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First edition 15.10.2015 Bmi/ksa Notice Validity for production version and firmware version The following documentation is applicable only to the ASD 532 aspirating smoke detector with the following pro- duction version and firmware version: Production version Firmware version from 151015 from 01.00.08...
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Imprint Other documents Data sheet ASD 532 T 140 422 de / en / fr / it / es / pt / sv Material for the sampling pipe T 131 194 Multilingual (ED / FI) Commissioning protocol T 140 423...
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Safety information Safety information Provided the product is deployed by trained and qualified persons in accordance with this documentation T 140 421 and the danger, safety and general information notices in this technical description are observed, there is no danger to persons or property under normal conditions and when used properly.
Contents Contents _________________________________________________________________________________________ General Purpose Uses and applications Abbreviations, symbols and terms Product identification Smoke sensors used Hardware / firmware _________________________________________________________________________________________ Function General operating principle Electrical functional principle 2.2.1 Power supply 2.2.2 Fan control 2.2.3 Microcontroller 2.2.4 Programming / operation 2.2.5 Displays 2.2.6...
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Contents _________________________________________________________________________________________ Planning General aspects of planning 4.1.1 Standards, regulations, guidelines, approvals Area of application 4.2.1 System limits Planning aids 4.3.1 Planning with “ASD PipeFlow” calculation 4.3.2 Planning without “ASD PipeFlow” calculation Space surveillance 4.4.1 Space surveillance applications 4.4.2 Principles of space surveillance 4.4.3 Types of sampling pipe layouts for space surveillance 4.4.4...
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7.4.2 Re-programming with “ASD Config” configuration software 7.4.3 Re-programming from SecuriFire / Integral with XLM 35 Download new firmware to the ASD 532 7.5.1 FW upgrade from SD memory card 7.5.2 FW upgrade from PC via “ASD Config” configuration software Measurements 7.6.1...
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Contents _________________________________________________________________________________________ Operation Operation and display elements Functional sequence of operation Switch positions Reset Displays 8.5.1 Displays on the control unit 8.5.2 Indicators on the AMB 32 main board 8.5.3 SD memory card operation 8.5.3.1 Data logging on the SD memory card 8.5.4 Displaying and reading out the event memory 8.5.4.1...
Equipment monitoring: EDP systems, electrical distributors, switch cabinets, etc. The ASD 532 can also be deployed in areas where normally conventional point detectors are used. Local regulations and pro- visions must be observed from case to case. The response behaviour of the ASD 532 has been tested in compliance with EN 54-20, Class A, B and C.
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General Continuation: H-Al = Main alarm = High frequency = Hardware = International Electrotechnical Commission Initial reset = First start-up on commissioning IPS 35 = Insect Protection Screen = Light-emitting diode (indicator) = Airflow LS-Ü = Airflow monitoring Manufacturer = Securiton = Open collector output = Original Equipment Manufacturer (reseller) = Polyamide (plastic)
General Product identification For identification purposes, the ASD 532 and its units have rating plates or identification plates. The following product identifications apply: Rating plate on the ASD 532 and identification on the packaging Manufacturer Type designation 3052 Zollikofen / Switzerland...
A fan failure, blockage of the sampling holes or pipe breakage must be communicated to the fire alarm control panel in the form of a fault signal. This condition is satisfied by the airflow monitoring of the ASD 532.
2.2.1 Power supply The operating voltage of the ASD 532 is +14 to +30 VDC. On the AMB 32 Main Board, 5 VDC of the operating voltage is di- verted for internal voltage use. The operating voltage is monitored on the AMB 32 for undervoltage. If the operating voltage falls below 13 VDC (+0 / –0.3 VDC), the ASD 532 triggers an undervoltage fault.
A specially designed circuit therefore ensures that the fan cannot exceed a specific maximum power consumption in its start- up phase. When the ASD 532 is switched on, the computer-controlled fan speed starts up slowly. After the fan has been pow- ered up, the speed is kept constant.
