Infrared b arrier for perimeter protection range 250 m SMA ...transformator, it is off if the...

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Infrared barrier for perimeter protection range 250 m SMA technology and RS485 output. Installation Manual. 1.1.1.1.1.1.1.1

Transcript of Infrared b arrier for perimeter protection range 250 m SMA ...transformator, it is off if the...

  • Infrared barrier for perimeter protection

    range 250 m

    SMA technology

    and RS485 output.

    Installation Manual.

    1.1.1.1.1.1.1.1

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 2

    INDEX

    1 MAIN COMPONENT LIST Pag. 4

    2 ASSEMBLING THE CABLEPIT Pag. 5

    CABLE PIT POSITIONNING Pag. 7

    3 TRANSFORMER MOUNTING Pag. 8

    4 POWER SUPPLY CABLE (PS01B) Pag. 10

    5 CABLES AND WIRING Pag. 12

    6 CONNECTION TO POWER SUPPLY Pag.13

    CONNECTION TO BACK UP BATTERY Pag. 14

    7 SERIAL CONNECTION TO ADEBUS Pag. 15

    Connection to serial port for each column Pag. 15

    8 MICROWAVE Pag. 16 TX MOTHER BOARD Pag. 16 RX MOTHER BOARD Pag. 17 Configuration dip switche Pag. 18 CONNECTIONS AND DESCRIPTIONS CAVITY TX AND RX Pag. 19 SENSITIVE ZONE Pag. 19 DEAD ZONE Pag. 20 START UP Pag. 21 TX COLUMN Pag. 21 RX COLUMN Pag. 21 ALIGNMET Pag. 22 WALK TEST Pag. 22 SENSITIVITY Pag. 23 DELAY Pag. 23 INSTALLATION GUIDE Pag. 24 sections Pag. 24 Particular conditions Pag. 25 MW TECHNICAL CHARACTERISTICS Pag. 25

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 3

    9 IR SECTION Pag. 26

    CABLES AND CONNECTION TO TERMINALS Pag. 26 CONNECTION TO TERMINAL BLOCK (MES9C) Pag. 26 CONNECTION AND SETTINGS HEATERS Pag. 27 SYNCHRONIZATION Pag. 28 Wired SYNC Pag. 28 Optical SYNC Pag. 30 OPTIC CONFIGURATION Pag. 32 OPTICAL TX Pag. 32 OPTICAL RX Pag. 33 TX/RX SETTINGS 3 OPTICS Pag. 34 10 TX/RX SETTINGS 2 OPTICS Pag. 34 COLUMN ALIGNMENT Pag. 35 CALIBRATION THROUGH SMA SYSTEM Pag. 36 CALIBRATION WITH PARALLEL BEAMS Pag. 38 CALIBRATION WITH CROSSED BEAMS Pag. 39 SETTING AND PROGRAMMING MOTHERBOARD Pag. 40 Led’s functionning Pag. 41 CHARACTERISTICS AND DIP SWITCHES SET Pag. 42 REACTION TIME ADJUSTMENT Pag. 44 TECHNICAL SPECIFICATION IR Pag. 45

    10 DT3 SECTION Pag. 45 DETECTION AREA Pag. 45 PROGRAMMING & START UP Pag. 46 FIXED FUNCTION ADJUSTMENT Pag. 47 TECHNICAL CHARACTERISTICS DT3 Pag. 47

    11 BARRIER TECHNICAL CHARACTERISTICS Pag. 48

    Installation recommendation

    Verify that the beam tower is fully watertight once the cover and end caps have been correctly filled at the end of the installation.

    Use the cable glands supplied on the tower for all cabling must pass through the lower end cap using the cable glands supplied. The missed used of proper accessories decrease the IP grade protection of the

    tower.

    Avoid any type of obstruction between the transmitter and receiver.

    Avoid installing the receivers beams in a position where direct sunlight, at the same angle as the receivers beams, can enter directly into optics especially at sunset and sunrise

    Do not install multiple beams where the transmitter beam can interfere with other receiver beams. It is always better place either transmitter or receivers back to back.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 4

    1. MAIN COMPONENT LIST

    N° DESCRIPTION

    1 Top cap

    2 IR cover

    3 Aluminium profile

    4 Aluminium base

    5 Motherboard IR

    6 Optics TX/RX

    7 Motherboard MW

    TX/RX

    8 Parable TX/RX

    9 Heather

    10 Terminal block

    11 Supply board

    12Vcc/24 Vac

    12 DT3

    1

    2

    3

    4

    5

    6

    7

    8

    9

    10

    11

    12

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 5

    2. ASSEMBLING THE CABLEPIT

    7. Insert the highlighted edge into other section and fix with screws

    8. Insert the third section in the same way and fix with screws.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 6

    9. Enlarge the two opposite walls of cable pit to allow the positioning of last section.

    10. Insert and well fix the missing screws.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 7

    2.1 CABLE PIT POSITIONING

    The placement of the cable pit for MANA columns, after assembling, have to be done in the following way:

    cement all around the cable pit keeping the top edge of it at same level of ground.

    POSSIBLE CORRECTION OF THE INCORRECT

    POSITIONING

    Placement should be perpendicular to the ground. If the base is not in perfectly at ground level, is possible to

    adjust it through the insert regulation of cable pit.

    On the side that must be corrected loosen the insert in order to get the right inclination.

    CORRECT POSITIONING

    BY ADJUSTING INSERTS

    EXAMPLE

    OF SETTING

    WRONG POSITIONING

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 8

    3. TRANSFORMER MOUNTING

    Kit compodes by:

    1 transformer 160VA with 2 output;

    1 screw 8x60;

    2 nut M8;

    1 perforated plate;

    1 plate;

    2 black sheath insulating;

    4 anchor screw barrier.

