Macurco Carbon Monoxide Alarm DVP 120 User Manual

DVP-120 Installation & Operating Instructions  
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Figure 3-4 Normal System Display..................................................................................................................... 17  
Figure 3-5 Sensor prompt.................................................................................................................................... 17  
Figure 3-6 Alarm display..................................................................................................................................... 17  
Figure 3-7 Alarm Silenced message .................................................................................................................... 18  
Figure 3-8 Warning display................................................................................................................................. 18  
Figure 3-9 Warning Silenced message ................................................................................................................ 18  
Figure 3-10 Trouble display ................................................................................................................................ 18  
Figure 3-11 Trouble Silenced message................................................................................................................ 19  
Figure 3-12 Zone Signal display.......................................................................................................................... 19  
Figure 3-13 Zone Signal Silenced message......................................................................................................... 19  
Figure 3-14 Hardware Summary ......................................................................................................................... 20  
Figure 3-15 Save Configuration? Prompt............................................................................................................ 20  
Figure 3-16 Set Time of Day............................................................................................................................... 21  
Figure 3-17 Enter Hours...................................................................................................................................... 21  
Figure 3-18 Enter Minutes................................................................................................................................... 21  
Figure 3-19 Set Day of the week ......................................................................................................................... 22  
Figure 3-20 Load Default Configuration............................................................................................................. 22  
Figure 3-21 Enter Password................................................................................................................................. 23  
Figure 3-22 Password Prompt ............................................................................................................................. 23  
Figure 3-23 Wrong Password Prompt ................................................................................................................. 23  
Figure 3-24 Sensor Summary.............................................................................................................................. 24  
Figure 3-25 Sensor Type ..................................................................................................................................... 24  
Figure 3-26 Sensor’s Alarm Level ...................................................................................................................... 24  
Figure 3-27 Sensor’s Warning Level................................................................................................................... 25  
Figure 3-28 Sensor’s Range................................................................................................................................. 25  
Figure 3-29 Relay Summary................................................................................................................................ 26  
Figure 3-30 Relay Mode...................................................................................................................................... 26  
Figure 3-31 Turn On Delay ................................................................................................................................. 26  
Figure 3-32 Minimum on time ............................................................................................................................ 26  
Figure 3-33 Horn Summary................................................................................................................................. 27  
Figure 3-34 Horn Mode....................................................................................................................................... 27  
Figure 3-35 Horn Turn On Delay........................................................................................................................ 27  
Figure 3-36 Horn Minimum on time ................................................................................................................... 27  
Figure 3-37 Strobe Summary............................................................................................................................... 28  
Figure 3-38 Strobe Mode..................................................................................................................................... 28  
Figure 3-39 Strobe Turn On Delay...................................................................................................................... 28  
Figure 3-40 Strobe Minimum on time ................................................................................................................. 28  
Figure 3-41 Zone Controls................................................................................................................................... 29  
Figure 3-42 Zone Group Type............................................................................................................................. 29  
Figure 3-43 Timer Days Selection....................................................................................................................... 30  
Figure 3-44 Start Time Selection......................................................................................................................... 30  
Figure 3-45 Stop Time Selection......................................................................................................................... 30  
Figure 3-46 Sensor Selection............................................................................................................................... 30  
Figure 3-47 Add/Remove sensor prompt............................................................................................................. 30  
Figure 3-48 Rising Trip Point Entry.................................................................................................................... 31  
Figure 3-49 Falling Trip Point Entry................................................................................................................... 31  
Figure 3-50 Sensor Mode Selection..................................................................................................................... 31  
Figure 3-51 Quorum Entry .................................................................................................................................. 31  
Figure 3-52 Alarm Signals................................................................................................................................... 32  
Figure 3-53 Buzzer Alarm Signal........................................................................................................................ 32  
Figure 3-54 Horn Alarm Signal........................................................................................................................... 32  
Figure 3-55 Strobe Alarm Signal......................................................................................................................... 33  
Figure 3-56 Warning Signals............................................................................................................................... 33  
Figure 3-57 Buzzer Warning Signal .................................................................................................................... 33  
Figure 3-58 Horn Warning Signal ....................................................................................................................... 33  
Figure 3-59 Strobe Warning Signal..................................................................................................................... 34  
Figure 3-60 Trouble Signals ................................................................................................................................ 34  
Figure 3-61 Buzzer Trouble Signal ..................................................................................................................... 34  
Figure 3-62 Horn Trouble Signal ........................................................................................................................ 34  
Figure 3-63 Strobe Trouble Signal ...................................................................................................................... 35  
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LIST OF TABLES  
Table 2-1 Main Power Connections .................................................................................................................... 10  
Table 2-2 Recommended Wire Gauge................................................................................................................. 10  
Table 2-3 Connector to Sensor Channel Mapping............................................................................................... 11  
Table 2-4 Sensor Connectors: Channel and Pin Assignments............................................................................. 11  
Table 2-5 Relay Interface Signals and Connector Assignments.......................................................................... 12  
Table 2-6 Horn & Strobe signals and Connector Assignments ........................................................................... 13  
Table 2-7 Wire gauge for Horn & Strobe functions ............................................................................................ 13  
Table 2-8 Macurco Transducers.......................................................................................................................... 14  
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1 INTRODUCTION  
1.1 General Information  
The DVP-120 Gas Detection and Ventilation Control Panel is a microcomputer based control panel used to  
operate ventilation fans based on the inputs from remotely mounted gas transducers. The unit is fully tested  
prior to leaving the factory, and is ready for operation after the wiring is complete and the user system  
configuration is entered.  
System wiring includes the main power connection for the DVP-120, current loop and power connections  
between the remote sensors and the DVP-120, the fan control connections and/or alarm connections from the  
DVP-120 to the building ventilation and automation systems. Refer to Figure 1-1 for a representative system-  
wiring diagram.  
The system configuration is entered by the user through the LCD display and keypad. Refer to Figure 1-2 for  
equipment locations. The system display provides the user with the system status, and the status of each  
configured sensor. In addition, all control functions of the DVP-120 may be accessed through the system  
display and keypad.  
1.2 Features  
– Twelve analog (current loop) input channels  
– Three 16A, 240 VAC SPDT fan/alarm relays  
– Drivers for external Horn and Strobe  
– Externally visible system, alarm and relay status indicators  
– Externally visible LCD display showing the status of each transducer and relay  
– External keypad for user selection of the transducer/alarm display and setting the configuration  
(password protected)  
– Up to three ventilation control zones can be defined  
– Each zone can be controlled based on transducer signals and/or time of day  
– Each relay is configurable for delay before activation and minimum on time  
– Fail safe operation can be implemented  
– Lockable Nema 1 type enclosure  
– Modular input and output connectors  
1.3 Compatible Macurco Transducers  
Carbon Monoxide (CO):  
– CM-2B – Solid State sensor with local concentration display (ppm)  
– CM-3 – Electrochemical sensor with local concentration display (ppm)  
Nitrogen Dioxide (NO):  
– ND-2 – Electrochemical sensor with local concentration display (ppm)  
Combustible Gasses (EX):  
– GT-11A – Solid State Sensor  
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NOTE:  
ENGINEER AND ARCHITECT SPECIFICATIONS  
1. Power connections at the sensor are non-polarized.  
Gas detection and exhaust fan control is provided by a Macurco DVP-120  
system. This System will use CM-2B or CM-3 Carbon Monoxide (CO) to  
current transducers, ND-2 Nitrogen Dioxide to current transducers or GT-  
11A Combustible Gas to current transducers. Each transducer will measure  
the level of the target gas and provide this information to the DVP-120 over  
a 4-to-20 mA current loop. The Transducers are mounted in a standard 6"  
x 6" electrical enclosure, and operate on low voltage (24 VDC).  
2. DVP-120 connections are representative of J7, J8, J10, J11, J13 and J14.  
CM-2B  
GT-11A  
output  
mA  
V
output  
power  
power  
output  
B
-
A
+
D
C
D
C
-
-
+
+
All power and signal connections for the transducers are provided from the  
DVP-120 control panel, via unshielded four conductor cable. The DVP-120  
control panel provides three relays which can be used for ventilation fan  
control or alarm signaling . These relays (SPDT - Form C) are for pilot duty  
only, capable of switching 10 amp loads up to 240 VAC .  