(on “Reset external” input of the ASD 532). Events triggered on the ASD 532 can be reset locally using the “Reset” key on the control unit or by briefly actuating the “Re- set External” input. The reset is possible only if the triggered event is no longer pending (e.g. smoke sensor no longer has smoke).
Rel. 4 Freely programmable Rel. 5 Freely programmable Notice The “Fault” relay has picked up in the release state contact Te. 12/10 closed, 12/11 open (ASD 532 under voltage; no fault event present). ASD532 Operating Manual 22 / 121...
(opto-isolator). It can be actuated both on the “plus” and on the “minus” side. The input operates in the 5 to 30 VDC range and has a pulse bandwidth of 0.5 to 10 sec. When a continuous signal is applied for longer than 20 s, the ASD 532 is deacti- vated (fault state) (see also Sec.
Smoke sensor monitoring The smoke sensor used on the ASD 532 is monitored on the AMB 32 Main Board. A failure of the sensor electronics, a dusty or dirty smoke sensor is registered as an event code and displayed as a state or fault. Likewise, the connection line between the smoke sensor and the AMB 32 is monitored and a fault is signalled if there is a failure.
“alarm” described in Sec. 2.2.12 (minimum 20%). If the set limit for alarm 2 is exceeded, no additional display is actuated on the ASD 532. Alarm 2 can also be programmed on a RIM relay. Alarm 2 is al- ways a follow-up alarm to the EN 54-20 alarm and is therefore not subject to the response requirements of EN 54-20.
This prevents operational disturbance variables such as dust, vapour and smoke from triggering false alarms on the ASD 532. It means it is also possible to set a highly sensitive trigger threshold (far below the trigger threshold requirements of EN 54-20), for example for clean rooms.
Fault triggering If a fault occurs on the ASD 532, the “Fault” relay is de-energised and the “Fault” display is activated. In the event of a fault the fault profile can also be localised using the event code display on the AMB 32 (switch position E) (see also Sec. 8.5.4.3 and 10.3.1).
Log-Files can be opened in Ex- cel and the data processed with the diagram assistant to create charts. Events: All events which occur in the ASD 532 are written to the Event-Files (*.aev file). After 64,000 events a new Event-File is created automatically.
A hardware reset is triggered if there is a brief interruption in the supply voltage or if the “HW reset” key is briefly pressed on the AMB 32 (see also Fig. 40 and Fig. 45). This restarts the ASD 532. The fan stops and then slowly starts up again (start-up control).
There is one chamber for the smoke sensor in the detector housing. The air channel through the smoke sensor and fan are separated from the other parts inside the detector housing; this means the ASD 532 is able to remain fully operational during commissioning and maintenance work even when the housing cover is open.
Design Melderkasten-Unterteil 2 x cable screw unions M20 Air outlet Reserved openings for cable screw unions 1 x M20 / 1 x M25 Device terminals AMB 32 Main Board Indication and operation elements for commissioning Fan unit Ethernet interface Internal connection technology Airflow sensor 2 x expansion slots for additional modules Smoke sensor chamber...
Design Electrical The electrical design of the ASD 532 comprises the following: • AMB 32 Main Board • Smoke sensor (SSD 532-1, -2, -3) • • Airflow sensor • Additional modules XLM 35, RIM 36, SIM 35. The following circuit components and elements are on the AMB 32 Main Board: •...
T 131 194. Materials from other sources may be used only if the manufacturer’s written consent has been obtained. A special tool is required for mounting and handling the ASD 532 (Torx screws). Please refer to the list in Sec. 5.1. Packaging The detector housing is delivered in a customised cardboard sleeve sealed with adhesive tape.
Notice The use of special fire alarm systems such as the ASD 532 is subject in some cases to country-specific regula- tions and guidelines and must therefore be approved by the relevant technical bodies and authorities (insurance companies) prior to implementation.
