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FURTHER DETAILS

–––  STEP 10  –––

10.1 - ADVANCED ADJUSTMENTS

10.1.1 - Parameter adjustment using radio transmitter

Using the radio transmitter you can adjust certain operating parameters 

on the control unit: there are eight parameters.

1) 

Pause time: duration for which the leaves remain open (in the case of 

automatic closure).

2)

 Pedestrian opening: pedestrian opening mode of the leaves.

3)

 Motor force: maximum force above which the control unit detects an 

obstacle, and reverses the movement.

4)

 “OPEN” function: sequence of movements associated to each “OPEN” 

command.

5)

 Open input configuration on control unit: allows you to program the 

Open input functionality, as described in Table 4.

6)

 Flash output configuration. Allows you to program the Flash output 

functionality, as shown in Table 4.

  a)

 flashing indicator: the output emits one flash per second during the 

manoeuvre (paragraph 10.6.2).

  b)

 courtesy light functionality, the output activates at the start of the 

manoeuvre and goes out automatically after 60 seconds have expired 

following completion of the manoeuvre.

  c)

 gate open indicator functionality: the output has the following behav-

iour:

   - off when gate closed, 

   - flashes slowly during the opening manoeuvre,

   - flashes quickly during the closing manoeuvre,

  - steady on in all other cases.
 

Note - Before to modifying the operation of the Flash output, check that 

the device connected to the output meets the specifications given in 

the chapter “Product components technical specifications”.

7)

 Discharging Motor 1 and Motor 2 when closing: adjusts the length of 

the “brief reverse” of the motors after execution of the closing manoeu-

vre, in order to reduce the final residual force.

8)

 Discharging Motor 1 and Motor 2 when opening: adjusts the length 

of the “brief reverse” of the motors after execution of the opening 

manoeuvre, in order to reduce the final residual force. The parameters 

adjustment operation can be carried out by any one of radio transmit-

ters, as long as it is stored in mode 1, like those supplied (see para-

graph 10.4.1 “Mode 1 memorisation” ).

In the event that no transmitter stored in Mode 1, it is possible to memo-

rise one just for this phase, and delete it straight afterwards (see para-

graph 10.4.4 “Deleting a radio transmitter” ).

CAUTION!

 – When making adjustments using the transmitter, you must 

allow the command unit time to recognise the radio command; in prac-

tice, the keys must be pressed and released slowly, with at least one 

second of pressure, one second of release, and so on. 
To program the parameters in Table 3:

01.

  Press T1 and T2 together (

fig. 31

) on the radio transmitter for at least 

5 s.

02.

  Release the two keys.

03.

  Within three seconds, carry out the action set out in Table 6 based on 

the parameter to change.

T1

T2

–––  STEP 9  –––

The maintenance operations must be performed in strict com-

pliance with the safety directions provided in this manual and 

according to the applicable legislation and standards.

The automation devices do not require special maintenance operations; 

however periodically check, at least once every six months, the perfect 

efficiency of all the devices.
For this purpose, to perform all the tests and checks provided for in para-
graph 8.1 “Testing” and carried out as provided for in paragraph “User-
admissible maintenance operations”.
If other devices are present, follow the steps as laid out in the relevant 
maintenance schedule.

MAINTENANCE

deliver it to the owner (use Annex 2).

05.

  Compile the usage guide for the automation system and deliver it to 

the owner; for this purpose, Annex 3 “Usage guide” (chapter 11.3) 

can be used as an example.

06.

  Prepare the maintenance schedule of the automation system and 

deliver it to the owner; it must provide all directions regarding the 

maintenance of all the automation devices.

07.

  Before commissioning the automation, ensure that the owner is ade-

quately informed of all associated residual risks and hazards.

tions wiring diagram (for example 

fig. 5

), risk analysis and related 

adopted solutions, manufacturer conformance declaration for all 

the devices used (use Annex 1, “CE conformity declaration for all 

WS200S components”).

02.

  Post a label on the door providing at least the following data: type of 

automation, name and address of manufacturer (person responsible 

for the “commissioning”), serial number, year of manufacture and CE 

mark.

03.

  Permanently affix the label present in the package to the gate, con-

cerning the manual operations of releasing and locking the gearmotor.

04.

  Prepare the declaration of conformity of the automation system and 

English

14

 – English

This product is an integral part of the automation system it con-

trols and must be disposed of along with it.

As with installation operations, disposal operations must be performed by 

qualified personnel at the end of the product’s useful life.

This product is made of various types of materials, some of which can be 

recycled while others must be scrapped. Seek information on the recy-

cling and disposal systems required by local regulations in your area for 

this product category.

Caution!

 – some parts of the product may contain pollutants or hazard-

ous substances which, if released into the environment, may cause seri-

ous damage to the environment or human health.

As indicated by the symbol on the side, disposal of this 

product as domestic waste is strictly prohibited. Separate 

waste into categories for disposal, according to the meth-

ods established by local regulations, or return the product 

to the retailer when purchasing a new version.

Caution!

 – Local legislation may envisage serious fines in 

the event of abusive disposal of this product.

DISPOSAL OF THE PRODUCT

31

Summary of Contents for WS200S

Page 1: ...Instructions and Warnings for Installation and Use WS200S...

Page 2: ...L100 FLASHING INDICATOR 10 PROGRAMMING STEP 7 12 7 1 POWER SUPPLY CONNECTION 12 7 2 PRELIMINARY CHECKS 12 7 3 CONNECTED DEVICES RECOGNITION 12 7 4 GATE LEAF OPEN AND CLOSURE ANGLES RECOGNITION 12 7 5...