J7, J8,  
J10, J11,  
J13, L14  
8
7
6
5
4
3
2
1
Main Fan Power  
J2  
- Strobe  
+ Strobe  
- Horn  
4
MACURCO DVP-120  
GAS DETECTION AND  
VENTILATION CONTROL PANEL  
coil  
3
2
1
Exhaust Fans  
+ Horn  
Relay 1  
Relay 2  
Relay 3  
coil  
Panel Power  
120/250 VAC  
Gnd  
120 VAC  
ALARM  
N
L
STARTER RELAYS  
120 VAC COILS  
1
2
3
4
5
6
7
8
9
J4  
1
3
J2  
120 VAC  
Power  
NOTE  
1. Typical coverage for a CO sensor is 5000 sq. ft., 900 sq. ft. for combustible gasses.  
Extra sensors may be needed near areas where people work, such as toll booths.  
2. Macurco provides only the control panels and sensors. Fans, relays, and other devices are provided by the contractor.  
3. See the appropriate building code for the size of fans and air changes per unit of time.  
Typical layout in Parking Garage  
exhaust fan  
Air inlet:  
door, damper,  
louvier  
DVP-120  
panel  
CM-2B,  
CM-3 or  
SS102HC-1  
CM-2B,  
CM-3 or  
SS102HC-1  
CM-2B,  
CM-3 or  
SS102HC-1  
space sensors equally,  
mount 5 feet above floor  
Air inlet:  
door, damper,  
louvier  
exhaust fan  
Figure 1-1 System Wiring Diagram  
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Figure 1-2 DVP-120 Internal View  
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1.4 Specifications1  
– Size:  
10” x 12” x 2” (254 mm x 305 mm x 51 mm)  
TBD  
– Weight:  
– Enclosure:  
Nema 1 equivalent steel  
– Operating Temperature:  
0° to 50 °C (-32 to 122 °F)  
– Operating Humidity:  
– Power Input:  
0% to 95% RH non-condensing  
100 – 240 VAC, 1 Amp, 47 – 63 Hz, single phase  
SPDT, 120/240 VAC, 16 A resistive  
2 rows of 16 characters with backlight  
Power, ALARM/warning, Silenced, Relay 1, Relay 2 & Relay 3  
Internal buzzer, 90 dbA at 1ft  
24VDC, maximum 250 mA  
– Relay Rating (3):  
– LCD Display:  
– Status Indicators (LED):  
– Audible indicator:  
– External Drivers (2):  
– CO Transducer Range:  
– NO Transducer Range:  
– EX Transducer Range:  
– Relay On Delay:  
0 – 250PPM  
0 – 9.0 PPM  
0 – 10,000 PPM  
0 – 15 minutes in 1 second increments  
0 – 15 minutes in 1 second increments  
– Relay Off Delay:  
1.5 Warranty  
The DVP-120 Gas Detection and Ventilation Control Panel is warranted to be free from defective material and  
workmanship for a period of two (2) years from the date of manufacture (stamped on the unit). If any  
component becomes defective during the warranty period, it will be replaced or repaired free of charge, if the  
unit is returned in accordance with the instructions below. This warranty does not apply to units that have been  
altered or had repair attempted, or that have been subjected to abuse, accidental or otherwise. The above  
warranty is in lieu of all other express warranties, obligations, or liabilities.  
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR PARTICULAR PURPOSE  
ARE LIMITED TO A PERIOD OF TWO (2) YEARS FROM THE PURCHASE DATE.  
Macurco shall not be liable for any incidental or consequential damages for breach of this or any other warranty  
express or implied, arising out of or related to the use of the control panel. Manufacturer or its agent’s liability  
shall be limited to replacement or repair as set forth above. Buyer’s sole and exclusive remedies are return of  
the goods and repayment of the price, or repair and replacement of non-conforming goods or parts. (The  
Uniform Commercial Code applicable in the State of Colorado shall govern)  
1.6 Return Instructions  
Call (303) 781-4062 for a Return Authorization form. Then carefully pack the control panel with a written  
description of the nature of the return. Send the unit to the following address:  
Aerion Technologies Inc.  
6555 S. Kenton St., Ste 304  
Centennial, CO  
USA 80111  
1
Macurco reserves the right to modify or change the specifications of all products without prior  
notification to the user.  
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2 Installation & Connection  
2.1 Mounting the DVP-120  
Mounting holes are provided in the DVP-120 case at the four corners. The top two are keyhole shaped so that  
the panel can be hung and then the two bottom screws driven to hold the panel. Conduit entry holes are  
provided on the top, bottom and right side of the panel. The panel should be mounted with sufficient space all  
around, depending on the complexity of the installation.  
Main power wiring should conform to national and local electrical codes, and may require separate inspections  
and certification. Contact your local building authority for further details. If safety certification is required to  
obtain your occupancy certificate, Macurco can contract to provide testing services to obtain certification (such  
as the ETL label) by a national testing laboratory. Contact the Macurco Sales Department for further details.  
2.2 General Wiring Information  
WARNING  
High voltage terminals (120/240 VAC) are located within the  
DVP-120, presenting a hazard to service technicians. Only  
qualified technicians should open the DVP-120 case and  
service the internal circuits. Ensure power is removed from the  
DVP-120 prior to servicing the unit.  
With the exception of the safety ground, all field wiring is done via modular connectors (provided) so that the  
wiring can be done easily and then simply plugging the modular connectors into the matching connectors on the  
PCB.  
The power and signal connections to the remote mounted sensors should be size AWG18 (minimum) for short  
runs. Refer to Table 2-2 for recommended wire gauges. Four conductor cables may be used in all cases since  
the DVP-120 employs DC power for remote sensors to prevent electrical noise from interfering with the sensor  
output signal.  
Do not bundle sensor power and/or signal connections with other AC power cables to prevent electrical  
interference. If other AC power connections must be bundled with the DVP-120 sensor cables, Macurco  
recommends that the sensor connections be made with two twisted pairs of the appropriate gauge, with an  
overall foil and braid shield. All shields should be terminated at the DVP-120 end of the cable only. A ground  
stud is provided near the bottom left corner of the panel.  
Typical part numbers for AWG18 are:  
Alphawire 55132  
Belden TBD  
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2.3 Main power Connection  
The main power cable should be routed into the bottom left conduit entry.  
Macurco recommends a minimum wire size of AWG18. The modular connector will accept wire from 12 to 24  
AWG.  
The safety ground wire should be secured to the ground stud at the bottom left of the cabinet with the lock  
washer and nut supplied. Macurco recommends the use of a ring terminal for the ground connection.  
Refer to Table 2-1 for DVP-120 power connections.  
The line and neutral wires should be stripped 1/4 in. (6.5 mm), insert the wire into the wire cavity of the  
modular connector and tighten the screw clamp. Ensure that the wire cannot be easily pulled from the  
connector. Plug the modular connector into J4 on the PCB and ensure that it latches into the header properly.  
Signal  
Line (120/220/240/250 VAC)  
Neutral  
Terminal Connection  
J4-3  
J4-1  
Ground  
Ground Stud  
Table 2-1 Main Power Connections  
2.4 Remote Sensor Connection  
Each remote sensor is connected by a four-wire connection – two wires for DC power and two wires for the 4 –  
20 mA loop connection. The sensors are connected to the control panel PCB with modular connectors, two  
sensors per connector. See Figure 2-1 for a view of a typical sensor connector. Refer to Table 2-2 for wire size  
recommendations.  
1
8
Insert this face of connector  
into mating connector on  
control circuit board.  
Figure 2-1 Sensor Interface Connector  
Wire gauge  
Maximum Run Length (ft.)  
(feet)  
500  
800  
(meters)  
152  
244  
18  
16  
14  
1250  
381  
Table 2-2 Recommended Wire Gauge  
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Each 8-terminal sensor modular connector may be disconnected from the PCB connector to ease wire  
installation. The terminals will accept wire from 16 to 28 AWG. To install a wire, strip back approximately 0.25  
in. (6 mm) of insulation, and insert the bare wire into the terminal. Tighten the screw clamp and ensure that the  
wire cannot be easily pulled from the connector. Table 2-3 lists the connector to sensor channel correspondence.  
While Table 2-4 lists channel signals, connector and terminal assignments for all 12 input channels.  