The end result of the calculation software specifies the parameters required for a norm-compliant trigger in accordance with EN 54-20, Class A to C, after which the parameters are programmed on the ASD 532. It is also necessary to select the smoke sensor type with the appropriate sensitivity range corresponding to the response sensitivity calculated by “ASD PipeFlow”.
Planning without “ASD PipeFlow” calculation If planning is performed without “ASD PipeFlow”, there are a number of switch settings in the ASD 532 saved with pre-defined values which are necessary for actuation in compliance with EN 54-20, Class A–C. The selection of a smoke sensor type with the corresponding sensitivity range depends on the response class and system limits (see Sec.
The following principles apply to space monitoring: • The number and arrangement of the ASD 532 units are based on the size of the space. • In general the monitoring areas are the same as for point-type detectors. Guidelines that apply to specific ob- jects –...
Farthest sampling hole sampling hole Sampling holes ASD 532 ASD 532 Fig. 7 Examples of planning with “ASD PipeFlow” calculation If planning without “ASD PipeFlow” calculation, make sure the sampling pipe tube networks are set up symmetrically (max. symmetry deviation of ±10%). This applies to the tube layout and the spacing between the sampling holes (Fig. 8).
System limit 1, 2, 3 (tube network length, number of sampling holes) • Third digit Tube networks 1 (number of sampling pipe tube networks on the ASD 532, only 1 possible). Example: b21 response grade b / system limit 2 / 1 sampling pipe tube network 4.4.4.2...
DFU 535XL, and water separator (WRB). See Sec. 4.3.2 for details of equipping and combining these accessory parts. • The filter-box/filter unit and water retaining box must always be mounted within the first 2 m of the ASD 532. ASD532 Operating Manual 42 / 121...
Planning 4.4.4.4 Non-normative system limits table for planning without “ASD PipeFlow” calculation The following table shows the parameters for switch settings W01 to W44 that do not conform to EN 54-20 concerning airflow monitoring. It also shows the number of tube networks for these switch settings. The tube topology specifications (tube net- work length, number of sampling holes) are shown in the tables in Sec.
Planning 4.4.4.5 Sampling holes for planning without “ASD PipeFlow” calculation To ensure that all the sampling holes take in the same amount of air, the diameter of the sampling hole on the sampling tubes fitted must increase as the distance from the detector housing increases. 1 to 12 = sampling hole number I-shaped H-shaped...
4.5.1 Equipment monitoring applications Equipment monitoring applications using the ASD 532 are additional monitoring applications to space surveillance. Equipment monitoring directly involves monitoring an object (machine, device or equipment). The ASD 532 is capable of monitoring the following objects: •...
• In equipment monitoring it preferable to use Classes A and B compliant with EN 54-20. • Equipment monitoring applications using the ASD 532 are additional monitoring applications to space surveil- lance. • Planning with the “ASD PipeFlow” calculation software is preferable. This guarantees optimal detection behaviour and ensures that the technical system limits are optimally utilised.
Planning 4.5.4 System limits for equipment monitoring without ASD PipeFlow calculation If it is unavoidable that a project is planned without ASD PipeFlow calculation (e.g. system modernisations), the following threshold values must be observed for each pipe input / smoke sensor: Farthest sampling point 60 m Minimum length of the sampling pipe...
The maximum length of the pipe for the air recirculation must not exceed 20 m from the detec- tor housing. Air recirculation Open pipe end Sampling holes End cap max. 20 m Pipe network ASD 532 Climate zone B Climate zone A Fig. 12 Air recirculation for differing climate zones ASD532 Operating Manual 48 / 121...
The description of the predefined positions and the operator structure is found in Sec. 4.4.4.3, 4.4.4.4, 7.2.1 and 0. Depending on the use of the ASD 532, it may be necessary to make adjustments to the airflow monitoring using the “ASD Config”...
