485 Modbus RTU serial communications.

Wiring the M2A in a Modbus System
The M2A is a 2-wire Modbus RTU device. When wiring the M2A into a Modbus system, adhere to standard Modbus wiring practices per the Modbus Over Serial Line Specification and Implementation Guide V1.0 or later. This document can be found online at www.modbus.org/specs.php. The Modbus protocol supports a maximum of 247 unique slave addresses (1-247). The M2A’s line driver provides for up to 128 M2As to be connected without the need for a repeater. Figure 13 & Figure 14 below illustrate typical M2A wiring configurations. If more than 128 M2As need to be connected, RS-485 repeater(s) should be used such that no more than 128 M2As reside on any given network segment.

CAUTION: The network segment can only support 128 units if RKI M2As are being used. The use of any other instruments will lower the number of units that may reside in any given network segment.

The MODBUS terminal strip is located on the terminal PCB (see Figure 4 on page 12). The following signals are available at the Modbus terminal strip:

Table 8: Modbus Terminal Strip Signals

Modbus Terminal Label (RS-485 Name)| ****

Modbus Signal Name

---|---
A| D0
B| D1
C| Common

Ground Jumper
The M2A includes a 2-pin ground header (see Figure 4 on page 12) that is used when the M2A is used in a Modbus system. Every M2A is supplied with a ground jumper (a jumper block) installed onto this header. If the M2A isn’t wired into a Modbus system or if it is wired into one as shown in Figure 12, the ground jumper should be installed. If the M2A is wired in a Modbus system as shown in Figure 11, the ground jumper should be removed.

Recommended Modbus Wiring
The recommended Modbus wiring for the M2A is illustrated in Figure 11 below. In this configuration, 5 wires are used for wiring the M2A into a Modbus system. Figure 11 also illustrates typical alarm device wiring. The ground jumper must be removed in this wiring configuration.

Adding an M2A to an Existing M2 Modbus Installation with Recommended Wiring
An M2A can be wired into an existing M2 Modbus system. The shape of the terminal PCB will be different but the wiring connections are identical and the ground jumper on the M2A must still be removed.

Alternate Modbus Wiring For Existing Installations
Although the wiring shown in Figure 11 is recommended, it is possible to wire the M2A into a Modbus system with only 4 wires in situations where a pre- existing system is being replaced and wiring is already in place. This should only be done if the wiring for a system that is being replaced is already installed and it is not practical to run another wire. See Figure 12 below for this wiring configuration. In this configuration, the wire between the “C” terminal on the M2A and the Common terminal on the Modbus controller is omitted. Instead, the Common terminal on the Modbus controller is connected to the “-” of the 24 VDC power supply. The ground jumper must be installed in this wiring configuration.

Adding an M2A to an Existing M2 Modbus Installation with Alternate Wiring
An M2A can be wired into an existing M2 Modbus system. The shape of the terminal PCB will be different but the wiring connections are identical and the ground jumper on the M2A must remain installed.

Termination Jumper
The M2A includes a 2-pin termination header (see Figure 4 on page 12) that is used when the M2A is used in a Modbus system. Every M2A is supplied with a termination jumper (a jumper block) installed onto this header. If the M2A is not used in a Modbus system, this jumper has no function. When the M2A is installed in a Modbus system, this jumper must be installed in an M2A that is at the end of a Modbus line. Any M2A in a Modbus system that is not at the end of a line must have the termination jumper removed (see Figure 13 & Figure 14 below).

Using the M2A in a 4-wire Modbus System
Although the M2A is a 2-wire Modbus RTU device, it can be used with a 4-wire Modbus controller if the system wiring is modified as follows:

• Connect the controller’s TxD0 and RxD0 wires and use this connection as the 2-wire Modbus D0 signal.
• Connect the controller’s TxD1 and RxD1 wires and use this connection as the 2-wire Modbus D1 signal.
• Connect these D0 and D1 signals and the common wire from the controller to the 2-wire Modbus Network of M2As.

Modbus Mode
Modbus Mode allows you to configure various parameters relating to the Modbus setup of the M2A. Modbus Mode includes a 5-minute time-out feature. If you do not press a control button for 5 minutes, the M2A automatically returns to normal operation.

