Jay Electronique RSEF Installation Manual

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DRAFT R revision5

RADIOSAFE (RS) series

Transmitter

RSEF

Receiver

RSRD

Wireless safety logic signal

transmission system

Transmitter RSEF / Receiver RSRD (HOUSING VERSION ONLY)

Installation and user manual

- Original version -

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TABLE OF CONTENTS

1 Safety rules and general precautions ............................................................... 4

2 Identification of components ............................................................................. 5

3 Product operating principle ................................................................................ 6

4 Check of functions, initial startup ..................................................................... 7

Parameters on delivery « ex-FACTORY » ................................................................................... 7 4.1

Preliminary steps before installation .......................................................................................... 8 4.2

Safety transmitter RSEF : terminal strip and test wiring diagram .......................................................................... 8

4.2.1

Transmitter test wiring (does not take account of application) ............................................................................... 8 4.2.2

Safety receiver RSRD: terminal strip and test wiring diagram ............................................................................. 10 4.2.3

Assignment of inputs connected to transmitter RSEF and static outputs of receiver RSRD : ............................... 11 4.2.4

Power supply of outputs .................................................................................................................................... 11 4.2.5

Receiver test wiring (does not take account of application) ................................................................................. 11 4.2.6

System test before installation ........................................................................................................................... 12 4.2.7

5 Modifying the product configuration ............................................................... 13

Transmitter RSEF ...................................................................................................................... 13 5.1

General process ............................................................................................................................................... 13 5.1.1

Configuring the radio transmit frequency ............................................................................................................ 14 5.1.2

Radio channel programming table for 433-434MHz range .................................................................................. 14 5.1.3

Radio channel programming table for 911-918MHz range .................................................................................. 15 5.1.4

Configuring the check function for inputs E1 to E10 on power up ........................................................................ 16

5.1.5

Configuring the restart mode of transmitter RSEF ................................ .............................................................. 17 5.1.6

Receiver RSRD .......................................................................................................................... 18 5.2

General process ............................................................................................................................................... 18 5.2.1

Safety delay ...................................................................................................................................................... 18 5.2.2

6 Wiring the components ..................................................................................... 19

Wiring the transmitter RSEF ..................................................................................................... 19 6.1

Typical wiring diagram....................................................................................................................................... 19 6.1.1

Example connection of a safety light curtain on transmitter safety input............................................................... 19 6.1.2

Example with static inputs (PLC for example) ..................................................................................................... 19 6.1.3

Wiring the receiver RSRD ......................................................................................................... 20 6.2

Multi-strand wires: use of wire end ferrules is mandatory .................................................................................... 20 6.2.1

Conductor wire sections to be observed............................................................................................................. 20 6.2.2

USA/Canada specifications for installation and conductor wires to be used ......................................................... 20 6.2.3

Operation of safety relays RS1-RS2 of receiver RSRD ...................................................................................... 21 6.2.4

Monitoring of main contactors ............................................................................................................................ 21 6.2.5

Enabling handle : Wiring and operating mode .................................................................................................... 21 6.2.6

Typical wiring diagram for receiver RSRD ......................................................................................................... 22 6.2.7

Example with wired emergency stop palmswitch ................................................................................................ 22 6.2.8

Example with wired enabling handle .................................................................................................................. 23 6.2.9

Example with contactor monitoring function ....................................................................................................... 23 6.2.10

Wiring an indicator light column ......................................................................................................................... 24 6.2.11

7 Instructions for safe installation and commissioning ................................... 25

General information ................................................................................................................... 25 7.1

Transmitter RSEF ...................................................................................................................... 25 7.2

Receiver RSRD .......................................................................................................................... 25 7.3

Positioning the components and antennas .............................................................................. 26 7.4

8 Options ............................................................................................................... 27

Switch RF control option ........................................................................................................... 27 8.1

8.1.1

Wiring the RF switch: ................................................................................................................................ ........ 27

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9 Antennas ............................................................................................................. 28

433-434MHZ bands ..................................................................................................................... 28 9.1

911-918MHz bands ..................................................................................................................... 29 9.2

10 Diagnosis ............................................................................................................ 30

Transmitter RSEF : Messages given by indicator lights V1 and V2 ................................... 30 10.1