In areas with high-energy devices and installations (generators, power plants, railway facilities, X-ray equipment, etc.). Outside buildings. If screening is used, the cable screening in the ASD 532 is to be connected to an additional support terminal. The cable screening must not be connected to the minus or ground terminal of the AMB 32.
When determining the conductor cross-section, the highest possible power consumption by the ASD 532 during normal opera- tion (after switching on) is the decisive factor. Due to its circuitry design, the ASD 532 has the highest power consumption at the minimum supply voltage, i.e. at 14 VDC.
Planning Restrictions Notice The following restrictions apply to the use and application of the ASD 532. For other solutions, please consult the manufacturer. General information and space surveillance: • The sampling holes of the tube network and the detector housing must be in the same climate zone (pres- sure/temperature zone) (sampled air may have to be recirculated to the other climate zone).
Environmental influences Danger On the basis of the conducted tests, the ASD 532 may be used in an environment that is within the scope of the type approvals. The environmental conditions as described in Sec. 13 must also be observed. Non-observance can negatively impact proper functioning of the ASD 532.
Mounting Mounting Mounting guidelines Notice Material and products; only the following materials supplied, approved and listed by the manufacturer may be used to create the system: • Detector housings, smoke sensors, additional modules; • Tube materials and fittings for the sampling pipe, accessory materials, pipe clamps (according to T 131 194). Materials from other sources do not conform to EN 54-20 approval and may only be used if the manufacturer’s written consent has been obtained.
For this reason, prior to working with these materials it is imperative to read and observe the safety in- structions and information provided by the adhesive supplier. A list of the available materials for the sampling pipe (pipes, fittings etc.) for the ASD 532 is available in a separate docu- ment (T 131 194).
• Mounting work on the detector housing is best carried out without the smoke sensors fitted. • The smoke sensor is always installed in the detector box just when the ASD 532 is commissioned (see Sec. 6.3). • Depending on the circumstances (e.g. long periods of time between mounting and commissioning or if the en- vironment is extremely dusty (construction work), the housing cover should be kept closed until the device is commissioned.
Notice When mounting several ASD 532 units next to one another, make sure that the mounting holes are drilled pre- cisely. The device can be shifted by a maximum of ±2 mm horizontally and vertically to correct its mounting posi- tion.
Mounting 5.4.2 Mounting positions for the detector housing In principle the detector housing can be mounted in the X, Y or Z axis. However, because of the labelling for the indicator ele- ments, it is advisable to mount the device in the Y axis (vertical, control unit at the top). The sampling pipe is then inserted into the detector housing from below.
Mounting 5.4.3 Removing the air outlet pipe plug Insert the blade of a flat-blade screwdriver no. 2 Carefully twist off in the direction of the arrow (4 mm) into one of the side recesses of the air outlet pipe plug. To release the pipe plug, prise gently toward the ASD housing.
Mounting Mounting the sampling pipe 5.5.1 General The mounting and installation are to be carried out by analogy as specified in Section “Planning” in this document. Any devia- tion from the layout of the sampling pipe and sampling holes (also outside the limits calculated using “ASD PipeFlow”) is sub- ject to the consent of the manufacturer.
Mounting 5.5.4 Mounting with metal pipes and fittings Metal tubes (copper, stainless steel) are connected using press fittings according to the manufacturer’s instructions. For this purpose a special press tool can be obtained from the manufacturer on loan. 5.5.5 Linear expansion Plastics have sizeable linear temperature expansion coefficient, which is why special attention should be given to the linear expansion (extension and contraction) of the sampling tube.
The exact definitive layout of the tubes – particularly in the Vertical sampling pipe case of flush mounting – must be documented precisely on the installation plans complete with dimensions. Fig. 21 Vertical sampling pipe ASD 532 0.2 m 0.2 m End cap T-piece 0.2 m...
