FSLIMPRO

1. INTRODUCTI FSLIMPRO is especially designed and built for quick and easy installation. Installation is truly made easy and wiring up is minimised (only the power supply cable and alarm contacts require wiring up) thanks to the electronics incorporated in the sections and to the fact that there are no synchronism signals to be transmitted by wire. Sections are available in a number of lengths (from 1 to 2.5 m) so as to perfectly satisfy all protection requirements. Fastening screws with appropriate O rings and specially shaped plugs guarantee perfect section anchoring and seal, and durable outdoor installations. Probe positioning to the desired height inside the FSLIMPRO so as to optimise barrier security as required is easy and reliable thanks to the specially shaped aluminium sections and the fool-proof probe fastening system. 2. MAIN FEATURES Sections in aluminium Top end plug in rubber and bottom end one in ABS with sponge pad protected aperture in the bottom for air circulation against the risk of misting over because of condensate build-up inside the column and of insects getting in and damaging the photocells. Cover in polycarbonate. Screws and O rings for secure wall anchoring. Equipped with four pairs of transmitter + receiver probes. Possibility of using up to 8 pairs of probes. Sliding on appropriate guide inside the Transmitter and Receiver probes and fastening by means of screws. A tear-proof (disabled by means of a NO TAMPER jumper) and anti-opening tamper on each column. Complete with cable routing bush hole for 6mm external diameter cable. Incorporated photocell amplifier with the following technical features: multiplex and synchronised system; management of up to 8 beams with 2 by 2 selection; 1 N.O./N.C exchange relay output. Easy installation and probe alignment thanks to four levels of intensity of the infra-red beams. Enabling of beams used by means of the four contact BEAMS Dip-Switch. status indicator LED (disabled by means of a LED OFF jumper): on = beam broken off or disabled off = beam aligned or not broken off Operating mode selection via FUNCTI (1 and 2 ) Dip-Switch, as described in the following table: Dip 1 Dip 2 Alarm activation OFF OFF broken off for at least 0.1seconds OFF At least two adjacent beams broken off for 200msec, or two non-adjacent ones for 500msec OFF At least two adjacent beams broken off for 200msec, or one beam for 1second One beam broken off for 1 second 3. TECHNICAL SPECIFICATIS Power supply 12Vdc Power consumption Electric current requirement Max. 1.5 W Max 50mA (4 pairs of enabled beams) I.R. wave length 950 nm Operating range 10 metres indoors / 6 metres outdoors Relay outputs (clean exchange contact) N.O. / N.C Relay response time Minimum 100ms, maximum 1second Reset time 0.5 seconds Working temperature range -20 C to +55 C

4. OPERATING PRINCIPLE The FSLIMPRO infra-red beam barrier comprises a MASTER and a SLAVE card with beam 1 on-board, and an additional beam made up of a pair of transmitter and receiver probes. Each beam consists of a pair of signals, one outgoing the other incoming. The former is transmitted by the MASTER card to the Slave card that upon correctly receiving the signal relays it back to the MASTER card, thus practically acting like an electronic mirror. The barrier is capable of managing up to four pairs of beams (8 beams overall). Single beam expansions are available on request (use code FSLIMPLUS when ordering). BEAM 2 BEAM 1 MASTER SLAVE 5 INSTALLING FSLIMPRO 5.1 Mounting and wiring up 1. If necessary, cut the black anodised sections and the polycarbonate to the desired lengths and sizes. 2. Identify points where to drill the holes for fastening the sections to the wall, for wire routing, and for inserting the tear-proof tamper if necessary. 3. Use a Ø 4 bit to drill the fastening holes, a Ø 10.5 one for the wire routing hole, and a Ø 10.5 one for the tear-proof tamper hole. 4. Position the Transmitter and Receiver probes inside the sections as desired and fasten into place by means of the self-threading screws provided (see Figure 1). 5. Strip the multi-pole power cable and the tamper and alarm contacts. 6. Insert the wire routing bush hole onto the section and route in the cable (see Figure 2). 7. Insert the rubber plug at the top end of the section (see Figure 3). 8. Fit the sponge pad inside the plastic plug so as to cover the condensate drain hole. Insert the plastic plug inside the section (see Figure 5). 9. Insert the rubber tear-proof tamper actuators into the appropriate holes and fit the clips onto the antiopening tampers (see Figure 2). To disable the tear-proof tamper, insert the NO TAMPER jumper. 10. Secure the sections to the wall by means of the fastening screws and relevant O rings. 11. Fit the flat probe cable into the section and fasten down with the clip provided (see Figure 1). 12. Wire up power and alarm connections as shown below and power the barrier with 12 Vdc. The barrier is now fully operative with all due default settings.