Page 3: ...ct must be performed exclusively by a qualified and skilled technician However all preliminary set up installation connection of devices to one another and programming operations may be performed by p...

Page 4: ...h both the data in this paragraph and the technical data in the chapter Product technical speci fications 1 Check that the gate leaf has dimensions and weight which fall within the following limits ma...

Page 5: ...unt that due to possible deposits of water in the routing ducts the ducting might create con densation in the control unit with consequent damage to the electronic circuits Place the ends of the ducti...

Page 6: ...C D D E F a d g d e f b b c 1 3 5 English English 5 A B F 2 G D F C 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 0 20 40 60 80 100 120 140 160 180 200 220 240 90 95...

Page 7: ...using just a slight movement move the gate leaf a few centimetres in the direction of full opening until you hear a click 14 If the gate to be automated is a dual leaf type repeat the same operations...

Page 8: ...English 7 English E B A 6 Distance E minimum 400 mm 8 9 M8 V6 x 70 M6 10 11 12 13 7...

Page 9: ...8 English OK b c d a Maximum 14 14 15 16 17 18 19 21 20 M8 M8 M8 M8...

Page 10: ...English 9 English OPEN STOP TX RX HS100 PH100 FL100 WK100SK M1 WS100SCK ECS bus ECS FLASH bus M M M M Blue Yellow Green Brown B A 22 23 WS100SCK M2 WS100SK M1 24 Brown Yellow Green Blue...

Page 11: ...ig 25 4 From an electrical point of view TX and RX are connected in parallel to one another fig 25 5 and to the blue terminal on the control card You do not need to observe any polarity 07 Affix the h...

Page 12: ...English English 11 26 A B 6 mm x4 6 mm x4 A B A B A B A A A A B B B 1 2 3 4 4 A B A B A B A B A B A B 5 6 7 8 9 11 12 10 A B A B...

Page 13: ...e P2 LED flashes it means that an error has occurred see section 10 5 Troubleshooting The phase of self learning the devices connected can be repeated at any time also after installation such as in th...

Page 14: ...ed according to the risks present and for ensuring observance of all legal provisions standards and regulations and in particular all requirements of the standard EN 12445 which establishes the test m...

Page 15: ...ter to change T1 T2 STEP 9 The maintenance operations must be performed in strict com pliance with the safety directions provided in this manual and according to the applicable legislation and standar...

Page 16: ...imes Motor 1 and Motor 2 discharge in closure 1 No discharge Press T3 once 2 0 1s Minimum Press T3 twice 3 0 2s Press T3 three times 4 0 3s Press T3 four times 5 0 4s Medium Press T3 five times 6 0 5s...

Page 17: ...ch which allows you after having correctly entered the secret combination to control the automation remotely For programming see paragraph 10 4 6 10 2 1 Installing the PR3 buffer battery fig 33 CAUTIO...

Page 18: ...e Ea 14 Am 200 thus Ed 2800 Establish the energy consumed To calculate the energy consumed by the automation proceed as follows 05 In the table below choose the box corresponding to the intersection o...

Page 19: ...during the self learning phase after which a STOP command is activated whenever a variation with respect to the learned status is detected 10 3 3 Recognition of Other Devices Normally the recognition...

Page 20: ...llowing paragraphs before you proceed with their execution 10 4 1 Mode 1 memorisation 01 Press P1 fig 35 for at least 3 s When the LED P1 lights up release the key 02 Within 10s press any key on the r...

Page 21: ...pressed repeat step 3 within another 10 seconds otherwise the deletion phase will stop automatically English 20 English 10 4 5 Deleting all memorised radio transmitters This operation deletes all memo...

Page 22: ...inter mittent the voltage value is not important approximately 10 30 Vac if there is voltage the problem is due to the lamp in this case replace the lamp with one having the same characteristics TABLE...

Page 23: ...egular operation and when there is a problem see Table 13 Quick flashes 1 flash 1 second pause 1 flash 2 flashes 1 second pause 2 flashes 3 flashes 1 second pause 3 flashes 4 flashes 1 second pause 4...

Page 24: ...ognition phase in progress Action Cycle operation Complete cycle operation Carry out the recognition phase see chapter 3 5 2 Leaf open and closure angles recognition Indicates that the open angles sel...

Page 25: ...bly shorter than 5m observe the warnings regarding minimum gauge and type of cables Ambient operating temperature 20 50 C Use in acid saline or potentially explosive atmospheres NO Mounting On a horiz...

Page 26: ...th Addressing capability Ambient operating temperature Use in acid saline or potentially explosive atmospheres Mounting Protection rating Dimensions weight Presence detector for automation of automati...

Page 27: ...utomatic gates and doors AM OOK radio encoded modulation 433 92 MHz Rolling code with 64 Bit code 18 billion billion combinations 4 each key can be used for the various control unit commands or to com...

Page 28: ...PH100 and FL100 conform to DIRECTIVE 2004 108 EC OF THE EUROPEAN PARLIAMENT AND COUNCIL of December 15 2004 concerning alignment of Member States legislation regarding electromagnetic compat ibility...

Page 29: ...ready ready for use and the four keys have the following functions fig 42 This table must be compiled by the person who programmed the automation Function T1 Key T2 Key T3 Key T4 Key Action Rotated to...

Page 30: ...ing leaves and stones to ensure that noone can operate the door Check the system periodically in particular all cables springs and supports to detect possible imbalance signs of wear or damage Do not...

Page 31: ......

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