Mounting 5.5.7 Mounting for equipment monitoring When mounting for equipment monitoring (EDP installations, electrical cabinets etc.), plastic tube materials are to be used in principle. The same guidelines as described in Sec. 5.5.6 apply. Equipment monitoring involves monitoring all the air outlet openings of the monitored devices. Whenever possible, the sampling pipe and detector housing are always secured directly to the object to be monitored.
Mounting 5.5.7.2 Transition to a flexible tube With equipment monitoring, the transition from rigid to flexible tube can be made in principle using any type of fitting. The parts shown in Fig. 24 are used for that purpose. For a rigid sampling pipe made of PVC a PVC threaded ring with M20 internal thread is glued into the exit side of the fitting. The M20 quick-release coupling is screwed into the adapter for the flexible tube.
Mounting 5.5.8 Creating the sampling holes The hole diameters for the sampling holes have to be determi- ned and created by the customer as described in Sec. 4.4.4.4 Burrs and according to the specifications of the “ASD PipeFlow” cal- culation software or according to Sec. 0. Pressure points wrong Hole not at...
Mounting 5.5.11 Mounting sampling stubs for a ceiling bushing Possible only with plastic tubes (PVC/ABS)! Sampling The parts required for a sampling stub for a ceiling bushing tube duct are shown in Fig. 28. T-piece A T-piece is built into the sampling pipe at the required point. The assembly sequence is carried out as indicated by the M20 threaded ring numbering 1 to 8.
(water drain). The specified minimum dimensions (0.5 m) must be adhered to. • The mounting positions for the water retaining box, dirt trap box and dust retaining box must be observed as indicated in Fig. 29. Manual Manual ASD 532 ASD 532 ball valve ball valve MV 25 MV 25...
Cable entry Danger Make sure the power is disconnected for all connection and wiring work on the ASD 532. There are two M20 cable screw unions in the detector housing for feeding in the electrical installation. If needed, an additional two cable screw unions (1 x M20, 1 x M25) can be fitted in two reserve holes (blind plugs).
Installation Using the smoke sensor The ASD 532 ships with the smoke sensor already fitted. It is application specific (according to required sensitivity range), pur- chased from the manufacturer and installed after the detector housing is mounted. See Sec. 1.5.
Installation Installing additional modules XLM 35, RIM 36, SIM 35 There are two expansion slots for fitting the detector housing with optional additional modules. Given the modular assignment of ribbon cable connectors on the AMB 32 Main Board (see also Sec. 3.2, Fig. 5), it is recommended to observe the arrange- ment shown in Fig.
Data+ RS485 connection Data- Notice The “Fault” relay has picked up in the release state contact Te. 10/8 closed, 10/9 open (ASD 532 under voltage; no fault event present). Warning • In some cases actuations via the OEM input may not comply with requirements in accordance with EN 54- 20 and may therefore only be used after consulting with the manufacturer.
Installation 6.5.2 Terminal assignment for eXtended Line Module XLM 35 Terminal Signal Wiring Data A Addressable loop according to Fig. 35 or Fig. 38 GND A (see also Sec. 8.5.5) Screen Data B Addressable loop GND B according to Fig. 35 or Fig. 38 (see also Sec.
The connection variants are determined by the possible line and FACP technologies used. For more information on connecting alarm transmitters, line monitoring elements, etc., please contact the manufacturer and/or supplier of the fire alarm system. In all cases the ASD 532 must have an emergency power supply compliant with EN 54-4. 6.6.1 Power supply...
Installation 6.6.3 Control The ASD 532 units connected to an FACP are controlled according to the detection zone mapping using the FACP states “Zone On/Off” and “Reset”. Two possibilities are available: • Control via supply voltage (auxiliary relays in the ASD power supply line);...
Warning from OC output of control module, supply from FACP Caution: When control is via the “Reset external” Supply input, the ASD 532 is supplied with voltage even FACP Reset if the zone (FACP) is switched off. Line/loop OC output...