Receiver RSRD : Error messages ......................................................................................... 31 10.2

11 Servicing ............................................................................................................. 32

12 MAINTENANCE .................................................................................................. 32

Replacement of a transmitter RSEF...................................................................................... 32 12.1

Inspection and servicing of the receiver RSRD .................................................................... 33 12.2

13 Warranty ............................................................................................................. 34

14 FCC Rules & Regulations (Federal Communications Commission) ........... 35

15 IC Regulations (Industry Canada) .................................................................... 36

16 Appendices......................................................................................................... 37

Component dimensions (mm)................................................................................................ 37 16.1

Technical characteristics ....................................................................................................... 38 16.2

Transmitter RSEF ............................................................................................................................................ 38 16.2.1

Receiver RSRD ................................................................................................................................................ 39 16.2.2

Environmental data ................................................................................................................. 40 16.3

Safety related parameters ...................................................................................................... 40 16.4

Characteristic data according to IEC 61508-1 till -7 and IEC 62061:2005 ............................................................ 40 16.4.1

Characteristic data according to EN ISO 13849-1:2015 ...................................................................................... 41 16.4.2

RSEF Transmitter case thermal capability ............................................................................ 42 16.5

Residual risks ......................................................................................................................... 42 16.6

Forseeable misuse.................................................................................................................. 42 16.7

Waste recycling and management ........................................................................................ 42 16.8

Products references ................................................................................................ ............... 42 16.9

Warning, avoid any mutual disturbance ............................................................................... 42 16.10

Countries limitation of the use ............................................................................................... 42 16.11

Manufacturer information ....................................................................................................... 42 16.12

17 Declaration of conformity ................................................................................. 43

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1 Safety rules and general precautions

The RADIOSAFE (RS) “wireless safety logic signal transmission system” is considered as a control and a safety
component ensuring an emergency stopping function under the terms of the European Machinery Directive. The following safety
rules apply to installation and use of the Radiosafe (RS) system.

 For maximum safety when using the system, the instructions given in this manual must be strictly observed.
 Radiosafe (RS) system operators must be appropriately trained and authorised to use the product.
 Radiosafe (RS) system operators must have uninterrupted visibility at all times when performing manoeuvres.
 Where several systems are implemented on a single site, different radio frequencies must be used. These should be

spaced by at least 2 channels (for example, channels 5, 7, 9, …) or by 5 channels when several systems are
operating within a radius of 10 meters.

Please contact us for the case of dense installations.

 It is not advisable to install the safety transmitter RSEF and safety receiver RSRD in the same cabinet to prevent

disruption of the receiver. If need to install these two elements in the vicinity, please contact us.

 In the event of a malfunction, the installation should be immediately shut down by pressing any emergency stop

palmswitch and particulary that connected to the safety transmitter RSEF.

 If an enabling handle is used for the application, this device must comply with the requirements of EN 60947-5-

1:2004/A1:2009, EN ISO12100 and EN 60204-1:2016 standards.

 All emergency stop plamswitches used for the application, must comply with the requirements of EN 60947-5-

1:2004/A1:2009 and EN 60204-1:2016 standards

The product described in this manual is designed to satisfy the requirements of Machinery Directive 2006/42/EC based on
application of the following standards :

• EN ISO 13849-1:2015 for performance level PLe (Category 4)

• IEC 62061:2005+AC:2010 + A1:2013+A2:2015 for SIL 3

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2 Identification of components

The "RADIOSAFE (RS) « Wireless safety logic signal transmission system » comprises the following components:

 A safety transmitter ref. : RSEF (Fig.1), supplied with :

o A SIM card (already installed in the transmitter)
o A ¼ wave antenna, ref. : VUA00xx
o A BNC elbow, ref. : VUB060
o A 50 cm antenna extender, ref. : VUB170
o An installation and user manual (on USB stick)

Fig 1

 A safety receiver, Housing version (Fig.2) ref. RSRDxxxx-0

o supplied with :

 A ¼ wave antenna, ref. : VUA00xx
 A BNC elbow, ref. : VUB060
 A 50 cm antenna extender, ref. : VUB170

Fig.2

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3 Product operating principle

The RADIOSAFE (RS) « Wireless safety logic signal transmission system» is used to transmit logic safety signals from one
point of an installation to another.

