Cardin Elettronica TX S435 User Manual

CARDIN ELETTRONICA spa

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Via Raffaello, 36- 31020 San Vendemiano (TV) Italy
Tel: +39/0438.404011-401818
Fax: +39/0438.401831
email (Italy): Sales.office.it@cardin.it
email (Europe): Sales.office@cardin.it
Http: www.cardin.it

DIGITAL RADIOPROGRAMMER WITH DYNAMIC CODES S435

Warning: Changes or alterations made to these devices LH8TX-S435 and LH8RP-S435 which have not

been expressly approved by the party responsible for compliance with the local standards and regulations
could cancel the user's authority to operate the equipment.
NOTE: This equipment has been tested and found to comply with the limits for a class B digital device,
according to part 15 of the FCC rules. These limits are designed to provide reasonable protection against
harmful interference to radio communications However, there is no guarantee that interference will not occur
in a particular installation. If this equipment does cause harmful interference to radio or television recep­tion, which can be determined by turning the equipment off and on, the user is advised to try to correct the
situation by taking one or more of the following measures:

• Reorientate or relocate the receiving antenna

• Increase the distance between the equipment and the receiver

• Connect the equipment to a wall socket which is on a different ring circuit to that of the receiver

• Consult your dealer or an experienced radio/TV technician for help.

Description

The S435 radioprogramming system consists of one or more transmitters and one or more receivers which can
be combined to meet the specific needs of the system.
Important: this is a device which uses a high security encoding system it follows therefore that if you lose one or
more transmitters you will have to reprogram the system codes. The code is changed for each encoding transmis­sion through the use of an encoding algorithm which only the receiver is able to recognise and therefore decide
whether or not the code transmitted corresponds to the original code. The code is generated for each channel
in the transmitter using the random arbitrary method with 2
radio. The receiver is able to memorise up to 24 different codes. During the transfer stage the codes are memorised
in a non volatile memory module which can be moved to another receiver without having to reprogram it. As this
is a system based on dynamic codes each code is processed individually by the receiver.

Use

The radioprogrammer is best used in systems controlling automatic rolling shutters and allows the remote
activation of a single phase 120 Vac 350 W motor using dynamic commands Open-Stop-Close-Stop or the
same commands by cable. During the code memorisation phase the channel can be associated (using the
Dipswitch "SW1") with one of the following functions: stop command only; open command only or sequential
dynamic commands "Open-Stop-Close-Stop". This allows you to either control one motor or more than one
motor contemporaneously using one channel for the complete opening command, one channel for the complete
closing command and one channel for the single movement command.

Transmitter versions

TRS435200.0US Miniaturized transmitters 2 Buttons
TRS435400.0US Miniaturized transmitters 4 Buttons
TRS435120.0US Miniaturized transmitters with switch (12 channels) 4 Buttons
TRS43540M.0US Wall mounted transmitters 4 Buttons

Receiver version

RPS435000.0US Radioprogrammer

Memory module

This is extractable, furnished with a non volatile EEPROM type memory and contains the system codes. The
programmed code is maintained in this module even in the absence of power. This component can be ordered
as an accessory with s.p.n. code: MCC46320

Receiver antenna installation

Minimum and maximum range of the radio controls. ‘Range’ is intended to mean the working distance, meas­ured in free space, between the receiver and the transmitter with the antenna installed. The range is therefore
closely linked to the technical characteristics of the system (power and sensibility) and varies according to the
characteristics of the site in which the system is located. It therefore follows that to obtain the best results from
the radio control the installation sites for the receiver and the antenna should be carefully chosen. You are not
advised to install 2 receivers at a distance of less than 1,5 m from each other and it is also good practise to
position the receiver away from computer systems, alarm systems and other possible sources of disturbance.
(A bad choice of positioning could compromise the correct performance of the receiver).

Antenna

The installation of the antenna is fundamental, connected to the receiver it represents the reception point for the
radio control. When installing the antenna remember that the receiver is supplied with its own antenna which
consists of a piece of rigid wire 170mm in length. In alternative it is possible to connect an ANS400 tuned
antenna using a coaxial cable RG58 (impedance 50Ω) with a maximum length of 15 m. The antenna should be
positioned out of doors in the highest possible point, visible and away from metal structures.

