Cardin Elettronica REFLEX, Quick Start Manual

CDR

REFLEX

04.06.2019

ZVL657.01

CARDIN ELETTRONICA spa 

Via del lavoro, 73 – Z.I. Cimavilla 31013 Codognè (TV) Italy

Tel:  

+39/0438.404011

Fax:  

+39/0438.401831

email (Italy): 

Sales.office.it@cardin.it

email (Europe): 

Sales.office@cardin.it

Http: 

www.cardin.it

®

REMARKS

These instructions are aimed at professionally qualified "

installers of 

electrical equipment

" and must respect the local standards and regulations 

in force. The use and installation of these appliances must rigorously respect 

the indications supplied by the manufacturer and the safety standards and 

regulations in force.

Attention!

 Only for EU customers - 

WEEE marking

.

This symbol indicates that once the products life-span has expired 
it must be disposed of separately from other rubbish.
The user is therefore obliged to either take the product to a suitable 
differential collection site for electronic and electrical goods or to 
send it back to the manufacturer if the intention is to replace it with 

a new equivalent version of the same product.
Suitable differential collection, environmental friendly treatment and disposal 
contributes to avoiding negative effects on the ambient and consequently health 
as well as favouring the recycling of materials. Illicitly disposing of this product 
by the owner is punishable by law and will be dealt with according to the laws 
and standards of the individual member nation. 

DESCRIPTION

CDR REFLEX is system made up of a one photoelectric unit with an inbuilt 
transmitter and receiver and a passive retro-reflector disc. Self locking 
adjustable lens which can be rotated horizontally and vertically through 
plus or minus 

10°

 with respect to the standard installation position. These 

adjustments permit lateral fitting and installations where the photoelectric 
cell and retro-reflector disc are at different heights. (see details b and c, fig. 2)

USE

The infrared barrier constitutes an efficient safety system for the protection 
of passageways or spaces which are equipped with automatic door or gate 
systems. It is suitable for systems which have a passing room of not more 
than 

10m

. 

TECHNICAL SPECIFICATIONS

- Emission with continuous modulation at 

6,75 KHz

.

- Infrared emission wavelength: 

623 nm

.

- Power supply: 

12 - 24Vac/dc

.

- Maximum commutable power of relay with resistive load:
 

28W

 in 

dc/60VA

 in 

ac

 - Max. voltage 

40V ac/dc

- Power consumption:
 

12V ac/dc

, 

21 mA

24V ac/dc

, 

36 mA

- Operating temperature: 

-10…+55°C

.

- Adjustable lens on self lubricating and self locking ball joint.
- Selection of the relay output contact mode N.C.-N.O. or 8,2kΩ via jumpers.
- Led signal strength indicator facilitates lens centring.
Test function:
- When wired to a suitable electronic programmer, this function allows the 

continuous control of the  presence of the infrared signal thus increasing 
the safety and security level of the installation.

- Protection grade 

IP55.

- Range: 

10m

 under all weather conditions such as thick fog, rain, dust etc.

INSTALLATION

Note:

 In the case of installations involving more than one device, it is 

necessary to leave a minimum distance of 1 metre between each device 
(see part C of fig. 2).The photoelectric cell and reflector disc are normally 
positioned frontally on the same geometrical axis and at the same height 
from the ground.

Photocell installation 

(fig. 3)

- Installation is possible on all types of structure. Other than the standard 

aligned positioning the device can also be positioned both laterally (moving 
the device out of the passageway) and at different heights in order to solve 
problems posed by different structures ( detail a-b-c fig. 2).

- Choose the points at which the devices are to be surface mounted, 

according to the requirements of the system.

- Work out the run of the cables from the structure to the point of connection.
- Fix the fast-fitting bracket at the chosen point (detail 1).
- Pass the connecting cables through the hole in the base of the case.
- Move the p.c.b. card slightly then wire up and connect the cables.
- Once the device has been wired up, snap the case to the fast-fitting bracket, 

remembering to place the waterproof seal between the case and the bracket. 
The joint between the case and the bracket is guaranteed to be waterproof 
(detail 2).

- Insert the sealing gasket into its seat on the case, carry out any eventual 

adjustments and then fit the glass enclosing cover into place (details 5-6 ).

Installation of reflector disc (fig. 5)

- Choose the surface fixing point according to the requirements of the system.
- Remove screw "

1

" and nut "

2

" and remove disc "

3

".

- Insert nut "

4

" into the hole provided and secure it with a strip of adhesive 

tape "

5

".

- Mark the fixing points "

6

", drill a hole in the wall "

7

" and insert the wall plugs 

"

8

". 

- Fix the protection base of the reflector disc to the wall using the two screws 

"

10

".

- Position the reflector disc "

11

" and secure it with the screw "

12

"

ADJUSTMENT AND FINE TUNING

Device input test

The 

TST

 control signal is an isolated input which inhibits the transmitter from 

performing a photocell function test. If the voltage on 

TST

 is higher than 

10Vac/dc

, the input is considered high. Instead, if it is lower than 

6Vac/dc

, 

the input is considered low. The voltage applied to the 

TST

 input may be 

different from the one used to power the photoelectric cell, but in any case 
must not exceed 

24Vac/dc

.

Jumper 

J3

 (fig. 1) defines which input state (high/low) will inhibit the 

transmitter. When it is in position 1 (fig. 1), the transmitter will be enabled as 
long as 

TST

 is low, and inhibited when 

TST

 is high. If the 

TST

 input is not 

used, set 

J3

 to position 1. 

Connections and configuration

-  Pull out the board as shown in figure 3.
-  Set jumpers 

J1

 to 

J4

 according to the requirements of the system.

-  Make the connections on the terminal board as shown in figure 1, using 

cables with a minimum cross section of 

0.2 mm

2

 (

AWG #24

).

-  Replace the board in its original position.
-  Power up the device, making sure that the transmitter is positioned on 

the right side of the optics and that the red light is on.

Centring

The centring is done by aligning the optics with the reflector, trying to obtain 
the best possible signal level. Check the indication given by light 

L1

, working 

on the optics to reach a good or at least a sufficient level. The signal level 
displayed by 

L1

 is represented by the modes listed below.

Status of LED 

L1

Signal level

Fixed ON

Good

Slow flashing

Sufficient

Fast flashing

Insufficient

Spento

Absent / interrupted beam

Jumper 

J4

 must be set according to the distance between the photoelectric 

cell and the reflector. If the distance is less than 

5m

, set 

J4

 to position 2. If 

the centring reaches an insufficient level, move it to position 1. For distances 
greater than 

5m

, set 

J4

 directly to position 1. Check that the centring is 

sufficient, even with the glass cover in position.

RETRO-REFLECTIVE PHOTOCELL

MODEL

DATE

SERIAL NUMBER

SERIES

This product has been tried and tested in the manufacturer's laboratory, during the 

installation of the product follow the supplied indications carefully.