Related Manuals for bolid S2000-IPDL
Summary of Contents for bolid S2000-IPDL
- Page 1 ADDRESSABLE REFLECTIVE BEAM SMOKE DETECTOR S2000-IPDL Rev.60 (5 to 60 m) Rev.80 (20 to 80 m) Rev.100 (25 to 100 m) Rev.120 (30 to 120 m) USER’S MANUAL...
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Page 2: Table Of Contents
TABLE OF CONTENTS GENERAL ............................4 SPECIFICATIONS ..........................4 STANDARD DELIVERY ........................5 DESIGN, MOUNTING, WIRING ....................... 6 4.1. Safety Precautions ................................. 6 4.2. Design .................................... 7 4.3. Mounting the Detector ..............................8 4.4. Wiring the Detector ............................... 9 4.5. Mounting Location Considerations ..........................10 DESCRIPTION AND OPERATION .................... -
Page 3: General
This User’s Manual provides information on studying operability principles, specifications, configuration and operation methods of all versions of S2000-IPDL Single-Ended Addressable Reflective Beam Smoke Detector (hereinafter referred to as the detector). The version of the detector’s firmware is v.1.02. 1 GENERAL 1.1. -
Page 4: Standard Delivery
- 0.98758 Average Lifetime, years - 10 3 STANDARD DELIVERY Table 2 Quantity, pcs. Product S2000-IPDL Transceiver Unit XS-Type Reflector S-Type Reflector L-Type Reflector Remote Indicator and Control Unit Mounting Kit No.1: Wood Screw 4×50 DIN 7996 Wall Plug 6×30 Tapping Screw 2.2×6.5 DIN 7981... -
Page 5: Design, Mounting, Wiring
4 DESIGN, MOUNTING, WIRING Housing Lens Beamguide Laser Optic Block Alignment Tool Holder Base Spring Mounting Base Figure 1 4.1. Safety Precautions – The detector is a source of danger neither for human nor for protected material assets (including the emergency situations). –... -
Page 6: Design
accordance with Regulations for Operation of Consumers’ Electrical Installations and Safety Rules for Operation of Consumers’ Electrical Installations. – While installing and maintaining the detector please comply with the rules for working at heights. 4.2. Design 4.2.1. The detector consists of the transceiver unit, the remote indicator and control unit, and one or several reflectors. -
Page 7: Mounting The Detector
Figure 4 Figure 5 4.3. Mounting the Detector 4.3.1. The units of the detector should be attached to the building structures generally with the help of mounting kits supplied: Kit No.1: Designed to attach the transceiver unit and to fasten the housing additionally (if necessary) on completing commissioning. -
Page 8: Wiring The Detector
4.3.9. To place the housing back, insert it into the latches and slightly push until it is fixed. Additional fixation of the housing using two self-tapping screws from Mounting Kit No. 1 should be made only in case of possible danger of mechanical effects on the detector during operation. Figure 6 4.4. -
Page 9: Mounting Location Considerations
4.5.8. While mounting single-ended detectors which the S2000-IPDL is related to it should be taken into account that their performance is highly dependent on stray reflections. The typical things... - Page 10 affecting the operation of single–ended detectors are ordinary ledges with very high reflectivity (as a rule, these are zinc plated air ducts and, less commonly, lamps with shiny side surfaces) and ribbed surfaces with the number of “ribs” which may cause stray reflections exceeding three ones per 10 meters (as a rule, these are ceiling beams or rubbed stiffeners of rafters themselves or the structures supporting them).
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Page 11: Description And Operation
5.1.5. The principle of operation of a beam detector is based on the phenomenon of reducing of the intensity of a beam passed through a smoke-filled environment. The S2000-IPDL relates to single- ended detectors which are known as reflected type detectors. For such detectors the optical beam... - Page 12 relative to clear air. The Fire Alarm threshold is set using DIP switches and can be selected from the set of eight specified values 10%, 15%, 20%, 25%, 30%, 35%, 40%, 50% or defined as adaptive one. 5.1.10. As the adaptive threshold is selected then the proper sensitivity will be defined by the detector itself based on the value of the monitored distance in the premises in question.