Control Board Connector  
Sensor Channels  
J7  
1, 2  
3, 4  
5, 6  
J10  
J13  
J8  
7, 8  
J11  
J14  
9, 10  
11, 12  
Table 2-3 Connector to Sensor Channel Mapping  
Signal Name  
Connector Signal Name  
-Pin  
Connector Signal Name  
-Pin  
Connector  
-Pin  
Number  
J7-5  
J7-6  
J7-7  
J7-8  
J7-1  
J7-2  
J7-3  
Number  
J13-5  
J13-6  
J13-7  
J13-8  
J13-1  
J13-2  
J13-3  
J13-4  
J8-5  
J8-6  
J8-7  
J8-8  
J8-1  
J8-2  
J8-3  
J8-4  
Number  
J11-5  
J11-6  
J11-7  
J11-8  
J11-1  
J11-2  
J11-3  
J11-4  
J14-5  
J14-6  
J14-7  
J14-8  
J14-1  
J14-2  
J14-3  
J14-4  
CH 1 +24 Vdc  
CH 1 +I loop  
CH 1 -I loop  
CH 1 24Vdc Ret  
CH 2 +24 Vdc  
CH 2 +I loop  
CH 2 -I loop  
CH 2 24Vdc Ret  
CH 3 +24 Vdc  
CH 3 +I loop  
CH 3 -I loop  
CH 3 24Vdc Ret  
CH 4 +24 Vdc  
CH 4 +I loop  
CH 4 -I loop  
CH 5 +24 Vdc  
CH 5 +I loop  
CH 5 -I loop  
CH 5 24Vdc Ret  
CH 6 +24 Vdc  
CH 6 +I loop  
CH 6 -I loop  
CH 6 24Vdc Ret  
CH 7 +24 Vdc  
CH 7 +I loop  
CH 7 -I loop  
CH 7 24Vdc Ret  
CH 8 +24 Vdc  
CH 8 +I loop  
CH 8 -I loop  
CH 9 +24 Vdc  
CH 9 +I loop  
CH 9 -I loop  
CH 9 24Vdc Ret  
CH 10 +24 Vdc  
CH 10 +I loop  
CH 10 -I loop  
CH 10 24Vdc Ret  
CH 11 +24 Vdc  
CH 11 +I loop  
CH 11 -I loop  
CH 11 24Vdc Ret  
CH 12 +24 Vdc  
CH 12 +I loop  
CH 12 -I loop  
CH 12 24Vdc Ret  
J7-4  
J10-5  
J10-6  
J10-7  
J10-8  
J10-1  
J10-2  
J10-3  
J10-4  
CH 4 24Vdc Ret  
CH 8 24Vdc Ret  
Table 2-4 Sensor Connectors: Channel and Pin Assignments  
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2.5 Relay Connection  
All poles of the three relays are available at the modular connector J2 (see Figure 2-2 for details). J2 is a 9-  
position variant of the high voltage modular connector used for power input. Each terminal can accommodate a  
wire size 12 to 24 AWG.  
1
9
Insert this face of connector  
into mating connector on  
control circuit board.  
Figure 2-2 Relay Connector  
To install the wiring for the relays, disconnect the connector from the header on the PCB. Strip the insulation of  
each wire back approximately 1/4 in. (6.5 mm), insert the bare wire into the terminal and tighten the screw  
clamp. Ensure that the wire cannot easily be pulled from the connector.  
Note that the panel configuration can designate Relay-1 as an ALARM signal relay. Relay-2 and Relay 3 are  
general purpose in function.  
Refer to Table 2-5 for output signals, connector and terminal assignment for all three relays.  
Signal Name  
Connector-  
Pin Number  
J2-1  
Signal Name  
Connector-  
Pin Number  
J2-4  
Signal Name  
Connector-  
Pin Number  
J2-7  
Relay 1 NC  
Relay 2 NC  
Relay 2 NC  
Relay 1 NO  
J2-2  
Relay 2 NO  
J2-5  
Relay 2 NO  
J2-8  
Relay 1 Common  
J2-3  
Relay 2 Common  
J2-6  
Relay 2 Common  
J2-9  
Table 2-5 Relay Interface Signals and Connector Assignments  
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2.6 Horn & Strobe Connection  
The external horn and strobe connections are available at the modular connector J5 (see Figure 2-3 for details).  
J5 as a 4-position connector, similar to the sensor interface connectors.  
1
4
Insert this face of connector  
into mating connector on  
control circuit board.  
Figure 2-3 Horn & Strobe Connector  
To install the wiring for the horn or strobe, disconnect the connector from the header on the PCB. Strip the  
insulation of each wire back approximately 0.25 in. (6 mm), insert the bare wire into the terminal and tighten  
the screw clamp. Ensure that the wire cannot easily be pulled from the connector.  
When all wires are connected, seat the modular connector into the PCB header; ensure that the latch engages.  
Refer to Table 2-6 for signals, connector and terminal assignment for the horn and strobe.  
Signal Name  
Connector-Pin  
Number  
J5-1  
Signal Name  
Connector-Pin  
Number  
J5-3  
Horn +  
Horn -  
Strobe +  
Strobe -  
J5-2  
J5-4  
Table 2-6 Horn & Strobe signals and Connector Assignments  
Refer to Table 2-7 for recommended wire gauge vs. run length for the horn & strobe functions (maximum 2.5  
volt drop in the wire).  
Maximum Run Length (ft.)  
Wire gauge  
(feet)  
200  
340  
480  
850  
(meters)  
61  
103  
147  
215  
24  
22  
20  
18  
Table 2-7 Wire gauge for Horn & Strobe functions  
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2.7 Interfacing Macurco Sensors  
All Macurco CO, NO2 and combustible gas sensors with current loop outputs may be used with the DVP-120.  
Data sheets for the Macurco sensors listed in Table 2-8 are provided as an appendix to this manual.  
Power connections to Macurco sensors used with the DVP-120 are polarity-insensitive, since a bridge rectifier  
is connected to the power input terminals. All sensors used with the DVP-120 panel employ screw clamp  
terminal blocks for power and signal connections.  
Polarity of the current loop connections is marked on the printed circuit board of the sensor.  
Description  
Order Part Number  
CM-2B  
Carbon Monoxide Transducer with solid-  
state sensor  
Carbon Monoxide Transducer with  
Electro-chemical sensor  
CM-3  
Nitrogen Dioxide Transducer with a 5A  
relay  
ND-2  
Combustible Gas Transducer  
GT-11A  
Table 2-8 Macurco Transducers  
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3 Operation  
3.1 Initial Operating Mode  
When power is first applied to the DVP-120, a few simple tests will be performed, e.g. cycle through all status  
lights, and display the system name and model # (Figure 3-1). The system will then proceed to normal mode, if  
the operating parameters have been entered.  
DVP - 1 2 0 Ve r 1 . 0 1  
Figure 3-1 Model Display  
If the user has not entered any parameters, the system WILL NOT be monitoring the sensors or controlling the  
ventilation system. The relays will be in the not actuated state and the horn and strobe outputs will be off. The  
power status light will show NORMAL (steady green) and the system will immediately enter the  
CONFIGURATION mode, see section 3.2 for details to set the configuration parameters.  
If a valid set of configuration parameters have been entered the panel will wait for all sensors to warm up.  
During this time, the display will show a count down, minutes and seconds, until the end of the warm-up period,  
Figure 3-2.  
D V P - 1 2 0 V e r . 1 . 0 1  
W a r m - u p  
2 : 3 0  
Figure 3-2 Warm-Up display  
During the warm-up period, the keypad will be locked. When the warm-up period ends, the LCD will start  
showing the normal display, Figure 3-4.  
3.1.1 Status Light Display  
The POWER, ALARM/WARNING, SILENCE, RELAY 1, RELAY 2 and RELAY 3 status lights indicate the  
system status and provide the following data:  
?
?
POWER  
?Green (steady) – Power is good and there are no trouble indications  
?Yellow (steady) – Trouble is indicated by a transducer or the panel itself  
ALARM/WARNING  
?Off  
?Red (steady)  
– All indicated gas levels are below the warning level  
– One or more gas levels is at or above the alarm level  
?Amber (steady) – One or more gas levels is at or above the warning level  
SILENCE  
?Off  
?
–There are no silenced alarms or warnings  
?Red (flashing) –There are alarms and/or warnings that have been silenced (gas levels may  
or may not still be at alarm or warning levels)  
?
?
?