    Move the screw 60mm, as shown in the figure, in the perforated plate and screw the bolt lock.

    Place the plate in the cavity, especially left, so you can screw tighten the screws to the column and have enough

    space for the battery. Screw the 4 screws

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 9

    Insert the sheath, the transformer then again the sheath and plate and fix everything with the nut. Follow the

    wiring instruction in the manual.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 10

    POWER SUPPLY CABLE (PS01B)

    N . DECRIPTION

    Power Connectors

    (terminal 8)

    1-2 19 Vac Input to be connected to the transformer

    3-4 13.8 Vdc Output for power infrared

    5-6 24 Vac Input to be connected to the transformer

    7-8 24 Vac Output to be connected to the heaters

    1 2 3 4 5 6 7 8

    1

    2

    3

    4

    5

    6

    1 2 3 4 5 6

    7

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 11

    NB: in case of power failure the battery is disconnected to prevent its deterioration if its voltage drops

    below 10,6V.

    1 Power Connector circuit

    TX or RX

    Connect Flat Cable to the power connector of the board of MW TX or

    MW RX

    2 Battery Connect with two-wire cable red / black to the battery

    3 V-Test jumper Insert in position 1-2 to enable LED power supply, 5V 9V 13.8V. The 4th

    Led called "Mains" is always on when the board is powered by the

    transformator, it is off if the battery intervenes

    4 0,5 A battery jumper Insert jumper when using batteries at or above 7 Ah.

    N.B. Current limit for battery charging 0.5 A. Without jumper the current

    limit load is 0.25 A

    5 Heater fuse Normally installed 5 A delayed protecting heaters circuits.

    6 Circuit fuse Normally it installed by 0.8 A slow, protecting Tx or Rx and infrared

    circuits.

    7 J7 It forces the output of the power supply 24 Vac for the heaters irrespective

    of the temperature measured in the barrier.

    N NAME DESCRIPTION

    Terminal 6

    1 GND Negative power.

    2 T Test battery. By applying 5V you can verify that the battery has an output

    voltage> 11.4Vdc. Such information is given on the "B" terminal.

    3 B

    High impedance output if the voltage supplied by the battery is

    11.4Vdc.

    This information is valid if "T" is on.

    4 15 Output high impedance if the voltage is supplied from the 12.4Vdc.

    5 24

    Output high impedance if the voltage supplied from the transformer

    terminals "24Vin" is 18Vac.

    6 NC Not connected

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 12

    5. CABLES AND WIRING

    The wiring requires to SEPARATE the power cable 12Vdc (ex. 2x0.5 + Nx0.22),to the power cable for heaters

    24Vac (ex. 2x0.75) to prevent input of disorders of the AC voltage on the barrier.

    Note: is absolutely necessary to shield the cable that provides 12 Vdc power supply and

    put the metal braid to ground.

    The cable dimension depends on the columns consumption and on the same cable resistance, taking care about

    installation distances.

    Cable 230Vac (culomn power) Cable 12Vcc (sync + signal)

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    CONNECTION TO POWER SUPPLY

    The connection between the transformer and the network at 230 V ~ must be made with conductors whose

    section is of 1.5 mm². It is highly recommended to use a delayed fuse above 1 A.

    The cable that carries power from the transformer to MANA must be as short as possible and must be

    shielded with shield to negative.

    The two wires must be connected to terminals 1-2 of the "power connector". The transformer to be used

    must have the following characteristics:

    Primary tension 230 V ~ Secondary 18/19 V ~ 1 A Secondary 24 V ~ 6 A Minimum power 160 VA

    In the case of greatly disturbed network add an effective filter - power supply 230V 1 A.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 14

    10.1 CONNECTION TO BACKUP BATTERY

    Inside each column is provided space to house a rechargeable Lead up to 12V-7Ah. The battery is normally

    recharged by the internal supply, via a current limiter.

    FU

    SE

    A

    FU

    SE

    B

    FUSE A: 5A-24Vac FUSE B: 0,8A-13,8Vac

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    7. SERIAL CONNECTION TO ADEBUS

    Each column can be connected via the RS485 bus to the control panel ADEBUS for planning, monitoring and

    managing local or remote system.

    For more information, refer to "Manual ADEBUS EXPLORER"

    7.1 Connection to serial port for each column

    ADEBUS

    MES9C

    column 2

    MES9C

    column 1

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 16

    MICROWAVE

    10.2 TX MOTHERBOARD

    1 POWER SUPPLY The power connector is linked to power supplier via a flat cable.

    2 MW CONNECTOR The connectors "MW" or Output 1 / 2 are used to connect the cavity

    transmission. Normally uses the output "Output 1", and only in case of

    double barrier microwave using the synchronized output "Output 2".

    3 LED

    The "Led insert jumpers", inserted in position 2-3, enables the power of

    Led Output "and" Led VDC ", indicating the presence of their tensions.

    Return after the test at rest 1-2. NB The "Output LED" has a lower

    light intensity of Led VDC, when the cavity "TX" is inserted.

    4 DIP SWITCH The "channel selector" allows you to select the desired channel by

    switching to "ON".

    NB The selected channel must be the same as that of the Circuit "Rx”.

    1

    4

    3

    2

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 17

    RX MOTHERBOARD

    1 Input Connector Mw connect the receiver cavity

    2 OUTPUT

    CONNECTOR

    1 NC alarm contact

    2 3

    Tamper contact 4

    3 POWER SUPPLY Piacere The power connector is connected to power via a flat cable.

    4 DIP SWITCH 1

    allows you to check the voltage supply, the value of sensitivity, goodness of

    the signal, the walk test and the test alignment (see table previous page).