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Page 13: Configuring
6 CONFIGURING 6.1. Setting Detector Address 6.1.1. The detector provides storing its polling loop address in its non-volatile memory. The factory address of the detector is 127. An address can be given by means of the control panel, PC software utility, or S2000-APA addressable device programmer (the rules to operate which are described in its user’s manual). -
Page 14: Instructions For Aligning The Detector
6.2.5. The DIP switches “5”, “6”, “7”, “8” are used for setting the detector’s sensitivity. When the DIP switch “5” is set to OFF (SPECIFIED) other three switches define one of the eight alarm thresholds: 10%, 15%, 20%, 25%, 30%, 35%, 40%, or 50%. Table 3 shows the match between positions of the DIP switches and defined thresholds as well as recommended detection ranges for the selected thresholds. - Page 15 (between the lens and the reflector). 6.3.1.3. Three various ways (and also their combinations) can be used to align the S2000-IPDL: with the help of LEDs, by means of an IPDL-152 tester, or using a laser pointer (laser alignment tool). In the first case no additional service equipment is used but for two other cases prior to starting work care should be taken to equip personnel with specified instruments.
- Page 16 4) The term “triple” for indication means that instead of standard flashes of the indicator in the relevant color triple flashes are issued which can be visually perceived as very frequent blinking. WARNING: As soon as the detector has entered the alignment mode the panel or PC receives a Test or Fire Alarm message depending on the current set mode.
- Page 17 6.3.2.5. If on entering the alignment mode indication changes for flickering triply with white (Two Low) it means that the received signal is less than the lower threshold of self-regulation and measures should be taken to increase the signal (try to define the initial direction to the reflector more accurately, remove possible obstacles from the beam path, use more reflectors, check whether the monitored distance is less than the maximum possible value and so on).
- Page 18 average signal (which will be written in the non-volatile memory of the detector as the set and compensated signal on quitting alignment), about conventional value of received signal converted to the absolute value, about the current state of the detector, and the current operation mode. 6.3.3.2.
- Page 19 light spotting from the laser pointer Figure 11 − Switch the laser pointer off and take it out the latches of the optical system; − Apply power to the detector and put it into the alignment mode by flipping the DIP switch “1” −...
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Page 20: Testing Operability And Performance Of The Detectors
7 TESTING OPERABILITY AND PERFORMANCE OF THE DETECTORS 7.1. Testing Operability 7.1.1. A full-range verification of the detector’s operability before installation should be done only in case of mandatory requirements of on-receipt inspection for the products (for example, for use on special objects) or if you have doubts about its performance (for example, before sending or after receiving the detector after repair). - Page 21 “Н. снижен.” / “TR Low” to lower threshold 7.2.1.2. For an S2000-IPDL in field two types of verification are required: the full-range verification of detector’s operability with affecting the optical beam and the routine verification of sending the polling loop controller the messages about testing, fire, and trouble. The first testing should be performed after any actions with the transceiver when its position was changed, including, of course, commissioning.
- Page 22 (at their lower edges) which is to be used when the reflectors are arranged with two ones in a row. 7.2.2.2. Since the S2000-IPDL is a single-ended detector and optical beam crosses the monitored area twice then for simulating the beam degradation by a required value the percentage of obscuration should be more than the verified alarm threshold.
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Page 23: Maintenance And Repair
8.12. Claims shall be submitted to the following address: NVP BOLID CJSC, 4 Pionerskaya Str., Korolyov city, Moscow region, Russia, 141070 Tel./Fax: +7 (495) 775-71-55 (multiline). E-mail: info@bolid.ru 8.13. In case of any issue related to operating the detector, please contact with the technical support:... -
Page 24: Troubleshooting
9 TROUBLESHOOTING Table 8 Trouble-Beam The beam is obscured by a foreign object. The received signal value has dropped by The maximum of the radiation pattern is not found during more than 80% adjusting. Effect of building warpage/shrinkage. Repeat alignment. Trouble-Out-of-Range Incorrect exit from the aligning procedure. -
Page 25: Transportation, Storage, Disposal
12 CERTIFICATES 12.1. S2000-IPDL Addressable Reflective Beam Smoke Detector is approved by Conformity Certificate No. C-RU.АЖ45.В.00035. 12.2. The production of S2000-IPDL Addressable Reflective Beam Smoke Detector is certified with Certificate of Conformity to GOST ISO 9001-2011 No. ROSS RU.ИК32.К00153. -
Page 26: Annex 1
ANNEX 1 Installation Drawing...
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