RELAY 1  
?Off  
?Green (steady) – Relay 1 is on  
RELAY 2  
?Off  
?Green (steady) – Relay 2 is on  
RELAY 3  
?Off  
?Green (steady) – Relay 3 is on  
– Relay 1 is not on  
– Relay 2 is not on  
– Relay 3 is not on  
The overall system status is visible at a distance via the status lights as described above. More detailed system  
information is displayed on the LCD, which can show the status of each relay and sensor. A typical status  
display is shown in Figure 3-4.  
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3.1.2 User Interface  
The LCD display is used to show detailed information about the status of the control system and the  
configuration parameters to the user. The keypad (Figure 3-3) is used to select the information displayed and to  
enter the configuration parameters, which are stored in the DVP-120 non-volatile memory. The keypad consists  
of the usual ten digit keys, the normal four direction keys, plus a MENU key that is used to access the  
configuration menu and a HUSH key that will silence the audible alarm indicators.  
Figure 3-3 Keypad layout  
In normal mode, no warnings or alarms that have not been silenced, the up and down cursor keys will scroll the  
display to any configured sensors’ status.  
In normal mode, the left and right cursor keys will scroll through all relays’ status. When the left (or right) key  
is used to scroll to another relay the display will remove the underlining under the sensor number and underline  
the relay number, this indicates that the digit keys can be used to jump directly to a particular relay’s status.  
When the up or down key is again used the display will switch back to the digit keys jumping to a particular  
sensor.  
The MENU key has three functions. First, when the system is presenting the normal display, pressing the  
MENU key will cause the system to shift to the Configuration Menu. The second function of the MENU key is  
to return to the next-higher menu level, e.g. from the sensor configuration menu to the system menu, or from the  
system menu out to normal mode. When the MENU key is used to return to normal mode, any changed  
configuration parameters are saved in the DVP-120’s non-volatile memory. The third function of the MENU  
key is to change the LCD contrast by holding the MENU key for five (5) seconds, at which point the LCD will  
prompt for further activities, see sections 4.4 for more detail..  
The HUSH key is only used to silence the audible indicators (internal buzzer and possible external Horn and  
Strobe devices). Pressing and releasing the button will silence the internal buzzer. The HUSH button must be  
held for 3 seconds to silence the Horn and Strobe devices. See sections 3.1.4, 3.1.5 and 3.1.6 for more detail.  
In normal mode, holding the zero key for three (3) seconds can be used to lock the keypad against accidental (or  
unauthorized) use. See section 4.5 for details.  
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3.1.3 Normal Status Display  
MO N 1 0 : 2 3 R 1 O F F  
S 0 1 C O 5 P P M  
Figure 3-4 Normal System Display  
The display shows the day of the week and the time of day, in 24-hour format. It also shows the status of one of  
the relays, R1 in this example, and the type and indicated gas concentration of one of the configured sensors,  
S01 is a CO sensor indicating 5 ppm in this example.  
Notice in Figure 3-4 that the digits 01 are underlined, this indicates that the digit keys can be used to jump  
directly to another sensor’s status. When the first digit is pressed, the display will prompt for the sensor to  
display.  
S h o w S e n s o r _ 1  
Figure 3-5 Sensor prompt  
In this example, the first digit entered was 1. Since the DVP-120 can handle 12 sensors, the first digit for a  
sensor number is either 0 or 1. The leading zero must be entered when selecting a sensor less than ten. When the  
second digit is entered, the normal display will be restored; showing the type and value for the selected sensor.  
As mentioned above, the left and right scroll keys will display the next (previous) relay’s status. The display  
will also change the underline to indicate that the digit keys (zero, one and two) can be used to jump directly to  
a particular relay. Since only one digit is needed to select a relay, the system does it immediately rather than  
prompting to show the relay.  
If the sensor is indicating a gas level that is greater than the alarm or warning levels the gas reading will  
alternate with the words ALARM or WARNING as appropriate. If the sensor is indicating a trouble condition  
the gas reading will be replaced by the word TROUBLE.  
3.1.4 ALARM Status Display  
When any sensor indicates a gas level that is at or above the configured alarm level for the sensor, the panel will  
enter ALARM mode, during which the internal buzzer will sound, the alarm lamp will be red and the LCD will  
show the sensor type and channel number.  
A L A RM  
C O S E N S O R 0 2  
Figure 3-6 Alarm display  
The display will cycle through all sensors that are signaling alarm levels, at five seconds per display. Pressing  
any key (except HUSH) will advance the display to the next sensor that is signaling an alarm level.  
If an external horn and/or strobe are connected and configured to signal an alarm condition, they will also sound  
when an alarm condition occurs, after a delay if that configuration option is used.  
When the HUSH key is pressed, the internal buzzer will be silenced for five (5) minutes. If the horn or strobe  
turn on delays have not finished then they will also be silenced. If the delays have finished the HUSH key must  
be held for three (3) seconds in order to silence the horn and strobe.  
When all indicators have been silenced, the display will show that alarms have been silenced for five minutes.  
After any key press (or five seconds), the display will return to normal mode.  
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A L A RM S I L E N C E D  
F O R 5 M I N U T E S  
Figure 3-7 Alarm Silenced message  
If Relay 1 has be configured as an ALARM relay it will be turned on when an alarm condition is recognized  
and will be turned off when all audio indicators have been silenced.  
Silencing applies to the cause(s) of the alarm when the HUSH key is pressed.  
3.1.5 Warning Status Display  
When any sensor indicates a gas level that is at or above the configured warning level for the sensor, the panel  
will enter WARNING mode during which the internal buzzer will sound, the alarm/warning lamp will be amber  
and the LCD will show the sensor type and channel number.  
WA R N I NG  
C O S E N S O R 0 2  
Figure 3-8 Warning display  
The display will cycle through all sensors that are signaling warning levels, at five seconds per display. Pressing  
any key (except HUSH) will advance the display to the next sensor that is signaling a warning level.  
If the buzzer and/or an external horn and/or external strobe are connected and configured to signal a warning  
condition, they will also sound when a warning condition occurs. There is a configurable delay for the horn or  
strobe will sound, see sections 3.3.5.3 and 3.3.6.3.  
When the HUSH key is pressed, the internal buzzer will be silenced for fifteen (15) minutes. If the horn or  
strobe turn on delays have not finished then they will also be silence. If the delays have finished, the HUSH key  
must be held for three (3) seconds in order to silence the horn and strobe.  
When all indicators have been silenced, the display will show that warnings have been silenced for fifteen  
minutes. After any key is pressed (or five seconds) the display will return to normal mode.  
WA R N I NG S I L E N C E D  
F O R 1 5 M I N U T E S  
Figure 3-9 Warning Silenced message  
3.1.6 Trouble Status Display  
If a sensor indicates a trouble, or the panel detects an internal fault, the panel will enter TROUBLE mode during  
which the internal buzzer will sound, the power lamp will be yellow and the LCD will show the problem.  
T R O U B L E  
C O S E N S O R 0 2  
Figure 3-10 Trouble display  
The display will cycle through all trouble indications, at five seconds per display. Pressing any key (except  
HUSH) will advance the display to the next trouble indicator.  
If an external horn and/or strobe are connected and configured to signal a trouble condition, they will also sound  
when a trouble condition occurs, after a delay if that configuration option is used.  
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When the HUSH key is pressed, the internal buzzer will be silenced for eight (8) hours. If the horn or strobe  
turn on delays have not finished then they will also be silence. If the delays have finished, the HUSH key must  
be held for three (3) seconds in order to silence the horn and strobe.  
When all indicators have been silenced, the display will show that trouble indications have been silenced for  
eight hours. After five seconds (or any key press), the display will return to normal mode.  
T R O U B L E S I L E N C E D  
F O R 8 H O U R S  
Figure 3-11 Trouble Silenced message  
3.2 Ventilation control  
The ventilation control function operates independently from the alarm function. It provides the ability to  
configure the DVP-120 for control of one to three zones. Each zone can respond to gas levels indicated by one  
or more of the three types of sensors, with configurable turn on and turn off concentrations for each gas type.  
Each zone can also be controlled based on the time of day and/or two of the sensor types.  
Each zone can be configured to control one, two or all three of the relays and the external horn and strobe if  
desired. When more than one zone is controlling a relay it only takes one zone to activate the relay, but all  
controlling zones must release the relay before it will turn off.  
Each of the relays, horn and strobe have independent turn on delays (to ignore short duration transients) and  
turn off delays (to ensure minimum run times for fans that must run for internal cooling).  