Sec. 6.6.3.1. 6.6.4.1 Connection to zone detection via relays ASD 532, connected on one line For connection to zone detection lines, the control relay is FACP ASD 532 usually actuated from the line plus.
X2 / Loop 1 2 14 G2 L2 state query and the control of the ASD 532 take place directly between the XLM 35 and the addressable loop. Maximum connectible XLM 35 units: Fig. 38 Connection from XLM 35 (see also notice below)
Before switching on the ASD power supply, ensure that all fire incident controls and remote alerting from the ASD 532 are blocked or deactivated. • Immediately before switching on the ASD 532 for the first time, remove the isolating strip from the lithium bat- tery (AMB 32). •...
“ASD PipeFlow” have to be programmed on the ASD 532 with “ASD Config”. The data is saved on the ASD 532 under one of the freely configurable switch positions X01 to X03. The ASD 532 is then operated on the switch positions X01 to X03.
Save on switch (independent of Save: setting level switch setting X01 X02 A, B, C, W or X) Operation of the ASD 532 Operation of the ASD 532 Operation of the in switch setting in switch setting ASD 532 Operation:...
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Commissioning Table B: The following criteria apply to the entire ASD 532. Configuration changes are stored in connection with the adjust- ments from Table A, likewise on one of the user configurable switch positions X01 to X03. Sector Default Resolution /...
Starting up The information on operation and display elements necessary for startup can be found in Fig. 41. Warning Before the ASD 532 is switched on, all the precautions required for operation as described in Sec. 7.1 must be fulfilled. 7.3.1...
Commissioning 7.3.2 Commissioning with “ASD Config” configuration software The workflow for commissioning when using the “ASD Config” configuration software is shown below. The “ASD Config” con- figuration software is required only if changes have to be made to the default configuration profile (Sec. 7.2.1) or if the “ASD PipeFlow”...
7.3.3 Setting to pre-defined switch positions A11 to C31, W01 to W44 The following describes the procedure when the ASD 532 has to be set on one of the fixed parameterized switch settings A11 to C31 or W01 to W44.
Commissioning 7.3.4 Setting and polling the date and time The following describes the procedure for setting the date and time with EasyConfig. Example: Setting on 10 June 2014; 11:05:30 Measure Display Procedure / remarks • Displays the default setting or the installation- Press key flasching C31 or other specific switch position...
After an FW upgrade, an initial reset is required only if expressly mentioned in the relevant firmware descrip- tion. • Before performing an initial reset after switching on the ASD 532, a waiting time of at least 2 min must be observed. Measure...
FACP. For this purpose the FACP user software “SecuriFire Studio” and “Integral Appli- cation Center” are used to start the “ASD Config” configuration software for access to the ASDs; the configuration software is then used to make changes to the ASD 532. ASD532 Operating Manual 87 / 121...
The workflow for upgrading the FW from the SD memory card is described below: Notice The firmware download triggers a fault relay. When upgrading the FW on the ASD 532, it is therefore absolutely essential that fire incident controls and remote alerting on superordinate systems (FACP) are switched off be- forehand.
Here the FW upgrade is via the Ethernet interface of the LMB 35 using the “ASD Config” configuration software. Notice The firmware download triggers a fault relay. When upgrading the FW on the ASD 532, it is therefore absolutely essential that fire incident controls and remote alerting on superordinate systems (FACP) are switched off be- forehand.
With the conductor cross-section determined and installed as described in Sec. 4.8.2, this voltage range must always be avail- able at the end of the electrical installation – i.e. at the ASD 532 – to ensure that the ASD 532 is able to operate fault-free (see also Sec.
Reading out the set configuration and airflow Besides measuring the supply voltage on the ASD 532, the set configuration (selected switch settings A11 to C31 and W01 to W44 when commissioning according to Sec. 4.4.4.3 or parameterized switch settings X01 to X03) as well as the airflow values (rate of airflow change from the time of the initial reset) must be recorded and entered in the commissioning protocol (see Sec.