    Permette di verificare le tensioni di alimentazione, il valore di sensibilità, la

    bontà del segnale, il walk test e il test di allineamento

    5 DIP SWITCH 2 choose the desired channel by switching to"ON". NB The selected

    channel must be the same as that of the Circuit "Tx".cosi

    6 LED CHANNEL indicates that the channel is tuned with the transmitter.

    7 LED ALARM indicates that the system is not in alarm (when there is the alarm LED goes

    off).

    5

    1

    3

    4

    11

    9 7 6 8

    10

    10

    2

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    8 LED ALIGNMENT Red: weak signal

    Yellow: signal fair

    Verde: segnale forte

    9 Voltmeter indicates the voltage in volts of the selected function (see table previous

    page).

    10 Trimmer (Guadagno, Walk Test, Sensibilità, Ritardo), regolazioni da effettuare durante

    l’installazione

    11 Buzzer

    is activated with the "Walk Test" (selector functions):

    Continuous beep = Alarm

    Sound intermittently variable = Tell sensitive area

    8.3 CONFIGURATION DIP SWITCH

    1 LEDS Insert LED bar for Test Alignment

    2 FIELD Display on LED bar signal Rx strength

    3 OPEN Disconnect CAG (automatic gain control)

    4 WALK Walk Test (skill the "Buzzer")

    5 CAG View the gain value (optimum 4.5-6.5)

    6 SENS Display Value Sensitivity (0 to 9)

    7 5V Display 0.2 ± 5V supply

    8 9V Display 0.2 ± 9V supply

    9 13V Display 13.8 ± 0.3 supply

    10 VOLT Input Voltmeter (to display items 5 ÷ 9)

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 19

    8.4 CONNECTIONS AND DESCRIPTIONS CAVITY TX

    AND RX

    The switch located on the cavity Tx and Rx is positioned to OFF only after installation and after giving

    voltage to the columns. The ON position, the active protection of the "receiver" cavity by electrostatic

    discharge and damage resulting from installation.

    8.5 SENSITIVE ZONE

    The sensitive area depends on the distance Tx Rx, the sensitivity and the type of antenna. The diagram

    below illustrates the sensitive area of diameter at half length as a function of total distance and

    sensitivity.

    L’altezza consigliata per installazioni di tipo classico è di circa 70 cm dal centro dell’antenna al suolo, con la

    sensibilità media impostata.

    L

    D

    X

    X

    X

    X

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 20

    0 2 4 6 8 10 12 14 16 18 20

    0

    10

    20

    30

    40

    50

    60

    70

    80

    90

    NB: remember to adjust the sensitivity of "MANA" according to half width of the beams is desired. As the threshold is higher, the lower the sensitivity and

    vice versa.

    8.6 DEAD ZONE

    The length of dead zones in the vicinity of the columns is on the same apparatus is the distance from the

    ground, the sensitivity is set to the Rx circuit. The recommended height for installation of a conventional

    type is approximately 70 cm from the center of the antenna to the ground, with the sensitivity set to medium.

    0 50 100 150 200 250 300

    0

    2

    4

    6

    8

    10

    12 Diameter in the middle (m)

    Maximum sensitivity

    Minimum sensitivity

    Length is in meters

    H equipment ground (cm)

    Length of the dead zone in meters

    Maximum sensitivity

    Minimum sensitivity

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 21

    8.7 START UP

    8.7.1 TX COLUMN

    After you remove the cover and shield, make connections to the mains power transformer and tamper

    circuit.

    1. Check the various connections: the power transformer to the circuit, the battery, the power circuit to circuit and transmitter cavities TX (See pp. 9, 12-13).

    2. Power board, check the LED lights on Mains power adapter and three power LEDs with V-Test jumper inserted in position 1-2 (see pp. 12-13).

    3. Turn OFF the switch which is on cavity TX. (See page 14). 4. Verify that is in position ON one of the four switches of the "channel selector" tab, TX (same as

    RX) See page. 9.

    5. Insert the jumper in position 2-3 to verify that LEDs output and VCC (see page 10). 6. Replace the two jumpers in the resting position.

    8.7.2 RX COLUMN

    After you remove the cover and shield, make connections to the mains power transformer and tamper

    circuit.

    1. Check the various connections: the power transformer to the circuit, the battery, the power circuit to circuit and transmitter cavities RX (Vedi pagg. 10-13).

    2. Power board, check the LED lights on Mains power adapter and three power LEDs with V-Test jumper inserted in position 1-2 (Vedi pagg. 12-13).

    3. Turn OFF the switch which is on cavity RX.(Vedi Pag.14). 4. Verify that is in position ON one of the four switches of the "channel selector" tab(same as TX)

    (Vedi pagg. 10-11).

    5. Check the "voltages" on the receiver, turning in ON position the switch N.10 "selector function", and displaying the desired tension (5, 9, 13.8 volts) with dip No 7-8-9 (See pp. 11-12).

    Perform an initial visual alignment between the two columns (TX and RX).

    Horizontal orientation: Loosen the screws and turn the column.

    Vertical orientation: Loosen the screws of the handling system of the parable, and rotate.

    Verify that on the board RX the leds alarm and Channel are on. Otherwise proceed with the electronic

    alignment, however, be made to obtain a precise alignment.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 22

    8.8 ALIGNMENT

    Turn ON the dip of the "Selector Function" numbers 1,2 and 3, leaving all others to OFF.

    Align horizontally and vertically then the parable of the receiver for maximum signal seen on

    "Led test alignment”.

    If the signal is too strong or too weak to act on the knob of the "gain" so that only the first four

    LEDs light up red.

    Rerun the orientation of the parabola RX. Once the maximum orientate the parable TX.