3.2.1 Zone Signal Display  
When a zone is controlling the horn or strobe and they turn them on, the panel will enter ZONE SIGNAL mode  
during which the horn and/or strobe will be turned on and the LCD will show the zone that is signaling.  
Z O N E S I G N A L  
Z O N E 1  
Figure 3-12 Zone Signal display  
The display will cycle through all zones that are controlling the horn or strobe and are signaling, at five seconds  
per display. Pressing any key (except HUSH) will advance the display to the next zone that is signaling.  
When the HUSH key is held for three (3) seconds, the horn and/or strobe will be silenced for fifteen (15)  
minutes. When silenced, the display will show that zone signals have been silenced for fifteen minutes. After  
any key is pressed (or five seconds) the display will return to normal mode.  
Z O N E S I L E N C E D  
F O R 1 5 M I N U T E S  
Figure 3-13 Zone Signal Silenced message  
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3.3 Setting the System Configuration  
The configuration menus can be entered from normal mode by pressing the MENU key. While in configuration  
mode, the user can review all configuration parameters to check the current operating conditions.  
As an aid when configuring the control panel, the first entry in the top menu summarizes the number of sensors  
and relays that the panel is currently recognizing.  
5 S E N S O R S F O U N D  
3 R E L A Y S F O U N D  
Figure 3-14 Hardware Summary  
The MENU key is also used to return to a higher-level menu and finally exit the configuration menus back to  
normal mode.  
When exiting from the menu system to normal mode, if any configuration changes have been made, the panel  
will ask whether changes are to be saved,  
S a v e C o n f i g . ?  
( 0 = N O , 1 = Y E S )  
Figure 3-15 Save Configuration? Prompt  
Pressing the zero (0) key at this point will cancel all changes except time and day of week. Pressing the one (1)  
will save all changes to non-volatile memory, and the changes will then become effective in controlling the  
ventilation system.  
While the DVP-120 is in the configuration mode, alarm and ventilation control functions continue in the  
background with the previously set configuration values. In particular, if an alarm condition is detected the  
alarm lamp, the buzzer, the horn and the strobe will operate as configured but the LCD will not display the  
detailed information. The HUSH key can be used to silence any alarm, warning or trouble indicators without  
having to exit the configuration mode. If the MENU key is used to exit the configuration mode before using the  
HUSH key, the LCD will display the cause of the audible indicator.  
The numeric keys are used to change the particular parameter displayed. The underlined character, or space, on  
each display indicates what will be changed by the digit keys.  
The left and right cursor keys will enter the particular submenu and scroll through the items of the same type  
where appropriate, e.g. enter the Configure Sensors submenu and scroll through the parameter lists for the  
existing sensors.  
The up cursor key scrolls through the menu entries in the order listed here, while the down cursor key scrolls in  
the reverse order.  
Changing the configuration parameters requires the entry of a password before changes can be made. The  
password is 1234. See Figure 3-22 for an example of the password prompt.  
In many cases the parameter is entered as a string of digits, but some parameters are selected by pressing a  
single key, e.g. pressing 1 selects Monday, 2 selects Tuesday, etc.  
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3.3.1 System Menu  
The top menu level allows the user to select:  
Configure System  
Configure Sensors  
Configure Relays, Horn & Strobe  
Configure Zones  
Configure Signals  
The up and down cursor keys can be used to scroll through the entries in the list, while the left or right key will  
enter the particular submenu.  
The MENU key will return to normal mode, at which time the changes are saved in non-volatile memory  
and become effective in controlling the ventilation system and for alarm level detection.  
3.3.2 Configure System Submenu  
The system configuration submenu provides entries to:  
Set the time of day, 24 hour format  
Set the day of the week, day 1 is Monday  
Load Default Configuration  
3.3.2.1 Set Time of Day  
T i m e : 2 2 : 5 5  
D a y : T u e s d a y  
Figure 3-16 Set Time of Day  
This display example shows that the time is 22:55 (10:55 PM). The underlined characters indicate that the  
numeric keys can be used to set the current time of day. When the first digit is entered (and after the password is  
entred if required), the display will change to show that the hours portion of the time is currently being entered.  
T i m e : 0 1 : 5 5  
D a y : T u e s d a y  
Figure 3-17 Enter Hours  
In this example the first digit entered was 1 (one), and the panel is waiting for the second digit of hours to be  
entered. If the second digit is not entered within five seconds, the time will revert to the previous value. After  
the second digit of the hours is entered, the display will prompt for the minutes entry:  
T i m e : 1 6 : 5 5  
D a y : T u e s d a y  
Figure 3-18 Enter Minutes  
In this example, the hours (16) have been accepted and the panel is waiting for the minutes to be entered. If no  
digits are entered for 5 seconds the entry will be finished without changing the minutes, however the hours will  
be changed to the value entered.  
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3.3.2.2 Set Day of Week  
T i m e : 2 2 : 5 5  
D a y : 2 T u e s d a y  
Figure 3-19 Set Day of the week  
This display example shows that Tuesday is the current day of the week. The underline character indicates that  
the day can be changed by entering the corresponding digit:  
1
2
3
4
5
6
7
Monday  
Tuesday  
Wednesday  
Thursday  
Friday  
Saturday  
Sunday  
3.3.2.3 Load Default Configuration  
1 L o a d D e f a u l t  
C o n f i g u r a t i o n  
Figure 3-20 Load Default Configuration  
When the one (1) digit is pressed, the panel will prompt for the password, even if it has been entered previously.  
If the password is entered correctly, the panel will overwrite the existing configuration with the default  
configuration. This operation is intended to restore the panel to a known basic condition if it is removed from  
one installation and installed in another.  
The default configuration is:  
?
?
?
?
?
?
?
?
?
?
?
?
?
?
?
?
?
?
Password  
Sensors  
1234  
Undefined  
Alarm levels  
Alarm signals  
Warning signals  
Trouble signals  
Warning Levels  
Sensor Range  
Relay 1  
Relay 2  
Relay 3  
Horn  
Strobe  
CO = 200 ppm, HS = 5.0ppm, EX = 4,000 ppm  
Buzzer = Intermittent, Horn = Intermittent, Strobe = Continuous  
Buzzer = Double Tap, Horn = Off, Strobe = Off  
Buzzer = Triple Tap, Horn = Off, Strobe = Off  
CO = 200 ppm, HS = 5.0 ppm, EX = 4,000 ppm  
CO = 200ppm, HS = 6.0 ppm, EX = 10,000 ppm  
Normally off, 1 minute turn on delay, 1 minute minimum on time  
Normally off, 1 minute turn on delay, 1 minute minimum on time  
Normally off, 1 minute turn on delay, 1 minute minimum on time  
Normally off, 1 minute turn on delay, 0 (zero) minimum on time  
Normally off, 1 minute turn on delay, 0 (zero) minimum on time  
Controls nothing, no sensors assigned, Voting mode, Quorum = 1  
Controls nothing, no sensors assigned, Voting mode, Quorum = 1  
Controls nothing, no sensors assigned, Voting mode, Quorum = 1  
Zone1  
Zone2  
Zone3  
Rising Trip Levels CO = 100 ppm, HS = 2.5ppm, EX = 2,000 ppm  
Falling Trip Levels CO = 50 ppm, HS = 1.2 ppm, EX = 1,000 ppm  
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3.3.2.4 Enter Password  
P a s s w o r d  
* * * *  
Figure 3-21 Enter Password  
?
This display shows that the password is 4 digits long. When the first digit is entered, the panel will  
show.  
P a s s w o r d  
_ _ _ 1  
Figure 3-22 Password Prompt  
?
?
If the password is not entered correctly the panel will display  
W r o n g P a s s w o r d  
Figure 3-23 Wrong Password Prompt  
Once the current password has been entered, the panel will prompt for the configuration parameter  
being changed.  
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3.3.3 Configure Sensors Submenu  
There is a list of parameters for each sensor in the system, either currently wired or configured but presently  
disconnected. The left and right cursor keys can be used to move from one sensor to another; doing so always  
goes to the first display (summary). The up and down keys will scroll through the parameters for the particular  
sensor.  
3.3.3.1 Sensor Summary  
S e n s o r 0 1  
A : 2 0 0 W :  
C O  
5 0  
Figure 3-24 Sensor Summary  
This display example shows that the sensor on channel 01 has been configured as a Carbon Monoxide sensor  
with an Alarm level of 200 ppm and a Warning level of 50 ppm.  
