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A. Safety Simplifier PLC EP M12

1.00 kr

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Product information

Safety level
up to Cat 4, PLe and SIL III
Total I/O:
14
Free I/O:
3-10
Prewired I/O: 
4-11
min. reaction time
4ms

Description

Safety Simplifier PLC prewired with M12 connections. E-stop has free indication and M12 for door sensors is selectable options.  

Supply voltage is connected to M12 and you can select to add prewired M12 for the Door sensors:  Safix, Holdix, and T-Guard. This model is intended for quick connection for a safety solution for a single machine or for a combination of several machines and safety devices.  This unit has prewired I/O which make it easy design a safety system which fulfill the safety requirements.

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Safety Simplifier PLC prewired with M12 connections. E-stop has free indication and M12 for door sensors is selectable options.  

Supply voltage is connected to M12 and you can select to add prewired M12 for the Door sensors:  Safix, Holdix, and T-Guard. This model is intended for quick connection for a safety solution for a single machine or for a combination of several machines and safety devices.  This unit has prewired I/O which make it easy design a safety system which fulfill the safety requirements.

In our free software Simplifier Manager, you can select function blocks for E-stop, Push Buttons, safety devices and outputs for your machines.

The E-stop indication can for example be set as flashing if pressed, quick flashing if there is a fault and fixed light if another E-stop in Safety Simplifier is pressed. The E-stop has free selectable indication.

The Pusbutton has free indication and 5 selectable colour caps.

Tha Safix is a coded sensor with OSSD outputs. Several Safix senors can be put in series using one M12-connection for the highest safety level. The Safix can be ordered with different codes: standard, unique fixed or unique reprogrammable. The sensor itself has IP69K and is approved for the food industry.

Holdix is a magnet process lock equipped with a Safix. It has detection of the magnetic force and in on state the force can be from 500 -1200 N. In off state there are versions with a small magnetic force or with no force at all.

T-Guard is a robust safety locking device for doors. This is practicable when you have a long stopping time of a machine or process. The locking device keep the door safely locked during the stopping time. The time before unlocking a door after a stop has been actuated is easily set in the machine.

A Push Button uses only one I/O for both input and output at the same time. For a reset function you can use the input for the reset function and the output for fixed light when door is open and flashing for reset when door is closed. This is a standard function selectable in the software. You can also set special indication frequencies for the light. Enlcosed you also have five different caps for the colour of the light. The caps are easily clicked on the PBs. You can also order text or symbols for the Push Button.

See the electrical drawings for the different types to see the connection of the I/O:s inside the Safety Simplifier.

You can also separately order M12-5, M12-8 or M12-12 to connect yourself to the free I/O:s.

The I/O:s can be selected in the Software Simplifier Manager as Inputs, Outputs or as a combination of input and output at the same time.

Connected I/O to cables and M12 contacts can be selected in the software as inputs, outputs or a combination for safety devices and machines.

An I/O can also be set as a fixed voltage output, same as power supply, in the software.

The flexibility of the I/O allows different function for the same connection to a cable.  The same cable can then be used for different sensors as the function is selected in the Simplifier Manager.

Example of Safety Devices which can be connected to the I/O:s and be programmed in Simplifier Manager:

  • Door sensors
  • Door locking
  • Light curtains
  • Safety edges and Safety mats
  • Two hand devices
  • Bypassing combinations
  • Laser Scanners
  • Enabling and hold to run devices
  • Interlocked doors and hatches
  • Position control
  • Reset Push Buttons:s with indication
  • Start and stop Push Buttons
  • E-stops

All I/O can be set as:

– OSSD outputs with short circuit detection

– safety outputs to machines

– pulse coded outputs for short circuit detection

– fixed voltage output

Double relay outputs are commonly used for E-stop and Safety stop for

  • Industrial robots
  • Other machinery which need to differ between different stops
  • Machines which need to have potential free contacts

Internal function selections

USB-contact is standard on all units

Wireless programming, on-line and bus communication on 2,4 GHz

Relay outputs on output 15 and 16: 2 x NO which can be used in parallel or in serie

See also electrical drawing.

CAN-card: Terminals for optical isolated connection to CAN bus. The power supply to the CAN-card only need to be connected in one of the Safety Simplifiers. The supply from one is enough for all CAN-cards witch are connected to each other. See also electrical drawing for CAN

Options:

ID/Log memory card: This card you should select if you want to be able to exchange a unit and program the new unit with the card. On this card the software for the unit will be stored as well as logged information (both standard and selectable information). This card always has to be inside a Safety Simplifier as the card has the ID, the identification, of the unit.

Log card: this card is used to log information on the card (standard information and selected information by the one who programs). The id of the Safety Simplifier is the unique code inside a Safety Simplifier. For exchange you need to put in the new number from a new Safety Simplifier.