    Goodness signal: Turn OFF the switching of the "selector functions" 1 and 2 and ON the numbers 3,5 and 10 for the Voltmeter display the gain value. The optimal values are between 4.5 and 6.5

    volts.

    AGC: position ON the switches numbers 1 and 2 of the "Selector Function", leaving all others to OFF. Check after about a minute that the 4 LEDs are lit red and 2 yellow LEDs for "Led test

    alignment”,too.

    Verify that on the board RX the leds alarm and Channel are on. Otherwise proceed with the electronic alignment.

    8.9 WALK TEST

    1. Turn the knobs "sensitivity" and "Delay" to the minimum and reposition to ¼ of winder.

    2. Turn ON the microswitch of the "selector function" Number 4 leaving all others to OFF. This operation is inserted to signal the buzzer will sound continuously when there is an alarm (see pp.

    11, 12), while with a variable sound intermittently when in a sensitive area. 3. In the absence of disturbance signal, turn the potentiometer Walk Test to the point where you

    hear no sound. 4. Approaching the center of the cone of the sensitive area, the buzzer there evidence of an

    intermittent sound. The sensitive area is represented by the graph on page 17. 5. Test of the acrossing, making sure the intermittent sound of the buzzer and then the long beep

    and shutdown "LED Alarm" column on the Rx.

    Buzzer no signal Intermittent signal

    buzzer

    Fixed signal buzzer

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 23

    8.10 SENSIBILITY

    The sensitivity adjustment potentiometer (see page. 11, 12) affects the alert threshold, the "sensitive

    area" (see p.17) and "dead zone" (see p. 18).

    NB sensitivity too high can cause false alarms, conversely a too low can prevent the detection of the small

    intruders.

    Turn ON the dips of the "selector function" Numbers 6 and 10, leaving all others to OFF. In this manner

    is displayed on the Voltmeter sensitivity value.

    Note that small values indicate a higher value of sensitivity:

    0V=maximum sensitivity

    9V=minimum sensitivity

    Calibration is performed taking into account the user requirements.

    Example: the system should not go into alarm when it is crossed by an animal of a certain size. Keep in

    mind that high sensitivity can generate false alarms.

    8.11 DELAY The potentiometer adjustment of the delay (see page. 11, 12) affect the crossing speed. To verify the delay

    is necessary to experiment crossing at reduced speed. Remember that setting too high or low could cause

    false alarms

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 24

    INSTALLATIONS GUIDE

    8.12.1 SECTORS

    Having to design protection with volumetric barriers of a closed perimeter within a certain number of

    sections that take into account the management need of the entire plant, it must be remembered that it is

    always preferable to install an even number of sections. This consideration is bound to the fact that the

    likely reciprocal interferences between adjacent sections are annulled should at the vertices of the

    polygon (cross), resulting from the installation of the various sections, be installed two equipment with

    the same name, two transmitters or two receivers. It is evident that this might occur only if the number

    of sections is even.Should it not be possible to have an even number of sections then some careful

    considerations must be made on interferences that might likely occur in order to find the vertex point

    where retained best to place the transmitter near the receiver. The following pictures show some typical

    cases for which the most correct solution is given.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 25

    8.12.2 Particolar conditions

    1. Ground conditions: It is inadvisable to install the equipment along sections with tall grass (more that 10cm), ponds, longitudinal waterways, and all those types of grounds whose structure

    is rapidly mutable.

    2. Obstacles: the fences, are generally metallic therefore highly reflecting hence causing various problems, for this reasons some precautions are suggested:

    First of all, make sure that fence has been properly fixed in order that the wind does not

    move.

    If it is possible the microwave beam shouldn’t be placed in parallel to a metallic fence, is necessary to create a corner with it

    Metal fences placed behind the equipment night cause distorsions to the sensitive beam especially, and might cause movement detection in unexpected spots, with subsequent

    likely generation of false alarms.

    In case of Mw barrier should be installed in a corridor between two metallic fences, the width of the corridor should be necessary not less to 5m.

    Along the section, within the area of the protectiion field, are allowed pipes, poles or similiar as long as

    their dimensions, with respect to the protection beam, are not too excessive. The trees, hedges, bushes in

    general, need very great attention if near or within the protection sections.

    10.3 MW CHARACTERISTICS

    FREQUENCE 24 Ghz in K band

    CHANNEL 4 Exchengeable

    MODULATION ON-OFF

    SENSIBILITY ADJUSTMENT Trimmer.

    DELAY ADJUSTMENT Trimmer.

    ALIGNMENT Eletronic with instruments on motherboard

    OUTPUTS Alarm Relè (NC: 40 Ohm)

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 26

    9. IR SECTION

    9.1 CONNECTION TO TERMINAL BLOCK (MES9C)

    Positive supply +10 – 30Vdc 1 12 12/24 Vac-cc Heaters supply

    Negative supply GND 2 13 12/24 Vac-cc Heaters supply

    Tamper output TMP 3 14 G.IN Negative input to exclude the

    barrier for 1 minute

    Tamper output TMP 4 15 AND

    +12 Vdc to have

    AND RX1+RX2

    0V to AND RANDOM

    Alarm output (NO) NA 5 16 BEAM +12 Vcc - exclude RX1

    0 V - exclude RX1+RX2

    Alarm output (NC) NC 6 17 S.LOW

    NEGATIVE

    OPEN COLLECTOR

    open in case of fog

    Alarm output (C) COM 7 18 A.MASK

    NEGATIVE

    OPEN COLLECTOR

    open in case of masking

    Positive sync

    input (TX=>RX) + S IN 8 19 + S OUT

    Positive sync

    output (TX=>RX)

    Negative sync input

    (TX=>RX) - S IN 9 20 - S OUT

    Negative sync

    output (TX=>RX)

    Not in use 10 21 Not in use

    Not in use 11 22 Not in use

    9

    11 13 14 15 16

    17 18 19

    20

    21 22

    1

    2

    3

    4

    5

    6

    7

    8

    9

    10

    11

    12

    13

    14

    15

    16

    17

    18

    19

    20

    21

    22

    Serial connection to

    ADEBUS (pag. 11)

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 27

    9.2 CONNECTION AND SETTINGS HEATERS

    The power of the heaters is by default set to 24 V (ac or dc), but you can set it to 12 VDC repositioning the

    jumper on MES9C and on each optical as shown.

