[9.1] Smoke Entry Tests

[9.1.1] Air Flow

This product is designed to operate over an extended air speed range of 100 to 4000 FPM. To verify sufficient sampling of ducted air, turn the air han- dler on and use a manometer to measure the differential pressure between the two sampling tubes. The differential pressure should measure at least 0.0015 inches of water and no more than 1.2 inches of water. Because most commercially available manometers cannot accurately measure very low pressure differentials, applications with less than 500 FPM of duct air speed may require one of the following: 1) the use of a current-sourcing pressure transmitter (Dwyer Series 607) per Section 9.1.4 or; 2) the use of aerosol smoke per section 9.1.2.

[9.1.2] Air Flow Test using Aerosol Smoke

This test is intended for low-flow systems (100-500 FPM). If the air speed is greater than 500 FPM, use a conventional manometer to measure differ- ential pressure between the sampling tubes, as described in 9.1.1.

Drill a 14hole 3 feet upstream from the duct smoke detector. With the air handler on, measure the air velocity with an anemometer. Air speed must be at least 100 FPM. Spray aerosol smoke* into the duct through the 14hole for five seconds. Wait two minutes for the duct smoke detector to alarm. If the duct smoke detector alarms, air is flowing through the detector. Remove the duct smoke detector cover and blow out the residual aerosol smoke from the chamber and reset the duct smoke detector. Use duct tape to seal the aerosol smoke entry hole.

*Aerosol smoke can be purchased from Home Safeguard Industries, Malibu, CA. Phone: 310/457-5813.

[9.1.3] Smoke Entry Test

To determine if smoke is capable of entering the sensing chamber, visually identify any obstructions. Plug the exhaust and sampling tube holes to prevent ducted air from carrying smoke away from the detector head, then blow smoke such as cigarette, cotton wick, or punk directly at the head to cause an alarm. REMEMBER TO REMOVE THE PLUGS AFTER THIS TEST,

OR THE DETECTOR WILL NOT FUNCTION PROPERLY.

[9.1.4] Air Flow Test using Dwyer Series 607 Differential Pressure Transmitter

Verify the air speed of the duct using an anemometer. Air speed must be at least 100 FPM. Wire the Dwyer transmitter as shown in Figure 8. Connect the leads of the meter to either side of the 1000Ω resistor. Allow unit to warm up for 15 seconds. With both HIGH and LOW pressure ports open to ambient air, measure and record the voltage drop across the 1000Ω resistor (measurement 1), 4.00 volts is typical. Using flexible tubing and rubber stoppers, connect the HIGH side of the transmitter to the sampling tube of the duct smoke detector housing, and the LOW side of the trans- mitter to the exhaust tube of the duct smoke detector housing. Measure and record the voltage drop across the 1000Ω resistor (measurement 2). Subtract the voltage recorded in measurement 1 from the voltage recorded in measurement 2. If the difference is greater than 0.15 volts, there is enough air flow through the duct smoke detector for proper operation.

Figure 8. Procedure for verifying air flow:

TO SAMPLING TUBE

TO EXHAUST TUBE

HIGH LOW

DIFFERENTIAL

PRESSURE

TRANSMITTER

MODEL #607-01

15 TO 36VDC

SUPPLY

9 VOLT

BATTERY

9 VOLT

BATTERY

1000 OHM 5% 1 WATT RESISTOR

9 VOLT

 

BATTERY

VOLT METER

FLUKE MODEL 87

OR EQUIVALENT

H0163-01

[9.1.5] Filter Replacement

The filters do not substantially affect smoke performance even when up to 90% of the filter is clogged. Quarterly visual inspection usually suf- fices to determine whether the filters should be replaced because only a high percentage of contamination affects performance. If further testing is required, compare differential pressure readings with and without the filters installed. If the difference exceeds 10% replace the filters. In no case should the pressure differential fall below 0.0015 inches of water.

Figure 9. Wiring Diagram for DH200RPL Duct Smoke Detector using a UL listed control panel:

NOTE: Jumper J1 shunt must be installed for 2-W applications. J1 shunt must be removed for power PCB supervision.

+

COMMUNICATION

LINE

COM (+) COM (-)

12

COM (+) COM (-)

1 2

NOTE: J1 JUMPER MUST BE INSTALLED FOR 2W APPLICATIONS. THE

J1 JUMPER MUST BE REMOVED FOR POWER BOARD SUPERVISION.

UL LISTED CONTROL

 

 

 

 

 

 

 

 

 

 

 

 

 

 

PANEL

J1 JUMPER

 

1ST DETECTOR

J1 JUMPER

2ND DETECTOR

 

 

 

 

 

IN LOOP

 

IN LOOP

D200-39-00

5

I56-1977-004R

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System Sensor DH200RPL manual Smoke Entry Tests Air Flow, Air Flow Test using Aerosol Smoke, Filter Replacement

DH200RPL specifications

The System Sensor DH200RPL is a cutting-edge smoke detection sensor designed to enhance fire safety in a variety of environments. With a commitment to innovation and reliability, this sensor is engineered to meet the demands of both commercial and residential applications.

One of the defining features of the DH200RPL is its dual detection technology, which utilizes both photoelectric and ionization sensing methods. This dual approach ensures that the sensor can effectively identify both smoldering and flaming fires, providing a comprehensive solution for smoke detection. The photoelectric component is particularly effective in detecting slow, smoldering fires, while the ionization part excels in identifying fast-flaming fires. This combination enhances the overall effectiveness of fire detection, offering peace of mind to users.

Additionally, the DH200RPL is equipped with advanced digital signal processing technology. This technology allows for improved sensitivity and a faster response time, ensuring that any potential smoke event is detected promptly. The sensor is also designed to minimize false alarms, addressing a common concern in smoke detection systems. By intelligently analyzing the environmental conditions, the DH200RPL can differentiate between actual smoke and non-threatening particles, reducing unnecessary alerts.

The sensor features a sleek, modern design that can seamlessly integrate into various settings without being obtrusive. It is compact and lightweight, making it easy to install in various locations. Furthermore, the DH200RPL is compatible with a wide range of existing fire alarm systems, providing flexibility for upgrades or new installations.

Another notable feature is its built-in connectivity options, allowing for integration with advanced fire alarm monitoring systems. This feature enhances the sensor’s functionality by enabling remote monitoring and alert notifications, ensuring that users are informed of any potential issues even when they are not on-site.

In conclusion, the System Sensor DH200RPL smoke detector stands out in the market due to its dual detection technology, advanced signal processing, and integration capabilities. Its efficient design and smart functionalities make it an ideal choice for ensuring safety in various environments, making it a trusted option for both homeowners and business operators alike. With the DH200RPL, users can rest assured that they are protected by one of the most reliable smoke detection technologies available today.