The transmitter RSEF is designed to radio-transmit the following signals to the receiver RSRD :

- An emergency stop signal in the event of a problem occurring in the installation

- Up to 10 command signals

The receiver RSRD is integrated in the control component of the machine ; it enables (or not) operation of the machine and
transmits the possible commands assigned to the buttons connected to the transmitter RSEF.

The receiver RSRD stops operation of the machine when any of the following conditions are present :

Case 1 : Deactivation of a safety input (for example : contact on a gate or an emergency stop) connected to the

transmitter RSEF

 Safety interlock subsequent to stop request.

Case 2 : Action on emergency stop device wired to receiver RSRD.

 Safety interlock subsequent to stop request.

Case 3 : Interruption of radio link during use

When the system is in use, the transmitter RSEF has a continuous radio link with the receiver RSRD. Should this

link be interrupted for more than the passive stop time, the receiver automatically triggers stopping of the
installation.

 Safety interlock prior to loss of control of stopping function.

Case 4 : Detection of a malfunction (see section : « Faults communicated by receiver »)

Schematic diagram :

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4 Check of functions, initial startup

This section details the procedure for familiarisation with the product.
It will allow you to test operation of the equipment in its « ex-factory » configuration.

Parameters on delivery « ex-FACTORY » 4.1

Transmitter RSEF

Radio channel number........................................... : No. 64 (434,675Mhz) or (918,2Mhz)

Radio transmit power level .................................... : According to model of transmitter RSEF

Self check of inputs E1 to E10 on power up.......... : Yes

Transmitter restart mode ....................................... : Manual restart

Receiver RSRD

Safety delay
Passive stop time

(1) Safety delay can be configured between 0 to 10s (set by step of 1s) with dedicated software*.
(2) Passive stop time can be configured between 0.3 to 1.5s with dedicated software*.

IMPORTANT: According to Machinery directive section 4.1.1(EN ISO 13850:2015), this time delay must be determined by the risk
assessment of the machine (see also CEI 60204-1 :2005, 9.2.5.4.2).

Notes :
The SIM card (in the transmitter) contains the complete configuration of the system :

- system operating frequency,

- Identity code of pair formed by transmitter RSEF + receiver RSRD,
In the event of a transmitter failure, the SIM card can be used in a backup transmitter.
To modify the basic parameters, refer to section 5.

* The dedicated programming software is available on JAY Electronique website. The use of the programming software

is protected by a password, this password is only delivered to a skilled person “level 2” (a person who was trained by

JAY Electronique, and who is authorized to modify RSRD receiver parameters).

(1)

........................................................ : 0s

(2)

................................................ : 1s

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Preliminary steps before installation 4.2

Terminal

Function

Terminal

Function

1

V- E.S. 16

V- Inputs

2

V- E.S.

17

On / Restart
button input

3

V+ E.S.

4

V+ RSEF 5

V- RSEF 18

Input No.9

6

V- RSEF 19

Input No.7

7

E.S. contact 1

20

Input No.5

8

E.S. contact 2

21

Input No.3

9

E.S. mode

22

Input No.1

10

V+ E.S. 23

V- Input

11

Ind. light V2
output

24

Input No.10

12

Ind. light V1
output

25

Input No.8

13

Not used

26

Input No.6

14

Not used

27

Input No.4

15

V- Inputs 28

Input No.2

Ind. light

Function

V1

(GREEN) "On", "Radio transmission", "Diagnostic"

V2

(RED) "Diagnostic"

V3

(ORANGE) "Power supply"

Once you have inserted the SIM card in the transmitter RSEF, proceed as follows to perform a quick test on the components
before final installation.