Master Term. Strip +12V GND NC C NO TAMPER Slave Term. Strip 13. Check that MASTER and SLAVE red LEDS go off indicating proper beam alignment and also check for easy beam break off. Red LEDs indicating proper beam alignment (when off) +12V GND TAMPER The MASTER red LED comes on when the corresponding beam is disabled, or broken off or not properly aligned in the MASTER to SLAVE or SLAVE to MASTER stretch. The SLAVE red LED comes on when the corresponding beam is disabled, or broken off or not properly aligned in the MASTER to SLAVE stretch. On having completed the beam alignment you may turn off the four red LEDs by removing the LED OFF jumper both from the Master board and on the Slave board. 14. Fit on the polycarbonate cover as shown in Figure 3. 15. Fit the plastic clip on to the plastic plug to cover up any roughly cut edges as shown in Figure 4. 16. Make a last check of the installation and a final alignment of the beams. 5.2 Settings and adjustments 1. Only enable connected beams: identify connected beams (2,3,4) in the and probes by means of the jumper, bearing in mind that beams come in pairs as they consist of an outgoing and an incoming probe (see par. 4).

2, 3 or 4 Selection In the MASTER and SLAVE boards set in OFF position the BEAM DIP SWITCHES referred to the used beams. MASTER Terminal strip selection LED OFF Alarm and range selection NO TAMPER FSLIMPRO - MASTER SLAVE Terminal strip LED OFF selection Range selection NO TAMPER FSLIMPRO - SLAVE BEAMS 1 2 3 4 enabled OFF disabled 2. Select desired alarm mode with Master FUNCTI 1 and 2 Dip Switches.

FUNCTI RANGE 1 2 3 4 Alarm Activation Mode OFF Dip 1 Dip 2 Alarm activation OFF OFF One beam broken off for at least 0.1seconds OFF At least due adjacent beams broken off for 200msec, or two non-adjacent beams for 500msec OFF At least two adjacent beams broken off for 200msec, or one beam for 1second. A beam broken off for at least 1 second 3. Select beam intensity with Master RANGE 3 and 4 Dip Switches and Slave RANGE 1 and 2 Dip Switches depending on distance profiles and environmental conditions. MASTER and SLAVE normally require the same setting. Master Dip 3 Dip 4 Max. in-/outdoor distance profiles 10/6 metres OFF 7/4 metres OFF 4/2 metres OFF OFF 2/1 metres OF FUNCTI RANGE 1 2 3 4 Range Slave Dip 1 Dip 2 Max. in-/outdoor distance profiles 10/6 metres OFF 7/4 metres OFF 4/2 metres OFF OFF 2/1 metres Range OFF RANGE 1 2

Connector for additional beams Fig. 1 Flat cable fastening clip card locking screw selection jumper Flat probe connection cable Amplifier locking screw Dip switch alarm and range selection Terminal Strip Red LEDs indicating proper beam alignment (when off) selection Dip switch

Fig. 2 RUBBER PLUG Fig. 3 TAMPER SPRING CLIP TEAR-PROOF TAMPER CABLE ROUTING BUSH Fig. 4 Fig. 5 PLASTIC PLUG COVER PLASTIC PLUG SPGE PAD