INSTALLATION

Depending on the type of installation, work out the position in which the programmer will be situated remem­bering that the site must be:

- a position safe from accidental collision;

- high enough above the ground to be safe from pools of water;

- in a position which the technician can easily reach.
The fixing of the case type receiver is carried out by using "fast-fitting" brackets. The bracket should be fixed
to the wall using two raw plugs (check that it is square to the wall), the case can be then slid onto the bracket
therefore fixing it to the wall. The slot-in circuit located towards the bottom of the case can be easily extracted
to facilitate wiring up the device. If any repair work is necessary the case can be easily extracted by pushing
upwards the action of which will separate it from the bracket.

ELECTRICAL CONNECTION (fig. 9)

Before connecting the device to the mains make sure that:

- the voltage and frequency rated on the data plate conform to those of the mains supply;

- an all pole circuit breaker which leaves at least 3 mm between the contacts has been installed between the
device and the mains;

- the high voltage 120 V wires pass through the holes marked "A" and are routed separately from the low
voltage wires which pass through the holes marked "B";

- the wires are fastened down using a cable clamp;

- once wiring is complete the holes through which the wires have passed have been sealed using silicon;

- the holes which are not used are blocked by inserting the caps "D".

• Only low voltage circuits may be wired to the external circuit binding posts.

TERMINAL BOARD CONNECTIONS (fig. 9)

1-2 Earth connection.
3-4 Radioprogrammer power supply 120 Vac 60 Hz.
5-6-7 Motor control in output "Open-Close-Common" 350 W.
8-9 Contact N.C. input for safety devices (safety edge contact) with travel direction inversion during the

closing cycle. Should a pair of photocells be connected an external power circuit will be required.
10-11 Dynamic button in input (contact N.O.) with Open-Stop-Close-Stop functions.
12 Antenna ground.
13 Antenna connection 170 mm rigid wire.

ZVL379.01 Mod: 14-04-2008

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combinations and is memorised in the receiver via

MODEL DATESERIAL NUMBER SERIES

ZVL379.01

S435 RXPR

24-01-2008

The S435 series conforms to the essential requirements of the directive 99/05/
CE and the technical reference standards have been applied.

Frequency validity: 433.92 MHz for all countries

Generating the user code in the transmitters (fig. 1-6)

• Once the container has been opened the programming procedure for the wall mounted transmitter is the

same as for the hand held transmitter (the circuit is the same).

1) Open the access door (fig.1)

2) For the version equipped with a channel block selection switch choose the desired block of channels by
moving the switch ("Y1" fig.1,2)

Y1 in position "1" = A,B,C,D
Y1 in position "2" = E,F,G,H
Y1 in position "3" = I,L,M,N

3) Press the button "J1" (fig.3)

4) While keeping button "J1" pressed down press the button "CH" corresponding to the required channel which
is to be memorised. Led "L1" will start to flash (fig.4).

5) Release the channel button "CH" and the led will carry on flashing (fig.5).

6) Release the button "J1", the led will turn off and the transmitter will memorise the last code which was

transmitted (fig.6).

7) Repeat points 3-4-5-6 for any successive channels

8) To memorise another block of channels move the switch ("Y1" fig.2) to the required position and repeat the
operations 3-4-5-6. If a code is not generated it could be due to the fact that the memory is empty and it is
therefore impossible to transfer the code to the receiver.

DIP-SWITCH SW1 FUNCTIONS

Work time programming

Work time programming:

- move the door/shutter to the completely closed position;

- press and hold down the MEMO button for 4 seconds: release the button when the LED starts to flash;

- within 10 seconds, press the MEMO button once to start the opening manoeuvre; when the door/shutter has

NOTE: during programming the photoelectric cells are ignored and the LED will flash rapidly indicating that the
work time is being counted.

- Maximum programmable time: 120 seconds

Generating the user code in the receiver (fig. 9)

DIP1 ON/ DIP2 OFF

The memorised code is associated with the opening command

DIP1 OFF/ DIP2 ON

The memorised code is associated with the closing command

DIP1 ON/ DIP2 ON

The memorised code is associated with the dynamic function
Open-Stop-Close-Stop

Memorising the user code in the receiver

1) Using dipswitch "SW1" select the function to be associated with the channel

2) Keep button "P1" pressed down and the led "LD" will start to flash

3) Transmit the channel which is to be memorised, the led will flash rapidly and the channel will be memorised.

- When you have finished memorising the codes remember to replace dips 1-2 in the off position on "SW1" .