No card: The id of the Safety Simplifier is the unique code inside a Safety Simplifier. For exchange you need to put in the new number from a new Safety Simplifier.

Art. No.

Documents

Technical Data

General technical data for Safety Simplifier*
Recommended fuse
Fast Acting Fuse 2,5 A
Power supply
10 -30 VDC
Current consumption except load on outputs
90 mA
90 mA inactive mode, LED and relays not activated
110 mA
110 mA active mode with LED, relays not activated
210 mA
210 mA active mode, LED, I/O and 4 relays activated
Maximum output current transistor output
600 mA
Voltage drop when output 600 mA
0.5 V below supply voltage
Maximum total output current transistors
2000 mA
I/O Selectable as Input, Output or combined I/O
I/O as Input
10 –30 VDC (for PNP sensors)
I/O as Output transistor
10-30 VDC
I/O as OSSD output with self-testduring
<150μs
I/O as combined Input and Output for reset
10-30 VDC
Relay contacts (S16 only)
DC13
2A
Relay contacts (inductive/resistive load)
Max 2A (1260 op/year for 10 years) Max 49 VDC
Relay contacts (inductive/resistive load)
Max 0,5 A (3780 op/year for 10 years) Max 49 VDC
Relay contacts (inductive/resistive load)
Max 0,2 A (100800 op/year for 10 years) Max 49 VDC
Operating temperature
-20 degrees Celsius to + 65 degrees Celsius
Operating altitude
Up to 2000 m
Storage temperature
-30degrees Celsius to + 70 degrees Celsius
Relative operating humidity
10 -90 %
Terminals (spring)
32 (max 0,5 mm2 or 24 AWG)
Vibration in accordance with the standard
EN 60068-2-6
Frequency
5-150 Hz
Acceleration
1 g
Shock stress in accordance with the standard
EN 60068-2-27
Acceleration
15 g
Duration
11ms
Relative operating humidity
10 -90 %
Mounting surface size
253 x 40 x 44 mm
Maximum size housing
253 x 42 x 44 mm
Weight S14RBLD/S16RBLD without holes/plugs
About 235/265 g
Enclosure material
PC + ABS, UL-certified material, ANSI/UL 94
Degree of protection, IEC 60529
IP 65
Ventilation enclosure
GORE-TEX membrane
USB contact
micro USB with 180-degree DIP package
Lifetime
Calculations for PFH-d61508
up to 10 years
Calculations for PFH-d13849-1
up to 20 years
Radio
Radio frequency channel number 1
2405 MHz
Radio frequency channel number 2
2410 MHz
Radio frequency channel number 3
2415 MHz
Radio frequency channel number 4
2420 MHz
Radio frequency channel number 5
2425 MHz
Radio frequency channel number 6
2430 MHz
Radio frequency channel number 7
2435 MHz
Radio frequency channel number 8
2440 MHz
Radio frequency channel number 9
2445 MHz
Radio frequency channel number 10
2450 MHz
Radio frequency channel number 11
2455 MHz
Radio frequency channel number 12
2460 MHz
Radio frequency channel number 13
2465 MHz
Radio frequency channel number 14
2470 MHz
Radio frequency channel number 15
2475 MHz
Radio frequency channel number 16
2480 MHz
Technical data CAN card for Safety Simplifier
Power supply
10 –30 VDC
Current consumption
0,02 A at 24 VDC
Terminals (spring)
7 (max 0.5 mm2)
Selector for resistor
Position ON = 120 Ohm between H & LPosition 1 = no resistor
*General technical data for Safety Simplifier exceptions for specific models may arise.

Models

Article numberInternal function selections (Val 1)
USB-contact inside for program loading, Online mode and to collect data from Log-cardI/O selectable as Input, Output or a combinationRelay outputs 15 & 16Wireless programming, on-line and bus communicationCommunication on CAN-cable via opt isolated card (can be added afterwards)M12 Voltage supply Bottom side MaleM12 Voltage supply top side MaleSafix Top side FemaleSafix bottom side FemaleHoldix top FemaleHoldix bottom FemaleT-guard Top FemaleT-Guard bottom Female
SP-X-89-000-42USB 14 I/OWirelessQ3
SP-N-89-140-xxUSB 14 I/OWirelessQ2
SP-X-89-000-75USB 14 I/OWirelessQ3Q4
SP-N-89-140-xxUSB 14 I/OWirelessQ2Q1
SP-X-89-000-46USB14 I/OWirelessQ3Q4
SP-N-89-140-xxUSB14 I/OWirelessQ2Q1
SP-X-89-000-54USB14 I/OWirelessQ3Q4
SP-N-89-140-xxUSB14 I/OWirelessQ2Q1
Option (Val 2) ID/Log memory card is an accessory and you can add this for all units

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