In addition to the sampling pipe checks set out in Sec. 7.1, the correct transmission of alarms (zone and line) on the FACP is to be checked by triggering faults or alarms on the ASD 532. These tests are to be entered in the commissioning protocol (see also Sec.
Notice about test triggerings Fire incident control and remote alerting must be blocked or deactivated on the superordinate FACP. Reset the ASD 532 between each check (preferably on the FACP, as a reset on the ASD does not reset the FACP).
Fig. 45 View of the operation and display elements The control unit has a “Reset” key for resetting triggered events (alarms/faults) directly on the ASD 532. Two 7-segment displays, an alphanumeric display, and two keys (“UP” / “OK”) are fitted to the AMB 32 main board inside the device.
(on “Reset external” input of the ASD 532). Events triggered on the ASD 532 can be reset locally using the “Reset” key on the control unit or by briefly actuating the “Re- set External” input. The reset is possible only if the triggering event is no longer pending (e.g. smoke sensor no longer has smoke).
Operation Switch positions Listed below are the switch positions that can be called up via the segment display and the “UP” / “OK” keys on the AMB 32. The switch positions can be used for inputs (A / b / C / I / o / T / U / W / X) or for polling purposes (E / F / N / T / V). Stored under the rotary switch procedure is a time-out (approx.
(e.g. smoke level in the smoke sensor is once again below the trigger threshold, or a fault event is rectified). As a result of the reset, the ASD 532 continues to run “normally” and the fan does not stop.
83 days of data logging (with a logging interval of 1 s). The log files can be opened in Excel and the data processed with the diagram assistant to create charts. Events: All events occurring in the ASD 532 are written to the Event-Files (*.aev file). After 64,000 events a new Event-File created automatically.
Operation 8.5.4 Displaying and reading out the event memory The event memory can be called up via switch position E. Up to 99 events can be stored in the event memory (E01 to E99), with event E01 as the latest (more recent) event. If the memory exceeds 99 events, the oldest event is deleted. The event memory as a whole can be deleted only by the manufacturer.
Operation 8.5.4.2 Event groups Event group Purpose General events, part 1 (ASD On/Off, inactive, start initial reset, smoke sensor On/Off from FACP) General events, part 2 (time, Autolearning, clear event memory) General events, part 3 (smoke sensor On/Off via “ASD Config”) General events, part 4 (configuration change) General events, part 5 (reset events) Smoke sensor events (alarm, dust/dirt, pre-signals, alarm 2)
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Operation Continuation: G70, RIM 1, RIM 2 faults Fault RIM 1, lacking or defective Fault RIM 2, lacking or defective Incompatible RIM fault RIM fault, too many RIMs G71, XLM faults Fault XLM, lacking or defective XLM fault, too many XLMs G73, SD memory card / SIM faults SD memory card fault, missing or defective SD memory card communication error...
Addressable loop voltage OK, no communication XLM <> Line Flashes (normal operation) Communication XLM <> Line OK LED 2 (green) State ASD 532 <> XLM 35 Not lit No power supply from AMB 32 Flashes (normal operation) Supply from AMB 32 OK, communication XLM <> ASD OK...
Operation 8.5.6 Operation and display on the SIM 35 RESET button BOOT-MODE jumper S1 / S2 rotary switches for network address TERM jumper Fig. 47 SIM 35 operation and display The functions of the rotary switches, jumpers, buttons and LEDs are shown in the following table. The network address is set in hexadecimal code using the two rotary switches (S1 and S2).
FACP. For this purpose the FACP user software “SecuriFire Studio” and “Integral Appli- cation Center” are used to start the “ASD Config” configuration software for access to the ASDs; operation is then carried out on the ASD 532. ASD532 Operating Manual 105 / 121...