NOTE: If the M2A returns to normal operation because of a time-out, it enters a warm-up period just as it does when it is first turned on.

1. While in normal operation, simultaneously press and hold the DOWN/NO and ENTER buttons for 5 seconds to enter Modbus Mode. Release the buttons when the following screen appears.
2. To exit Modbus Mode, press and release the DOWN/NO button. The M2A will return to normal operation. To continue in Modbus Mode, press and release the UP/YES button. The current ENABLED/DISABLED setting will appear.
3. If you want to change the currently displayed parameter, use the UP/YES and DOWN/NO buttons to adjust it to the desired setting, then press ENTER to continue to the next parameter. If the currently displayed parameter setting is OK, press the ENTER button to proceed to the next parameter. Table 9 lists the M2A Modbus Mode parameters you can set. Table 9 also lists the factory set value for each parameter.

Table 9: Configuration Parameters

or disables the Modbus output.
Slave ID| The Slave ID can be set to values from 1 (factory setting) to 247.

The M2A will only receive messages from the Master that are addressed to this Slave ID (except for broadcast messages which are received by all slaves).

Baud Rate| Can be set to 1200, 2400, 4800, 9600 (factory setting), 14440, &

Parity| EVEN (factory setting), ODD, NONE
Response Delay| The response delay can be set from 0 (factory setting) to 20 mS.

This is an optional additional delay inserted by the M2A before returning a response message to the Master. It may be helpful in some installations where the Master’s preparedness to receive responses might be delayed.

1. When you have scrolled through all the adjustable parameters, SAVE IT. YES/NO appears
   on the display.

2. If you do not wish to save the adjustments, press and release the DOWN/NO button. The DO OVER? YES/NO message will display. Press and release the DOWN/NO button. The ABORT? YES/NO message will display. Press the UP/YES button to return to normal operation. If you wish to change some of the adjustments made, press and release the DOWN/NO button. The DO OVER? YES/NO message will display. Press and release the UP/YES button. The Re-do MB Setup message will display and the M2A will return to the first adjustable parameter. Go back to step 3 and continue. If you want to save the adjustments made, press and release the UP/YES button. Modbus Saved is indicated on the display for a few seconds and the M2A returns to normal operation.

NOTE: All M2As on a Modbus network must be configured with the same baud rate and parity, and each M2A must have a unique slave ID. For an M2A to participate on a network, the ENABLED/DISABLED setting must be set to ENABLE.

Supported Modbus Functions
The M2A supports Function Code 03: Read Holding Registers and Function Code 16: Write Registers.

Function Code 03: Read Holding Registers
There are a total of 40 registers available to be read via this Function Code.

Registers 1 – 2
The format (bit & field assignments) for registers 1 – 2 is shown below in Table 10 – Table 11.

Table 10: Register 1, Numerical Reading with Sign & Decimal Point Bit & Field Assignments

1 = Negative

[14:13]| Format of Reading

0 = XXX (no decimal point) 1 = XX.X

2 = X.XX

3 = .XXX

[12:0]| The numerical value of display reading (8000 max)

Table 11: Register 2, Operating State, Alarms & Relays Bit & Field Assignments

1 = Initialization

2 = Normal

3 = Warm-up

4 = Fail

5 = Calibration

6 = Post-Calibration 7 = Low Power

8 = Setup

[11]| Gas Type Change 0=Not Changed 1=Changed

Table 11: Register 2, Operating State, Alarms & Relays Bit & Field Assignments

1=Calibration Activity Has Occurred

[8]| Fail Status

0 = Fail Not Asserted 1 = Fail Asserted

[7:6]| Alarm 2 Status 0 = No Alarm

1 = Unacknowledged Alarm 2 = Acknowledged Alarm

3 = Unused Code

[5:4]| Alarm 1 Status 0 = No Alarm

1 = Unacknowledged Alarm 2 = Acknowledged Alarm

3 = Unused Code

[3]| Overscale Status 0 = Not Overscale 1 = Overscale
[2]| Fail Relay Status 0 = Not Energized 1 = Energized
[1]| Alarm 2 Relay Status 0 = Not Energized

1 = Energized

[0]| Alarm 1 Relay Status 0 = Not Energized

1 = Energized

Register 3
Register 3 is the supply voltage (0.1 volts per count).

