System Sensor DH100ACDCP Install the inlet tube as follows, Modifications of Inlet Sampling Tubes

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Install the inlet tube as follows:

1.Drill a 34-inch hole in the duct directly opposite the hole already drilled for the inlet tube. Make sure the hole is 1 to 2below the inlet hole on the opposite side of the duct to allow for moisture drainage.

2.Slide the inlet tube with the flange into the housing bush- ing that meets the air flow first. Position the tube so that the arrows point into the air flow. Secure the tube flange to the housing bushing with two #6 self-tapping screws.

3.From inside the duct, couple the other sections of the inlet tube to the section already installed using the 12- inch conduit fittings supplied. Make sure that the holes on both of the air inlet tubes are lined up and facing into the air flow.

4.Trim the end of the tube protruding through the duct so that 1 to 2of the tube extend outside the duct. Plug this end with the end plug and tape closed any holes in the protruding section of the tube. Be sure to seal the duct when the tube protrudes.

NOTE: An alternate method to using the ST-10 is to use two ST-5 inlet tubes. Remove the flange from one of the tubes and install as described above. After the installation, use electrical tape to close off some of the sampling holes so that there are a total of 10 to 12 holes spaced as evenly as possible across the width of the duct.

NOTE: Air currents inside the duct may cause excessive vibration, especially when the longer sampling tubes are used. In these cases a 3 inch floor flange (available at most plumbing supply stores) may be used to fasten the sampling tube to the other side of the duct. When using the flange/connector mounting technique, drill a 1-inch to 114-inch hole where the flange will be used.

[5.4.3] Modifications of Inlet Sampling Tubes

There may be applications where duct widths are not what is specified for the installation. In such cases, it is permis- sible to modify an inlet sampling tube that is longer than necessary to span the duct width.

Use a 0.193-inch diameter (#11) drill and add the appropriate number of holes so that the total number of holes exposed to the air flow in the duct is 10 to 12. Space the additional holes as evenly as possible over the length of the tube.

NOTE: This procedure should only be used as a temporary fix. It is not intended as a permanent substitute for ordering the correct length tubes.

[5.5] Install The Filters

To install the sampling tube filters, simply push the filters into the sampling and exhaust tube holes, as shown in Figure 6. If a metal sampling tube is used, install the filters over the tube ends.

Figure 6. Sampling tube filter installation:

A78-2106-01

CAUTION

Filters require periodic cleaning or replacement, depend- ing on the amount of dust and dirt accumulated. Visually inspect the filters at least quarterly; inspect them more often if the dust accumulation warrants it. See Section [6] for more information. Replacement filters can be ordered from System Sensor, 3825 Ohio Ave., St. Charles, IL 60174. (Exhaust tube/intake tube filter P/N F36-09-00)

[5.6] Field Wiring Installation Guidelines

All wiring must be installed in compliance with the National Electrical Code and the local codes having juris- diction. Proper wire gauges should be used. The conduc- tors used to connect smoke detectors to control panels and accessory devices should be color-coded to prevent wiring mistakes. Improper connections can prevent a system from responding properly in the event of a fire.

For signal wiring, (the wiring between interconnected detectors or from detectors to auxiliary devices), it is usu- ally recommended that single conductor wire be no smaller than 18 gauge. The duct smoke detector terminals accom- modate wire sizes up to 12 gauge. The last foot of conduit should be flexible conduit (available in electrical supply houses), which facilitates easier installation and puts less strain on the conduit holes in the housing. Solid conduit connections may be used if desired.

Smoke detectors and alarm system control panels have specifications for allowable loop resistance. Consult the control panel manufacturer’s specifications for the total loop resistance allowed for the particular model control panel being used before wiring the detector loop.

Wiring Instructions

The DH100ACDCP detectors are designed for easy wiring. The housing provides a terminal strip with clamping plates.

D100-68-00

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I56-1147-12R

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Contents Before Installing Table of ContentsGeneral Description Limitations Of Duct Smoke DetectorsContents Of The Duct Smoke Detector Kit Installation SequenceSecure The Detector Housing To The Duct Drill The Mounting HolesInstallation For Ducts More Than 8 Feet Wide Horizontal Mounting of HousingVertical Mounting of Housing Inlet tubes required for different duct widthsInstall the inlet tube as follows Install The FiltersField Wiring Installation Guidelines Wiring InstructionsInstall The Cover Duct Smoke Detector Maintenance And Test ProceduresFilter Replacement Alarm Tests 2.1 M02-04-00 Magnet TestA78-2352-27 2.3 SSK451 Multi-Signaling Accessory Detector Cleaning ProceduresSensitivity Tests 3.1 MOD400 or MOD400R Test Air FiltersBoard Replacement Power Board replacement Part No. A5064Model DH100ACDCP Air Duct Smoke Detector Specifications Electrical Specifications

DH100ACDCP specifications

The System Sensor DH100ACDCP is a versatile and advanced smoke and heat detection device designed to provide reliable fire safety within various environments. With its sophisticated technology, the DH100ACDCP excels in detecting smoke and elevated temperatures, making it an essential component of fire alarm systems in residential, commercial, and industrial settings.

One of the main features of the DH100ACDCP is its dual-sensor technology, which combines both photoelectric and heat detection methods. This feature enhances its ability to detect a wide range of fire types, including smoldering fires that produce dense smoke and fast-flaming fires that generate significant heat. The photoelectric sensor effectively captures smoke particles, while the heat detector activates when it senses a temperature rise beyond a predefined threshold, ensuring comprehensive coverage against fire incidents.

Another significant characteristic of the DH100ACDCP is its intelligent sensing capabilities. The device includes advanced algorithms that allow for real-time analysis of environmental conditions, helping to reduce false alarms. This intelligent approach not only enhances the reliability of the unit but also extends its operational lifespan by minimizing unnecessary activation.

The DH100ACDCP is designed to operate efficiently within a wide temperature range, making it suitable for various applications. Its durability ensures that it can withstand challenging environmental conditions, making it a dependable choice for installations in areas with fluctuating temperatures.

Installation and maintenance of the DH100ACDCP are user-friendly thanks to its compact design and universal mounting options. The device is compatible with a variety of fire alarm control panels, allowing for seamless integration into existing fire safety systems. Additionally, regular maintenance is facilitated by diagnostic features that provide system status updates, ensuring that any issues can be promptly addressed.

Ultimately, the System Sensor DH100ACDCP is engineered for performance and reliability in smoke and heat detection. By incorporating advanced technologies and robust design, it stands out as a crucial component for enhancing fire safety. With its combination of dual-sensor technology, intelligent sensing capabilities, and ease of installation, the DH100ACDCP effectively meets the demands of modern fire detection needs.
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