Servicing, maintenance or inspection work on the ASD 532 may be necessary after an event (fire, fault). If a detector housing has to be replaced due to a defect, the new ASD 532 is to undergo the same procedure as a first-time commissioning (initial reset required).
Check the air outlet for any dirt or dirt and clean if necessary. If the ASD 532 is used for equipment monitoring and plug-in transitions from rigid to flexible pipe sections are in place, check that the transitions are correctly seated (no leakage).
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ASD 532 can no longer trigger an alarm. If maintenance or repair work was carried out on the ASD 532 (including the sampling pipe) as a result of servicing check, a new initial reset may be necessary (see Sec. 7.3.5).
Maintenance and service Replacing units Warning Defective units such as the AMB 32, smoke sensor, airflow sensor and fan may can only be replaced in the de- energised state (with terminal block 1/2 and possibly 3/4 unplugged from the AMB 32). 9.4.1 Replacing the smoke sensor The smoke sensor must be replaced if defective or if there is a dirt message.
Maintenance and service 9.4.3 Replacing the airflow sensor Warning When removing and mounting the airflow sensor, make sure that the sensor element is not damaged (i.e. does not break). Do not pull on the connection wires. After replacing an airflow sensor (new sensor), it is imperative to carry out a new initial reset (see Sec. 7.3.5). Remove connector A of the airflow sensor on the AMB 32.
Devices, sampling pipes or parts thereof that are no longer used should be disposed of in an environmentally- friendly manner. The manufacturer of the ASD 532 is obliged to take back any devices and sampling pipes that are defective or no longer used, for eco-friendly disposal. For this purpose the manufacturer has implemented a monitored and ap- proved disposal system.
Non-observance of this regulation results in the invalidation of warranty claims and the manufacturer’s liability concerning the ASD 532. • All repairs and troubleshooting measures are to be documented. • The ASD 532 must undergo a function check following a repair or troubleshooting measure. ASD532 Operating Manual 112 / 121...
Faults 10.3 Finding and rectifying faults 10.3.1 Fault states In the event of a fault the fault profile can be localised using the event memory and the corresponding event code display, which is obtained using the segment display on the AMB 32 (switch position E). The following table lists the event codes of possible fault states and how to rectify them.
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Faults Continuation: G30, airflow monitoring sampling pipe Code Meaning Check: Possible causes and remedy: • Check sampling pipe for pipe blockage Pipe blockage, sampling pipe Sampling pipe, air outlet on the ASD, sensor (sampling holes, air outlet) • Check and clean filter-box/filter unit •...
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Faults Continuation: G70, RIM 1, RIM 2 faults Code Meaning Check: Possible causes and remedy: • Ribbon cable not correctly attached or Fault RIM 1 Ribbon cable connection defective check, replace Module Fault RIM 2 • Module removed and not logged off •...
(T 135 422). Warning The REK 511 detector box cannot be operated from the ASD 532. The REK 511 detector box has to be con- nected directly from the FACP using an appropriate addressing module. When using detector boxes, it may be necessary to carry out a sampling pipe calculation using “ASD PipeFlow”...
An ASD network can be implemented by using the SIM 35 and SMM 535 additional modules via an RS485 interface. An ASD network can also be implemented via the Ethernet interface directly from the ASD 532 (AMB 32). A combination of both princi- ples is possible, but the maximum number of 250 participants in the overall network must be adhered to.
ASD networking via Ethernet interface from AMB 32 Via the Ethernet interface directly from the ASD 532 (AMB 32) several ASDs can be networked amongst themselves. An ASD network can have up to 250 participants. This network can be considered an independent network. Integration of the ASDs into an existing IT network or via the internet (remote access) is not possible.
280 70 05 / anthracite violet 300 20 05 Approvals EN 54-20 Dimensions ASD 532-1 (W x H x D, without/with packaging) 195 x 333 x 140 / 215 x 355 x 160 SSD 532-x (W x H x D, with packaging) 128 x 130 x 175...