Safety transmitter RSEF : terminal strip and test wiring diagram 4.2.1

Transmitter test wiring (does not take account of application) 4.2.2

this wiring is intended to test : - a command input

- and the « emergency stop » safety input :

 Step 1 Prepare a stabilized power supply, 24VDC (+/- 5 %) 500 mA minimum
 Step 2 Wire the transmitter as follows :

 Connect the +24VDC of the stabilized power supply to terminals 3 and 4
 Connect the ground of the power supply to the 3 terminals 1 and 5 and 15 (ground ref. of inputs)
 Connect an NC double contact emergency stop button to terminals 7, 8, 9 and 10.
 Connect an NO button “Restart” across the +24VDC and terminal No. 17.
 Connect an NO button simulating an input across the +24VDC and terminal No. 22 (E1).
 Possibly, indicator lights giving the same indication as indicator lights V1 and V2 of the transmitter may

be connected to terminals 11 (V2) and 12 (V1) and 0V.

 Step 3 Supply the transmitter.

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 Step 4 Activate the safety input (unlock Emergency stop).
 Step 5 Press on the Restart pushbutton.

Indicator light V3 of the transmitter should come on steady, indicator light V1 should flash regularly (radio
transmission) and indicator light V2 should be off; if this indicator light flashes, there is an error: refer to the
error message table.

 Step 6 Switch off the supply to the transmitter.

Proceed as instructed in the following pages to wire the safety receiver RSRD.

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Safety receiver RSRD: terminal strip and test wiring diagram 4.2.3

J1 Terminal block : Safety outputs

Terminal

Function

Y1

1st safety output (NO contact)

Z3

Y2

2nd safety output (NO contact)

Z2

Y3

3rd safety output (NO contact)

Z1

J2 Terminal block : Safety Inputs and power supply

SW3/SW2 : Output power supply selection

Terminal

Function

Position “1” : Output power supply connected on
receiver RSRD 24VDC and GND (default)

12

Input for Enabling Handle Detection

11

Position “0” : Output power supply connected on
external V+ and V-

10

Input 2 for Enabling Handle

09

08

Input 1 for Enabling Handle

SW1 : Functioning mode

07

Position “1” : Receiving mode (default)

06

Input 2 for emergency stop or safety light curtain

05

Position “0” : Programming mode

04

Input 1 for emergency stop or safety light curtain

03

02

V- (GND)

01

V+ 24VDC

J3 Terminal block : Communication, Static outputs and Indicators

Function

Terminals

Function

RXD RS232*

1 2

not used / not connected

TXD RS232*

3 4 Configuration INPUT*

GND*

5 6 Configuration GND*

Error message (red indicator light) +

7 8 Error message (red indicator light) -

Radio reception status (orange indicator light) +

9

10

Radio reception status (orange indicator light) -

Machine operating status (green indic. light) +

11

12

Machine operating status (green indic. light) -

Input for main contactor monitoring function

13

14

Input for main contactor monitoring function

Power supply of outputs V+

15

16

Power supply of outputs V-

Output nb.1

17

18

Output nb.2

Output nb.3

19

20

Output nb.4

RS1&RS2

Safety relays

1

Red indicator light: status of safety relays RS1 and RS2

2

Antenna BNC / antenna extension connector

3

Radio module

LD1

Yellow indicator light : Transceiver power supply OK

LD2

Red indicator light: status of safety relays RS1 and RS2

LD3

Green indicator light : Radio reception + Diagnostics

*(used with a dedicated software)

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Assignment of inputs connected to transmitter RSEF and static outputs of

Receiver RSRD with assignment of « standard » outputs

Assignment of outputs of receiver RSRD

(terminal No.)

17

18

19

20

Inputs of

transmitter

RSEF

E1 X

E2 X

E3 X

E4 X

4.2.4

receiver RSRD :

Power supply of outputs 4.2.5

There are two operating modes for outputs voltage 1-4. Isolated from the main supply voltage (isolated mode) or linked to
the main supply voltage (non-isolated mode). In both cases, the maximum output current is 100mA per output.

Isolated mode:
SW3 and SW2 must be in position “0”

A continued supply voltage must be applied between points 15-16 of J3. This supply voltage must be between 5­30VDC. (input 15: V+ and input16 : V-)
Insulation voltage : > 4400 VRMS.

Not isolated mode :
SW3 and SW2 must be in position “1”.

Terminal points 15-16 of J3 must be unconnected.
Power supply of the ouputs is the supply voltage of the receiver RSRD.