    24V

    Heaters supply

    24V 12V

    MES9C

    BOARD

    OPTICAL

    12V

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 28

    9.3 SYNCHRONIZATION

    9.3.1 Wired SYNC

    RX TX RX TX RX TX

    SYNC IN+ (Clamp 8)

    SYNC OUT+ (Clamp 19)

    SYNC IN+ (Clamp 8)

    SYNC OUT+ (Clamp 19)

    SYNC IN+ (Clamp 8)

    SYNC OUT+ (Clamp 19)

    SYNC IN- (Clamp 9)

    SYNC OUT- (Clamp 20)

    SYNC IN- (Clamp 9)

    SYNC OUT- (Clamp 20)

    SYNC IN- (Clamp 9)

    SYNC OUT- (Clamp 20)

    The synchronisms have to be connected according to the diagram above, the Sync out corresponds to the TX

    part of the column and will have to be connected to the Sync in on the RX opposite one. You must also connect

    the negative of power supply in common between the columns; so it is appropriate to use a shielded cable

    alarm, 2x0, 22, to connect the sync and the screens to negative Vdc of power supply on both columns.

    19

    20

    19

    20

    8

    9

    8

    9

    19

    20

    8

    9

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 29

    SINGLE BARRIER CABLINGS.

    Note: SYNC OUT- and SYNC IN - should not be connected to ground but to the dedicated clamp

    (terminal numbers are related to the image of p. 11).

    DIP4 in OFF

    1 2 3 4 5 6 7 8 9 10 11 12

    ON

    Canal RX

    1 2 3 4

    ON

    Canal TX

    1 2 3 4

    ON

    19

    20

    19

    20

    8

    9

    8

    9

    SYNC IN+ Clamp 8

    SYNC OUT+ Clamp 19

    SYNC IN+ Clamp 8

    SYNC OUT+ Clamp 19

    SYNC IN- Clamp 9

    SYNC OUT- Clamp 20

    SYNC IN- Clamp 9

    SYNC OUT- Clamp 20

    TX4

    RX4

    TX3

    RX3

    TX2

    RX2

    TX1

    RX1

    TX4

    RX4

    TX3

    RX3

    TX2

    RX2

    TX1

    RX1

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 30

    9.3.2 Optical SYNC

    Position in ON DIP 4 on the bench of 12 and select the transmission channel 1 to 3 (default is set to channel 1),

    on the bench of 4; the selected channel must be the same on both TX and RX boards.

    Note: for information and for other configuration of MES9012, please check page 27.

    DIP 4 in ON

    1 2 3 4 5 6 7 8 9 10 11 12

    ON

    Canal RX

    1 2 3 4

    ON

    Canal TX

    1 2 3 4

    ON

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 31

    COLUMN

    1

    COLUMN

    2

    Canal TX

    1 2 3 4

    ON

    Canal RX

    1 2 3 4

    ON

    Canal TX

    1 2 3 4

    ON

    Canal RX

    1 2 3 4

    ON

    COLUMN 1 COLUMN 2

    TX4

    RX4

    TX3

    RX3

    TX2

    RX2

    TX1

    RX1

    TX4

    RX4

    TX3

    RX3

    TX2

    RX2

    TX1

    RX1

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 32

    9.4 OPTICS CONFIGURATION

    9.4.1 OPTICAL TX

    1 2 3 4 5 6 7 1 2 3 4 5 6

    TX1

    ON

    TX2

    ON

    TX3

    ON

    TX4

    ON

    Through DIP 7 in ON (as default) and lighted LED POWER is occur the correct operation of TX optics.

    The power of the heaters is set by default to 24V; you can use 12V by changing the configuration of the jumper

    (SW4).

    The voltage can be both AC and DC.

    Note: The settings and relative addresses are already set by Default.

    TAMPER

    POWER ON LED

    HEATERS SUPPLY

    24V

    12V

    TX1: Not in use in

    the case of column

    with 3TX

    TX1 and TX2: Not

    in use in the case of

    column with 2TX

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 33

    9.4.2 OPTICAL RX

    1 2 3 4 5 6 7 1 2 3 4 5 6

    RX1

    ON

    RX2

    ON

    RX3

    ON

    RX4

    ON

    Through DIP 7 in ON (as default) and lighted LED POWER is occur the correct operation of RX optics.

    The power of the heaters is set by default to 24V; you can use 12V by changing the configuration of the jumper

    (SW4).

    The voltage can be both AC and DC.

    In jumper J4 is possible to read the signal value in volts.

    Note: The settings relating to addresses are already set to Default.