Notice that the sensor number, 01 in this example, is underlined. This indicates that the digit keys can be used to  
jump to a particular channel, even if there is no sensor connected to the channel. When the first digit is entered,  
the display will prompt for the sensor to show.  
3.3.3.2 Sensor Type  
S e n s o r 0 1  
T y p e : 1  
C O  
Figure 3-25 Sensor Type  
This display example shows that the sensor on channel 01 has been configured as a Carbon Monoxide sensor.  
The valid entries for the sensor type are:  
1
2
3
0
Carbon Monoxide  
Nitrogen Dioxide  
Combustible  
None  
(CO)  
(NO2)  
(EX)  
(---)  
Setting the sensor type to 0 (zero) will cause the display to ask if the user wants to DELETE the sensor. If the  
answer is yes, the configuration record for this sensor channel will be deleted and the channel will no longer be  
used to control the ventilation system. If a sensor indicates trouble (or there are wiring problems on a channel),  
this will stop any annoying trouble signals for this channel.  
When a sensor’s type is changed, the alarm level, warning level and range will be set to the default for the  
sensor type.  
The following three parameters are not accessible until a sensor type of 1, 2 or 3 is selected.  
3.3.3.3 Alarm Set Point  
S e n s o r 0 1  
A l a r m :  
C O  
_ 2 0 0 p p m  
Figure 3-26 Sensor’s Alarm Level  
The default alarm levels for the sensors are:  
Carbon Monoxide  
Nitrogen Dioxide  
Combustible  
200 ppm  
5.0 ppm  
4,000 ppm (10% LEL for methane)  
Setting an alarm level of 0 (zero) will disable alarm detection for this particular sensor.  
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3.3.3.4 Warning Set Point  
S e n s o r 0 1  
C O  
W a r n i n g : _ _ 5 0 p p m  
Figure 3-27 Sensor’s Warning Level  
The default warning levels for the sensors are:  
Carbon Monoxide  
Nitrogen Dioxide  
Combustible  
50 ppm  
3.0 ppm  
2,000 ppm (5% LEL for methane)  
Setting a warning level of 0 (zero) will disable warning detection for this particular sensor.  
3.3.3.5 Range  
S e n s o r 0 1  
R a n g e :  
C O  
_ 2 0 0 p p m  
Figure 3-28 Sensor’s Range  
The range for each sensor is the gas concentration that corresponds to the 20 mA signal level.  
The default range values for the sensors are:  
Carbon Monoxide  
Nitrogen Dioxide  
Combustible  
200 ppm  
6.0 ppm  
10,000 ppm (25% LEL for methane)  
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3.3.4 Configure Relays, Horn & Strobe Submenu  
There is a list of parameters for each relay in the system. The left and right cursor keys can be used to move  
from one relay, horn or strobe to another. Doing so always goes to the first (summary) display. The up and  
down keys will scroll through the parameters for the particular relay, horn or strobe.  
3.3.4.1 Relay Summary  
R e l a y 1 N o r m . O f f  
D e l a y O n , M i n . O n  
Figure 3-29 Relay Summary  
This display example shows that Relay 1 is configured to operate Normally Off, with a turn on delay and a  
minimum on time.  
Notice that the relay number, 1 in this example, is underlined. This indicates that the digit keys can be used to  
jump to a particular relay, horn or strobe. The relays are numbers 1, 2 and 3; the horn is number 4 and the strobe  
is 5.  
3.3.4.2 Relay Mode  
R e l a y 1 N o r m . O f f  
M o d e : 2  
Figure 3-30 Relay Mode  
This display example shows that relay 1 is configured to operate in the Normally Off mode. The relay modes  
are:  
1
2
3
ALARM  
Normally Off (default)  
Normally On  
Relay mode 1 is a special case. This mode is only available on relay 1 and dedicates the relay to function as an  
alarm signal to a subsequent alarm or monitoring panel. This mode forces the relay to normally off mode with  
no turn on delay or minimum on time. See section 3.1.4 for more detail regarding alarms  
Fail Safe operation can be implemented by configuring a relay to operate Normally On, and wiring the circuit  
using the NC (normally closed) contact. In this way, if the control panel looses power the relay will turn on the  
controlled device if it still has power.  
3.3.4.3 Relay Turn On Delay  
R e l a y 1 D e l a y O n  
( mm : s s ) 0 1 : 0 0  
Figure 3-31 Turn On Delay  
The default turn on delay is one minute and the maximum allowed value is fifteen minutes. The value is entered  
in two groups, 2 digits for the minutes and then 2 digits for the seconds. A leading zero must be entered for each  
group if applicable.  
3.3.4.4 Relay Minimum On Time  
R e l a y 1  
M i n . O n  
( mm : s s ) 0 1 : 0 0  
Figure 3-32 Minimum on time  
The default minimum on time is one minute and the maximum allowed value is fifteen minutes.  
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3.3.5 Configure Horn Submenu  
The configuration parameters for the horn are the same as those for relays. A horn would not normally require a  
minimum on time but this parameter allows a more versatile configuration.  
3.3.5.1 Horn Summary  
H o r n 4  
N o r m . O f f  
D e l a y O n  
Figure 3-33 Horn Summary  
This display example shows that the horn has been configured to operate Normally Off, with a turn on delay  
and no minimum on time.  
Notice that the horn number, 4, is underlined. This indicates that the digit keys can be used to jump to a  
particular relay, horn or strobe. The relays are numbers 1, 2 and 3; the horn is number 4 and the strobe is 5.  
3.3.5.2 Horn Mode  
H o r n  
N o r m . O f f  
M o d e : 2  
Figure 3-34 Horn Mode  
This display example shows that the horn is configured to operate in the Normally Off mode. The valid modes  
are:  
2
3
Normally Off (default)  
Normally On  
3.3.5.3 Horn Turn On Delay  
H o r n  
D e l a y O n  
( mm : s s ) 0 1 : 0 0  
Figure 3-35 Horn Turn On Delay  
The default turn on delay is one minute and the maximum allowed value is fifteen minutes.  
3.3.5.4 Horn Minimum On Time  
H o r n  
M i n . O n  
( mm : s s ) 0 0 : 0 0  
Figure 3-36 Horn Minimum on time  
The default minimum on time is zero and the maximum allowed value is fifteen minutes.  
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3.3.6 Configure Strobe Submenu  
The configuration parameters for the strobe are the same as those for relays. A strobe would not normally  
require a minimum on time but this parameter allows a more versatile configuration.  
3.3.6.1 Strobe Summary  
S t r o b e 5 N o r m . O f f  
D e l a y O n  
Figure 3-37 Strobe Summary  
This display example shows that the strobe has been configured to operate Normally Off, with a turn on delay  
and no minimum on time.  
Notice that the strobe number, 5, is underlined. This indicates that the digit keys can be used to jump to a  
particular relay, horn or strobe. The relays are numbers 1, 2 and 3; the horn is number 4 and the strobe is 5.  
3.3.6.2 Strobe Mode  
S t r o b e  
M o d e : 2  
N o r m . O f f  
Figure 3-38 Strobe Mode  
This display example shows that the strobe is configured to operate in the Normally Off mode. The valid modes  
are:  
2
3
Normally Off (default)  
Normally On  
3.3.6.3 Strobe Turn On Delay  
S t r o b e  
D e l a y O n  
( mm : s s ) 0 1 : 0 0  
Figure 3-39 Strobe Turn On Delay  
The default turn on delay is one minute and the maximum allowed value is fifteen minutes.  
3.3.6.4 Strobe Minimum On Time  
S t r o b e  
M i n . O n  
( mm : s s ) 0 0 : 0 0  
Figure 3-40 Strobe Minimum on time  
The default minimum on time is zero and the maximum allowed value is fifteen minutes.  
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3.3.7 Configure Zones Submenu  
The DVP-120 ventilation control can support up to three zones. The zone functionality makes the DVP-120  
very flexible. For example, each zone can be configured to monitor a separate set of 4 sensors and control a  
single relay.  
Another control scheme uses one zone to monitor all sensors and turn one relay on at a relatively low gas  
concentration. A second zone monitors the same sensors and turns on a second relay if the gas concentration  
reaches a higher level. The third zone can also monitor the same relays turning the last relay on as a signaling  
device to a live monitor station, as well as turning on the external horn and strobe, under the assumption that the  
ventilation system is not working.  