Registers 4 – 11
The 16 bytes in these registers contain the same ASCII text information that is displayed on the M2A’s OLED (not NULL Terminated).

Register 12
Register 12 is the range (full-scale readout).

Register 13
Register 13 is the alarm 1 set point. The decimal point location is the same as specified in Register 1.

Register 14
Register 14 is the alarm 2 set point. The decimal point location is the same as specified in Register 1.

Registers 15 – 19
Registers 15 – 19 are the Gas Name ASCII String (NULL Terminated).

Registers 20 – 22
Registers 20 – 22 are the Gas Units String (NULL Terminated).

Register 23
Register 23 is the alarm 1 trigger.

• 0=Decreasing
• 1=Increasing

Register 24
Register 24 is the alarm 1 normal relay state.

• 0=Normally De-Energized
• 1=Normally Energized

Register 25
Register 25 is the alarm 1 relay reset.

• 0=Latching
• 1=Self-Resetting

Register 26
Register 26 is the alarm 1 ON delay. Integer values are in seconds.

Register 27
Register 27 is the alarm 1 OFF delay. Integer values are in seconds.

Register 28
Register 28 is the alarm 2 trigger.

• 0=Decreasing
• 1=Increasing

Register 29
Register 29 is the alarm 2 normal relay state.

• 0=Normally De-Energized
• 1=Normally Energized

Register 30
Register 30 is the alarm 2 relay reset.

• 0=Latching
• 1=Self-Resetting

Register 31
Register 31 is the alarm 2 ON delay. Integer values are in seconds.

Register 32
Register 32 is the alarm 2 OFF delay. Integer values are in seconds.

Register 33

• Register 33 is zero suppression.
• Toxics and LEL: 0%-6% of full scale
• Oxygen: 0%-0.7% Oxygen
• The decimal point location is the same as specified in Register 1.

Register 34
Register 34 is a noise filter. Integer values in seconds. 0-60 in 5-second increments.

Register 35
Register 35 is calibration timeout in minutes (5, 10, 15, 20, 25, or 30).

Register 36
Register 36 is the calibration month (upper byte) and day (lower byte). This is zero-based (e.g. January=0 and the 1st=0).

Register 37
Register 37 is the calibration year.

Register 38

Register 38 is the calibration outcome.

• Upper=Gas Operation
• Lower=Air Operation

Calibration Outcome Codes:

• 1=Sensor Missing
• 2=Sensor Too Weak
• 3=Signal Too Strong
• 4=Not Enough Span
• 5=Negative Reading
• 6=Span Gas Value Is Not OK
• 7=Calculated Zero Is Too Low
• 8=Calculated Zero Is Too High
• 9=Zero Failure
• 10=Span Failure
• 11=Calibration Is Overscale
• 12=LEL Sensor Offset Is Too High
• 13=LEL Null Operation Failed
• 14=Operation Not Performed

Register 39
Register 39 is the auto-zero disable.

• 0=AutoZero Enabled
• 1=AutoZero Disabled

Register 40
Register 40 is the remote configuration register access level

• 0=None
• 1=Alarm Reset
• 2=All

NOTE: The default factory setting of Function Code 03, Register 40 is 1. If a value is written to Function Code 16, Register 21, that value is automatically copied to Function Code 03, Register 40. The M2A firmware looks to Function Code 03, Register 40 for the remote configuration setting.

Function Code 16: Write Registers

21 registers in Function Code 16 can be used to write to the M2A. This section only describes Registers 16 and 21 which can be used to reset an alarm condition. For a complete description of Function Code 16, see “Appendix C: Function Code 16 Registers” on page 62.

Register 16
Register 16 performs the same function as the ENTER button on the M2A. It is useful for remotely silencing alarms. With the M2A in an alarm condition, bit [0] can be used to silence it.

NOTE: Register 40 in Function Code 03, the remote configuration register, must be set to 1 or 2 for Register 16 to work.