    24V

    12V

    HEATERS SUPPLY

    TEST SIGNAL POINT

    J4

    (FEEBLE) SIGNAL LED

    TAMPER

    RX1: Not in use in

    the case of column

    with 3RX

    RX1 and RX2: Not

    in use in the case of

    column with 2RX

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 34

    Default barriers with 2 or 3 RX are set during testing in the factory. In case you want to change the original

    number of RX optics in the field it is necessary to set the DIP SWITCH six and seven as follows:

    9.5 TX/RX SETTINGS 3 OPTICS

    The setting of the DIP SWITCHES on the lenses is set:

    1 2 3 4 5 6 7 1 2 3 4 5 6

    1 2 3 4 5 6 7 1 2 3 4 5 6

    RX2

    ON TX2

    ON

    RX3

    ON TX3

    ON

    RX4

    ON TX4

    ON

    It should be set to ON the DIP on the motherboard RX exclusion 1

    9.6 10 TX/RX SETTINGS 2 OPTICS

    The setting of the DIP SWITCHES on the lenses is set:

    1 2 3 4 5 6 7

    1 2 3 4 5 6

    1 2 3 4 5 6 7

    1 2 3 4 5 6

    RX3 ON

    TX3 ON

    RX4 ON

    TX4 ON

    It should be set to ON the DIP on the motherboard RX exclusion 1 + 2

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 35

    9.7 COLUMN ALIGNEMENT

    For proper alignment, once the barriers are installed, orient the optical of transmitters and receivers in the

    direction of each other by adjusting the lens holder horizontally through the manual movement after loosening

    the locking screw on the joint, and vertically through the front screw on the left side of the lens.

    Vertical adjustment

    Horizontal adjustment

    N.B.: FASTEN THE UNLOCKED SCREW AFTER THE ADJUSTMENT

    SCREW

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 36

    9.8 CALIBRATION THROUGH SMA SYSTEM

    1) Start the alignment of the transmitter is on the barrier by checking the position of the DIP switch 7 to ON and activating the TEST optics TX (1 or 2 or 3 or 4), by pressing the dedicated button for about 3 seconds

    until the orange LED TEST will lit up.

    2) Place in the corresponding optical TEST (1 or 2 or 3 or 4) on coral receiver, checking the position of the DIP switch 7 to ON and pressing the dedicated button for 3 seconds until the the BUZZER and the LED

    TEST turns ON, (with high brightness)

    3) Place the filter in front of the optic Transmitter you are aligning. It is recommended that the calibration with the use of the filter over long distances and

    then search for the maximum signal.

    TEST

    BUTTON

    DIP 7 ON

    ORANGE

    LED

    DIP 7 ON

    TO ACTIVATE

    THE LED

    DIP 7 ON

    TO ACTIVATE

    THE LED

    TEST

    BUTTON

    DIP 7 ON

    ORANGE

    LED

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 37

    4) Through the TRANSMITTER lens shifts, find the maximum optical alignment based on the Buzzer and LEDs (with high brightness), the increase in the frequency of flashing (until the LEDs is fix on and the

    whistle of the corresponding BUZZER) indicate a better ALIGNMENT.

    5) With a FULL rotation on the horizontal RX lens, is carried out the SCANNING of the optical signal.

    6) Rotating the lens RX find the maximum value of ALIGNMENT corresponding to the LEDs (with high brightness) FIXED and the whistle of the BUZZER CONTINUOUS.

    7) Exit the function of by repressing the ALIGNMENT TEST button for about 3 seconds on both optics (TX-RX) making sure that the orange LED TEST is shown in original condition.

    NB: you can SEE the calibration value through the multimeter on each optical receiver. For this procedure, you

    must have the pair of lenses (T-RX) in TEST.

    TEST

    BUTTON

    ORANGE

    LED

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 38

    9.9 CALIBRATION WITH PARALLEL BEAMS

    N.B.: during the testing phase of an optical transmitter the other TX not in test are switched off

    automatically.

    Tx4 RX4

    Tx3 RX3

    Tx2 RX2

    Tx1 RX1

    1) Put in test the optical TX1

    and RX1 (if present see p.11-

    12) and proceed with the

    calibration as explained

    2) Put in test the optical TX2

    and RX2 (if present see p.11-

    12) and proceed with the

    calibration as explained

    3) Put in test the optical TX3

    and RX3 and proceed with

    the calibration as explained .

    4) Put in test the optical TX4

    and RX4 and proceed with

    the calibration as explained

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 39

    9.10 CALIBRATION WITH CROSSED BEAMS

    To activate this function, move ON DIP2 of 12 DIPSWITCH bench on MES9012.

    1 2 3 4 5 6 7 8 9 10 11 12

    ON

    Tx3

    Tx2

    Tx1 RX1

    Tx4

    RX2

    RX3

    RX4

    RX1

    RX2

    RX3

    RX4

    RX1

    RX2

    RX3

    RX4

    RX1

    RX2

    RX3

    RX4

    1) Put in test the optical TX1 and

    RX1 (if present see p.11-12)

    and proceed with the calibration

    as explained on p. 13 and 14. REPEAT the setting of RX2,

    RX3 and RX4. Make sure that it

    still aligned with RX1.

    2) Put in test the optical TX2 and

    RX1 (if present see p.11-12)

    and proceed with the calibration

    as explained on p. 13 and 14. REPEAT the setting of RX2,

    RX3 and RX4. Make sure that it

    still aligned with RX1.

    3) Put in test the optical TX3 and

    RX1 and proceed with the

    calibration as explained on p. 13

    and 14. REPEAT the setting of RX2,

    RX3 and RX4. Make sure that it

    still aligned with RX1.

    4) Put in test the optical TX4 and

    RX1 and proceed with the

    calibration as explained on p. 13

    and 14. REPEAT the setting of RX2,

    RX3 and RX4. Make sure that it

    still aligned with RX1.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 40

    9.11 SETTING AND PROGRAMMING MOTHER BOARD

    1 SUPPLY LED Red

    2 ALARM LED ALM Red

    3 MASKING LED MASK Green

    4 DISQ. LED S.LOW Green

    5 HEATINGS LED HTR Yellow

    6 SYNCHRONISM SYNC Yellow

    7 TRIMMER Response time

    adjustment

    8 TEST J7

    9 DIP SWITCH 12 Function selector

    (pag. 23)

    10 TAMPER

    11 DIP SWITCH TX

    12 DIP SWITCH RX

    3

    4

    5

    6

    8

    7

    1

    2

    9

    12

    11

    10

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 41

    9.12 LED FUNCTIONING

    The motherboard has six LED signaling and control, which can be activated via the dip switches 12 on the

    board MES9012S dedicated in the ON position.