- The memory is full (24 codes already memorised) and the led remains lit. If this is the case you can only insert

- The code may already exist in memory;

- You have not generated a channel code in the transmitter.

Memory cancelling procedure:

1) Keep the button "P2" pressed down and the led "LD" will flash slowly.

2) Transmit the channel which is to be cancelled for at least 3 seconds until the led starts to flash quickly then

To wipe all the codes from memory:

Keep buttons "P1" and "P2" pressed down simultaneously for at least 5 seconds until the led "LD" flashes
rapidly .

Receivers

The receiver can decode up to 12 different channels in blocks of 3 (A,B,C,D - E,F,G,H - I,L,M,N.) without a
selection.

TECHNICAL SPECIFICATIONS

RECEIVER

- reception frequency .........................................................................................................................433,92 MHz

- local oscillation frequency .............................................................................................................433,42 MHz

- local oscillation emission ........................................................................................................ <-57dBm (<2nW)

- intermediate frequency IF ......................................................................................................................500 kHz

- antenna impedance in input ........................................................................................................................50 Ω

- sensitivity (finely tuned signal) ..................................................................................................................... 1 µV

- power supply .............................................................................................................................. 120 Vac 60 Hz

- operating temperature range ........................................................................................................ -20°…+60 °C

TRANSMITTERS

- carrier frequency ..............................................................................................................................433.92 MHz

- carrier frequency tolerance .................................................................................................................... ±75 kHz

- band width .............................................................................................................................................>25 kHz

- apparent radiated power .........................................................................................-10…-7dBm (100-200 µW)

- apparent power harmonic products ...................................................................................... <-54dBm (<4 nW)

- modulation ............................................................................................................................................ AM/ASK

- signal modulation ....................................................................................................................... PCM, 1.3ms/bit

- power supply (Alkaline battery GP23A) ............................................................................................ 12V ± 10%

- maximum power consumption ................................................................................................................. 25 mA

- operating temperature range ......................................................................................................... - 10…+55 °C

- relative humidity ........................................................................................................................................ <95%

DIP1 OFF/ DIP2 OFF

stopped in the completely open position, wait for 2-3 seconds and then press the button again to memorise
the work time; this completes the program function and the LED will switch off;

Attention! Before memorising the transmitters for the first time remember to cancel the entire memory
content.

Only one code can be inserted at a time. To insert successive codes repeat steps 2 and 3.

If the code is not memorised it could be due to the following:

a new code after you have first cancelled an existing one or after wiping the entire memory (see memory
cancelling procedure);

repeat points 1 and 2 for any successive channels.

ALKALINE

J1

CH

GENERATING THE TRANSMITTER CODE

12

39

80

ALKALINE

ALKALINE

116

138

45

ALKALINE

STOP

J1

82

20

82

STOP

B

A

C

D

34

567

M

8910 11 12 13

PW

FTCI

TD

AP.

COM

CH.

P1 P2

DC0439

CS1295.01A

M1

ASAGSH Q

DFER 139

KJHG 1254

1

2

N

L

120V~

c

SW1

Antenna filo rigido 17cm
17 cm rigid wire antenna
Antenne fil rigide 17 cm
Starres Antennen Kabel 17 cm
Antena cable rígido 17 cm.

1 2

ON

LD

F1 - T4.0 A

ALKALINE

J1

ALKALINE

Y1

ALKALINE

J1

CH

L1

ALKALINE

1

2

3

J1

Y1

L1

ALKALINE

J1

BATTERY REPLACEMENT

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2

4

5

7

EXTERNAL DIMENSIONS

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6

9

Legend
A: Entry holes for 120 V~ mains wiring
B: Entry holes for low voltage

12/24V wiring + antenna

C: Separator wall
D: Hole sealing plugs
LD: Signal led
M1: Memory module
P1: Memorising button
P2: Delete button
PW: Power on led
SW1: Function selection dip

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RADIOPROGRAMMER ELECTRICAL CONNECTION

1-2 Earth connection.
3-4 Radioprogrammer power supply 120 Vac 60 Hz.
5-6-7 Motor control in output "Open-Close-Common" 350 W.
8-9 Contact N.C. input for safety devices (safety edge contact) with travel direction inversion

10-11 Dynamic button in input (contact N.O.) with Open-Stop-Close-Stop functions.
12 Antenna ground.
13 Antenna connection 170 mm rigid wire.

during the closing cycle. Should a pair of photocells be connected an external power circuit
will be required.