Table 12: Register 16, Button Function

1=Pressed

[1]| DOWN/NO

0=Not Pressed 1=Pressed

[2]| UP/YES

0=Not Pressed 1=Pressed

[3]| HOLD STATUS

0=Buttons pressed and released 1=Buttons pressed and held

Register 21
Register 21 is the Remote Configuration Register. 0=No Remote Configuration 1=Reset Alarm 2=All

NOTE: The default factory setting of Function Code 03, Register 40 is 1. If a value is written to Function Code 16, Register 21, that value is automatically copied to Function Code 03, Register 40. The M2A firmware looks to Function Code 03, Register 40 for the remote configuration setting.

Parts List

Table 13 lists replacement parts and accessories for the M2A Transmitter.

Table 13: Parts List

when ordering)
07-0033RK| Detector housing cap gasket
07-0203RK| Rubber retaining boot
07-7151RK| O-ring for junction box
10-5153RK| Lid locking set screw for detector junction box
14-2101RK| Spacer between sensor and rubber boot
18-0416RK-11| Detector junction box with cover, stainless steel
18-0440-01-01| M2A-XL junction box
33-7101RK| Charcoal filter disk
45-6132RK| Termination and ground jumper
65-2438| CO replacement detector assembly (includes sensor), CSA version
71-0649| 65-2646XL0504SS M2A Transmitter Operator’s Manual (this document)
81-0076RK-01| Zero air calibration cylinder, 34-liter steel
81-0076RK-03| Zero air calibration cylinder, 103-liter
81-0064RK-01| Calibration cylinder, CO, 50 ppm in air, 34 liter steel
81-0064RK-03| Calibration cylinder, CO, 50 ppm in air, 103 liter
81-1050RK| Regulator, with gauge and knob, 0.5 liter/minute continuous flow, for 17 liter and 34-liter steel calibration cylinders (cylinders with external threads)
81-1051RK| Regulator, with gauge and knob, 0.5 liter/minute continuous flow, for 34-liter aluminum/58 liter/103-liter calibration cylinders (cylinders with internal threads)
81-1116RK| Calibration adapter/splash guard
ES-1531-CO| Replacement plug-in sensor, CO

Appendix A: Control Button Quick Reference Guide

The M2A’s control buttons allow access to operational modes, resetting of alarms, and display of the Information Screen. Table 14 shows which button combinations perform these functions and which parameters are available for adjustment while in the operational modes. While in these modes, display prompts showing a “?” require you to respond by pressing either the UP/YES (for yes) or DOWN/NO (for no) button. To change parameter settings, use the UP/YES and DOWN/ NO buttons to get the desired setting, then press and release the ENTER button to accept the setting.

Table 14: Control Button Quick Reference Chart

Mode Entered or Function Performed| Button Combination| ****

Adjustable or Viewable Parameters

---|---|---
Alarm Reset| Press and Release ENTER| n/a
Show Information Screen| Press and Hold DOWN/NO| •   Input Voltage

•   M2A Version/Revision Information

Calibration Mode| Press and Hold UP/YES for 5 seconds| •   Fresh Air Adjust

•   Span (or Zero for Oxygen) Adjust with Calibration Gas

Configuration Mode| Press and Hold UP/YES &

ENTER for 5 seconds

| •   Alarm Levels

•   Increasing or Decreasing Alarms

•   Normally Energized or Normally De- energized Relays

•   Latching or Self-resetting Alarms

•   Alarm On Delay

•   Alarm Off Delay (if self-resetting)

•   Zero Suppression

•   Noise Filter

•   Calibration Time-out Period

Gas Type Mode| Press and Hold UP/YES and DOWN/NO for 5 seconds| Gas Type
Modbus Mode| Press and Hold DOWN/NO and ENTER for 5 seconds| •   Enable or Disable Modbus

•   Slave ID

•   Baud Rate

•   Parity

•   Response Delay

Appendix B: PLC and DCS Device Wiring

The M2A can be wired to a PLC or DCS device if desired.

1. Guide multi-conductor shielded cable or cables or wires in conduit through the top conduit hub of the junction box. The number of cables or wires needed will depend on whether any relays are used and whether the Modbus output is used. Use the following recommendations to determine how to wire the M2A:
   • If Modbus connections will not be used and only the PWR/SIG terminal strip connections will be used, use four conductor cabless or four wires in conduit for connections to the power/signal terminal strip.