    It is recommended that at the end of the testing set dip switches in the OFF position, both to avoid a glimpse of

    the signals, both to reduce consumption of the system.

    POWER

    Supply led

    The SUPPLY LED is the only one to always be on in normal

    conditions of operation, confirm that the card is properly powered.

    LED ALM

    Alarm led

    Normally off, in the event of ignition, indicates the alarm status. The

    alarm condition will depend on the setting of the jumpers composing

    the board and the delay time set on trimmer SPEED will be adjusted

    from a minimum of 50 msec to 500 msec. Increasing clockwise.

    LED MASK

    Signals of Masking

    The ignition of the MASK LED indicates the presence of an infrared

    signal modulated not desired. On the terminal, in the presence of an

    attempt to blindness, it can obtain the signaling ANTIMASK.

    N.B.: In normal operation the LED should be OFF.

    In the event that is either on or flashing check the setting of the jumpers

    for selecting beam on the various transmitters.

    LED SIG LOW

    Indicates the low level of signals

    (fog presence)

    The lighting SIG LOW LED indicates the presence of FOG INTENSE.

    In the presence of intense fog before having an alarm condition due to

    lack of signal, the LED SIG LOW lights on the terminal and you can

    have the message DISQUALIFICATION.

    N.B.: By placing the jumper SIG LOW in the ON position, and by the

    intervention of the disqualification is obtained the exclusion of the

    barrier, which will return to work as soon as the fog lifts.

    LED HTR

    Indicates the heaters functioning

    The automatic heating system, electronically controlled to ensure in all

    climatic conditions an internal temperature between 17 ° C and 22 ° C.

    Normally off, when turned on the heater is on.

    LED SINC

    Indicates the functioning of the

    synchronism

    The LED SINC continuously flashing indicates the proper operation

    and wiring of sync both outgoing and incoming.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 42

    9.13 CHARACTERISTICS AND DIP SWITCHES SET

    The motherboard has several configurations programmable via dip switches.

    DIP SWITCH 12 DIP

    1

    RND DLY

    ON

    In the ON position the alarm from time to time is generated with a random delay varying

    from 0 to 1 sec

    This function serves to confuse and mislead the intruder who wants to identify the

    detection system

    HEATER

    TEST

    Turn ON and OFF DIP1 for 3 times in order to switch on heaters for 20 min bypassing

    thermostat.

    2 CROSSING In the ON position activates the detention Crossed beams

    3 A.CRAWL

    In the ON position it has the "normal" operation of the barrier, set to OFF mode is

    activated to "ANTI CRAWLING" means that the darkening of the radius RX1 (the first

    down) for at least 2 sec. causing the alarm condition, regardless of whether it was

    previously set to OR or AND.

    4 SYNC Irrelevant.

    5 DISQ In the ON position activates the disqualification (with at least two optics that detect a low

    signal).

    6 BEAM OFF

    1 + 2

    In the ON position you get the exclusion of the first two rays starting from the bottom

    while the remaining rays continue to operate. The function can also be programmed

    remotely giving a positive control on the 12V + terminal of the terminal block marked

    BEAM. If you want to enable this function remotely DIP6 must remain OFF.

    7 BEAM OFF

    1

    In the ON position is obtained the exclusion of the first beam in the bottom, while the

    remaining continue to function.

    The function can also be programmed remotely giving a negative command 0 V on

    terminal marked BEAM ON on the terminal block MES9C.

    If you want to enable this function remotely DIP7 must remain OFF.

    8 AND 1 + 2

    In the ON position is obtained the AND function of the first two receivers, that is to say

    that both must be interrupted to generate the alarm condition, while the remaining Rx

    remain be alarmed individually.

    This configuration can be useful in the presence of tall grass or small animals.

    The function can also be programmed remotely giving a positive command +12V on the

    terminal marked AND.

    If you want to enable this function remotely DIP8 must remain OFF.

    9 AND RND

    In the ON position is obtained the AND between two random Rx, ie that to have an alarm

    condition should always be alarmed at least two Rx among all those used.

    The function can also be programmed remotely giving a negative command 0 V on the

    terminal block labeled AND.

    If you want to enable this function remotely DIP9 must remain OFF.

    10 ANTIMASK In the ON position the enable function ANTI MASKING (ANTIMASK activating the

    output on the terminal MES9C.

    11 CLOSE

    RS485

    In the ON position closes the RS485 communication. To finish you need to put in ON

    only the switches of the column as far as the entire line.

    12 LEDS In the ON position activates the LEDs.

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 43

    JUMPER J7

    If the disqualification function is activeted, you can increase the sensitivity of the disqualification by jumper J7

    4 DIP SWITCH TX

    TEST TX

    By setting all DIP to OFF will turn off all transmitters of the column; moving all DIP ON

    transmitters are activated at high frequency in order to allow a first visual contact between

    transmitter and receiver in case of difficulties at great distances.