In addition to controlling the relays based on the gas concentration, each zone can have a timed function, e.g.  
turn on low volume ventilation fans at 7:00 AM and turn them off at 8:00 PM.  
3.3.7.1 Zone Controls  
Z o n e 1 C o n t r o l s  
R 1 R 2 R 3 H 4 S 5  
Figure 3-41 Zone Controls  
This display example shows that Zone 1 is configured to control all of the relays plus the horn and the strobe.  
Each of the relays, the horn and the strobe can be removed from (or added to) the zones control by pressing the  
indicated digit key. By default, all three zones are configured not to control any devices. When a new panel is  
first powered up this display will not show the digits, only the underlined positions.  
The digit controls are:  
1
2
3
4
5
Relay 1 added/removed form the zone’s control  
Relay 2 added/removed form the zone’s control  
Relay 3 added/removed form the zone’s control  
Horn added/removed form the zone’s control  
Strobe added/removed form the zone’s control  
When controlled by a zone the default horn pattern is the Triple Tap pattern, see 3.3.8.7 and the strobe will turn  
on continuously when a zone is controlling them.  
Each zone can have up to three control groups defined. Each group either monitors a sensor type or implements  
a timer function.  
3.3.7.2 Zone Group Mode  
Z 1 G r o u p 1  
S e n s o r T y p e : 2  
Figure 3-42 Zone Group Type  
N O 2  
This display example shows that group 1 in zone 1 will be monitoring Nitrogen Dioxide sensors. The valid  
Modes are:  
0
1
2
3
Timed  
Carbon Monoxide (CO)  
Nitrogen Dioxide (NO2)  
Combustible (EX)  
Timed mode turns the zone’s outputs on at the START TIME if the current day is a weekday (or a weekend)  
and turns them off at the next occurrence of STOP TIME. The other three modes turn the outputs on if the gas  
concentration indicated by that type of sensor is at or above the Rising Trip Point and turns the outputs off if the  
concentration is less than or equal to the Falling Trip Point.  
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3.3.7.3 Timed Day Selection  
Z 1 G r o u p 1 T i m e d  
D a y s : 1 W e e k d a y s  
Figure 3-43 Timer Days Selection  
Valid entries are:  
1 Weekdays, Monday thru Friday, (default)  
2 Weekends, Saturday and Sunday  
3.3.7.4 Start Time  
Z 1 G r o u p 1 T i m e d  
S t a r t T i m e : 0 7 : 0 0  
Figure 3-44 Start Time Selection  
The start time is entered in 24-hour format and the default value is 07:00 (7:00 AM).  
3.3.7.5 Stop Time  
Z 1 G r o u p 1 T i m e d  
S t o p T i m e : 1 8 : 0 0  
Figure 3-45 Stop Time Selection  
The stop time is entered in 24-hour format and the default value is 18:00 (7:00 PM).  
3.3.7.6 Sensor Selection  
Z 1 G r o u p 1  
N O 2  
S e n s o r s : 0 2 , 0 4 , 1 1  
Figure 3-46 Sensor Selection  
Sensors are included or removed from the group by entering the two-digit channel number. After a sensor is  
added or removed the list will be re-sorted so it does not matter in which order the sensors are added or  
removed. The default is to include all sensors of the specified type.  
When the first digit of a sensor number is entered (a leading zero must be entered if the number is less than ten),  
the display will prompt to Add or Remove a sensor from the group.  
Z 1 G r o u p 1  
N O 2  
A d d / R e m o v e : _ 0  
Figure 3-47 Add/Remove sensor prompt  
When the second digit is entered, the sensor will be added or removed from the control group, provided the  
sensor is of the proper type, NO2 in this example. If the sensor is of the wrong type, or an invalid sensor  
channel number is entered the request will be simply ignored.  
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3.3.7.7 Rising Trip Point  
Z 1 G r o u p 1  
R i s i n g :  
N O 2  
2 . 5 p p m  
Figure 3-48 Rising Trip Point Entry  
The default rising trip points are:  
Carbon Monoxide 100 ppm  
Nitrogen Dioxide  
Combustible  
2.5ppm  
2,000 ppm  
3.3.7.8 Falling Trip Point  
Z 1 G r o u p 1  
F a l l i n g :  
N O 2  
1 . 0 p p m  
Figure 3-49 Falling Trip Point Entry  
The default falling trip points are:  
Carbon Monoxide  
Nitrogen Dioxide  
Combustible  
50 ppm  
1.2 ppm  
1,000 ppm  
3.3.7.9 Multiple Sensor Mode  
Z 1 G r o u p 1  
N O 2  
M o d e :  
2
V o t i n g  
Figure 3-50 Sensor Mode Selection  
When multiple sensors are being monitored by a group the output decision can be based on either voting, as  
shown here, or the average of all sensors in the group. Valid modes are:  
1
2
Average  
Voting  
When the configuration is Average, the gas concentrations from all sensors in the group are averaged and if the  
average is greater than or equal to the rising trip point the zone outputs(s) are activated. When the average is  
less than or equal to the falling trip point the zone output(s) are de-activated. If the average is between the two  
trip points, the outputs remain in there previous state.  
When the configuration is Voting, the number of sensors in the group indicating a value greater than or equal to  
the rising trip point is counted. If the count is greater than or equal to the quorum then the zone output(s) are  
activated. If the count of sensors indicating less than or equal to the falling trip point is greater than or equal to  
the quorum the zone output(s) are de-activated. Activating the output(s) is given priority if a group has an equal  
number of sensors with gas readings ? the rising trip point and sensors with readings ? the falling trip point.  
3.3.7.10 Multiple Sensor Quorum  
Z 1 G r o u p 1  
Q u o r u m : _ 2  
N O 2  
Figure 3-51 Quorum Entry  
It is up to the installer to ensure that the quorum entry is appropriate for the configuration. Valid entries are one  
to twelve, but a value greater than the number of sensors being monitored by the group, stops the group from  
controlling the outputs.  
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3.3.8 Configure Signals Submenu  
The DVP-120 can drive the buzzer, horn and strobe with different sound patterns to indicate the severity of the  
current conditions. These patterns are selectable by the installer using this group of submenus. Once again, the  
left and right keys will scroll through the signal types and the up and down keys will scroll to the signal sources.  
3.3.8.1 Alarm Signal Summary  
The alarm signals are in response to one or more sensors indicating gas levels at or above the sensors’  
configured alarm level.  
A l a r m S i g n a l s  
B u z z , H o r n , S t r o b e  
Figure 3-52 Alarm Signals  
This display example shows that alarms are signaled by the internal Buzzer, the external horn and the strobe.  
3.3.8.2 Alarm Buzzer Signal  
A l a r m S i g n a l s  
B u z z : 2 I n t e r m i t .  
Figure 3-53 Buzzer Alarm Signal  
This display example shows that the buzzer will signal an alarm condition with an intermittent signal. The  
signal definitions are:  
1
2
3
4
5
Continuous  
Intermittent, one second on at two second intervals (default)  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals  
Off, buzzer will not sound  
3.3.8.3 Alarm Horn Signal  
A l a r m S i g n a l s  
H o r n : 2 I n t e r m i t .  
Figure 3-54 Horn Alarm Signal  
This display example shows that the buzzer will signal an alarm condition with an intermittent signal. The  
signal definitions are:  
1
2
3
4
5
Continuous  
Intermittent, one second on at two second intervals (default)  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals  
Off, horn will not sound  
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3.3.8.4 Alarm Strobe Signal  
A l a r m S i g n a l s  
S t r o b e : 1 C o n t i n .  
Figure 3-55 Strobe Alarm Signal  
This display example shows that the strobe will signal an alarm condition with a continuous signal. The signal  
definitions are:  
1
2
3
4
5
Continuous (default)  
Intermittent, one second on at two second intervals  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals  
Off, strobe will not flash  
3.3.8.5 Warning Signal Summary  
The warning signals are in response to one or more sensors indicating gas levels at or above the sensors’  
configured warning level.  
W a r n i n g S i g n a l s  
B u z z  
Figure 3-56 Warning Signals  
This display example shows that warnings are signaled by the internal Buzzer only.  