Table 15: Wire Size for PWR/SIG Connections

Max Distance to Controller

w/18 Gauge Wire

| Max Distance to Controller w/16 Gauge Wire| Max Distance to Controller w/14 Gauge Wire
---|---|---
2,500 ft.| 5,000 ft.| 8,000 ft.

• If the PWR/SIG terminal strip connections and one or more relays are used, route the connections to the M2A in conduit. Use shielded cable in the conduit for the PWR/SIG connections and unshielded cable or individual wires for the relay connections. Make sure any wire or cable used for relay wiring is appropriately rated for the power that it will carry.

NOTE: If shielded cable is used for the PWR/SIG connections, leave the cable shield’s drain wire insulated and disconnected at the M2A. You will connect the opposite end of the cable’s drain wire to the controller or device.

• If the M2A will be wired into a Modbus network, see “Chapter 8: RS-485 Modbus Output” on page 46.

See Figure 15 below for field wiring connections to the M2A.

Appendix C: Function Code 16 Registers

The M2A supports Function Code 16 which allows writing to the M2A. There are 21 registers in this Function Code.

Register 1
Register 1 is the alarm 1 set point. The value must be an integer. Any decimals are omitted.

Register 2
Register 2 is the alarm 1 trigger.

• 0=Decreasing
• 1=Increasing

Register 3
Register 3 is the alarm 1 relay state.

• 0=Normally De-Energized
• 1=Normally Energized

Register 4
Register 4 is the alarm 1 relay reset.

• 0=Latching
• 1=Self-Resetting

Register 5
Register 5 is the alarm 1 ON delay. The integer value is in seconds.

Register 6
Register 6 is the alarm 1 OFF delay. The integer value is in seconds.

Register 7
Register 7 is the alarm 2 set point. The value must be an integer. Any decimals are omitted. The decimal point location is the same as specified in Register 1 of Function Code 03.

Register 8
Register 8 is the alarm 2 trigger.

• 0=Decreasing
• 1=Increasing

Register 9
Register 9 is the alarm 2 relay state.

• 0=Normally De-Energized
• 1=Normally Energized

Register 10
Register 10 is the alarm 2 relay reset.

• 0=Latching
• 1=Self-Resetting

Register 11
Register 11 is the alarm 2 ON delay. The integer value is in seconds.

Register 12
Register 12 is the alarm 2 OFF delay. The integer value is in seconds.

Register 13

• Register 13 is the zero suppression.
• Toxics and LEL: 0%-6% Full Scale
• Oxygen: 0%-0.7% Oxygen
• The value must be an integer. Any decimals are omitted.

Register 14
Register 14 is the noise filter. The integer value is in seconds (0-60 in 5-second increments).

Register 15
Register 15 is the calibration timeout. Value is in minutes (5, 10, 15, 20, 25, or 30).

Register 16
Register 16 performs the same function as the ENTER button on the M2A. It is useful for remotely silencing alarms. With the M2A in an alarm condition, bit [0] can be used to silence it.

NOTE: Register 40 in Function Code 03, the remote configuration register, must be set to 1 or 2 for Register 16 to work.

Table 16: Register 16, Button Function

1=Pressed

[1]| DOWN/NO

0=Not Pressed 1=Pressed

[2]| UP/YES

0=Not Pressed 1=Pressed

[3]| HOLD STATUS

0=Button(s) pressed and released 1=Button(s) pressed and held

Register 17
Register 17 is the calibration month (MSB) and day (LSB). This is zero-based (e.g. January=0 and the 1st=0).

Register 18
Register 18 is the calibration year.

Register 19
Register 19 is for clearing change flags. When parameters are changed at the M2A, a flag is raised at the controller. This register can be used to clear those flags.

Table 17: Register 19, Clear Change Flags

Register 20
Register 20 is the AutoZero Disable.

• 0=AutoZero Enabled
• 1=AutoZero Disabled

Register 21
Register 21 is the Remote Configuration Register.

• 0=No Remote Configuration
• 1=Reset Alarm
• 2=All

NOTE: The default factory setting of Function Code 03, Register 40 is 1. If a value is written to Function Code 16, Register 21, that value is automatically copied to Function Code 03, Register 40. The M2A firmware looks to Function Code 03, Register 40 for the remote configuration setting.

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