    1 CH 1 ON Wire sync: normal operation of transmitter

    OFF Optical sync: operation with transmission frequency 1

    2 CH 2 ON Wire sync: not in use

    OFF Optical sync: operation with transmission frequency 2

    3 CH 3 ON Wire sync: not in use

    OFF Optical sync: operation with transmission frequency 3

    4 CH 4 ON Wire sync: not in use

    OFF Optical sync: operation with transmission frequency 4, only 2 transmitter active

    4 DIP SWITCH RX

    TERMINAL

    and only TX

    By setting all DIP to OFF will turn off all transmitters of the column; moving all DIP ON

    transmitters are activated at high frequency in order to allow a first visual contact between

    transmitter and receiver in case of difficulties at great distances.

    1 CH 1 ON Wire sync: normal operation of transmitter

    OFF Optical sync: operation with transmission frequency 1

    2 CH 2 ON Wire sync: not in use

    OFF Optical sync: operation with transmission frequency 2

    3 CH 3 ON Wire sync: not in use

    OFF Optical sync: operation with transmission frequency 3

    4 CH 4 ON Wire sync: not in use

    OFF Optical sync: operation with transmission frequency 4, only 2 transmitter active

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 44

    9.14 REACTION TIME ADJUSTMENT

    There is a potentiometer to adjust the TIME OF INTERVENTION. In particular, you can set the barrier for the

    rapid alert system (cross running) or slow (cross by walk).

    By adjusting the potentiometer counterclockwise to increase the trip time up to 500ms. In this condition ensures

    that the alarm of a person walking through the barrier, with the advantage of excluding the possibility of any

    false alarms (ex. animals).

    Adjusting the potentiometer clockwise decreases the trip time until 50ms. In this condition

    ensures the alarm of a person crossing the barrier running at maximum speed

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 45

    9.15 TECHNICAL SPECIFICATION IR

    OPTICS Impulsive double lenses 950 nm

    DISQUALIFICATION Automatic with signaling out, open collector negative

    MASKING Detection of blindness by another infrared signal by signaling out, open

    collector negative.

    OPERATING TEMPERATURE - 25°C / + 65°C. Available Kit heaters for temperatures down to -50 ° C.

    ADJUSTMENT ANGLE 10° vertical – 180° horizontal

    DETECTION OPTIONS And/Or on Rx / AND 1° + 2°.

    BEAMS EXCLUSION 1° / 1° + 2°

    REMOTE CONTROLS AND Random / AND 1° + 2° beam / exclusion 1° o 1° e 2°

    10. DT3 SECTION

    10.1 DETECTION AREA

    Regolando opportunamente la sensibilità è possibile coprire completamente le zone morte immediatamente

    sottostanti e sovrastanti la parabola MW.

    IR IR

    MW

    3

    DT3 DT3

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 46

    10.2 PROGRAMMING & START UP

    Connect the power supply respecting the polarity (10-30V), and make the connections Alarm output

    according to your needs.

    1 SUPPLY 10-30 Vcc – GND 3 SBY

    (Positive input) The system is inhibited and gives no signal if the positive is connected

    5 ALARM (NC output)

    It opens in case of alarm generated by MW

    7 DIP SWITCHES System Configurations

    8 TRIMMER MW MW sensitivity adjustment

    10 RED LED (alarm)

    It lights up in case of general alarm

    12 GREEN LED (MW)

    It lights up in case of MW alarm

    13 MICROWAVE 24Ghz MW SENSOR

    POWER LED FOR DETECTION TEST: Activate

    with the Dip Switch number 4 the functionality of

    detection LED.

    1 2 3 4

    ON

    NB: turning on for a duration of about 30 seconds if the

    DIP4 of the LEDs is activated you will see a flashing

    alternately, of these, for the stabilization of the system.

    At the end of flashes you can proceed with the next

    settings..

    Setting trimmer RANGE SENSITIVITY MW (range 1-8 m) : Adjust through the

    trimmer the range of MW, by implementing crossover trials. The LED signaling GREEN

    will help to verify the detection of the passage in different areas (example. 1 m, 4 m, 8 m).

    3

    1

    8

    10

    13

    5

    7

    12

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 47

    10.3 FIXED FUNCTION ADJUSTMENT

    PET IMMUNITY

    The pet immunity system is able to discriminate the small animals up to a maximum of 7 kg and to not give an alarm signal. In the case of the area with high presence of animals, such as dogs and cats, however, carry out tests for the correct adjustment.

    SELF DIAGNOSYS

    The system performs a check every 50sec of the micronda functionality. In case of malfunction it is signaled by the flashing of dedicated LED (GREEN)

    10.4 TECHNICAL CHARACTERISTICS DT3

    Microwave 24 Ghz

    MW adjustable range from 1m to 8m RF immunity up to 2Ghz

    Pet Immunity MW Digital signal processing

    Technology MW operation Self-diagnosis Programming Dip-Switches

    Microwave 24 Ghz

    MW adjustable range from 1m to 8m RF immunity up to 2Ghz

    Pet Immunity MW Digital signal processing

  • Politec Srl | Manual MANA DT SMA + DT3 – Ver 2.5.2 48

    11. BARRIER TECHNICAL CHARACTERISTICS

    OUTDOOR RANGE MAX 250 m

    DIMENSIONS High

    from 100 to 300 cm Width 25 cm

    P 20 cm

    PESO Variabile Da 10 a 20 kg per barriera

    OPERATING TEMP. - 25°C / + 65°C.

    SUPPLY 230Vac 50hz

    HEATERS 24 Vac (Internal supplier)

    ELECTRONIC COMP. 13.8 Vdc (Internal supplier)

    POWER CONS. 13.8Vdc Tx e Rx = 290 mA per column 24Vac Tx e Rx = 200W per column

    OUTPUT Alarm relay and Tamper relay

    OPERATING TEMP. - 25°C / + 65°C.

    SUPPLY 230Vac 50hz

    HEATERS 24 Vac (Internal supplier)

    ASSISTENZA TECNICA: +39 039 9081616