3.3.8.6 Warning Buzzer Signal  
W a r n i n g S i g n a l s  
B u z z : 5  
O F F  
Figure 3-57 Buzzer Warning Signal  
This display example shows that the buzzer will not signal a warning condition. The signal definitions are:  
1
2
3
4
5
Continuous  
Intermittent, one second on at two second intervals  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals  
Off, buzzer will not sound (default)  
3.3.8.7 Warning Horn Signal  
W a r n i n g S i g n a l s  
H o r n : 5  
O F F  
Figure 3-58 Horn Warning Signal  
This display example shows that the horn will not signal a warning condition. The signal definitions are:  
1
2
3
4
5
Continuous  
Intermittent, one second on at two second intervals  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals  
Off, horn will not sound (default)  
3.3.8.8 Warning Strobe Signal  
W a r n i n g S i g n a l s  
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S t r o b e : 5  
O F F  
Figure 3-59 Strobe Warning Signal  
This display example shows that the strobe will not signal a warning condition. The signal definitions are:  
1
2
3
4
5
Continuous  
Intermittent, one second on at two second intervals  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals  
Off, strobe will not flash (default)  
3.3.8.9 Trouble Signal Summary  
The trouble signals are in response to one or more sensor faults, either as a defined current level, or because of  
wiring problems  
T r o u b l e S i g n a l s  
B u z z  
Figure 3-60 Trouble Signals  
This display example shows that troubles are signaled by the internal Buzzer only.  
3.3.8.10 Trouble Buzzer Signal  
T r o u b l e S i g n a l s  
B u z z : 4  
T r i p l e  
Figure 3-61 Buzzer Trouble Signal  
This display example shows that the buzzer will signal a trouble condition with a triple tap signal. The signal  
definitions are:  
1
2
3
4
5
Continuous  
Intermittent, one second on at two second intervals  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals (default)  
Off, buzzer will not sound  
3.3.8.11 Trouble Horn Signal  
T r o u b l e S i g n a l s  
H o r n : 5  
O F F  
Figure 3-62 Horn Trouble Signal  
This display example shows that the horn will not signal a trouble condition. The signal definitions are:  
1
2
3
4
5
Continuous  
Intermittent, one second on at two second intervals  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals  
Off, horn will not sound (default)  
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3.3.8.12 Trouble Strobe Signal  
T r o u b l e S i g n a l s  
S t r o b e : 5 O F F  
Figure 3-63 Strobe Trouble Signal  
This display example shows that the strobe will not signal a trouble condition. The signal definitions are:  
1
2
3
4
5
Continuous  
Intermittent, one second on at two second intervals  
Double Tap, two beeps at 5 second intervals  
Triple Tap, three short beeps at 15 second intervals  
Off, strobe will not flash (default)  
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4 Troubleshooting  
The DVP-120 is extensively tested at the factory to ensure reliable operation. Most problems can be traced to  
the set-up of configurable features and modes, system wiring or trouble with the sensors.  
4.1 System Status Light Flashing  
The system status light (section 3.1.1) is normally green indicating power is present, but will change to yellow  
whenever the controlling firmware detects a trouble condition. Possible trouble conditions are  
Any configured channel has less than 4 mA flowing in the current loop  
A sensor is reporting a trouble condition  
Any configured channel wiring is open.  
Internal controller board problems are detected.  
4.1.1 Input Channel Trouble  
Any time the POWER light is yellow, the first thing the technician should consider is that one of the input  
channels is in trouble. Reviewing the Sensor Status displays (using the up and down keys), should reveal which  
channel has a problem since the gas reading will be replaced with the word TROUBLE.  
A common source of trouble is an input channel that is configured for a sensor that does not exist. In this case,  
the system expects to see current flowing within the current loop, but there cannot be current if there is no  
sensor connected. Either fix the miss-wired sensor, or change the sensor type to NONE, section 3.3.3.2. After  
returning to normal mode (using the MENU key), the power light should return to steady green.  
If all channels are configured properly, another source of trouble could be the type of sensor attached to an input  
channel. Macurco Toxic sensors can indicated high gas concentrations with signals of up to 24 mA in the  
current loop. However, the combustible sensor (GT-11A) can indicate trouble with a 21 mA signal. Therefore, a  
Toxic sensor connected to channel which is configured for a combustible sensor can cause a fault indication if  
the gas concentration is high enough.  
All Macurco sensors are either supplied with a STATUS lamp that will indicate the health of the device, or will  
display a trouble message on the digital display. Macurco sensors may be tested by depressing the TEST button  
on the sensor printed circuit board, or (depending on the type of sensor), the button on the interior front panel of  
the unit. Macurco sensors will step the output current level from 4 mA to 20 mA over the course of the warm-up  
period, allowing the technician to determine where the trouble exists. If the sensor is still in trouble, resetting  
the power may clear the trouble. Remove one of the power wires from the sensor terminal strip causing the  
sensor to go through a power-up reboot.  
Finally, the wiring between the DVP-120 and the sensor should be investigated. The power input to the sensor  
should be investigated at the sensor. Since Macurco sensors are rated for operation between 12 and 24 VDC or  
VAC, the voltage drop between the DVP-120 and the sensor should not be an issue if the wiring guidelines in  
Table 2-2 are followed. A multimeter can be inserted to check the current flow within the loop, or a continuity  
test can be performed on all four wires between the DVP-120 and the sensor. Ensure power is removed from the  
DVP-120 prior to removing the input or output connectors from the DVP-120 controller board.  
Each sensor channel is provided with a PTC-resettable fuse internal to the DVP-120 to protect against over  
current situations. To reset a sensor channel, power should be removed from the channel. This can be  
accomplished by removing power from the sensor – causing the loop current to go to zero, or by completely  
removing power from the DVP-120.  
4.1.2 Internal Controller Board Trouble  
If the sensor status display and investigative efforts reveal no problems with the input channel current loops and  
channel configuration, the most likely trouble is an internal problem detected by the DVP-120 controller. In this  
case, contact the Macurco Technical Department for advice and help.  
4.2 Timed ventilation problem  
When using the timed ventilation mode the system clock should be checked regularly (at least twice a year).  
The battery backed real time clock in the DVP-120 does not adjust for daylight saving time so the spring and  
fall switch over points are good choices to check the system clock.  
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4.3 No Power  
WARNING  
120/240 VAC terminals are located within the DVP-120,  
presenting a hazard to service technicians. Only qualified  
technicians should open the DVP-120 case and service the  
internal circuits. Ensure power is removed from the DVP-120  
prior to servicing the unit.  
The DVP-120 starts up as soon as power is applied to the microcontroller, and the DVP-120 is designed to have  
power continuously applied to the unit. An external indication of successful power application to the unit is the  
immediate operation of the Status Lamps grouped around the LCD. If the operator does not see immediate  
response from the status lamps, power should be checked at J4 (refer to Figure 1-2 for connector locations).  
If the correct voltage is noted at J4, then the internal fuse of the DVP-120 should be investigated. The DVP-120  
is protected from over-current and transient situations by the fuse at F3. AFTER removing power from the  
DVP-120, F3 can be checked by removing the safety cover. If necessary, replace F3 with a 5x20 mm SLO-BLO  
fuse with a rating of 1 Amp 250V, e.g. Littlefuse P/N 218001. Be sure to REPLACE THE SAFETY COVER on  
F3 before re-applying power to the DVP-120.  
4.4 LCD Display unreadable  
It is possible that the LCD is unreadable due to temperature or aging of the control panel. If this is the case the  
following steps should rectify the problem:  
4.4.1 Hold the MENU key for three (3) seconds.  
After three seconds, the power led will turn red. After a further two seconds, the LCD backlight will also be  
turned off.  
4.4.2 Press the UP and DOWN cursor keys to change the LCD contrast.  
Each press of the UP or DOWN cursor key will change the contrast by a step in that direction. Adjust the  
contrast for best viewing.  
4.4.3 Press any other key to exit the contrast-setting mode.  
4.5 The Keypad does not respond (LCD shows KEYS LOCKED)  
The keypad can be unlocked by holding the zero (0) key for three seconds. At which time the backlight will turn  
on and the display will return to normal mode..  
The keypad can again be locked by holding the zero key for three seconds, until the display shows KEYS  
LOCKED.  
4.6 After a power failure  
After any power failure, the user should check the system clock. While system parameters are maintained in  
non-volatile memory, the system clock is backed-up by a limited-capacity button cell battery. Even though the  
button cell can run the clock for several years, it will eventually wear out.  
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