Receiver test wiring (does not take account of application) 4.2.6

This wiring is aimed at testing a command output and an « emergency stop » safety input :

 Step 1 Prepare a stabilized power supply, 24VDC (+/- 5 %) 500 mA minimum
 Step 2 Wire the receiver as follows :

o Shunt the terminal pairs J2[03-04], J2[05-06] and J3[13-14]
o Connect the +24VDC of the stabilized power supply to terminals J2[1]
o Connect the ground of the power supply to the terminal J2[2]

 Step 3 Supply the receiver.

Yellow indicator light LD1 on the receiver comes on steady.

 Step 4 Switch off the receiver.

Perform the system test as detailed in the next section.

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System test before installation 4.2.7

 Step A Supply the transmitter RSEF and the receiver RSRD

The receiver RSRD should be ready to receive the transmitter RSEF frame and the indicator light LD1
comes on steady.
The indicator light V3 on the transmitter RSEF comes on steady

 Step B Activate the safety input (unlock Emergency stop) on the transmitter RSEF

The transmitter RSEF should be ready to transmit and its green indicator light V1 should come on
steady.

 Step C On the safety transmitter RSEF:

Press on the restart pushbutton (If the transmitter is in « manual » restart mode ).
The indicator light V2 should blink.

On the receiver RSRD:
The safety relays (RS1 and RS2) should engage.
The two indicator lights LD2 and LD3 should come on steady.

 Step D Press the emergency stop palmswitch connected to the transmitter RSEF

The receiver RSRD safety relays should immediately deactivate.

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5 Modifying the product configuration

Transmitter RSEF 5.1

General process 5.1.1

The various settings on the transmitter RSEF are made using a DIP switch and a validation button located inside the transmitter.

Remove the front panel to access these components:

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Configuring the radio transmit frequency 5.1.2

Chan.

Freq.

(MHz)

Micro-switch position

Chan.

Freq.

(MHz)

Micro-switch position

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

01

433,100

OFF

OFF

OFF

OFF

OFF

OFF

33

433,900

OFF

OFF

OFF

OFF

OFF

ON

02

433,125

ON

OFF

OFF

OFF

OFF

OFF

34

433,925

ON

OFF

OFF

OFF

OFF

ON

03

433,150

OFF

ON

OFF

OFF

OFF

OFF

35

433,950

OFF

ON

OFF

OFF

OFF

ON

04

433,175

ON

ON

OFF

OFF

OFF

OFF

36

433,975

ON

ON

OFF

OFF

OFF

ON

05

433,200

OFF

OFF

ON

OFF

OFF

OFF

37

434,000

OFF

OFF

ON

OFF

OFF

ON

06

433,225

ON

OFF

ON

OFF

OFF

OFF

38

434,025

ON

OFF

ON

OFF

OFF

ON

07

433,250

OFF

ON

ON

OFF

OFF

OFF

39

434,050

OFF

ON

ON

OFF

OFF

ON

08

433,275

ON

ON

ON

OFF

OFF

OFF

40

434,075

ON

ON

ON

OFF

OFF

ON

09

433,300

OFF

OFF

OFF

ON

OFF

OFF

41

434,100

OFF

OFF

OFF

ON

OFF

ON

10

433,325

ON

OFF

OFF

ON

OFF

OFF

42

434,125

ON

OFF

OFF

ON

OFF

ON

11

433,350

OFF

ON

OFF

ON

OFF

OFF

43

434,150

OFF

ON

OFF

ON

OFF

ON

12

433,375

ON

ON

OFF

ON

OFF

OFF

44

434,175

ON

ON

OFF

ON

OFF

ON

13

433,400

OFF

OFF

ON

ON

OFF

OFF

45

434,200

OFF

OFF

ON

ON

OFF

ON

14

433,425

ON

OFF

ON

ON

OFF

OFF

46

434,225

ON

OFF

ON

ON

OFF

ON

15

433,450

OFF

ON

ON

ON

OFF

OFF

47

434,250

OFF

ON

ON

ON

OFF

ON

16

433,475

ON

ON

ON

ON

OFF

OFF

48

434,275

ON

ON

ON

ON

OFF

ON

17

433,500

OFF

OFF

OFF

OFF

ON

OFF

49

434,300

OFF

OFF

OFF

OFF

ON

ON

18

433,525

ON

OFF

OFF

OFF

ON

OFF

50

434,325

ON

OFF

OFF

OFF

ON

ON

19

433,550

OFF

ON

OFF

OFF

ON

OFF

51

434,350

OFF

ON

OFF

OFF

ON

ON

20

433,575

ON

ON

OFF

OFF

ON

OFF

52

434,375

ON

ON

OFF

OFF

ON

ON

21

433,600

OFF

OFF

ON

OFF

ON

OFF

53

434,400

OFF

OFF

ON

OFF

ON

ON

22

433,625

ON

OFF

ON

OFF

ON

OFF

54

434,425

ON

OFF

ON

OFF

ON

ON

23

433,650

OFF

ON

ON

OFF

ON

OFF

55

434,450

OFF

ON

ON

OFF

ON

ON

24

433,675

ON

ON

ON

OFF

ON

OFF

56

434,475

ON

ON

ON

OFF

ON

ON

25

433,700

OFF

OFF

OFF

ON

ON

OFF

57

434,500

OFF

OFF

OFF

ON

ON

ON

26

433,725

ON

OFF

OFF

ON

ON

OFF

58

434,525

ON

OFF

OFF

ON

ON

ON

27

433,750

OFF

ON

OFF

ON

ON

OFF

59

434,550

OFF

ON

OFF

ON

ON

ON

28

433,775

ON

ON

OFF

ON

ON

OFF

60

434,575

ON

ON

OFF

ON

ON

ON

29

433,800

OFF

OFF

ON

ON

ON

OFF

61

434,600

OFF

OFF

ON

ON

ON

ON

30

433,825

ON

OFF

ON

ON

ON

OFF

62

434,625

ON

OFF

ON

ON

ON

ON

31

433,850

OFF

ON

ON

ON

ON

OFF

63

434,650

OFF

ON

ON

ON

ON

ON

32

433,875

ON

ON

ON

ON

ON

OFF

64

434,675

ON

ON

ON

ON

ON

ON

To limit accidental cut-outs due to radio interference, it is important to choose an available radio channel (frequency). This choice is governed by the
following principles:

 The receiver point of installation must be considered as the centre of the radio link,
 Estimate the maximum distance « D max » which there may be between the transmitter and the receiver,
 Identify the frequencies used for all the radio transmitters located within a radius of 2xD max.
 Chose a frequency which is as far as possible from those used by the nearest transmitters and which is not used by the transmitters

The procedure described below is used to modify the radio channel of the transmitter RSEF and receiver RSRD. The receiver must be supplied
throughout the channel modification procedure in order to receive the radio channel change command from the transmitter RSEF.

Indicator light V2 (RED) indicates the tens (0 = off, 10 = 1 flash, 20 = 2 flashes, etc…)

Note :

identified.

1- Deactivate the safety input of the transmitter RSEF (1)
2- Select the new radio channel using micro-switches 1 to 6 (see correspondence table below)
3- Activate the safety input of the transmitter RSEF (2)
4- The 2 indicator lights V1-V2 flash to indicate the new radio channel being programmed :

Indicator light V1 (GREEN) indicates the units (0 = off steady, 1 = 1 flash, 2 = 2 flashes, etc…)
Example :

5- Once you have chosen the radio channel, press the validation button BPV
6- The two indicator lights, V1 and V2, flash simultaneously and the transmitter sends the receiver RSRD the radio channel change

command (this action takes around 20 s., then indicator lights V1 and V2 go off).
Note : If the validation button BPV has not been pressed, you can cancel the frequency change by repositioning the micro-switches 1

to 6 to the initial radio channel code.

7- To exit the radio frequency setting modes, activate, then deactivate the safety input (1)(2).
8- If the transmitter is in « manual » restart mode, press the restart button wired to input 17

(1) If an emergency stop palmswitch is wired on this input, the component must be locked.
(2) If an emergency stop palmswitch is wired on this input, the component must be unlocked.

If the other setting has also been modified during this procedure (as “input check” or “restart mode”), each modified setting have to be performed
one by one.

Radio channel programming table for 433-434MHz range 5.1.3

Note : For the « extended range » version, only channels 40 to 64 are accessible.